ctDNA outperforms CEA in colorectal cancer

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Tue, 01/26/2021 - 14:49

Despite standard blood monitoring and routine imaging, patients with colorectal cancer (CRC) tend to have multiple, incurable metastases when relapse occurs.

Dr. Alan P. Lyss

A new study indicates that postsurgical circulating tumor DNA (ctDNA) testing may improve our ability to predict relapse in patients with stage I-III CRC.

ctDNA testing outperformed carcinoembryonic antigen (CEA) testing in predicting relapse-free survival, and ctDNA was detected about 8 months prior to relapse detection via CT.

Tenna V. Henriksen, of Aarhus University in Denmark, presented these results at the 2021 Gastrointestinal Cancers Symposium (abstract 11).

The multi-institutional study included 260 patients with CRC – 4 with stage I disease, 90 with stage II, and 166 with stage III disease.

Patients were monitored with plasma ctDNA testing within 2 months of primary surgery. Some patients were monitored with follow-up ctDNA sampling every 3 months for an additional 3 years.

Individual tumors and matched germline DNA were interrogated with whole-exome sequencing, and somatic single nucleotide variants were identified. Personalized multiplex PCR assays were developed to track tumor-specific single nucleotide variants via the Signatera® ctDNA assay.

The researchers retrospectively assessed ctDNA’s performance in:

  • Stratifying the postoperative risk of relapse.
  • Quantifying the benefit of adjuvant chemotherapy in patients who had or did not have ctDNA in plasma.
  • Efficiently detecting relapse, in comparison with standard surveillance tests.

Surveillance CT scans were performed at 12 and 36 months but not at the frequency recommended in NCCN guidelines.

In all, 165 patients received adjuvant chemotherapy. The decision to give chemotherapy was made on a clinical basis by treating physicians who were blinded to the results of ctDNA testing.
 

Results

Of the 260 patients analyzed, 48 relapsed. The median follow-up was 28.4 months overall and 29.9 months in the nonrelapse cases.

The researchers assessed postoperative ctDNA status prior to adjuvant chemotherapy in 218 patients and after adjuvant chemotherapy in 108 patients.

In the prechemotherapy group, 20 patients were ctDNA positive, and 80% of them relapsed. In contrast, 13% of the 198 ctDNA-negative patients relapsed. The hazard ratio (HR) for relapse-free survival was 11 (95% confidence interval, 5.9-21; P < .0001).

After adjuvant chemotherapy, 12.5% of the ctDNA-negative patients relapsed, compared with 83.3% of the ctDNA-positive patients. The HR for relapse-free survival was 12 (95% CI, 4.9-27; P < .0001).



Results from longitudinal ctDNA testing in 202 patients suggested that serial sampling is more useful than sampling at a single point in time. The recurrence rate was 3.4% among patients who remained persistently ctDNA negative, compared with 89.3% in patients who were ctDNA positive. The HR for relapse-free survival was 51 (95% CI, 20-125; P < .0001).

In a subgroup of 29 patients with clinical recurrence detected by CT imaging, ctDNA detection occurred a median of 8.1 months earlier than radiologic relapse.

Among the 197 patients who had serial CEA and ctDNA measurements, longitudinal CEA testing correlated with relapse-free survival (HR, 4.9; 95% CI, 3.2-15, P < .0001) but not nearly as well as ctDNA testing (HR, 95.7; 95% CI, 28-322, P < .0001) in a univariable analysis.

In a multivariable analysis, the HR for relapse-free survival was 1.8 (95% CI, 0.77-4.0; P = .184) for longitudinal CEA and 80.55 (95% CI, 23.1-281; P < .0001) for longitudinal ctDNA.

“[W]hen we pit them against each other in a multivariable analysis, we can see that all the predictive power is in the ctDNA samples,” Ms. Henriksen said. “This indicates that ctDNA is a stronger biomarker compared to CEA, at least with relapse-free survival.”

 

 

Availability is not actionability

Study discussant Michael J. Overman, MD, of MD Anderson Cancer Center in Houston, acknowledged that this research substantiates the ability of postoperative ctDNA detection to risk stratify patients with stage III CRC, the predominant stage of participants in the study.

The current results reinforce the researchers’ previously published work (JAMA Oncol. 2019;5[8]:1124-31) and affirm similar findings by other groups (JAMA Oncol. 2019;5[12]:1710-17 and JAMA Oncol. 2019;5[8]:1118-23).

However, Dr. Overman cautioned that “availability is not the same as actionability.”

He also said the “tumor-informed mutation” approach utilized in the Signatera assay differs from the simpler “panel-based” approach, which is also undergoing clinical testing and offers the additional opportunity to test potentially actionable epigenetic targets such as DNA methylation.

Furthermore, the practicality of integrating the tumor-informed mutation approach into the time constraints required in clinical practice was not evaluated in the current analysis.

Dr. Overman pointed out that 16 of the 20 ctDNA-positive patients who received adjuvant chemotherapy sustained a recurrence, so the chemotherapy benefit was lower than expected.

Finally, although ctDNA outperformed CEA in detecting relapse, the greatest impact of ctDNA is its potential to inform the clinician’s decision to escalate and deescalate treatment with impact on survival – a potential that remains unfulfilled.

Next steps

Ms. Henriksen closed her presentation with the perspective that, for serial ctDNA monitoring to be implemented in clinical settings, testing in randomized clinical trials will be needed.

In Denmark, the IMPROVE-IT study is enrolling patients with stage I or low-risk stage II CRC. In this trial, ctDNA-positive patients will receive adjuvant chemotherapy, and ctDNA-negative patients will have longitudinal ctDNA testing but no adjuvant chemotherapy.

A second study, IMPROVE-IT2, will assess the value of ctDNA to direct intensified radiologic surveillance to improve the application of potentially curative treatment for patients with stage II (high-risk) or stage III CRC. Patients with negative ctDNA tests will be followed with longitudinal ctDNA testing only.

In his talk, Dr. Overman highlighted several prospective studies assessing the value of ctDNA testing.

One of these is the ongoing COBRA study (NRG-GI-005), which uses a ctDNA assay (Guardant Lunar-1) for patients with stage IIA CRC for whom standard adjuvant chemotherapy is not indicated.

The patients in COBRA are randomized to active surveillance or assay-directed therapy. Patients assigned to assay-directed therapy have samples analyzed for ctDNA, which would guide the decision about adjuvant chemotherapy. If the postoperative sample is ctDNA positive and the patient accepts adjuvant chemotherapy, the patient could receive one of two standard adjuvant chemotherapy regimens. If ctDNA negative, the patient would be followed with active surveillance alone.

Dr. Overman also highlighted the planned CIRCULATE US trial (NRG-GI008). The aim of this trial is to test intensified adjuvant treatment for stage III CRC patients with positive ctDNA tests. It will employ the Signatera assay.

Ideally, these ongoing trials will provide the evidence base needed for clinicians to optimize adjuvant therapy and surveillance using ctDNA technology.

The current study was sponsored by the Danish Council for Independent Research, The Novo Nordisk Foundation, The Danish Cancer Society, and Natera Inc. Ms. Henriksen disclosed no conflicts of interest. Dr. Overman disclosed relationships with Array BioPharma, Bristol-Myers Squibb, Gritstone Oncology, Janssen, MedImmune, Merck, Novartis, Pfizer, Promega, Roche/Genentech, and Spectrum Pharmaceuticals.

The Gastrointestinal Cancers Symposium is sponsored by the American Gastroenterological Association, the American Society for Clinical Oncology, the American Society for Radiation Oncology, and the Society of Surgical Oncology.


Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.
 

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Despite standard blood monitoring and routine imaging, patients with colorectal cancer (CRC) tend to have multiple, incurable metastases when relapse occurs.

Dr. Alan P. Lyss

A new study indicates that postsurgical circulating tumor DNA (ctDNA) testing may improve our ability to predict relapse in patients with stage I-III CRC.

ctDNA testing outperformed carcinoembryonic antigen (CEA) testing in predicting relapse-free survival, and ctDNA was detected about 8 months prior to relapse detection via CT.

Tenna V. Henriksen, of Aarhus University in Denmark, presented these results at the 2021 Gastrointestinal Cancers Symposium (abstract 11).

The multi-institutional study included 260 patients with CRC – 4 with stage I disease, 90 with stage II, and 166 with stage III disease.

Patients were monitored with plasma ctDNA testing within 2 months of primary surgery. Some patients were monitored with follow-up ctDNA sampling every 3 months for an additional 3 years.

Individual tumors and matched germline DNA were interrogated with whole-exome sequencing, and somatic single nucleotide variants were identified. Personalized multiplex PCR assays were developed to track tumor-specific single nucleotide variants via the Signatera® ctDNA assay.

The researchers retrospectively assessed ctDNA’s performance in:

  • Stratifying the postoperative risk of relapse.
  • Quantifying the benefit of adjuvant chemotherapy in patients who had or did not have ctDNA in plasma.
  • Efficiently detecting relapse, in comparison with standard surveillance tests.

Surveillance CT scans were performed at 12 and 36 months but not at the frequency recommended in NCCN guidelines.

In all, 165 patients received adjuvant chemotherapy. The decision to give chemotherapy was made on a clinical basis by treating physicians who were blinded to the results of ctDNA testing.
 

Results

Of the 260 patients analyzed, 48 relapsed. The median follow-up was 28.4 months overall and 29.9 months in the nonrelapse cases.

The researchers assessed postoperative ctDNA status prior to adjuvant chemotherapy in 218 patients and after adjuvant chemotherapy in 108 patients.

In the prechemotherapy group, 20 patients were ctDNA positive, and 80% of them relapsed. In contrast, 13% of the 198 ctDNA-negative patients relapsed. The hazard ratio (HR) for relapse-free survival was 11 (95% confidence interval, 5.9-21; P < .0001).

After adjuvant chemotherapy, 12.5% of the ctDNA-negative patients relapsed, compared with 83.3% of the ctDNA-positive patients. The HR for relapse-free survival was 12 (95% CI, 4.9-27; P < .0001).



Results from longitudinal ctDNA testing in 202 patients suggested that serial sampling is more useful than sampling at a single point in time. The recurrence rate was 3.4% among patients who remained persistently ctDNA negative, compared with 89.3% in patients who were ctDNA positive. The HR for relapse-free survival was 51 (95% CI, 20-125; P < .0001).

In a subgroup of 29 patients with clinical recurrence detected by CT imaging, ctDNA detection occurred a median of 8.1 months earlier than radiologic relapse.

Among the 197 patients who had serial CEA and ctDNA measurements, longitudinal CEA testing correlated with relapse-free survival (HR, 4.9; 95% CI, 3.2-15, P < .0001) but not nearly as well as ctDNA testing (HR, 95.7; 95% CI, 28-322, P < .0001) in a univariable analysis.

In a multivariable analysis, the HR for relapse-free survival was 1.8 (95% CI, 0.77-4.0; P = .184) for longitudinal CEA and 80.55 (95% CI, 23.1-281; P < .0001) for longitudinal ctDNA.

“[W]hen we pit them against each other in a multivariable analysis, we can see that all the predictive power is in the ctDNA samples,” Ms. Henriksen said. “This indicates that ctDNA is a stronger biomarker compared to CEA, at least with relapse-free survival.”

 

 

Availability is not actionability

Study discussant Michael J. Overman, MD, of MD Anderson Cancer Center in Houston, acknowledged that this research substantiates the ability of postoperative ctDNA detection to risk stratify patients with stage III CRC, the predominant stage of participants in the study.

The current results reinforce the researchers’ previously published work (JAMA Oncol. 2019;5[8]:1124-31) and affirm similar findings by other groups (JAMA Oncol. 2019;5[12]:1710-17 and JAMA Oncol. 2019;5[8]:1118-23).

However, Dr. Overman cautioned that “availability is not the same as actionability.”

He also said the “tumor-informed mutation” approach utilized in the Signatera assay differs from the simpler “panel-based” approach, which is also undergoing clinical testing and offers the additional opportunity to test potentially actionable epigenetic targets such as DNA methylation.

Furthermore, the practicality of integrating the tumor-informed mutation approach into the time constraints required in clinical practice was not evaluated in the current analysis.

Dr. Overman pointed out that 16 of the 20 ctDNA-positive patients who received adjuvant chemotherapy sustained a recurrence, so the chemotherapy benefit was lower than expected.

Finally, although ctDNA outperformed CEA in detecting relapse, the greatest impact of ctDNA is its potential to inform the clinician’s decision to escalate and deescalate treatment with impact on survival – a potential that remains unfulfilled.

Next steps

Ms. Henriksen closed her presentation with the perspective that, for serial ctDNA monitoring to be implemented in clinical settings, testing in randomized clinical trials will be needed.

In Denmark, the IMPROVE-IT study is enrolling patients with stage I or low-risk stage II CRC. In this trial, ctDNA-positive patients will receive adjuvant chemotherapy, and ctDNA-negative patients will have longitudinal ctDNA testing but no adjuvant chemotherapy.

A second study, IMPROVE-IT2, will assess the value of ctDNA to direct intensified radiologic surveillance to improve the application of potentially curative treatment for patients with stage II (high-risk) or stage III CRC. Patients with negative ctDNA tests will be followed with longitudinal ctDNA testing only.

In his talk, Dr. Overman highlighted several prospective studies assessing the value of ctDNA testing.

One of these is the ongoing COBRA study (NRG-GI-005), which uses a ctDNA assay (Guardant Lunar-1) for patients with stage IIA CRC for whom standard adjuvant chemotherapy is not indicated.

The patients in COBRA are randomized to active surveillance or assay-directed therapy. Patients assigned to assay-directed therapy have samples analyzed for ctDNA, which would guide the decision about adjuvant chemotherapy. If the postoperative sample is ctDNA positive and the patient accepts adjuvant chemotherapy, the patient could receive one of two standard adjuvant chemotherapy regimens. If ctDNA negative, the patient would be followed with active surveillance alone.

Dr. Overman also highlighted the planned CIRCULATE US trial (NRG-GI008). The aim of this trial is to test intensified adjuvant treatment for stage III CRC patients with positive ctDNA tests. It will employ the Signatera assay.

Ideally, these ongoing trials will provide the evidence base needed for clinicians to optimize adjuvant therapy and surveillance using ctDNA technology.

The current study was sponsored by the Danish Council for Independent Research, The Novo Nordisk Foundation, The Danish Cancer Society, and Natera Inc. Ms. Henriksen disclosed no conflicts of interest. Dr. Overman disclosed relationships with Array BioPharma, Bristol-Myers Squibb, Gritstone Oncology, Janssen, MedImmune, Merck, Novartis, Pfizer, Promega, Roche/Genentech, and Spectrum Pharmaceuticals.

The Gastrointestinal Cancers Symposium is sponsored by the American Gastroenterological Association, the American Society for Clinical Oncology, the American Society for Radiation Oncology, and the Society of Surgical Oncology.


Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.
 

Despite standard blood monitoring and routine imaging, patients with colorectal cancer (CRC) tend to have multiple, incurable metastases when relapse occurs.

Dr. Alan P. Lyss

A new study indicates that postsurgical circulating tumor DNA (ctDNA) testing may improve our ability to predict relapse in patients with stage I-III CRC.

ctDNA testing outperformed carcinoembryonic antigen (CEA) testing in predicting relapse-free survival, and ctDNA was detected about 8 months prior to relapse detection via CT.

Tenna V. Henriksen, of Aarhus University in Denmark, presented these results at the 2021 Gastrointestinal Cancers Symposium (abstract 11).

The multi-institutional study included 260 patients with CRC – 4 with stage I disease, 90 with stage II, and 166 with stage III disease.

Patients were monitored with plasma ctDNA testing within 2 months of primary surgery. Some patients were monitored with follow-up ctDNA sampling every 3 months for an additional 3 years.

Individual tumors and matched germline DNA were interrogated with whole-exome sequencing, and somatic single nucleotide variants were identified. Personalized multiplex PCR assays were developed to track tumor-specific single nucleotide variants via the Signatera® ctDNA assay.

The researchers retrospectively assessed ctDNA’s performance in:

  • Stratifying the postoperative risk of relapse.
  • Quantifying the benefit of adjuvant chemotherapy in patients who had or did not have ctDNA in plasma.
  • Efficiently detecting relapse, in comparison with standard surveillance tests.

Surveillance CT scans were performed at 12 and 36 months but not at the frequency recommended in NCCN guidelines.

In all, 165 patients received adjuvant chemotherapy. The decision to give chemotherapy was made on a clinical basis by treating physicians who were blinded to the results of ctDNA testing.
 

Results

Of the 260 patients analyzed, 48 relapsed. The median follow-up was 28.4 months overall and 29.9 months in the nonrelapse cases.

The researchers assessed postoperative ctDNA status prior to adjuvant chemotherapy in 218 patients and after adjuvant chemotherapy in 108 patients.

In the prechemotherapy group, 20 patients were ctDNA positive, and 80% of them relapsed. In contrast, 13% of the 198 ctDNA-negative patients relapsed. The hazard ratio (HR) for relapse-free survival was 11 (95% confidence interval, 5.9-21; P < .0001).

After adjuvant chemotherapy, 12.5% of the ctDNA-negative patients relapsed, compared with 83.3% of the ctDNA-positive patients. The HR for relapse-free survival was 12 (95% CI, 4.9-27; P < .0001).



Results from longitudinal ctDNA testing in 202 patients suggested that serial sampling is more useful than sampling at a single point in time. The recurrence rate was 3.4% among patients who remained persistently ctDNA negative, compared with 89.3% in patients who were ctDNA positive. The HR for relapse-free survival was 51 (95% CI, 20-125; P < .0001).

In a subgroup of 29 patients with clinical recurrence detected by CT imaging, ctDNA detection occurred a median of 8.1 months earlier than radiologic relapse.

Among the 197 patients who had serial CEA and ctDNA measurements, longitudinal CEA testing correlated with relapse-free survival (HR, 4.9; 95% CI, 3.2-15, P < .0001) but not nearly as well as ctDNA testing (HR, 95.7; 95% CI, 28-322, P < .0001) in a univariable analysis.

In a multivariable analysis, the HR for relapse-free survival was 1.8 (95% CI, 0.77-4.0; P = .184) for longitudinal CEA and 80.55 (95% CI, 23.1-281; P < .0001) for longitudinal ctDNA.

“[W]hen we pit them against each other in a multivariable analysis, we can see that all the predictive power is in the ctDNA samples,” Ms. Henriksen said. “This indicates that ctDNA is a stronger biomarker compared to CEA, at least with relapse-free survival.”

 

 

Availability is not actionability

Study discussant Michael J. Overman, MD, of MD Anderson Cancer Center in Houston, acknowledged that this research substantiates the ability of postoperative ctDNA detection to risk stratify patients with stage III CRC, the predominant stage of participants in the study.

The current results reinforce the researchers’ previously published work (JAMA Oncol. 2019;5[8]:1124-31) and affirm similar findings by other groups (JAMA Oncol. 2019;5[12]:1710-17 and JAMA Oncol. 2019;5[8]:1118-23).

However, Dr. Overman cautioned that “availability is not the same as actionability.”

He also said the “tumor-informed mutation” approach utilized in the Signatera assay differs from the simpler “panel-based” approach, which is also undergoing clinical testing and offers the additional opportunity to test potentially actionable epigenetic targets such as DNA methylation.

Furthermore, the practicality of integrating the tumor-informed mutation approach into the time constraints required in clinical practice was not evaluated in the current analysis.

Dr. Overman pointed out that 16 of the 20 ctDNA-positive patients who received adjuvant chemotherapy sustained a recurrence, so the chemotherapy benefit was lower than expected.

Finally, although ctDNA outperformed CEA in detecting relapse, the greatest impact of ctDNA is its potential to inform the clinician’s decision to escalate and deescalate treatment with impact on survival – a potential that remains unfulfilled.

Next steps

Ms. Henriksen closed her presentation with the perspective that, for serial ctDNA monitoring to be implemented in clinical settings, testing in randomized clinical trials will be needed.

In Denmark, the IMPROVE-IT study is enrolling patients with stage I or low-risk stage II CRC. In this trial, ctDNA-positive patients will receive adjuvant chemotherapy, and ctDNA-negative patients will have longitudinal ctDNA testing but no adjuvant chemotherapy.

A second study, IMPROVE-IT2, will assess the value of ctDNA to direct intensified radiologic surveillance to improve the application of potentially curative treatment for patients with stage II (high-risk) or stage III CRC. Patients with negative ctDNA tests will be followed with longitudinal ctDNA testing only.

In his talk, Dr. Overman highlighted several prospective studies assessing the value of ctDNA testing.

One of these is the ongoing COBRA study (NRG-GI-005), which uses a ctDNA assay (Guardant Lunar-1) for patients with stage IIA CRC for whom standard adjuvant chemotherapy is not indicated.

The patients in COBRA are randomized to active surveillance or assay-directed therapy. Patients assigned to assay-directed therapy have samples analyzed for ctDNA, which would guide the decision about adjuvant chemotherapy. If the postoperative sample is ctDNA positive and the patient accepts adjuvant chemotherapy, the patient could receive one of two standard adjuvant chemotherapy regimens. If ctDNA negative, the patient would be followed with active surveillance alone.

Dr. Overman also highlighted the planned CIRCULATE US trial (NRG-GI008). The aim of this trial is to test intensified adjuvant treatment for stage III CRC patients with positive ctDNA tests. It will employ the Signatera assay.

Ideally, these ongoing trials will provide the evidence base needed for clinicians to optimize adjuvant therapy and surveillance using ctDNA technology.

The current study was sponsored by the Danish Council for Independent Research, The Novo Nordisk Foundation, The Danish Cancer Society, and Natera Inc. Ms. Henriksen disclosed no conflicts of interest. Dr. Overman disclosed relationships with Array BioPharma, Bristol-Myers Squibb, Gritstone Oncology, Janssen, MedImmune, Merck, Novartis, Pfizer, Promega, Roche/Genentech, and Spectrum Pharmaceuticals.

The Gastrointestinal Cancers Symposium is sponsored by the American Gastroenterological Association, the American Society for Clinical Oncology, the American Society for Radiation Oncology, and the Society of Surgical Oncology.


Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.
 

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RSClin: A new tool for ‘TAILOR-ing’ treatment in early breast cancer

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Changed
Wed, 01/04/2023 - 16:41

When results of the TAILORx trial were presented at ASCO 2018, many oncologists thought it seemed too simple that a single number from a genomic assay could separate patients who would and would not benefit from adjuvant postoperative chemotherapy.

Dr. Alan P. Lyss

Those oncologists were right to be skeptical. Subsequent data indicated that better predictive tools were needed.

A new tool called “RSClin” may fit the bill. RSClin integrates the prognostic and predictive value of the 21-gene Oncotype DX recurrence score (RS) with the additional prognostic information conveyed by patient age, tumor grade, and tumor size.

RSClin provides individualized estimates of distant relapse risk for women with node-negative, endocrine sensitive, HER2/neu oncogene-negative early breast cancer – and a quantification of the additive freedom from distant relapse if that patient receives adjuvant chemotherapy. The tool is now available via a tab on the professional portal at https://online.genomichealth.com/.

Details on RSClin, including how the tool was developed and validated, were presented at the 2020 San Antonio Breast Cancer Symposium by Joseph A. Sparano, MD, of Albert Einstein College of Medicine in New York.
 

Beyond the initial publication of TAILORx

Results from the TAILORx trial published in The New England Journal of Medicine in 2018 offered the potential for genomic risk assessment to guide the choice of postoperative therapy for many women with the most common type of primary breast cancer. The relative risk reduction with chemotherapy increased with increasing RS result.

Subsequent analyses of the TAILORx dataset, published in The New England Journal of Medicine and JAMA Oncology in 2019, examined the added effect of parameters of clinical risk (tumor size and grade) and patient age for patients with known genomic risk.

In these analyses, clinical risk was prognostic for recurrence but did not predict the absolute magnitude of chemotherapy benefit, regardless of age. There was a trend toward chemotherapy benefit in women who were younger than 50 years of age who had RS 21-15, but it was irrespective of clinical risk.
 

The development of RSClin

RSClin was derived from a patient-specific meta-analysis of 10,004 women with hormone receptor–positive, HER2-negative, node-negative breast cancer, of whom 9,427 participated in the TAILORx trial.

In TAILORx, which ran from 2006 to 2015, women with RS 0-11 received contemporary hormone therapy alone. Women with RS 12-25 were randomized to receive hormone therapy alone or with conventional combination chemotherapy. Women with RS above 26 received chemotherapy plus endocrine therapy.

The other patients in the meta-analysis participated in NSABP studies B-14 (tamoxifen versus placebo) and B-20 (tamoxifen versus chemotherapy plus tamoxifen).

Cox regression models were fit separately to each study with covariates of the continuous variables of RS result, tumor size, and patient age and the discrete variable of histologic tumor grade (assessed centrally in B-14 and in local laboratories in TAILORx). The prespecified endpoint was time to first distant recurrence.

RSClin estimates of distant recurrence risk were generated using baseline risk with TAILORx event rates to reflect current medical practice.

Model estimates were calculated for specified endocrine therapy with tamoxifen or aromatase inhibitors utilizing the treatment effect hazard ratio from an Early Breast Cancer Trialists’ Collaborative Group meta-analysis.

Patient-specific absolute benefit of chemotherapy was estimated by combining patient-specific meta-analysis risk estimates for distant recurrence and for relative chemotherapy benefit using the B-20 and TAILORx trials.
 

 

 

RSClin results and external validation

Among all patients in the meta-analysis cohort, RSClin provided a significantly more accurate prediction of distant recurrence events, in comparison with RS alone or clinical-pathologic factors alone.

External validation was performed using data from real-world outcomes from the 1,098 evaluable node-negative patients in the Clalit Health Services registry, of whom 876 received endocrine therapy alone and 222 received endocrine therapy plus chemotherapy.

RSClin estimates of distant recurrence closely approximated the observed risk in the registry (standardized hazard ratio, 1.73; 95% confidence interval, 1.40-2.15; P < .001). Within each RSClin risk quintile, the average 10-year risk estimate approached the observed Kaplan-Meier estimates in the cohort (Lin concordance correlation = 0.962).
 

Shared decision-making

For many years, the dilemma of whether to recommend adjuvant chemotherapy to a patient with early breast cancer has prompted the generation of tools to quantify a patient’s risk of recurrence and the magnitude of benefit for endocrine therapy and/or chemotherapy.

When the original Adjuvant! Online program was developed, genomic risk profiling was in its infancy. Genomic tools such as the 21-gene RS have subsequently demonstrated that they can help optimize the adjuvant treatment we recommend.

The RSClin tool provides more precise, individualized information than does clinical-pathological or genomic data alone. It prognosticates the risk of distant recurrence of breast cancer, which patients and providers fervently wish to minimize.

RSClin estimates the incremental benefit of contemporary adjuvant chemotherapy over modern endocrine therapy alone, in absolute values, for individual patients. This transparent, discrete, easily explained information is vital for counseling patients.

However, as highlighted in an editorial published in the Journal of Clinical Oncology, RSClin is not without its potential drawbacks. These include:

  • Tumor heterogeneity leading to misleading results.
  • Variable patient adherence to endocrine therapy or chemotherapy.
  • The influence of comorbid conditions on the risk/benefit ratio.
  • The potential of ovarian function suppression in young women to approach the magnitude of benefit associated with chemotherapy.

Accordingly, RSClin may be the latest and best available tool, but it will not be the last.

For patients with RS above 26, for older women with intermediate RS, and for younger women with a low RS and low clinical-pathologic features, RSClin may not influence treatment recommendations.

However, for the common scenario of an intermediate-risk RS and a mix of pathologic features, the accurate prognostication for distant recurrence risk and estimate of absolute benefit from chemotherapy will be terrifically helpful to oncology caregivers.

Dr. Sparano disclosed funding from the National Cancer Institute and travel support from Rhenium.
 

Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

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When results of the TAILORx trial were presented at ASCO 2018, many oncologists thought it seemed too simple that a single number from a genomic assay could separate patients who would and would not benefit from adjuvant postoperative chemotherapy.

Dr. Alan P. Lyss

Those oncologists were right to be skeptical. Subsequent data indicated that better predictive tools were needed.

A new tool called “RSClin” may fit the bill. RSClin integrates the prognostic and predictive value of the 21-gene Oncotype DX recurrence score (RS) with the additional prognostic information conveyed by patient age, tumor grade, and tumor size.

RSClin provides individualized estimates of distant relapse risk for women with node-negative, endocrine sensitive, HER2/neu oncogene-negative early breast cancer – and a quantification of the additive freedom from distant relapse if that patient receives adjuvant chemotherapy. The tool is now available via a tab on the professional portal at https://online.genomichealth.com/.

Details on RSClin, including how the tool was developed and validated, were presented at the 2020 San Antonio Breast Cancer Symposium by Joseph A. Sparano, MD, of Albert Einstein College of Medicine in New York.
 

Beyond the initial publication of TAILORx

Results from the TAILORx trial published in The New England Journal of Medicine in 2018 offered the potential for genomic risk assessment to guide the choice of postoperative therapy for many women with the most common type of primary breast cancer. The relative risk reduction with chemotherapy increased with increasing RS result.

Subsequent analyses of the TAILORx dataset, published in The New England Journal of Medicine and JAMA Oncology in 2019, examined the added effect of parameters of clinical risk (tumor size and grade) and patient age for patients with known genomic risk.

In these analyses, clinical risk was prognostic for recurrence but did not predict the absolute magnitude of chemotherapy benefit, regardless of age. There was a trend toward chemotherapy benefit in women who were younger than 50 years of age who had RS 21-15, but it was irrespective of clinical risk.
 

The development of RSClin

RSClin was derived from a patient-specific meta-analysis of 10,004 women with hormone receptor–positive, HER2-negative, node-negative breast cancer, of whom 9,427 participated in the TAILORx trial.

In TAILORx, which ran from 2006 to 2015, women with RS 0-11 received contemporary hormone therapy alone. Women with RS 12-25 were randomized to receive hormone therapy alone or with conventional combination chemotherapy. Women with RS above 26 received chemotherapy plus endocrine therapy.

The other patients in the meta-analysis participated in NSABP studies B-14 (tamoxifen versus placebo) and B-20 (tamoxifen versus chemotherapy plus tamoxifen).

Cox regression models were fit separately to each study with covariates of the continuous variables of RS result, tumor size, and patient age and the discrete variable of histologic tumor grade (assessed centrally in B-14 and in local laboratories in TAILORx). The prespecified endpoint was time to first distant recurrence.

RSClin estimates of distant recurrence risk were generated using baseline risk with TAILORx event rates to reflect current medical practice.

Model estimates were calculated for specified endocrine therapy with tamoxifen or aromatase inhibitors utilizing the treatment effect hazard ratio from an Early Breast Cancer Trialists’ Collaborative Group meta-analysis.

Patient-specific absolute benefit of chemotherapy was estimated by combining patient-specific meta-analysis risk estimates for distant recurrence and for relative chemotherapy benefit using the B-20 and TAILORx trials.
 

 

 

RSClin results and external validation

Among all patients in the meta-analysis cohort, RSClin provided a significantly more accurate prediction of distant recurrence events, in comparison with RS alone or clinical-pathologic factors alone.

External validation was performed using data from real-world outcomes from the 1,098 evaluable node-negative patients in the Clalit Health Services registry, of whom 876 received endocrine therapy alone and 222 received endocrine therapy plus chemotherapy.

RSClin estimates of distant recurrence closely approximated the observed risk in the registry (standardized hazard ratio, 1.73; 95% confidence interval, 1.40-2.15; P < .001). Within each RSClin risk quintile, the average 10-year risk estimate approached the observed Kaplan-Meier estimates in the cohort (Lin concordance correlation = 0.962).
 

Shared decision-making

For many years, the dilemma of whether to recommend adjuvant chemotherapy to a patient with early breast cancer has prompted the generation of tools to quantify a patient’s risk of recurrence and the magnitude of benefit for endocrine therapy and/or chemotherapy.

When the original Adjuvant! Online program was developed, genomic risk profiling was in its infancy. Genomic tools such as the 21-gene RS have subsequently demonstrated that they can help optimize the adjuvant treatment we recommend.

The RSClin tool provides more precise, individualized information than does clinical-pathological or genomic data alone. It prognosticates the risk of distant recurrence of breast cancer, which patients and providers fervently wish to minimize.

RSClin estimates the incremental benefit of contemporary adjuvant chemotherapy over modern endocrine therapy alone, in absolute values, for individual patients. This transparent, discrete, easily explained information is vital for counseling patients.

However, as highlighted in an editorial published in the Journal of Clinical Oncology, RSClin is not without its potential drawbacks. These include:

  • Tumor heterogeneity leading to misleading results.
  • Variable patient adherence to endocrine therapy or chemotherapy.
  • The influence of comorbid conditions on the risk/benefit ratio.
  • The potential of ovarian function suppression in young women to approach the magnitude of benefit associated with chemotherapy.

Accordingly, RSClin may be the latest and best available tool, but it will not be the last.

For patients with RS above 26, for older women with intermediate RS, and for younger women with a low RS and low clinical-pathologic features, RSClin may not influence treatment recommendations.

However, for the common scenario of an intermediate-risk RS and a mix of pathologic features, the accurate prognostication for distant recurrence risk and estimate of absolute benefit from chemotherapy will be terrifically helpful to oncology caregivers.

Dr. Sparano disclosed funding from the National Cancer Institute and travel support from Rhenium.
 

Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

When results of the TAILORx trial were presented at ASCO 2018, many oncologists thought it seemed too simple that a single number from a genomic assay could separate patients who would and would not benefit from adjuvant postoperative chemotherapy.

Dr. Alan P. Lyss

Those oncologists were right to be skeptical. Subsequent data indicated that better predictive tools were needed.

A new tool called “RSClin” may fit the bill. RSClin integrates the prognostic and predictive value of the 21-gene Oncotype DX recurrence score (RS) with the additional prognostic information conveyed by patient age, tumor grade, and tumor size.

RSClin provides individualized estimates of distant relapse risk for women with node-negative, endocrine sensitive, HER2/neu oncogene-negative early breast cancer – and a quantification of the additive freedom from distant relapse if that patient receives adjuvant chemotherapy. The tool is now available via a tab on the professional portal at https://online.genomichealth.com/.

Details on RSClin, including how the tool was developed and validated, were presented at the 2020 San Antonio Breast Cancer Symposium by Joseph A. Sparano, MD, of Albert Einstein College of Medicine in New York.
 

Beyond the initial publication of TAILORx

Results from the TAILORx trial published in The New England Journal of Medicine in 2018 offered the potential for genomic risk assessment to guide the choice of postoperative therapy for many women with the most common type of primary breast cancer. The relative risk reduction with chemotherapy increased with increasing RS result.

Subsequent analyses of the TAILORx dataset, published in The New England Journal of Medicine and JAMA Oncology in 2019, examined the added effect of parameters of clinical risk (tumor size and grade) and patient age for patients with known genomic risk.

In these analyses, clinical risk was prognostic for recurrence but did not predict the absolute magnitude of chemotherapy benefit, regardless of age. There was a trend toward chemotherapy benefit in women who were younger than 50 years of age who had RS 21-15, but it was irrespective of clinical risk.
 

The development of RSClin

RSClin was derived from a patient-specific meta-analysis of 10,004 women with hormone receptor–positive, HER2-negative, node-negative breast cancer, of whom 9,427 participated in the TAILORx trial.

In TAILORx, which ran from 2006 to 2015, women with RS 0-11 received contemporary hormone therapy alone. Women with RS 12-25 were randomized to receive hormone therapy alone or with conventional combination chemotherapy. Women with RS above 26 received chemotherapy plus endocrine therapy.

The other patients in the meta-analysis participated in NSABP studies B-14 (tamoxifen versus placebo) and B-20 (tamoxifen versus chemotherapy plus tamoxifen).

Cox regression models were fit separately to each study with covariates of the continuous variables of RS result, tumor size, and patient age and the discrete variable of histologic tumor grade (assessed centrally in B-14 and in local laboratories in TAILORx). The prespecified endpoint was time to first distant recurrence.

RSClin estimates of distant recurrence risk were generated using baseline risk with TAILORx event rates to reflect current medical practice.

Model estimates were calculated for specified endocrine therapy with tamoxifen or aromatase inhibitors utilizing the treatment effect hazard ratio from an Early Breast Cancer Trialists’ Collaborative Group meta-analysis.

Patient-specific absolute benefit of chemotherapy was estimated by combining patient-specific meta-analysis risk estimates for distant recurrence and for relative chemotherapy benefit using the B-20 and TAILORx trials.
 

 

 

RSClin results and external validation

Among all patients in the meta-analysis cohort, RSClin provided a significantly more accurate prediction of distant recurrence events, in comparison with RS alone or clinical-pathologic factors alone.

External validation was performed using data from real-world outcomes from the 1,098 evaluable node-negative patients in the Clalit Health Services registry, of whom 876 received endocrine therapy alone and 222 received endocrine therapy plus chemotherapy.

RSClin estimates of distant recurrence closely approximated the observed risk in the registry (standardized hazard ratio, 1.73; 95% confidence interval, 1.40-2.15; P < .001). Within each RSClin risk quintile, the average 10-year risk estimate approached the observed Kaplan-Meier estimates in the cohort (Lin concordance correlation = 0.962).
 

Shared decision-making

For many years, the dilemma of whether to recommend adjuvant chemotherapy to a patient with early breast cancer has prompted the generation of tools to quantify a patient’s risk of recurrence and the magnitude of benefit for endocrine therapy and/or chemotherapy.

When the original Adjuvant! Online program was developed, genomic risk profiling was in its infancy. Genomic tools such as the 21-gene RS have subsequently demonstrated that they can help optimize the adjuvant treatment we recommend.

The RSClin tool provides more precise, individualized information than does clinical-pathological or genomic data alone. It prognosticates the risk of distant recurrence of breast cancer, which patients and providers fervently wish to minimize.

RSClin estimates the incremental benefit of contemporary adjuvant chemotherapy over modern endocrine therapy alone, in absolute values, for individual patients. This transparent, discrete, easily explained information is vital for counseling patients.

However, as highlighted in an editorial published in the Journal of Clinical Oncology, RSClin is not without its potential drawbacks. These include:

  • Tumor heterogeneity leading to misleading results.
  • Variable patient adherence to endocrine therapy or chemotherapy.
  • The influence of comorbid conditions on the risk/benefit ratio.
  • The potential of ovarian function suppression in young women to approach the magnitude of benefit associated with chemotherapy.

Accordingly, RSClin may be the latest and best available tool, but it will not be the last.

For patients with RS above 26, for older women with intermediate RS, and for younger women with a low RS and low clinical-pathologic features, RSClin may not influence treatment recommendations.

However, for the common scenario of an intermediate-risk RS and a mix of pathologic features, the accurate prognostication for distant recurrence risk and estimate of absolute benefit from chemotherapy will be terrifically helpful to oncology caregivers.

Dr. Sparano disclosed funding from the National Cancer Institute and travel support from Rhenium.
 

Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

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DART trial hits the target in angiosarcoma

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Rare cancers comprise about 20% of all cancers in the United States and Europe, according to recent estimates, but patients with rare cancers are vastly underrepresented in clinical trials.

Dr. Michael Wagner

Recently, there has been a focus on immune checkpoint blockade (ICB) in common cancer types. Since several rare tumor types share similar biologic features with the more common tumors, there is a need to test ICB in rare tumors, particularly because remissions with ICB can be durable.

Enter the DART trial, a phase 2, single-arm study of combinatorial ICB with ipilimumab plus nivolumab in patients with unresectable or metastatic rare cancers.

Results from DART were recently presented at the Society for Immunotherapy of Cancer’s 35th Anniversary Annual Meeting. Michael J. Wagner, MD, of the University of Washington, Seattle, reported results in patients with advanced or unresectable angiosarcoma, one of the rare tumor types included in DART.
 

About angiosarcomas

Angiosarcomas account for less than 3% of all adult soft-tissue sarcomas, according to a review published in The Lancet Oncology. Angiosarcomas may arise in any part of the body, especially the head and neck (27%), breast (19.7%), and extremities (15.3%). These cancers can be primary or secondary (i.e., associated with prior radiation therapy or chronic lymphedema).

Angiosarcomas are aggressive, difficult to treat, and confer high mortality. The tumors are responsive to chemotherapy, but responses are brief. The estimated 5-year survival rate for all patients with angiosarcoma, including those who present with localized disease, is 30%-40%.

According to Dr. Wagner, a subset of angiosarcomas are characterized by high tumor mutational burden (TMB) and COSMIC signature 7, a DNA mutational signature that is consistent with other cancers caused by ultraviolet light exposure.

The high TMB subset of angiosarcomas is comparable with other cancer types that are responsive to ICB. Indeed, patients with angiosarcoma treated with ICB have shown responses, according to research published in the Journal for Immunotherapy of Cancer. However, no prospective studies of ICB in angiosarcoma have been published.
 

About DART

The DART trial includes more than 50 cohorts of rare cancer subtypes. Patients receive IV ipilimumab at 1 mg/kg every 6 weeks and IV nivolumab at 240 mg every 2 weeks.

The primary endpoint is objective response rate, as assessed by RECIST v1.1. Secondary endpoints include progression-free survival, overall survival, stable disease at 6 months, and toxicity.

The trial has a two-stage design. Six patients are enrolled in the first stage, and, if at least one patient responds to treatment, an additional 10 patients are enrolled in the second stage.

If at least two responses are seen among the 16 patients enrolled, further study of ICB is considered warranted.
 

Results in angiosarcoma

Dr. Wagner reported on the 16 angiosarcoma patients enrolled in DART. Nine patients had cutaneous primary tumors, seven had noncutaneous primary tumors, and three patients had radiation-associated angiosarcoma of the breast or chest wall.

Patients had received a median of two (range, zero to five) prior lines of therapy.

Adverse events (AEs) were consistent with prior safety results of the ipilimumab-nivolumab combination. Three-quarters of patients experienced an AE of any grade. The most common AEs were transaminase elevation, anemia, diarrhea, fatigue, hypothyroidism, pneumonitis, pruritus, and rash.

A quarter of patients had a grade 3-4 AE, and 12.5% of AEs led to premature treatment discontinuation. There were no fatal AEs.

The ORR was 25%. Responses occurred in 4 of the 16 patients, including 3 of 5 patients with primary cutaneous tumors of the scalp or face and 1 of 3 patients with radiation-associated breast angiosarcoma.

Two of the four responses and one case of stable disease have persisted for almost a year, and these patients remain on treatment. To put these results into perspective, Dr. Wagner noted that responses to cytotoxic chemotherapy rarely last 6 months.

The 6-month progression-free survival rate was 38%. The median overall survival has not yet been reached.

Dr. Wagner concluded that the combinatorial ICB regimen employed in DART was well tolerated and had an ORR of 25% in angiosarcoma regardless of primary site. Per the criteria of the DART trial, further investigation of ICB in angiosarcoma is warranted.
 

 

 

Molecular insights

Although correlative analyses of tumor tissue and peripheral blood are embedded in the DART trial, those analyses have not yet been performed. Eight of the 16 angiosarcoma patients had diagnostic molecular studies performed at their parent institutions, utilizing a variety of commercial platforms.

Dr. Alan P. Lyss

All eight patients for whom molecular data were available had at least two deleterious genomic alterations detected, but each had a distinct molecular profile.

Seven patients had TMB analyzed, including two partial responders to ICB. One of the seven patients had a high TMB, and this patient was one of the two responders. The other responder had an intermediate TMB.

Three patients had programmed death–ligand 1 staining on their tumors. Two of the three had high expression of PD-L1, including the responder with an intermediate TMB.
 

The real impact of DART

The DART trial is a “basket trial,” employing a similar treatment regimen for multiple tumor types. It provides a uniform framework for studying tumors that have been neglected in clinical trials heretofore.

Although the cohort of angiosarcoma patients is small, central pathology review was not required, and the treatment regimen was not compared directly with other potential therapies, the reported results of the ipilimumab-nivolumab regimen justify further study.

The biospecimens collected in DART will provide a rich source of data to identify common themes among responders and nonresponders, among patients who experience durable remissions and those who do not.

Angiosarcoma is not the only rare cancer for which combinatorial ICB has been valuable under the auspices of the DART trial. In Clinical Cancer Research, investigators reported an ORR of 44% among patients with high-grade neuroendocrine cancers, independent of primary site of origin. Progression-free survival at 6 months was 31%.

The DART trial is available at more than 800 sites, providing access to potentially promising treatment in a rigorous, scientifically valuable study for geographically underserved populations, including patients who live in rural areas.

The key message for practicing oncologists and clinical investigators is that clinical trials in rare tumors are feasible and can yield hope for patients who might lack it otherwise.

DART is funded by the National Cancer Institute and Bristol-Myers Squibb. Dr. Wagner disclosed relationships with Deciphera, Adaptimmune, GlaxoSmithKline, Athenex, and Incyte.

Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

SOURCE: Wagner M et al. SITC 2020, Abstract 795.

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Rare cancers comprise about 20% of all cancers in the United States and Europe, according to recent estimates, but patients with rare cancers are vastly underrepresented in clinical trials.

Dr. Michael Wagner

Recently, there has been a focus on immune checkpoint blockade (ICB) in common cancer types. Since several rare tumor types share similar biologic features with the more common tumors, there is a need to test ICB in rare tumors, particularly because remissions with ICB can be durable.

Enter the DART trial, a phase 2, single-arm study of combinatorial ICB with ipilimumab plus nivolumab in patients with unresectable or metastatic rare cancers.

Results from DART were recently presented at the Society for Immunotherapy of Cancer’s 35th Anniversary Annual Meeting. Michael J. Wagner, MD, of the University of Washington, Seattle, reported results in patients with advanced or unresectable angiosarcoma, one of the rare tumor types included in DART.
 

About angiosarcomas

Angiosarcomas account for less than 3% of all adult soft-tissue sarcomas, according to a review published in The Lancet Oncology. Angiosarcomas may arise in any part of the body, especially the head and neck (27%), breast (19.7%), and extremities (15.3%). These cancers can be primary or secondary (i.e., associated with prior radiation therapy or chronic lymphedema).

Angiosarcomas are aggressive, difficult to treat, and confer high mortality. The tumors are responsive to chemotherapy, but responses are brief. The estimated 5-year survival rate for all patients with angiosarcoma, including those who present with localized disease, is 30%-40%.

According to Dr. Wagner, a subset of angiosarcomas are characterized by high tumor mutational burden (TMB) and COSMIC signature 7, a DNA mutational signature that is consistent with other cancers caused by ultraviolet light exposure.

The high TMB subset of angiosarcomas is comparable with other cancer types that are responsive to ICB. Indeed, patients with angiosarcoma treated with ICB have shown responses, according to research published in the Journal for Immunotherapy of Cancer. However, no prospective studies of ICB in angiosarcoma have been published.
 

About DART

The DART trial includes more than 50 cohorts of rare cancer subtypes. Patients receive IV ipilimumab at 1 mg/kg every 6 weeks and IV nivolumab at 240 mg every 2 weeks.

The primary endpoint is objective response rate, as assessed by RECIST v1.1. Secondary endpoints include progression-free survival, overall survival, stable disease at 6 months, and toxicity.

The trial has a two-stage design. Six patients are enrolled in the first stage, and, if at least one patient responds to treatment, an additional 10 patients are enrolled in the second stage.

If at least two responses are seen among the 16 patients enrolled, further study of ICB is considered warranted.
 

Results in angiosarcoma

Dr. Wagner reported on the 16 angiosarcoma patients enrolled in DART. Nine patients had cutaneous primary tumors, seven had noncutaneous primary tumors, and three patients had radiation-associated angiosarcoma of the breast or chest wall.

Patients had received a median of two (range, zero to five) prior lines of therapy.

Adverse events (AEs) were consistent with prior safety results of the ipilimumab-nivolumab combination. Three-quarters of patients experienced an AE of any grade. The most common AEs were transaminase elevation, anemia, diarrhea, fatigue, hypothyroidism, pneumonitis, pruritus, and rash.

A quarter of patients had a grade 3-4 AE, and 12.5% of AEs led to premature treatment discontinuation. There were no fatal AEs.

The ORR was 25%. Responses occurred in 4 of the 16 patients, including 3 of 5 patients with primary cutaneous tumors of the scalp or face and 1 of 3 patients with radiation-associated breast angiosarcoma.

Two of the four responses and one case of stable disease have persisted for almost a year, and these patients remain on treatment. To put these results into perspective, Dr. Wagner noted that responses to cytotoxic chemotherapy rarely last 6 months.

The 6-month progression-free survival rate was 38%. The median overall survival has not yet been reached.

Dr. Wagner concluded that the combinatorial ICB regimen employed in DART was well tolerated and had an ORR of 25% in angiosarcoma regardless of primary site. Per the criteria of the DART trial, further investigation of ICB in angiosarcoma is warranted.
 

 

 

Molecular insights

Although correlative analyses of tumor tissue and peripheral blood are embedded in the DART trial, those analyses have not yet been performed. Eight of the 16 angiosarcoma patients had diagnostic molecular studies performed at their parent institutions, utilizing a variety of commercial platforms.

Dr. Alan P. Lyss

All eight patients for whom molecular data were available had at least two deleterious genomic alterations detected, but each had a distinct molecular profile.

Seven patients had TMB analyzed, including two partial responders to ICB. One of the seven patients had a high TMB, and this patient was one of the two responders. The other responder had an intermediate TMB.

Three patients had programmed death–ligand 1 staining on their tumors. Two of the three had high expression of PD-L1, including the responder with an intermediate TMB.
 

The real impact of DART

The DART trial is a “basket trial,” employing a similar treatment regimen for multiple tumor types. It provides a uniform framework for studying tumors that have been neglected in clinical trials heretofore.

Although the cohort of angiosarcoma patients is small, central pathology review was not required, and the treatment regimen was not compared directly with other potential therapies, the reported results of the ipilimumab-nivolumab regimen justify further study.

The biospecimens collected in DART will provide a rich source of data to identify common themes among responders and nonresponders, among patients who experience durable remissions and those who do not.

Angiosarcoma is not the only rare cancer for which combinatorial ICB has been valuable under the auspices of the DART trial. In Clinical Cancer Research, investigators reported an ORR of 44% among patients with high-grade neuroendocrine cancers, independent of primary site of origin. Progression-free survival at 6 months was 31%.

The DART trial is available at more than 800 sites, providing access to potentially promising treatment in a rigorous, scientifically valuable study for geographically underserved populations, including patients who live in rural areas.

The key message for practicing oncologists and clinical investigators is that clinical trials in rare tumors are feasible and can yield hope for patients who might lack it otherwise.

DART is funded by the National Cancer Institute and Bristol-Myers Squibb. Dr. Wagner disclosed relationships with Deciphera, Adaptimmune, GlaxoSmithKline, Athenex, and Incyte.

Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

SOURCE: Wagner M et al. SITC 2020, Abstract 795.

Rare cancers comprise about 20% of all cancers in the United States and Europe, according to recent estimates, but patients with rare cancers are vastly underrepresented in clinical trials.

Dr. Michael Wagner

Recently, there has been a focus on immune checkpoint blockade (ICB) in common cancer types. Since several rare tumor types share similar biologic features with the more common tumors, there is a need to test ICB in rare tumors, particularly because remissions with ICB can be durable.

Enter the DART trial, a phase 2, single-arm study of combinatorial ICB with ipilimumab plus nivolumab in patients with unresectable or metastatic rare cancers.

Results from DART were recently presented at the Society for Immunotherapy of Cancer’s 35th Anniversary Annual Meeting. Michael J. Wagner, MD, of the University of Washington, Seattle, reported results in patients with advanced or unresectable angiosarcoma, one of the rare tumor types included in DART.
 

About angiosarcomas

Angiosarcomas account for less than 3% of all adult soft-tissue sarcomas, according to a review published in The Lancet Oncology. Angiosarcomas may arise in any part of the body, especially the head and neck (27%), breast (19.7%), and extremities (15.3%). These cancers can be primary or secondary (i.e., associated with prior radiation therapy or chronic lymphedema).

Angiosarcomas are aggressive, difficult to treat, and confer high mortality. The tumors are responsive to chemotherapy, but responses are brief. The estimated 5-year survival rate for all patients with angiosarcoma, including those who present with localized disease, is 30%-40%.

According to Dr. Wagner, a subset of angiosarcomas are characterized by high tumor mutational burden (TMB) and COSMIC signature 7, a DNA mutational signature that is consistent with other cancers caused by ultraviolet light exposure.

The high TMB subset of angiosarcomas is comparable with other cancer types that are responsive to ICB. Indeed, patients with angiosarcoma treated with ICB have shown responses, according to research published in the Journal for Immunotherapy of Cancer. However, no prospective studies of ICB in angiosarcoma have been published.
 

About DART

The DART trial includes more than 50 cohorts of rare cancer subtypes. Patients receive IV ipilimumab at 1 mg/kg every 6 weeks and IV nivolumab at 240 mg every 2 weeks.

The primary endpoint is objective response rate, as assessed by RECIST v1.1. Secondary endpoints include progression-free survival, overall survival, stable disease at 6 months, and toxicity.

The trial has a two-stage design. Six patients are enrolled in the first stage, and, if at least one patient responds to treatment, an additional 10 patients are enrolled in the second stage.

If at least two responses are seen among the 16 patients enrolled, further study of ICB is considered warranted.
 

Results in angiosarcoma

Dr. Wagner reported on the 16 angiosarcoma patients enrolled in DART. Nine patients had cutaneous primary tumors, seven had noncutaneous primary tumors, and three patients had radiation-associated angiosarcoma of the breast or chest wall.

Patients had received a median of two (range, zero to five) prior lines of therapy.

Adverse events (AEs) were consistent with prior safety results of the ipilimumab-nivolumab combination. Three-quarters of patients experienced an AE of any grade. The most common AEs were transaminase elevation, anemia, diarrhea, fatigue, hypothyroidism, pneumonitis, pruritus, and rash.

A quarter of patients had a grade 3-4 AE, and 12.5% of AEs led to premature treatment discontinuation. There were no fatal AEs.

The ORR was 25%. Responses occurred in 4 of the 16 patients, including 3 of 5 patients with primary cutaneous tumors of the scalp or face and 1 of 3 patients with radiation-associated breast angiosarcoma.

Two of the four responses and one case of stable disease have persisted for almost a year, and these patients remain on treatment. To put these results into perspective, Dr. Wagner noted that responses to cytotoxic chemotherapy rarely last 6 months.

The 6-month progression-free survival rate was 38%. The median overall survival has not yet been reached.

Dr. Wagner concluded that the combinatorial ICB regimen employed in DART was well tolerated and had an ORR of 25% in angiosarcoma regardless of primary site. Per the criteria of the DART trial, further investigation of ICB in angiosarcoma is warranted.
 

 

 

Molecular insights

Although correlative analyses of tumor tissue and peripheral blood are embedded in the DART trial, those analyses have not yet been performed. Eight of the 16 angiosarcoma patients had diagnostic molecular studies performed at their parent institutions, utilizing a variety of commercial platforms.

Dr. Alan P. Lyss

All eight patients for whom molecular data were available had at least two deleterious genomic alterations detected, but each had a distinct molecular profile.

Seven patients had TMB analyzed, including two partial responders to ICB. One of the seven patients had a high TMB, and this patient was one of the two responders. The other responder had an intermediate TMB.

Three patients had programmed death–ligand 1 staining on their tumors. Two of the three had high expression of PD-L1, including the responder with an intermediate TMB.
 

The real impact of DART

The DART trial is a “basket trial,” employing a similar treatment regimen for multiple tumor types. It provides a uniform framework for studying tumors that have been neglected in clinical trials heretofore.

Although the cohort of angiosarcoma patients is small, central pathology review was not required, and the treatment regimen was not compared directly with other potential therapies, the reported results of the ipilimumab-nivolumab regimen justify further study.

The biospecimens collected in DART will provide a rich source of data to identify common themes among responders and nonresponders, among patients who experience durable remissions and those who do not.

Angiosarcoma is not the only rare cancer for which combinatorial ICB has been valuable under the auspices of the DART trial. In Clinical Cancer Research, investigators reported an ORR of 44% among patients with high-grade neuroendocrine cancers, independent of primary site of origin. Progression-free survival at 6 months was 31%.

The DART trial is available at more than 800 sites, providing access to potentially promising treatment in a rigorous, scientifically valuable study for geographically underserved populations, including patients who live in rural areas.

The key message for practicing oncologists and clinical investigators is that clinical trials in rare tumors are feasible and can yield hope for patients who might lack it otherwise.

DART is funded by the National Cancer Institute and Bristol-Myers Squibb. Dr. Wagner disclosed relationships with Deciphera, Adaptimmune, GlaxoSmithKline, Athenex, and Incyte.

Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

SOURCE: Wagner M et al. SITC 2020, Abstract 795.

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How should we evaluate the benefit of immunotherapy combinations?

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Every medical oncologist who has described a combination chemotherapy regimen to a patient with advanced cancer has likely been asked whether the benefits of tumor shrinkage, disease-free survival (DFS), and overall survival are worth the risks of adverse events (AEs).

Dr. Alan P. Lyss

Single-agent immunotherapy and, more recently, combinations of immunotherapy drugs have been approved for a variety of metastatic tumors. In general, combination immunotherapy regimens have more AEs and a higher frequency of premature treatment discontinuation for toxicity.

Michael Postow, MD, of Memorial Sloan Kettering Cancer Center in New York, reflected on new ways to evaluate the benefits and risks of immunotherapy combinations during a plenary session on novel combinations at the American Association for Cancer Research’s Virtual Special Conference on Tumor Immunology and Immunotherapy.
 

Potential targets

As with chemotherapy drugs, immunotherapy combinations make the most sense when drugs targeting independent processes are employed.

As described in a paper published in Nature in 2011, the process for recruiting the immune system to combat cancer is as follows:

  • Dendritic cells must sample antigens derived from the tumor.
  • The dendritic cells must receive an activation signal so they promote immunity rather than tolerance.
  • The tumor antigen–loaded dendritic cells need to generate protective T-cell responses, instead of T-regulatory responses, in lymphoid tissues.
  • Cancer antigen–specific T cells must enter tumor tissues.
  • Tumor-derived mechanisms for promoting immunosuppression need to be circumvented.

Since each step in the cascade is a potential therapeutic target, there are large numbers of potential drug combinations.
 

Measuring impact

Conventional measurements of tumor response may not be adequately sensitive to the impact from immunotherapy drugs. A case in point is sipuleucel-T, which is approved to treat advanced prostate cancer.

In the pivotal phase 3 trial, only 1 of 341 patients receiving sipuleucel-T achieved a partial response by RECIST criteria. Only 2.6% of patients had a 50% reduction in prostate-specific antigen levels. Nonetheless, a 4.1-month improvement in median overall survival was achieved. These results were published in the New England Journal of Medicine.

The discrepancy between tumor shrinkage and survival benefit for immunotherapy is not unexpected. As many as 10% of patients treated with ipilimumab (ipi) for stage IV malignant melanoma have progressive disease by tumor size but experience prolongation of survival, according to guidelines published in Clinical Cancer Research.

Accurate assessment of the ultimate efficacy of immunotherapy over time would benefit patients and clinicians since immune checkpoint inhibitors are often administered for several years, are financially costly, and treatment-associated AEs emerge unpredictably at any time.

Curtailing the duration of ineffective treatment could be valuable from many perspectives.
 

Immunotherapy combinations in metastatic melanoma

In the CheckMate 067 study, there was an improvement in response, progression-free survival (PFS), and overall survival for nivolumab (nivo) plus ipi or nivo alone, in comparison with ipi alone, in patients with advanced melanoma. Initial results from this trial were published in the New England Journal of Medicine in 2017.

At a minimum follow-up of 60 months, the 5-year overall survival was 52% for the nivo/ipi regimen, 44% for nivo alone, and 26% for ipi alone. These results were published in the New England Journal of Medicine in 2019.

The trial was not statistically powered to conclude whether the overall survival for the combination was superior to that of single-agent nivo alone, but both nivo regimens were superior to ipi alone.

Unfortunately, the combination also produced the highest treatment-related AE rates – 59% with nivo/ipi, 23% with nivo, and 28% with ipi in 2019. In the 2017 report, the combination regimen had more than twice as many premature treatment discontinuations as the other two study arms.

Is there a better way to quantify the risk-benefit ratio and explain it to patients?
 

Alternative strategies for assessing benefit: Treatment-free survival

Researchers have proposed treatment-free survival (TFS) as a potential new metric to characterize not only antitumor activity but also toxicity experienced after the cessation of therapy and before initiation of subsequent systemic therapy or death.

TFS is defined as the area between Kaplan-Meier curves from immunotherapy cessation until the reinitiation of systemic therapy or death. All patients who began immunotherapy are included – not just those achieving response or concluding a predefined number of cycles of treatment.

The curves can be partitioned into states with and without toxicity to establish a unique endpoint: time to cessation of both immunotherapy and toxicity.

Researchers conducted a pooled analysis of 3-year follow-up data from the 1,077 patients who participated in CheckMate 069, testing nivo/ipi versus nivo alone, and CheckMate 067, comparing nivo/ipi, nivo alone, and ipi alone. The results were published in the Journal of Clinical Oncology.

The TFS without grade 3 or higher AEs was 28% for nivo/ipi, 11% for nivo alone, and 23% for ipi alone. The restricted mean time without either treatment or grade 3 or greater AEs was 10.1 months, 4.1 months, and 8.5 months, respectively.

TFS incentivizes the use of regimens that have:

  • A short duration of treatment
  • Prolonged time to subsequent therapy or death
  • Only mild AEs of brief duration.

A higher TFS corresponds with the goals that patients and their providers would have for a treatment regimen.
 

Adaptive models provide clues about benefit from extended therapy

In contrast to cytotoxic chemotherapy and molecularly targeted agents, benefit from immune-targeted therapy can deepen and persist after treatment discontinuation.

In advanced melanoma, researchers observed that overall survival was similar for patients who discontinued nivo/ipi because of AEs during the induction phase of treatment and those who did not. These results were published in the Journal of Clinical Oncology.

This observation has led to an individualized, adaptive approach to de-escalating combination immunotherapy, described in Clinical Cancer Research. The approach is dubbed “SMART,” which stands for sequential multiple assignment randomized trial designs.

With the SMART approach, each stage of a trial corresponds to an important treatment decision point. The goal is to define the population of patients who can safely discontinue treatment based on response, rather than doing so after the development of AEs.

In the Adapt-IT prospective study, 60 patients with advanced melanoma with poor prognostic features were given two doses of nivo/ipi followed by a CT scan at week 6. They were triaged to stopping ipi and proceeding with maintenance therapy with nivo alone or continuing the combination for an additional two cycles of treatment. Results from this trial were presented at ASCO 2020 (abstract 10003).

The investigators found that 68% of patients had no tumor burden increase at week 6 and could discontinue ipi. For those patients, their response rate of 57% approached the expected results from a full course of ipi.

At median follow-up of 22.3 months, median response duration, PFS, and overall survival had not been reached for the responders who received an abbreviated course of the combination regimen.

There were two observations that suggested the first two cycles of treatment drove not only toxicity but also tumor control:

  • The rate of grade 3-4 toxicity from only two cycles was high (57%).
  • Of the 19 patients (32% of the original 60 patients) who had progressive disease after two cycles of nivo/ipi, there were no responders with continued therapy.

Dr. Postow commented that, in correlative studies conducted as part of Adapt-IT, the Ki-67 of CD8-positive T cells increased after the initial dose of nivo/ipi. However, proliferation did not continue with subsequent cycles (that is, Ki-67 did not continue to rise).

When they examined markers of T-cell stimulation such as inducible costimulator of CD8-positive T cells, the researchers observed the same effect. The “immune boost” occurred with cycle one but not after subsequent doses of the nivo/ipi combination.

Although unproven in clinical trials at this time, these data suggest that response and risks of toxicity may not support giving patients more than one cycle of combination treatment.
 

More nuanced ways of assessing tumor growth

Dr. Postow noted that judgment about treatment effects over time are often made by displaying spider plots of changes from baseline tumor size from “time zero” – the time at which combination therapy is commenced.

He speculated that it might be worthwhile to give a dose or two of immune-targeted monotherapy (such as a PD-1 or PD-L1 inhibitor alone) before time zero, measure tumor growth prior to and after the single agent, and reserve using combination immunotherapy only for those patients who do not experience a dampening of the growth curve.

Patients whose tumor growth kinetics are improved with single-agent treatment could be spared the additional toxicity (and uncertain additive benefit) from the second agent.
 

Treatment optimization: More than ‘messaging’

Oncology practice has passed through a long era of “more is better,” an era that gave rise to intensive cytotoxic chemotherapy for hematologic and solid tumors in the metastatic and adjuvant settings. In some cases, that approach proved to be curative, but not in all.

More recently, because of better staging, improved outcomes with newer technology and treatments, and concern about immediate- and late-onset health risks, there has been an effort to deintensify therapy when it can be done safely.

Once a treatment regimen and treatment duration become established, however, patients and their physicians are reluctant to deintensity therapy.

Dr. Postow’s presentation demonstrated that, with regard to immunotherapy combinations – as in other realms of medical practice – science can lead the way to treatment optimization for individual patients.

We have the potential to reassure patients that treatment de-escalation is a rational and personalized component of treatment optimization through the combination of:

  • Identifying new endpoints to quantify treatment benefits and risks.
  • SMART trial designs.
  • Innovative ways to assess tumor response during each phase of a treatment course.

Precision assessment of immunotherapy effect in individual patients can be a key part of precision medicine.

Dr. Postow disclosed relationships with Aduro, Array BioPharma, Bristol Myers Squibb, Eisai, Incyte, Infinity, Merck, NewLink Genetics, Novartis, and RGenix.


Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

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Every medical oncologist who has described a combination chemotherapy regimen to a patient with advanced cancer has likely been asked whether the benefits of tumor shrinkage, disease-free survival (DFS), and overall survival are worth the risks of adverse events (AEs).

Dr. Alan P. Lyss

Single-agent immunotherapy and, more recently, combinations of immunotherapy drugs have been approved for a variety of metastatic tumors. In general, combination immunotherapy regimens have more AEs and a higher frequency of premature treatment discontinuation for toxicity.

Michael Postow, MD, of Memorial Sloan Kettering Cancer Center in New York, reflected on new ways to evaluate the benefits and risks of immunotherapy combinations during a plenary session on novel combinations at the American Association for Cancer Research’s Virtual Special Conference on Tumor Immunology and Immunotherapy.
 

Potential targets

As with chemotherapy drugs, immunotherapy combinations make the most sense when drugs targeting independent processes are employed.

As described in a paper published in Nature in 2011, the process for recruiting the immune system to combat cancer is as follows:

  • Dendritic cells must sample antigens derived from the tumor.
  • The dendritic cells must receive an activation signal so they promote immunity rather than tolerance.
  • The tumor antigen–loaded dendritic cells need to generate protective T-cell responses, instead of T-regulatory responses, in lymphoid tissues.
  • Cancer antigen–specific T cells must enter tumor tissues.
  • Tumor-derived mechanisms for promoting immunosuppression need to be circumvented.

Since each step in the cascade is a potential therapeutic target, there are large numbers of potential drug combinations.
 

Measuring impact

Conventional measurements of tumor response may not be adequately sensitive to the impact from immunotherapy drugs. A case in point is sipuleucel-T, which is approved to treat advanced prostate cancer.

In the pivotal phase 3 trial, only 1 of 341 patients receiving sipuleucel-T achieved a partial response by RECIST criteria. Only 2.6% of patients had a 50% reduction in prostate-specific antigen levels. Nonetheless, a 4.1-month improvement in median overall survival was achieved. These results were published in the New England Journal of Medicine.

The discrepancy between tumor shrinkage and survival benefit for immunotherapy is not unexpected. As many as 10% of patients treated with ipilimumab (ipi) for stage IV malignant melanoma have progressive disease by tumor size but experience prolongation of survival, according to guidelines published in Clinical Cancer Research.

Accurate assessment of the ultimate efficacy of immunotherapy over time would benefit patients and clinicians since immune checkpoint inhibitors are often administered for several years, are financially costly, and treatment-associated AEs emerge unpredictably at any time.

Curtailing the duration of ineffective treatment could be valuable from many perspectives.
 

Immunotherapy combinations in metastatic melanoma

In the CheckMate 067 study, there was an improvement in response, progression-free survival (PFS), and overall survival for nivolumab (nivo) plus ipi or nivo alone, in comparison with ipi alone, in patients with advanced melanoma. Initial results from this trial were published in the New England Journal of Medicine in 2017.

At a minimum follow-up of 60 months, the 5-year overall survival was 52% for the nivo/ipi regimen, 44% for nivo alone, and 26% for ipi alone. These results were published in the New England Journal of Medicine in 2019.

The trial was not statistically powered to conclude whether the overall survival for the combination was superior to that of single-agent nivo alone, but both nivo regimens were superior to ipi alone.

Unfortunately, the combination also produced the highest treatment-related AE rates – 59% with nivo/ipi, 23% with nivo, and 28% with ipi in 2019. In the 2017 report, the combination regimen had more than twice as many premature treatment discontinuations as the other two study arms.

Is there a better way to quantify the risk-benefit ratio and explain it to patients?
 

Alternative strategies for assessing benefit: Treatment-free survival

Researchers have proposed treatment-free survival (TFS) as a potential new metric to characterize not only antitumor activity but also toxicity experienced after the cessation of therapy and before initiation of subsequent systemic therapy or death.

TFS is defined as the area between Kaplan-Meier curves from immunotherapy cessation until the reinitiation of systemic therapy or death. All patients who began immunotherapy are included – not just those achieving response or concluding a predefined number of cycles of treatment.

The curves can be partitioned into states with and without toxicity to establish a unique endpoint: time to cessation of both immunotherapy and toxicity.

Researchers conducted a pooled analysis of 3-year follow-up data from the 1,077 patients who participated in CheckMate 069, testing nivo/ipi versus nivo alone, and CheckMate 067, comparing nivo/ipi, nivo alone, and ipi alone. The results were published in the Journal of Clinical Oncology.

The TFS without grade 3 or higher AEs was 28% for nivo/ipi, 11% for nivo alone, and 23% for ipi alone. The restricted mean time without either treatment or grade 3 or greater AEs was 10.1 months, 4.1 months, and 8.5 months, respectively.

TFS incentivizes the use of regimens that have:

  • A short duration of treatment
  • Prolonged time to subsequent therapy or death
  • Only mild AEs of brief duration.

A higher TFS corresponds with the goals that patients and their providers would have for a treatment regimen.
 

Adaptive models provide clues about benefit from extended therapy

In contrast to cytotoxic chemotherapy and molecularly targeted agents, benefit from immune-targeted therapy can deepen and persist after treatment discontinuation.

In advanced melanoma, researchers observed that overall survival was similar for patients who discontinued nivo/ipi because of AEs during the induction phase of treatment and those who did not. These results were published in the Journal of Clinical Oncology.

This observation has led to an individualized, adaptive approach to de-escalating combination immunotherapy, described in Clinical Cancer Research. The approach is dubbed “SMART,” which stands for sequential multiple assignment randomized trial designs.

With the SMART approach, each stage of a trial corresponds to an important treatment decision point. The goal is to define the population of patients who can safely discontinue treatment based on response, rather than doing so after the development of AEs.

In the Adapt-IT prospective study, 60 patients with advanced melanoma with poor prognostic features were given two doses of nivo/ipi followed by a CT scan at week 6. They were triaged to stopping ipi and proceeding with maintenance therapy with nivo alone or continuing the combination for an additional two cycles of treatment. Results from this trial were presented at ASCO 2020 (abstract 10003).

The investigators found that 68% of patients had no tumor burden increase at week 6 and could discontinue ipi. For those patients, their response rate of 57% approached the expected results from a full course of ipi.

At median follow-up of 22.3 months, median response duration, PFS, and overall survival had not been reached for the responders who received an abbreviated course of the combination regimen.

There were two observations that suggested the first two cycles of treatment drove not only toxicity but also tumor control:

  • The rate of grade 3-4 toxicity from only two cycles was high (57%).
  • Of the 19 patients (32% of the original 60 patients) who had progressive disease after two cycles of nivo/ipi, there were no responders with continued therapy.

Dr. Postow commented that, in correlative studies conducted as part of Adapt-IT, the Ki-67 of CD8-positive T cells increased after the initial dose of nivo/ipi. However, proliferation did not continue with subsequent cycles (that is, Ki-67 did not continue to rise).

When they examined markers of T-cell stimulation such as inducible costimulator of CD8-positive T cells, the researchers observed the same effect. The “immune boost” occurred with cycle one but not after subsequent doses of the nivo/ipi combination.

Although unproven in clinical trials at this time, these data suggest that response and risks of toxicity may not support giving patients more than one cycle of combination treatment.
 

More nuanced ways of assessing tumor growth

Dr. Postow noted that judgment about treatment effects over time are often made by displaying spider plots of changes from baseline tumor size from “time zero” – the time at which combination therapy is commenced.

He speculated that it might be worthwhile to give a dose or two of immune-targeted monotherapy (such as a PD-1 or PD-L1 inhibitor alone) before time zero, measure tumor growth prior to and after the single agent, and reserve using combination immunotherapy only for those patients who do not experience a dampening of the growth curve.

Patients whose tumor growth kinetics are improved with single-agent treatment could be spared the additional toxicity (and uncertain additive benefit) from the second agent.
 

Treatment optimization: More than ‘messaging’

Oncology practice has passed through a long era of “more is better,” an era that gave rise to intensive cytotoxic chemotherapy for hematologic and solid tumors in the metastatic and adjuvant settings. In some cases, that approach proved to be curative, but not in all.

More recently, because of better staging, improved outcomes with newer technology and treatments, and concern about immediate- and late-onset health risks, there has been an effort to deintensify therapy when it can be done safely.

Once a treatment regimen and treatment duration become established, however, patients and their physicians are reluctant to deintensity therapy.

Dr. Postow’s presentation demonstrated that, with regard to immunotherapy combinations – as in other realms of medical practice – science can lead the way to treatment optimization for individual patients.

We have the potential to reassure patients that treatment de-escalation is a rational and personalized component of treatment optimization through the combination of:

  • Identifying new endpoints to quantify treatment benefits and risks.
  • SMART trial designs.
  • Innovative ways to assess tumor response during each phase of a treatment course.

Precision assessment of immunotherapy effect in individual patients can be a key part of precision medicine.

Dr. Postow disclosed relationships with Aduro, Array BioPharma, Bristol Myers Squibb, Eisai, Incyte, Infinity, Merck, NewLink Genetics, Novartis, and RGenix.


Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

Every medical oncologist who has described a combination chemotherapy regimen to a patient with advanced cancer has likely been asked whether the benefits of tumor shrinkage, disease-free survival (DFS), and overall survival are worth the risks of adverse events (AEs).

Dr. Alan P. Lyss

Single-agent immunotherapy and, more recently, combinations of immunotherapy drugs have been approved for a variety of metastatic tumors. In general, combination immunotherapy regimens have more AEs and a higher frequency of premature treatment discontinuation for toxicity.

Michael Postow, MD, of Memorial Sloan Kettering Cancer Center in New York, reflected on new ways to evaluate the benefits and risks of immunotherapy combinations during a plenary session on novel combinations at the American Association for Cancer Research’s Virtual Special Conference on Tumor Immunology and Immunotherapy.
 

Potential targets

As with chemotherapy drugs, immunotherapy combinations make the most sense when drugs targeting independent processes are employed.

As described in a paper published in Nature in 2011, the process for recruiting the immune system to combat cancer is as follows:

  • Dendritic cells must sample antigens derived from the tumor.
  • The dendritic cells must receive an activation signal so they promote immunity rather than tolerance.
  • The tumor antigen–loaded dendritic cells need to generate protective T-cell responses, instead of T-regulatory responses, in lymphoid tissues.
  • Cancer antigen–specific T cells must enter tumor tissues.
  • Tumor-derived mechanisms for promoting immunosuppression need to be circumvented.

Since each step in the cascade is a potential therapeutic target, there are large numbers of potential drug combinations.
 

Measuring impact

Conventional measurements of tumor response may not be adequately sensitive to the impact from immunotherapy drugs. A case in point is sipuleucel-T, which is approved to treat advanced prostate cancer.

In the pivotal phase 3 trial, only 1 of 341 patients receiving sipuleucel-T achieved a partial response by RECIST criteria. Only 2.6% of patients had a 50% reduction in prostate-specific antigen levels. Nonetheless, a 4.1-month improvement in median overall survival was achieved. These results were published in the New England Journal of Medicine.

The discrepancy between tumor shrinkage and survival benefit for immunotherapy is not unexpected. As many as 10% of patients treated with ipilimumab (ipi) for stage IV malignant melanoma have progressive disease by tumor size but experience prolongation of survival, according to guidelines published in Clinical Cancer Research.

Accurate assessment of the ultimate efficacy of immunotherapy over time would benefit patients and clinicians since immune checkpoint inhibitors are often administered for several years, are financially costly, and treatment-associated AEs emerge unpredictably at any time.

Curtailing the duration of ineffective treatment could be valuable from many perspectives.
 

Immunotherapy combinations in metastatic melanoma

In the CheckMate 067 study, there was an improvement in response, progression-free survival (PFS), and overall survival for nivolumab (nivo) plus ipi or nivo alone, in comparison with ipi alone, in patients with advanced melanoma. Initial results from this trial were published in the New England Journal of Medicine in 2017.

At a minimum follow-up of 60 months, the 5-year overall survival was 52% for the nivo/ipi regimen, 44% for nivo alone, and 26% for ipi alone. These results were published in the New England Journal of Medicine in 2019.

The trial was not statistically powered to conclude whether the overall survival for the combination was superior to that of single-agent nivo alone, but both nivo regimens were superior to ipi alone.

Unfortunately, the combination also produced the highest treatment-related AE rates – 59% with nivo/ipi, 23% with nivo, and 28% with ipi in 2019. In the 2017 report, the combination regimen had more than twice as many premature treatment discontinuations as the other two study arms.

Is there a better way to quantify the risk-benefit ratio and explain it to patients?
 

Alternative strategies for assessing benefit: Treatment-free survival

Researchers have proposed treatment-free survival (TFS) as a potential new metric to characterize not only antitumor activity but also toxicity experienced after the cessation of therapy and before initiation of subsequent systemic therapy or death.

TFS is defined as the area between Kaplan-Meier curves from immunotherapy cessation until the reinitiation of systemic therapy or death. All patients who began immunotherapy are included – not just those achieving response or concluding a predefined number of cycles of treatment.

The curves can be partitioned into states with and without toxicity to establish a unique endpoint: time to cessation of both immunotherapy and toxicity.

Researchers conducted a pooled analysis of 3-year follow-up data from the 1,077 patients who participated in CheckMate 069, testing nivo/ipi versus nivo alone, and CheckMate 067, comparing nivo/ipi, nivo alone, and ipi alone. The results were published in the Journal of Clinical Oncology.

The TFS without grade 3 or higher AEs was 28% for nivo/ipi, 11% for nivo alone, and 23% for ipi alone. The restricted mean time without either treatment or grade 3 or greater AEs was 10.1 months, 4.1 months, and 8.5 months, respectively.

TFS incentivizes the use of regimens that have:

  • A short duration of treatment
  • Prolonged time to subsequent therapy or death
  • Only mild AEs of brief duration.

A higher TFS corresponds with the goals that patients and their providers would have for a treatment regimen.
 

Adaptive models provide clues about benefit from extended therapy

In contrast to cytotoxic chemotherapy and molecularly targeted agents, benefit from immune-targeted therapy can deepen and persist after treatment discontinuation.

In advanced melanoma, researchers observed that overall survival was similar for patients who discontinued nivo/ipi because of AEs during the induction phase of treatment and those who did not. These results were published in the Journal of Clinical Oncology.

This observation has led to an individualized, adaptive approach to de-escalating combination immunotherapy, described in Clinical Cancer Research. The approach is dubbed “SMART,” which stands for sequential multiple assignment randomized trial designs.

With the SMART approach, each stage of a trial corresponds to an important treatment decision point. The goal is to define the population of patients who can safely discontinue treatment based on response, rather than doing so after the development of AEs.

In the Adapt-IT prospective study, 60 patients with advanced melanoma with poor prognostic features were given two doses of nivo/ipi followed by a CT scan at week 6. They were triaged to stopping ipi and proceeding with maintenance therapy with nivo alone or continuing the combination for an additional two cycles of treatment. Results from this trial were presented at ASCO 2020 (abstract 10003).

The investigators found that 68% of patients had no tumor burden increase at week 6 and could discontinue ipi. For those patients, their response rate of 57% approached the expected results from a full course of ipi.

At median follow-up of 22.3 months, median response duration, PFS, and overall survival had not been reached for the responders who received an abbreviated course of the combination regimen.

There were two observations that suggested the first two cycles of treatment drove not only toxicity but also tumor control:

  • The rate of grade 3-4 toxicity from only two cycles was high (57%).
  • Of the 19 patients (32% of the original 60 patients) who had progressive disease after two cycles of nivo/ipi, there were no responders with continued therapy.

Dr. Postow commented that, in correlative studies conducted as part of Adapt-IT, the Ki-67 of CD8-positive T cells increased after the initial dose of nivo/ipi. However, proliferation did not continue with subsequent cycles (that is, Ki-67 did not continue to rise).

When they examined markers of T-cell stimulation such as inducible costimulator of CD8-positive T cells, the researchers observed the same effect. The “immune boost” occurred with cycle one but not after subsequent doses of the nivo/ipi combination.

Although unproven in clinical trials at this time, these data suggest that response and risks of toxicity may not support giving patients more than one cycle of combination treatment.
 

More nuanced ways of assessing tumor growth

Dr. Postow noted that judgment about treatment effects over time are often made by displaying spider plots of changes from baseline tumor size from “time zero” – the time at which combination therapy is commenced.

He speculated that it might be worthwhile to give a dose or two of immune-targeted monotherapy (such as a PD-1 or PD-L1 inhibitor alone) before time zero, measure tumor growth prior to and after the single agent, and reserve using combination immunotherapy only for those patients who do not experience a dampening of the growth curve.

Patients whose tumor growth kinetics are improved with single-agent treatment could be spared the additional toxicity (and uncertain additive benefit) from the second agent.
 

Treatment optimization: More than ‘messaging’

Oncology practice has passed through a long era of “more is better,” an era that gave rise to intensive cytotoxic chemotherapy for hematologic and solid tumors in the metastatic and adjuvant settings. In some cases, that approach proved to be curative, but not in all.

More recently, because of better staging, improved outcomes with newer technology and treatments, and concern about immediate- and late-onset health risks, there has been an effort to deintensify therapy when it can be done safely.

Once a treatment regimen and treatment duration become established, however, patients and their physicians are reluctant to deintensity therapy.

Dr. Postow’s presentation demonstrated that, with regard to immunotherapy combinations – as in other realms of medical practice – science can lead the way to treatment optimization for individual patients.

We have the potential to reassure patients that treatment de-escalation is a rational and personalized component of treatment optimization through the combination of:

  • Identifying new endpoints to quantify treatment benefits and risks.
  • SMART trial designs.
  • Innovative ways to assess tumor response during each phase of a treatment course.

Precision assessment of immunotherapy effect in individual patients can be a key part of precision medicine.

Dr. Postow disclosed relationships with Aduro, Array BioPharma, Bristol Myers Squibb, Eisai, Incyte, Infinity, Merck, NewLink Genetics, Novartis, and RGenix.


Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

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Using telehealth to deliver palliative care to cancer patients

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Traditional delivery of palliative care to outpatients with cancer is associated with many challenges.

Dr. Alan P. Lyss

Telehealth can eliminate some of these challenges but comes with issues of its own, according to results of the REACH PC trial.

Jennifer S. Temel, MD, of Massachusetts General Hospital in Boston, discussed the use of telemedicine in palliative care, including results from REACH PC, during an educational session at the ASCO Virtual Quality Care Symposium 2020.

Dr. Temel noted that, for cancer patients, an in-person visit with a palliative care specialist can cost time, induce fatigue, and increase financial burden from transportation and parking expenses.

For caregivers and family, an in-person visit may necessitate absence from family and/or work, require complex scheduling to coordinate with other office visits, and result in additional transportation and/or parking expenses.

For health care systems, to have a dedicated palliative care clinic requires precious space and financial expenditures for office personnel and other resources.

These issues make it attractive to consider whether telehealth could be used for palliative care services.
 

Scarcity of palliative care specialists

In the United States, there is roughly 1 palliative care physician for every 20,000 older adults with a life-limiting illness, according to research published in Annual Review of Public Health in 2014.

In its 2019 state-by-state report card, the Center to Advance Palliative Care noted that only 72% of U.S. hospitals with 50 or more beds have a palliative care team.

For patients with serious illnesses and those who are socioeconomically or geographically disadvantaged, palliative care is often inaccessible.

Inefficiencies in the current system are an additional impediment. Palliative care specialists frequently see patients during a portion of the patient’s routine visit to subspecialty or primary care clinics. This limits the palliative care specialist’s ability to perform comprehensive assessments and provide patient-centered care efficiently.
 

Special considerations regarding telehealth for palliative care

As a specialty, palliative care involves interactions that could make the use of telehealth problematic. For example, conveyance of interest, warmth, and touch are challenging or impossible in a video format.

Palliative care specialists engage with patients regarding relatively serious topics such as prognosis and end-of-life preferences. There is uncertainty about how those discussions would be received by patients and their caregivers via video.

Furthermore, there are logistical impediments such as prescribing opioids with video or across state lines.

Despite these concerns, the ENABLE study showed that supplementing usual oncology care with weekly (transitioning to monthly) telephone-based educational palliative care produced higher quality of life and mood than did usual oncology care alone. These results were published in JAMA in 2009.
 

REACH PC study demonstrates feasibility of telehealth model

Dr. Temel described the ongoing REACH PC trial in which palliative care is delivered via video visits and compared with in-person palliative care for patients with advanced non–small cell lung cancer.

The primary aim of REACH PC is to determine whether telehealth palliative care is equivalent to traditional palliative care in improving quality of life as a supplement to routine oncology care.

Currently, REACH PC has enrolled 581 patients at its 20 sites, spanning a geographically diverse area. Just over half of patients approached about REACH PC agreed to enroll in it. Ultimately, 1,250 enrollees are sought.

Among patients who declined to participate, 7.6% indicated “discomfort with technology” as the reason. Most refusals were due to lack of interest in research (35.1%) and/or palliative care (22.9%).

Older adults were prominent among enrollees. More than 60% were older than 60 years of age, and more than one-third were older than 70 years.

Among patients who began the trial, there were slightly more withdrawals in the telehealth participants, in comparison with in-person participants (13.6% versus 9.1%).

When palliative care clinicians were queried about video visits, 64.3% said there were no challenges. This is comparable to the 65.5% of clinicians who had no challenges with in-person visits.

When problems occurred with video visits, they were most frequently technical (19.1%). Only 1.4% of clinicians reported difficulty addressing topics that felt uncomfortable over video, and 1.5% reported difficulty establishing rapport.

The success rates of video and in-person visits were similar. About 80% of visits accomplished planned goals.
 

‘Webside’ manner

Strategies such as reflective listening and summarizing what patients say (to verify an accurate understanding of the patient’s perspective) are key to successful palliative care visits, regardless of the setting.

For telehealth visits, Dr. Temel described techniques she defined as “webside manner,” to compensate for the inability of the clinician to touch a patient. These techniques include leaning in toward the camera, nodding, and pausing to be certain the patient has finished speaking before the clinician speaks again.
 

Is telehealth the future of palliative care?

I include myself among those oncologists who have voiced concern about moving from face-to-face to remote visits for complicated consultations such as those required for palliative care. Nonetheless, from the preliminary results of the REACH PC trial, it appears that telehealth could be a valuable tool.

To minimize differences between in-person and remote delivery of palliative care, practical strategies for ensuring rapport and facilitating a trusting relationship should be defined further and disseminated.

In addition, we need to be vigilant for widening inequities of care from rapid movement to the use of technology (i.e., an equity gap). In their telehealth experience during the COVID-19 pandemic, investigators at Houston Methodist Cancer Center found that patients declining virtual visits tended to be older, lower-income, and less likely to have commercial insurance. These results were recently published in JCO Oncology Practice.

For the foregoing reasons, hybrid systems for palliative care services will probably always be needed.

Going forward, we should heed the advice of Alvin Toffler in his book Future Shock. Mr. Toffler said, “The illiterate of the 21st century will not be those who cannot read and write, but those who cannot learn, unlearn, and relearn.”

The traditional model for delivering palliative care will almost certainly need to be reimagined and relearned.

Dr. Temel disclosed institutional research funding from Pfizer.


Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

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Topics
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Traditional delivery of palliative care to outpatients with cancer is associated with many challenges.

Dr. Alan P. Lyss

Telehealth can eliminate some of these challenges but comes with issues of its own, according to results of the REACH PC trial.

Jennifer S. Temel, MD, of Massachusetts General Hospital in Boston, discussed the use of telemedicine in palliative care, including results from REACH PC, during an educational session at the ASCO Virtual Quality Care Symposium 2020.

Dr. Temel noted that, for cancer patients, an in-person visit with a palliative care specialist can cost time, induce fatigue, and increase financial burden from transportation and parking expenses.

For caregivers and family, an in-person visit may necessitate absence from family and/or work, require complex scheduling to coordinate with other office visits, and result in additional transportation and/or parking expenses.

For health care systems, to have a dedicated palliative care clinic requires precious space and financial expenditures for office personnel and other resources.

These issues make it attractive to consider whether telehealth could be used for palliative care services.
 

Scarcity of palliative care specialists

In the United States, there is roughly 1 palliative care physician for every 20,000 older adults with a life-limiting illness, according to research published in Annual Review of Public Health in 2014.

In its 2019 state-by-state report card, the Center to Advance Palliative Care noted that only 72% of U.S. hospitals with 50 or more beds have a palliative care team.

For patients with serious illnesses and those who are socioeconomically or geographically disadvantaged, palliative care is often inaccessible.

Inefficiencies in the current system are an additional impediment. Palliative care specialists frequently see patients during a portion of the patient’s routine visit to subspecialty or primary care clinics. This limits the palliative care specialist’s ability to perform comprehensive assessments and provide patient-centered care efficiently.
 

Special considerations regarding telehealth for palliative care

As a specialty, palliative care involves interactions that could make the use of telehealth problematic. For example, conveyance of interest, warmth, and touch are challenging or impossible in a video format.

Palliative care specialists engage with patients regarding relatively serious topics such as prognosis and end-of-life preferences. There is uncertainty about how those discussions would be received by patients and their caregivers via video.

Furthermore, there are logistical impediments such as prescribing opioids with video or across state lines.

Despite these concerns, the ENABLE study showed that supplementing usual oncology care with weekly (transitioning to monthly) telephone-based educational palliative care produced higher quality of life and mood than did usual oncology care alone. These results were published in JAMA in 2009.
 

REACH PC study demonstrates feasibility of telehealth model

Dr. Temel described the ongoing REACH PC trial in which palliative care is delivered via video visits and compared with in-person palliative care for patients with advanced non–small cell lung cancer.

The primary aim of REACH PC is to determine whether telehealth palliative care is equivalent to traditional palliative care in improving quality of life as a supplement to routine oncology care.

Currently, REACH PC has enrolled 581 patients at its 20 sites, spanning a geographically diverse area. Just over half of patients approached about REACH PC agreed to enroll in it. Ultimately, 1,250 enrollees are sought.

Among patients who declined to participate, 7.6% indicated “discomfort with technology” as the reason. Most refusals were due to lack of interest in research (35.1%) and/or palliative care (22.9%).

Older adults were prominent among enrollees. More than 60% were older than 60 years of age, and more than one-third were older than 70 years.

Among patients who began the trial, there were slightly more withdrawals in the telehealth participants, in comparison with in-person participants (13.6% versus 9.1%).

When palliative care clinicians were queried about video visits, 64.3% said there were no challenges. This is comparable to the 65.5% of clinicians who had no challenges with in-person visits.

When problems occurred with video visits, they were most frequently technical (19.1%). Only 1.4% of clinicians reported difficulty addressing topics that felt uncomfortable over video, and 1.5% reported difficulty establishing rapport.

The success rates of video and in-person visits were similar. About 80% of visits accomplished planned goals.
 

‘Webside’ manner

Strategies such as reflective listening and summarizing what patients say (to verify an accurate understanding of the patient’s perspective) are key to successful palliative care visits, regardless of the setting.

For telehealth visits, Dr. Temel described techniques she defined as “webside manner,” to compensate for the inability of the clinician to touch a patient. These techniques include leaning in toward the camera, nodding, and pausing to be certain the patient has finished speaking before the clinician speaks again.
 

Is telehealth the future of palliative care?

I include myself among those oncologists who have voiced concern about moving from face-to-face to remote visits for complicated consultations such as those required for palliative care. Nonetheless, from the preliminary results of the REACH PC trial, it appears that telehealth could be a valuable tool.

To minimize differences between in-person and remote delivery of palliative care, practical strategies for ensuring rapport and facilitating a trusting relationship should be defined further and disseminated.

In addition, we need to be vigilant for widening inequities of care from rapid movement to the use of technology (i.e., an equity gap). In their telehealth experience during the COVID-19 pandemic, investigators at Houston Methodist Cancer Center found that patients declining virtual visits tended to be older, lower-income, and less likely to have commercial insurance. These results were recently published in JCO Oncology Practice.

For the foregoing reasons, hybrid systems for palliative care services will probably always be needed.

Going forward, we should heed the advice of Alvin Toffler in his book Future Shock. Mr. Toffler said, “The illiterate of the 21st century will not be those who cannot read and write, but those who cannot learn, unlearn, and relearn.”

The traditional model for delivering palliative care will almost certainly need to be reimagined and relearned.

Dr. Temel disclosed institutional research funding from Pfizer.


Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

Traditional delivery of palliative care to outpatients with cancer is associated with many challenges.

Dr. Alan P. Lyss

Telehealth can eliminate some of these challenges but comes with issues of its own, according to results of the REACH PC trial.

Jennifer S. Temel, MD, of Massachusetts General Hospital in Boston, discussed the use of telemedicine in palliative care, including results from REACH PC, during an educational session at the ASCO Virtual Quality Care Symposium 2020.

Dr. Temel noted that, for cancer patients, an in-person visit with a palliative care specialist can cost time, induce fatigue, and increase financial burden from transportation and parking expenses.

For caregivers and family, an in-person visit may necessitate absence from family and/or work, require complex scheduling to coordinate with other office visits, and result in additional transportation and/or parking expenses.

For health care systems, to have a dedicated palliative care clinic requires precious space and financial expenditures for office personnel and other resources.

These issues make it attractive to consider whether telehealth could be used for palliative care services.
 

Scarcity of palliative care specialists

In the United States, there is roughly 1 palliative care physician for every 20,000 older adults with a life-limiting illness, according to research published in Annual Review of Public Health in 2014.

In its 2019 state-by-state report card, the Center to Advance Palliative Care noted that only 72% of U.S. hospitals with 50 or more beds have a palliative care team.

For patients with serious illnesses and those who are socioeconomically or geographically disadvantaged, palliative care is often inaccessible.

Inefficiencies in the current system are an additional impediment. Palliative care specialists frequently see patients during a portion of the patient’s routine visit to subspecialty or primary care clinics. This limits the palliative care specialist’s ability to perform comprehensive assessments and provide patient-centered care efficiently.
 

Special considerations regarding telehealth for palliative care

As a specialty, palliative care involves interactions that could make the use of telehealth problematic. For example, conveyance of interest, warmth, and touch are challenging or impossible in a video format.

Palliative care specialists engage with patients regarding relatively serious topics such as prognosis and end-of-life preferences. There is uncertainty about how those discussions would be received by patients and their caregivers via video.

Furthermore, there are logistical impediments such as prescribing opioids with video or across state lines.

Despite these concerns, the ENABLE study showed that supplementing usual oncology care with weekly (transitioning to monthly) telephone-based educational palliative care produced higher quality of life and mood than did usual oncology care alone. These results were published in JAMA in 2009.
 

REACH PC study demonstrates feasibility of telehealth model

Dr. Temel described the ongoing REACH PC trial in which palliative care is delivered via video visits and compared with in-person palliative care for patients with advanced non–small cell lung cancer.

The primary aim of REACH PC is to determine whether telehealth palliative care is equivalent to traditional palliative care in improving quality of life as a supplement to routine oncology care.

Currently, REACH PC has enrolled 581 patients at its 20 sites, spanning a geographically diverse area. Just over half of patients approached about REACH PC agreed to enroll in it. Ultimately, 1,250 enrollees are sought.

Among patients who declined to participate, 7.6% indicated “discomfort with technology” as the reason. Most refusals were due to lack of interest in research (35.1%) and/or palliative care (22.9%).

Older adults were prominent among enrollees. More than 60% were older than 60 years of age, and more than one-third were older than 70 years.

Among patients who began the trial, there were slightly more withdrawals in the telehealth participants, in comparison with in-person participants (13.6% versus 9.1%).

When palliative care clinicians were queried about video visits, 64.3% said there were no challenges. This is comparable to the 65.5% of clinicians who had no challenges with in-person visits.

When problems occurred with video visits, they were most frequently technical (19.1%). Only 1.4% of clinicians reported difficulty addressing topics that felt uncomfortable over video, and 1.5% reported difficulty establishing rapport.

The success rates of video and in-person visits were similar. About 80% of visits accomplished planned goals.
 

‘Webside’ manner

Strategies such as reflective listening and summarizing what patients say (to verify an accurate understanding of the patient’s perspective) are key to successful palliative care visits, regardless of the setting.

For telehealth visits, Dr. Temel described techniques she defined as “webside manner,” to compensate for the inability of the clinician to touch a patient. These techniques include leaning in toward the camera, nodding, and pausing to be certain the patient has finished speaking before the clinician speaks again.
 

Is telehealth the future of palliative care?

I include myself among those oncologists who have voiced concern about moving from face-to-face to remote visits for complicated consultations such as those required for palliative care. Nonetheless, from the preliminary results of the REACH PC trial, it appears that telehealth could be a valuable tool.

To minimize differences between in-person and remote delivery of palliative care, practical strategies for ensuring rapport and facilitating a trusting relationship should be defined further and disseminated.

In addition, we need to be vigilant for widening inequities of care from rapid movement to the use of technology (i.e., an equity gap). In their telehealth experience during the COVID-19 pandemic, investigators at Houston Methodist Cancer Center found that patients declining virtual visits tended to be older, lower-income, and less likely to have commercial insurance. These results were recently published in JCO Oncology Practice.

For the foregoing reasons, hybrid systems for palliative care services will probably always be needed.

Going forward, we should heed the advice of Alvin Toffler in his book Future Shock. Mr. Toffler said, “The illiterate of the 21st century will not be those who cannot read and write, but those who cannot learn, unlearn, and relearn.”

The traditional model for delivering palliative care will almost certainly need to be reimagined and relearned.

Dr. Temel disclosed institutional research funding from Pfizer.


Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

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Efforts to close the ‘AYA gap’ in lymphoma

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Wed, 01/11/2023 - 15:11

 

In the 1970s, cancer survival was poor for young children and older adults in the United States, as shown by data published in the Journal of the National Cancer Institute.

Great progress has been made since the 1970s, but improvements in outcome have been less impressive for cancer patients aged 15-39 years, as shown by research published in Cancer.

Dr. Alan P. Lyss


Patients aged 15-39 years have been designated by the National Institutes of Health (NIH) as “adolescents and young adults (AYAs),” and the lag in survival benefit has been termed “the AYA gap.”

The AYA gap persists in lymphoma patients, and an expert panel recently outlined differences between lymphoma in AYAs and lymphoma in other age groups.

The experts spoke at a special session of the AACR Virtual Meeting: Advances in Malignant Lymphoma moderated by Somali M. Smith, MD, of the University of Chicago.
 

Factors that contribute to the AYA gap

About 89,000 AYAs are diagnosed with cancer each year in the United States, according to data from the National Cancer Institute (NCI). Lymphomas and thyroid cancer are the most common cancers among younger AYAs, aged 15-24 years.

In a report commissioned by the NIH in 2006, many factors contributing to the AYA gap were identified. Chief among them were:

  • Limitations in access to care.
  • Delayed diagnosis.
  • Inconsistency in treatment and follow-up.
  • Long-term toxicity (fertility, second malignancies, and cardiovascular disease).

These factors compromise health-related survival, even when cancer-specific survival is improved.

Panelist Kara Kelly, MD, of Roswell Park Comprehensive Cancer Center in Buffalo, N.Y., noted that there are additional unique challenges for AYAs with cancer. These include:

  • Pubertal changes.
  • Developmental transition to independence.
  • Societal impediments such as insurance coverage and disparities in access to specialized centers.
  • Psychosocial factors such as health literacy and adherence to treatment and follow-up.

Focusing on lymphoma specifically, Dr. Kelly noted that lymphoma biology differs across the age spectrum and by race and ethnicity. Both tumor and host factors require further study, she said.
 

Clinical trial access for AYAs

Dr. Kelly emphasized that, unfortunately, clinical research participation is low among AYAs. A major impediment is that adult clinical trials historically required participants to be at least 18 years old.

In addition, there has not been a focused effort to educate AYAs about regulatory safeguards to ensure safety and the promise of enhanced benefit to them in NCI Cancer Trials Network (NCTN) trials. As a result, the refusal rate is high.

A multi-stakeholder workshop, convened in May 2016 by the American Society of Clinical Oncology and Friends of Cancer Research, outlined opportunities for expanding trial eligibility to include children younger than 18 years in first-in-human and other adult cancer clinical trials, enhancing their access to new agents, without compromising safety.

Recently, collaborative efforts between the adult and children’s NCTN research groups have included AYAs in studies addressing cancers that span the age spectrum, including lymphoma.

However, as Dr. Kelly noted, there are differences in AYA lymphoid malignancy types with a transition from more pediatric to more adult types.
 

 

 

Hodgkin lymphoma and primary mediastinal B-cell lymphoma

Panelist Lisa G. Roth, MD, of Weill Cornell Medicine, New York, reviewed the genomic landscape of Hodgkin lymphoma (HL) and primary mediastinal B-cell lymphoma (PMBCL).

Dr. Roth explained that both HL and PMBCL are derived from thymic B cells, predominantly affect the mediastinum, and are CD30-positive lymphomas. Both are characterized by upregulation of JAK/STAT and NF-kappaB as well as overexpression of PD-L1.

Dr. Roth noted that HL is challenging to sequence by standard methods because Reed Sternberg (HRS) cells represent less than 1% of the cellular infiltrate. Recurrently mutated genes in HL cluster by histologic subtype.

Whole-exome sequencing of HRS cells show loss of beta-2 microglobulin and MHC-1 expression, HLA-B, NF-kappaB signaling, and JAK-STAT signaling, according to data published in Blood Advances in 2019.

Dr. Roth’s lab performed immunohistochemistry on tissue microarrays in 145 cases of HL (unpublished data). Results showed that loss of beta-2 microglobulin is more common in younger HL patients. For other alterations, there were too few cases to know.

Dr. Roth’s lab is a member of a pediatric/AYA HL sequencing multi-institutional consortium that has been able to extract DNA and RNA from samples submitted for whole-exome sequencing. The consortium’s goal is to shed light on implications of other genomic alterations that may differ by age in HL patients.

Dr. Roth cited research showing that PMBCL shares molecular alterations similar to those of HL. Alterations in PMBCL suggest dysregulated cellular signaling and immune evasion mechanisms (e.g., deletions in MHC type 1 and 2, beta-2 microglobulin, JAK-STAT, and NF-kappaB mutations) that provide opportunities to study novel agents, according to data published in Blood in 2019.

By early 2021, the S1826 and ANHL1931 studies, which have no age restriction, will be available to AYA lymphoma patients with HL and PMBCL, respectively, Dr. Roth said.
 

Follicular lymphoma: Clinical features by age

Panelist Abner Louissaint Jr, MD, PhD, of Massachusetts General Hospital in Boston, discussed age-related differences in follicular lymphoma (FL).

He noted that FL typically presents at an advanced stage, with low- or high-grade histology. It is increasingly common in adults in their 50s and 60s, representing 20% of all lymphomas. FL is rare in children and AYAs.

Dr. Louissaint explained that the typical flow cytometric findings in FL are BCL2 translocations, occurring in up to 85%-90% of low-grade and 50% of high-grade cases. The t(14;18)(q32;q21) translocation juxtaposes BCL2 on 18q21 to regulatory sequences and enhances the expression of elements of the Ig heavy chain.

Malignant cells in FL patients express CD20, CD10, CD21, and BCL2 (in contrast to normal germinal centers) and overexpress BCL6 (in contrast to normal follicles), Dr. Louissaint noted. He said the Ki-67 proliferative index of the malignant cells is typically low.

Pediatric-type FL is rare, but case series show clinical, pathologic, and molecular features that are distinctive from adult FL, Dr. Louissaint explained.

He then discussed the features of pediatric-type FL in multiple domains. In the clinical domain, there is a male predilection, and stage tends to be low. There is frequent involvement of nodes of the head and neck region and rare involvement of internal lymph node chains.

Pathologically, the malignant cells appear high grade, with architectural effacement, expansile follicular pattern, large lymphocyte size, and an elevated proliferation index. In contrast to adult FL, malignant cells in pediatric-type FL lack aberrant BCL2 expression.

Most importantly, for pediatric-type FL, the prognosis is excellent with durable remissions after surgical excision, Dr. Louissaint said.
 

 

 

Follicular lymphoma: Molecular features by age

Because of the excellent prognosis in pediatric-type FL, it is important to assess whether young adults with FL have adult-type or pediatric-type lesions, Dr. Louissaint said.

He cited many studies showing differences in adult and pediatric-type FL. In adult FL, the mutational landscape is characterized by frequent chromatin-modifying mutations in genes such as CREBBP, KM22D, and EP300.

In contrast, in pediatric-type FL, there are frequent activating MAPK pathway mutations, including mutations in the negative regulatory domain of MAP2K1. These mutations are not seen in adult FL.

Dr. Louissaint noted that there may be mutations in epigenetic modifiers (CREBBP, TNFRSF14) in both adult and pediatric-type FL. However, CREBBP is very unusual in pediatric-type FL and common in adult FL. This suggests the alterations in pediatric-type FL do not simply represent an early stage of the same disease as adult FL.

Despite a high proliferating fraction and absence of BCL2/BCL6/IRF4 rearrangements in pediatric-type FL, the presence of these features was associated with dramatic difference in progression-free survival, according to research published in Blood in 2012.
 

A distinct entity

In 2016, the World Health Organization recognized pediatric-type FL as a distinct entity, with the following diagnostic criteria (published in Blood):

  • At least partial effacement of nodal architecture, expansile follicles, intermediate-size blastoid cells, and no component of diffuse large B-cell lymphoma.
  • Immunohistochemistry showing BCL6 positivity, BCL2 negativity or weak positivity, and a high proliferative fraction.
  • Genomic studies showing no BCL2 amplification.
  • Clinical features of nodal disease in the head and neck region, early clinical stage, age younger than 40 years, typically in a male with no internal nodes involved.

When FL occurs in AYAs, the diagnostic findings of pediatric-type FL suggest the patient will do well with conservative management (e.g., excision alone), Dr. Louissaint noted.
 

Two sizes do not fit all

The strategies that have improved cancer outcomes since the 1970s for children and older adults have been much less successful for AYAs with cancer.

As an oncologic community, we should not allow the AYA gap to persist. As always, the solutions are likely to involve focused clinical research, education, and communication. Effort will need to be targeted specifically to the AYA population.

Since health-related mortality is high even when cancer-specific outcomes improve, adopting and maintaining a healthy lifestyle must be a key part of the discussion with these young patients.

The biologic differences associated with AYA lymphomas demand participation in clinical trials.

Oncologists should vigorously support removing impediments to the participation of AYAs in prospective clinical trials, stratified (but unrestricted) by age, with careful analysis of patient-reported outcomes, late adverse effects, and biospecimen collection.

As Dr. Kelly noted in the question-and-answer period, the Children’s Oncology Group has an existing biobank of paraffin-embedded tumor samples, DNA from lymphoma specimens, plasma, and sera with clinically annotated data that can be given to investigators upon request and justification.
 

 

 

Going beyond eligibility for clinical trials

Unfortunately, we will likely find that broadening eligibility criteria is the “low-hanging fruit.” There are protocol-, patient-, and physician-related obstacles, according to a review published in Cancer in 2019.

Patient-related obstacles include fear of toxicity, uncertainty about placebos, a steep learning curve for health literacy, insurance-related impediments, and other access-related issues.

Discussions will need to be tailored to the AYA population. Frank, early conversations about fertility, sexuality, financial hardship, career advancement, work-life balance, and cognitive risks may not only facilitate treatment planning but also encourage the trust that is essential for patients to enroll in trials.

The investment in time, multidisciplinary staff and physician involvement, and potential delays in treatment initiation may be painful and inconvenient, but the benefits for long-term health outcomes and personal-professional relationships will be gratifying beyond measure.

Dr. Smith disclosed relationships with Genentech/Roche, Celgene, TGTX, Karyopharm, Janssen, and Bantem. Dr. Roth disclosed relationships with Janssen, ADC Therapeutics, and Celgene. Dr. Kelly and Dr. Louissaint had no financial relationships to disclose.



Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

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Topics
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In the 1970s, cancer survival was poor for young children and older adults in the United States, as shown by data published in the Journal of the National Cancer Institute.

Great progress has been made since the 1970s, but improvements in outcome have been less impressive for cancer patients aged 15-39 years, as shown by research published in Cancer.

Dr. Alan P. Lyss


Patients aged 15-39 years have been designated by the National Institutes of Health (NIH) as “adolescents and young adults (AYAs),” and the lag in survival benefit has been termed “the AYA gap.”

The AYA gap persists in lymphoma patients, and an expert panel recently outlined differences between lymphoma in AYAs and lymphoma in other age groups.

The experts spoke at a special session of the AACR Virtual Meeting: Advances in Malignant Lymphoma moderated by Somali M. Smith, MD, of the University of Chicago.
 

Factors that contribute to the AYA gap

About 89,000 AYAs are diagnosed with cancer each year in the United States, according to data from the National Cancer Institute (NCI). Lymphomas and thyroid cancer are the most common cancers among younger AYAs, aged 15-24 years.

In a report commissioned by the NIH in 2006, many factors contributing to the AYA gap were identified. Chief among them were:

  • Limitations in access to care.
  • Delayed diagnosis.
  • Inconsistency in treatment and follow-up.
  • Long-term toxicity (fertility, second malignancies, and cardiovascular disease).

These factors compromise health-related survival, even when cancer-specific survival is improved.

Panelist Kara Kelly, MD, of Roswell Park Comprehensive Cancer Center in Buffalo, N.Y., noted that there are additional unique challenges for AYAs with cancer. These include:

  • Pubertal changes.
  • Developmental transition to independence.
  • Societal impediments such as insurance coverage and disparities in access to specialized centers.
  • Psychosocial factors such as health literacy and adherence to treatment and follow-up.

Focusing on lymphoma specifically, Dr. Kelly noted that lymphoma biology differs across the age spectrum and by race and ethnicity. Both tumor and host factors require further study, she said.
 

Clinical trial access for AYAs

Dr. Kelly emphasized that, unfortunately, clinical research participation is low among AYAs. A major impediment is that adult clinical trials historically required participants to be at least 18 years old.

In addition, there has not been a focused effort to educate AYAs about regulatory safeguards to ensure safety and the promise of enhanced benefit to them in NCI Cancer Trials Network (NCTN) trials. As a result, the refusal rate is high.

A multi-stakeholder workshop, convened in May 2016 by the American Society of Clinical Oncology and Friends of Cancer Research, outlined opportunities for expanding trial eligibility to include children younger than 18 years in first-in-human and other adult cancer clinical trials, enhancing their access to new agents, without compromising safety.

Recently, collaborative efforts between the adult and children’s NCTN research groups have included AYAs in studies addressing cancers that span the age spectrum, including lymphoma.

However, as Dr. Kelly noted, there are differences in AYA lymphoid malignancy types with a transition from more pediatric to more adult types.
 

 

 

Hodgkin lymphoma and primary mediastinal B-cell lymphoma

Panelist Lisa G. Roth, MD, of Weill Cornell Medicine, New York, reviewed the genomic landscape of Hodgkin lymphoma (HL) and primary mediastinal B-cell lymphoma (PMBCL).

Dr. Roth explained that both HL and PMBCL are derived from thymic B cells, predominantly affect the mediastinum, and are CD30-positive lymphomas. Both are characterized by upregulation of JAK/STAT and NF-kappaB as well as overexpression of PD-L1.

Dr. Roth noted that HL is challenging to sequence by standard methods because Reed Sternberg (HRS) cells represent less than 1% of the cellular infiltrate. Recurrently mutated genes in HL cluster by histologic subtype.

Whole-exome sequencing of HRS cells show loss of beta-2 microglobulin and MHC-1 expression, HLA-B, NF-kappaB signaling, and JAK-STAT signaling, according to data published in Blood Advances in 2019.

Dr. Roth’s lab performed immunohistochemistry on tissue microarrays in 145 cases of HL (unpublished data). Results showed that loss of beta-2 microglobulin is more common in younger HL patients. For other alterations, there were too few cases to know.

Dr. Roth’s lab is a member of a pediatric/AYA HL sequencing multi-institutional consortium that has been able to extract DNA and RNA from samples submitted for whole-exome sequencing. The consortium’s goal is to shed light on implications of other genomic alterations that may differ by age in HL patients.

Dr. Roth cited research showing that PMBCL shares molecular alterations similar to those of HL. Alterations in PMBCL suggest dysregulated cellular signaling and immune evasion mechanisms (e.g., deletions in MHC type 1 and 2, beta-2 microglobulin, JAK-STAT, and NF-kappaB mutations) that provide opportunities to study novel agents, according to data published in Blood in 2019.

By early 2021, the S1826 and ANHL1931 studies, which have no age restriction, will be available to AYA lymphoma patients with HL and PMBCL, respectively, Dr. Roth said.
 

Follicular lymphoma: Clinical features by age

Panelist Abner Louissaint Jr, MD, PhD, of Massachusetts General Hospital in Boston, discussed age-related differences in follicular lymphoma (FL).

He noted that FL typically presents at an advanced stage, with low- or high-grade histology. It is increasingly common in adults in their 50s and 60s, representing 20% of all lymphomas. FL is rare in children and AYAs.

Dr. Louissaint explained that the typical flow cytometric findings in FL are BCL2 translocations, occurring in up to 85%-90% of low-grade and 50% of high-grade cases. The t(14;18)(q32;q21) translocation juxtaposes BCL2 on 18q21 to regulatory sequences and enhances the expression of elements of the Ig heavy chain.

Malignant cells in FL patients express CD20, CD10, CD21, and BCL2 (in contrast to normal germinal centers) and overexpress BCL6 (in contrast to normal follicles), Dr. Louissaint noted. He said the Ki-67 proliferative index of the malignant cells is typically low.

Pediatric-type FL is rare, but case series show clinical, pathologic, and molecular features that are distinctive from adult FL, Dr. Louissaint explained.

He then discussed the features of pediatric-type FL in multiple domains. In the clinical domain, there is a male predilection, and stage tends to be low. There is frequent involvement of nodes of the head and neck region and rare involvement of internal lymph node chains.

Pathologically, the malignant cells appear high grade, with architectural effacement, expansile follicular pattern, large lymphocyte size, and an elevated proliferation index. In contrast to adult FL, malignant cells in pediatric-type FL lack aberrant BCL2 expression.

Most importantly, for pediatric-type FL, the prognosis is excellent with durable remissions after surgical excision, Dr. Louissaint said.
 

 

 

Follicular lymphoma: Molecular features by age

Because of the excellent prognosis in pediatric-type FL, it is important to assess whether young adults with FL have adult-type or pediatric-type lesions, Dr. Louissaint said.

He cited many studies showing differences in adult and pediatric-type FL. In adult FL, the mutational landscape is characterized by frequent chromatin-modifying mutations in genes such as CREBBP, KM22D, and EP300.

In contrast, in pediatric-type FL, there are frequent activating MAPK pathway mutations, including mutations in the negative regulatory domain of MAP2K1. These mutations are not seen in adult FL.

Dr. Louissaint noted that there may be mutations in epigenetic modifiers (CREBBP, TNFRSF14) in both adult and pediatric-type FL. However, CREBBP is very unusual in pediatric-type FL and common in adult FL. This suggests the alterations in pediatric-type FL do not simply represent an early stage of the same disease as adult FL.

Despite a high proliferating fraction and absence of BCL2/BCL6/IRF4 rearrangements in pediatric-type FL, the presence of these features was associated with dramatic difference in progression-free survival, according to research published in Blood in 2012.
 

A distinct entity

In 2016, the World Health Organization recognized pediatric-type FL as a distinct entity, with the following diagnostic criteria (published in Blood):

  • At least partial effacement of nodal architecture, expansile follicles, intermediate-size blastoid cells, and no component of diffuse large B-cell lymphoma.
  • Immunohistochemistry showing BCL6 positivity, BCL2 negativity or weak positivity, and a high proliferative fraction.
  • Genomic studies showing no BCL2 amplification.
  • Clinical features of nodal disease in the head and neck region, early clinical stage, age younger than 40 years, typically in a male with no internal nodes involved.

When FL occurs in AYAs, the diagnostic findings of pediatric-type FL suggest the patient will do well with conservative management (e.g., excision alone), Dr. Louissaint noted.
 

Two sizes do not fit all

The strategies that have improved cancer outcomes since the 1970s for children and older adults have been much less successful for AYAs with cancer.

As an oncologic community, we should not allow the AYA gap to persist. As always, the solutions are likely to involve focused clinical research, education, and communication. Effort will need to be targeted specifically to the AYA population.

Since health-related mortality is high even when cancer-specific outcomes improve, adopting and maintaining a healthy lifestyle must be a key part of the discussion with these young patients.

The biologic differences associated with AYA lymphomas demand participation in clinical trials.

Oncologists should vigorously support removing impediments to the participation of AYAs in prospective clinical trials, stratified (but unrestricted) by age, with careful analysis of patient-reported outcomes, late adverse effects, and biospecimen collection.

As Dr. Kelly noted in the question-and-answer period, the Children’s Oncology Group has an existing biobank of paraffin-embedded tumor samples, DNA from lymphoma specimens, plasma, and sera with clinically annotated data that can be given to investigators upon request and justification.
 

 

 

Going beyond eligibility for clinical trials

Unfortunately, we will likely find that broadening eligibility criteria is the “low-hanging fruit.” There are protocol-, patient-, and physician-related obstacles, according to a review published in Cancer in 2019.

Patient-related obstacles include fear of toxicity, uncertainty about placebos, a steep learning curve for health literacy, insurance-related impediments, and other access-related issues.

Discussions will need to be tailored to the AYA population. Frank, early conversations about fertility, sexuality, financial hardship, career advancement, work-life balance, and cognitive risks may not only facilitate treatment planning but also encourage the trust that is essential for patients to enroll in trials.

The investment in time, multidisciplinary staff and physician involvement, and potential delays in treatment initiation may be painful and inconvenient, but the benefits for long-term health outcomes and personal-professional relationships will be gratifying beyond measure.

Dr. Smith disclosed relationships with Genentech/Roche, Celgene, TGTX, Karyopharm, Janssen, and Bantem. Dr. Roth disclosed relationships with Janssen, ADC Therapeutics, and Celgene. Dr. Kelly and Dr. Louissaint had no financial relationships to disclose.



Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

 

In the 1970s, cancer survival was poor for young children and older adults in the United States, as shown by data published in the Journal of the National Cancer Institute.

Great progress has been made since the 1970s, but improvements in outcome have been less impressive for cancer patients aged 15-39 years, as shown by research published in Cancer.

Dr. Alan P. Lyss


Patients aged 15-39 years have been designated by the National Institutes of Health (NIH) as “adolescents and young adults (AYAs),” and the lag in survival benefit has been termed “the AYA gap.”

The AYA gap persists in lymphoma patients, and an expert panel recently outlined differences between lymphoma in AYAs and lymphoma in other age groups.

The experts spoke at a special session of the AACR Virtual Meeting: Advances in Malignant Lymphoma moderated by Somali M. Smith, MD, of the University of Chicago.
 

Factors that contribute to the AYA gap

About 89,000 AYAs are diagnosed with cancer each year in the United States, according to data from the National Cancer Institute (NCI). Lymphomas and thyroid cancer are the most common cancers among younger AYAs, aged 15-24 years.

In a report commissioned by the NIH in 2006, many factors contributing to the AYA gap were identified. Chief among them were:

  • Limitations in access to care.
  • Delayed diagnosis.
  • Inconsistency in treatment and follow-up.
  • Long-term toxicity (fertility, second malignancies, and cardiovascular disease).

These factors compromise health-related survival, even when cancer-specific survival is improved.

Panelist Kara Kelly, MD, of Roswell Park Comprehensive Cancer Center in Buffalo, N.Y., noted that there are additional unique challenges for AYAs with cancer. These include:

  • Pubertal changes.
  • Developmental transition to independence.
  • Societal impediments such as insurance coverage and disparities in access to specialized centers.
  • Psychosocial factors such as health literacy and adherence to treatment and follow-up.

Focusing on lymphoma specifically, Dr. Kelly noted that lymphoma biology differs across the age spectrum and by race and ethnicity. Both tumor and host factors require further study, she said.
 

Clinical trial access for AYAs

Dr. Kelly emphasized that, unfortunately, clinical research participation is low among AYAs. A major impediment is that adult clinical trials historically required participants to be at least 18 years old.

In addition, there has not been a focused effort to educate AYAs about regulatory safeguards to ensure safety and the promise of enhanced benefit to them in NCI Cancer Trials Network (NCTN) trials. As a result, the refusal rate is high.

A multi-stakeholder workshop, convened in May 2016 by the American Society of Clinical Oncology and Friends of Cancer Research, outlined opportunities for expanding trial eligibility to include children younger than 18 years in first-in-human and other adult cancer clinical trials, enhancing their access to new agents, without compromising safety.

Recently, collaborative efforts between the adult and children’s NCTN research groups have included AYAs in studies addressing cancers that span the age spectrum, including lymphoma.

However, as Dr. Kelly noted, there are differences in AYA lymphoid malignancy types with a transition from more pediatric to more adult types.
 

 

 

Hodgkin lymphoma and primary mediastinal B-cell lymphoma

Panelist Lisa G. Roth, MD, of Weill Cornell Medicine, New York, reviewed the genomic landscape of Hodgkin lymphoma (HL) and primary mediastinal B-cell lymphoma (PMBCL).

Dr. Roth explained that both HL and PMBCL are derived from thymic B cells, predominantly affect the mediastinum, and are CD30-positive lymphomas. Both are characterized by upregulation of JAK/STAT and NF-kappaB as well as overexpression of PD-L1.

Dr. Roth noted that HL is challenging to sequence by standard methods because Reed Sternberg (HRS) cells represent less than 1% of the cellular infiltrate. Recurrently mutated genes in HL cluster by histologic subtype.

Whole-exome sequencing of HRS cells show loss of beta-2 microglobulin and MHC-1 expression, HLA-B, NF-kappaB signaling, and JAK-STAT signaling, according to data published in Blood Advances in 2019.

Dr. Roth’s lab performed immunohistochemistry on tissue microarrays in 145 cases of HL (unpublished data). Results showed that loss of beta-2 microglobulin is more common in younger HL patients. For other alterations, there were too few cases to know.

Dr. Roth’s lab is a member of a pediatric/AYA HL sequencing multi-institutional consortium that has been able to extract DNA and RNA from samples submitted for whole-exome sequencing. The consortium’s goal is to shed light on implications of other genomic alterations that may differ by age in HL patients.

Dr. Roth cited research showing that PMBCL shares molecular alterations similar to those of HL. Alterations in PMBCL suggest dysregulated cellular signaling and immune evasion mechanisms (e.g., deletions in MHC type 1 and 2, beta-2 microglobulin, JAK-STAT, and NF-kappaB mutations) that provide opportunities to study novel agents, according to data published in Blood in 2019.

By early 2021, the S1826 and ANHL1931 studies, which have no age restriction, will be available to AYA lymphoma patients with HL and PMBCL, respectively, Dr. Roth said.
 

Follicular lymphoma: Clinical features by age

Panelist Abner Louissaint Jr, MD, PhD, of Massachusetts General Hospital in Boston, discussed age-related differences in follicular lymphoma (FL).

He noted that FL typically presents at an advanced stage, with low- or high-grade histology. It is increasingly common in adults in their 50s and 60s, representing 20% of all lymphomas. FL is rare in children and AYAs.

Dr. Louissaint explained that the typical flow cytometric findings in FL are BCL2 translocations, occurring in up to 85%-90% of low-grade and 50% of high-grade cases. The t(14;18)(q32;q21) translocation juxtaposes BCL2 on 18q21 to regulatory sequences and enhances the expression of elements of the Ig heavy chain.

Malignant cells in FL patients express CD20, CD10, CD21, and BCL2 (in contrast to normal germinal centers) and overexpress BCL6 (in contrast to normal follicles), Dr. Louissaint noted. He said the Ki-67 proliferative index of the malignant cells is typically low.

Pediatric-type FL is rare, but case series show clinical, pathologic, and molecular features that are distinctive from adult FL, Dr. Louissaint explained.

He then discussed the features of pediatric-type FL in multiple domains. In the clinical domain, there is a male predilection, and stage tends to be low. There is frequent involvement of nodes of the head and neck region and rare involvement of internal lymph node chains.

Pathologically, the malignant cells appear high grade, with architectural effacement, expansile follicular pattern, large lymphocyte size, and an elevated proliferation index. In contrast to adult FL, malignant cells in pediatric-type FL lack aberrant BCL2 expression.

Most importantly, for pediatric-type FL, the prognosis is excellent with durable remissions after surgical excision, Dr. Louissaint said.
 

 

 

Follicular lymphoma: Molecular features by age

Because of the excellent prognosis in pediatric-type FL, it is important to assess whether young adults with FL have adult-type or pediatric-type lesions, Dr. Louissaint said.

He cited many studies showing differences in adult and pediatric-type FL. In adult FL, the mutational landscape is characterized by frequent chromatin-modifying mutations in genes such as CREBBP, KM22D, and EP300.

In contrast, in pediatric-type FL, there are frequent activating MAPK pathway mutations, including mutations in the negative regulatory domain of MAP2K1. These mutations are not seen in adult FL.

Dr. Louissaint noted that there may be mutations in epigenetic modifiers (CREBBP, TNFRSF14) in both adult and pediatric-type FL. However, CREBBP is very unusual in pediatric-type FL and common in adult FL. This suggests the alterations in pediatric-type FL do not simply represent an early stage of the same disease as adult FL.

Despite a high proliferating fraction and absence of BCL2/BCL6/IRF4 rearrangements in pediatric-type FL, the presence of these features was associated with dramatic difference in progression-free survival, according to research published in Blood in 2012.
 

A distinct entity

In 2016, the World Health Organization recognized pediatric-type FL as a distinct entity, with the following diagnostic criteria (published in Blood):

  • At least partial effacement of nodal architecture, expansile follicles, intermediate-size blastoid cells, and no component of diffuse large B-cell lymphoma.
  • Immunohistochemistry showing BCL6 positivity, BCL2 negativity or weak positivity, and a high proliferative fraction.
  • Genomic studies showing no BCL2 amplification.
  • Clinical features of nodal disease in the head and neck region, early clinical stage, age younger than 40 years, typically in a male with no internal nodes involved.

When FL occurs in AYAs, the diagnostic findings of pediatric-type FL suggest the patient will do well with conservative management (e.g., excision alone), Dr. Louissaint noted.
 

Two sizes do not fit all

The strategies that have improved cancer outcomes since the 1970s for children and older adults have been much less successful for AYAs with cancer.

As an oncologic community, we should not allow the AYA gap to persist. As always, the solutions are likely to involve focused clinical research, education, and communication. Effort will need to be targeted specifically to the AYA population.

Since health-related mortality is high even when cancer-specific outcomes improve, adopting and maintaining a healthy lifestyle must be a key part of the discussion with these young patients.

The biologic differences associated with AYA lymphomas demand participation in clinical trials.

Oncologists should vigorously support removing impediments to the participation of AYAs in prospective clinical trials, stratified (but unrestricted) by age, with careful analysis of patient-reported outcomes, late adverse effects, and biospecimen collection.

As Dr. Kelly noted in the question-and-answer period, the Children’s Oncology Group has an existing biobank of paraffin-embedded tumor samples, DNA from lymphoma specimens, plasma, and sera with clinically annotated data that can be given to investigators upon request and justification.
 

 

 

Going beyond eligibility for clinical trials

Unfortunately, we will likely find that broadening eligibility criteria is the “low-hanging fruit.” There are protocol-, patient-, and physician-related obstacles, according to a review published in Cancer in 2019.

Patient-related obstacles include fear of toxicity, uncertainty about placebos, a steep learning curve for health literacy, insurance-related impediments, and other access-related issues.

Discussions will need to be tailored to the AYA population. Frank, early conversations about fertility, sexuality, financial hardship, career advancement, work-life balance, and cognitive risks may not only facilitate treatment planning but also encourage the trust that is essential for patients to enroll in trials.

The investment in time, multidisciplinary staff and physician involvement, and potential delays in treatment initiation may be painful and inconvenient, but the benefits for long-term health outcomes and personal-professional relationships will be gratifying beyond measure.

Dr. Smith disclosed relationships with Genentech/Roche, Celgene, TGTX, Karyopharm, Janssen, and Bantem. Dr. Roth disclosed relationships with Janssen, ADC Therapeutics, and Celgene. Dr. Kelly and Dr. Louissaint had no financial relationships to disclose.



Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

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The scope of under- and overtreatment in older adults with cancer

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Because of physiological changes with aging and differences in cancer biology, caring for older adults (OAs) with cancer requires careful assessment and planning.

Clark Dumontier, MD, of Brigham and Women’s Hospital in Boston, and colleagues sought to define the meaning of the terms “undertreatment” and “overtreatment” for OAs with cancer in a scoping literature review published in the Journal of Clinical Oncology.

Though OAs are typically defined as adults aged 65 years and older, in this review, the authors defined OAs as patients aged 60 years and older.

The authors theorized that a scoping review of papers about this patient population could provide clues about limitations in the oncology literature and guidance about patient management and future research. Despite comprising the majority of cancer patients, OAs are underrepresented in clinical trials.
 

About scoping reviews

Scoping reviews are used to identify existing evidence in a field, clarify concepts or definitions in the literature, survey how research on a topic is conducted, and identify knowledge gaps. In addition, scoping reviews summarize available evidence without answering a discrete research question.

Industry standards for scoping reviews have been established by the Johanna Briggs Institute and Preferred Reporting Items for Systematic Reviews and Meta-analyses extension for scoping reviews. According to these standards, scoping reviews should:

  • Establish eligibility criteria with a rationale for each criterion clearly explained
  • Search multiple databases in multiple languages
  • Include “gray literature,” defined as studies that are unpublished or difficult to locate
  • Have several independent reviewers screen titles and abstracts
  • Ask multiple independent reviewers to review full text articles
  • Present results with charts or diagrams that align with the review’s objective
  • Graphically depict the decision process for including/excluding sources
  • Identify implications for further research.

In their review, Dr. DuMontier and colleagues fulfilled many of the aforementioned criteria. The team searched three English-language databases for titles and abstracts that included the terms undertreatment and/or overtreatment, and were related to OAs with cancer, inclusive of all types of articles, cancer types, and treatments.

Definitions of undertreatment and overtreatment were extracted, and categories underlying these definitions were derived. Within a random subset of articles, two coauthors independently determined final categories of definitions and independently assigned those categories.
 

Findings and implications

To define OA, Dr. DuMontier and colleagues used a cutoff of 60 years or older. Articles mentioning undertreatment (n = 236), overtreatment (n = 71), or both (n = 51) met criteria for inclusion (n = 256), but only 14 articles (5.5%) explicitly provided formal definitions.

For most of the reviewed articles, the authors judged definitions from the surrounding context. In a random subset of 50 articles, there was a high level of agreement (87.1%; κ = 0.81) between two coauthors in independently assigning categories of definitions.

Undertreatment was applied to therapy that was less than recommended (148 articles; 62.7%) or less than recommended with worse outcomes (88 articles; 37.3%).

Overtreatment most commonly denoted intensive treatment of an OA in whom harms outweighed the benefits of treatment (38 articles; 53.5%) or intensive treatment of a cancer not expected to affect the OA during the patient’s remaining life (33 articles; 46.5%).

Overall, the authors found that undertreatment and overtreatment of OAs with cancer are imprecisely defined concepts. Formal geriatric assessment was recommended in just over half of articles, and only 26.2% recommended formal assessments of age-related vulnerabilities for management. The authors proposed definitions that accounted for both oncologic factors and geriatric domains.
 

 

 

Care of individual patients and clinical research

National Comprehensive Cancer Network (NCCN) guidelines for OAs with cancer recommend initial consideration of overall life expectancy. If a patient is a candidate for cancer treatment on that basis, the next recommended assessment is that of the patient’s capacity to understand the relevant information, appreciate the underlying values and overall medical situation, reason through decisions, and communicate a choice that is consistent with the patient’s articulated goals.

In the pretreatment evaluation of OAs in whom there are no concerns about tolerance to antineoplastic therapy, NCCN guidelines suggest geriatric screening with standardized tools and, if abnormal, comprehensive geriatric screening. The guidelines recommend considering alternative treatment options if nonmodifiable abnormalities are identified.

Referral to a geriatric clinical specialist, use of the Cancer and Aging Research Group’s Chemo Toxicity Calculator, and calculation of Chemotherapy Risk Assessment Scale for High-Age Patients score are specifically suggested if high-risk procedures (such as chemotherapy, radiation, or complex surgery, which most oncologists would consider to be “another day in the office”) are contemplated.

The American Society of Clinical Oncology (ASCO) guidelines for geriatric oncology are similarly detailed and endorse similar evaluations and management.

Employing disease-centric and geriatric domains

Dr. DuMontier and colleagues noted that, for OAs with comorbidity or psychosocial challenges, surrogate survival endpoints are unrelated to quality of life (QOL) outcomes. Nonetheless, QOL is valued by OAs at least as much as survival improvement.

Through no fault of their own, the authors’ conclusion that undertreatment and overtreatment are imperfectly defined concepts has a certain neutrality to it. However, the terms undertreatment and overtreatment are commonly used to signify that inappropriate treatment decisions were made. Therefore, the terms are inherently negative and pejorative.

As with most emotionally charged issues in oncology, it is ideal for professionals in our field to take charge when deficiencies exist. ASCO, NCCN, and the authors of this scoping review have provided a conceptual basis for doing so.

An integrated oncologist-geriatrician approach was shown to be effective in the randomized INTEGERATE trial, showing improved QOL, reduced hospital admissions, and reduced early treatment discontinuation from adverse events (ASCO 2020, Abstract 12011).

Therefore, those clinicians who have not formally, systematically, and routinely supplemented the traditional disease-centric endpoints with patient-centered criteria need to do so.

Similarly, a retrospective study published in JAMA Network Open demonstrated that geriatric and surgical comanagement of OAs with cancer was associated with significantly lower 90-day postoperative mortality and receipt of more supportive care services (physical therapy, occupational therapy, speech and swallow rehabilitation, and nutrition services), in comparison with management from the surgical service only.

These clinical and administrative changes will not only enhance patient management but also facilitate the clinical trials required to clarify optimal treatment intensity. As that occurs, we will be able to apply as much precision to the care of OAs with cancer as we do in other areas of cancer treatment.

Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

SOURCE: Dumontier C et al. J Clin Oncol. 2020 Aug 1;38(22):2558-2569.

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Because of physiological changes with aging and differences in cancer biology, caring for older adults (OAs) with cancer requires careful assessment and planning.

Clark Dumontier, MD, of Brigham and Women’s Hospital in Boston, and colleagues sought to define the meaning of the terms “undertreatment” and “overtreatment” for OAs with cancer in a scoping literature review published in the Journal of Clinical Oncology.

Though OAs are typically defined as adults aged 65 years and older, in this review, the authors defined OAs as patients aged 60 years and older.

The authors theorized that a scoping review of papers about this patient population could provide clues about limitations in the oncology literature and guidance about patient management and future research. Despite comprising the majority of cancer patients, OAs are underrepresented in clinical trials.
 

About scoping reviews

Scoping reviews are used to identify existing evidence in a field, clarify concepts or definitions in the literature, survey how research on a topic is conducted, and identify knowledge gaps. In addition, scoping reviews summarize available evidence without answering a discrete research question.

Industry standards for scoping reviews have been established by the Johanna Briggs Institute and Preferred Reporting Items for Systematic Reviews and Meta-analyses extension for scoping reviews. According to these standards, scoping reviews should:

  • Establish eligibility criteria with a rationale for each criterion clearly explained
  • Search multiple databases in multiple languages
  • Include “gray literature,” defined as studies that are unpublished or difficult to locate
  • Have several independent reviewers screen titles and abstracts
  • Ask multiple independent reviewers to review full text articles
  • Present results with charts or diagrams that align with the review’s objective
  • Graphically depict the decision process for including/excluding sources
  • Identify implications for further research.

In their review, Dr. DuMontier and colleagues fulfilled many of the aforementioned criteria. The team searched three English-language databases for titles and abstracts that included the terms undertreatment and/or overtreatment, and were related to OAs with cancer, inclusive of all types of articles, cancer types, and treatments.

Definitions of undertreatment and overtreatment were extracted, and categories underlying these definitions were derived. Within a random subset of articles, two coauthors independently determined final categories of definitions and independently assigned those categories.
 

Findings and implications

To define OA, Dr. DuMontier and colleagues used a cutoff of 60 years or older. Articles mentioning undertreatment (n = 236), overtreatment (n = 71), or both (n = 51) met criteria for inclusion (n = 256), but only 14 articles (5.5%) explicitly provided formal definitions.

For most of the reviewed articles, the authors judged definitions from the surrounding context. In a random subset of 50 articles, there was a high level of agreement (87.1%; κ = 0.81) between two coauthors in independently assigning categories of definitions.

Undertreatment was applied to therapy that was less than recommended (148 articles; 62.7%) or less than recommended with worse outcomes (88 articles; 37.3%).

Overtreatment most commonly denoted intensive treatment of an OA in whom harms outweighed the benefits of treatment (38 articles; 53.5%) or intensive treatment of a cancer not expected to affect the OA during the patient’s remaining life (33 articles; 46.5%).

Overall, the authors found that undertreatment and overtreatment of OAs with cancer are imprecisely defined concepts. Formal geriatric assessment was recommended in just over half of articles, and only 26.2% recommended formal assessments of age-related vulnerabilities for management. The authors proposed definitions that accounted for both oncologic factors and geriatric domains.
 

 

 

Care of individual patients and clinical research

National Comprehensive Cancer Network (NCCN) guidelines for OAs with cancer recommend initial consideration of overall life expectancy. If a patient is a candidate for cancer treatment on that basis, the next recommended assessment is that of the patient’s capacity to understand the relevant information, appreciate the underlying values and overall medical situation, reason through decisions, and communicate a choice that is consistent with the patient’s articulated goals.

In the pretreatment evaluation of OAs in whom there are no concerns about tolerance to antineoplastic therapy, NCCN guidelines suggest geriatric screening with standardized tools and, if abnormal, comprehensive geriatric screening. The guidelines recommend considering alternative treatment options if nonmodifiable abnormalities are identified.

Referral to a geriatric clinical specialist, use of the Cancer and Aging Research Group’s Chemo Toxicity Calculator, and calculation of Chemotherapy Risk Assessment Scale for High-Age Patients score are specifically suggested if high-risk procedures (such as chemotherapy, radiation, or complex surgery, which most oncologists would consider to be “another day in the office”) are contemplated.

The American Society of Clinical Oncology (ASCO) guidelines for geriatric oncology are similarly detailed and endorse similar evaluations and management.

Employing disease-centric and geriatric domains

Dr. DuMontier and colleagues noted that, for OAs with comorbidity or psychosocial challenges, surrogate survival endpoints are unrelated to quality of life (QOL) outcomes. Nonetheless, QOL is valued by OAs at least as much as survival improvement.

Through no fault of their own, the authors’ conclusion that undertreatment and overtreatment are imperfectly defined concepts has a certain neutrality to it. However, the terms undertreatment and overtreatment are commonly used to signify that inappropriate treatment decisions were made. Therefore, the terms are inherently negative and pejorative.

As with most emotionally charged issues in oncology, it is ideal for professionals in our field to take charge when deficiencies exist. ASCO, NCCN, and the authors of this scoping review have provided a conceptual basis for doing so.

An integrated oncologist-geriatrician approach was shown to be effective in the randomized INTEGERATE trial, showing improved QOL, reduced hospital admissions, and reduced early treatment discontinuation from adverse events (ASCO 2020, Abstract 12011).

Therefore, those clinicians who have not formally, systematically, and routinely supplemented the traditional disease-centric endpoints with patient-centered criteria need to do so.

Similarly, a retrospective study published in JAMA Network Open demonstrated that geriatric and surgical comanagement of OAs with cancer was associated with significantly lower 90-day postoperative mortality and receipt of more supportive care services (physical therapy, occupational therapy, speech and swallow rehabilitation, and nutrition services), in comparison with management from the surgical service only.

These clinical and administrative changes will not only enhance patient management but also facilitate the clinical trials required to clarify optimal treatment intensity. As that occurs, we will be able to apply as much precision to the care of OAs with cancer as we do in other areas of cancer treatment.

Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

SOURCE: Dumontier C et al. J Clin Oncol. 2020 Aug 1;38(22):2558-2569.

 

Because of physiological changes with aging and differences in cancer biology, caring for older adults (OAs) with cancer requires careful assessment and planning.

Clark Dumontier, MD, of Brigham and Women’s Hospital in Boston, and colleagues sought to define the meaning of the terms “undertreatment” and “overtreatment” for OAs with cancer in a scoping literature review published in the Journal of Clinical Oncology.

Though OAs are typically defined as adults aged 65 years and older, in this review, the authors defined OAs as patients aged 60 years and older.

The authors theorized that a scoping review of papers about this patient population could provide clues about limitations in the oncology literature and guidance about patient management and future research. Despite comprising the majority of cancer patients, OAs are underrepresented in clinical trials.
 

About scoping reviews

Scoping reviews are used to identify existing evidence in a field, clarify concepts or definitions in the literature, survey how research on a topic is conducted, and identify knowledge gaps. In addition, scoping reviews summarize available evidence without answering a discrete research question.

Industry standards for scoping reviews have been established by the Johanna Briggs Institute and Preferred Reporting Items for Systematic Reviews and Meta-analyses extension for scoping reviews. According to these standards, scoping reviews should:

  • Establish eligibility criteria with a rationale for each criterion clearly explained
  • Search multiple databases in multiple languages
  • Include “gray literature,” defined as studies that are unpublished or difficult to locate
  • Have several independent reviewers screen titles and abstracts
  • Ask multiple independent reviewers to review full text articles
  • Present results with charts or diagrams that align with the review’s objective
  • Graphically depict the decision process for including/excluding sources
  • Identify implications for further research.

In their review, Dr. DuMontier and colleagues fulfilled many of the aforementioned criteria. The team searched three English-language databases for titles and abstracts that included the terms undertreatment and/or overtreatment, and were related to OAs with cancer, inclusive of all types of articles, cancer types, and treatments.

Definitions of undertreatment and overtreatment were extracted, and categories underlying these definitions were derived. Within a random subset of articles, two coauthors independently determined final categories of definitions and independently assigned those categories.
 

Findings and implications

To define OA, Dr. DuMontier and colleagues used a cutoff of 60 years or older. Articles mentioning undertreatment (n = 236), overtreatment (n = 71), or both (n = 51) met criteria for inclusion (n = 256), but only 14 articles (5.5%) explicitly provided formal definitions.

For most of the reviewed articles, the authors judged definitions from the surrounding context. In a random subset of 50 articles, there was a high level of agreement (87.1%; κ = 0.81) between two coauthors in independently assigning categories of definitions.

Undertreatment was applied to therapy that was less than recommended (148 articles; 62.7%) or less than recommended with worse outcomes (88 articles; 37.3%).

Overtreatment most commonly denoted intensive treatment of an OA in whom harms outweighed the benefits of treatment (38 articles; 53.5%) or intensive treatment of a cancer not expected to affect the OA during the patient’s remaining life (33 articles; 46.5%).

Overall, the authors found that undertreatment and overtreatment of OAs with cancer are imprecisely defined concepts. Formal geriatric assessment was recommended in just over half of articles, and only 26.2% recommended formal assessments of age-related vulnerabilities for management. The authors proposed definitions that accounted for both oncologic factors and geriatric domains.
 

 

 

Care of individual patients and clinical research

National Comprehensive Cancer Network (NCCN) guidelines for OAs with cancer recommend initial consideration of overall life expectancy. If a patient is a candidate for cancer treatment on that basis, the next recommended assessment is that of the patient’s capacity to understand the relevant information, appreciate the underlying values and overall medical situation, reason through decisions, and communicate a choice that is consistent with the patient’s articulated goals.

In the pretreatment evaluation of OAs in whom there are no concerns about tolerance to antineoplastic therapy, NCCN guidelines suggest geriatric screening with standardized tools and, if abnormal, comprehensive geriatric screening. The guidelines recommend considering alternative treatment options if nonmodifiable abnormalities are identified.

Referral to a geriatric clinical specialist, use of the Cancer and Aging Research Group’s Chemo Toxicity Calculator, and calculation of Chemotherapy Risk Assessment Scale for High-Age Patients score are specifically suggested if high-risk procedures (such as chemotherapy, radiation, or complex surgery, which most oncologists would consider to be “another day in the office”) are contemplated.

The American Society of Clinical Oncology (ASCO) guidelines for geriatric oncology are similarly detailed and endorse similar evaluations and management.

Employing disease-centric and geriatric domains

Dr. DuMontier and colleagues noted that, for OAs with comorbidity or psychosocial challenges, surrogate survival endpoints are unrelated to quality of life (QOL) outcomes. Nonetheless, QOL is valued by OAs at least as much as survival improvement.

Through no fault of their own, the authors’ conclusion that undertreatment and overtreatment are imperfectly defined concepts has a certain neutrality to it. However, the terms undertreatment and overtreatment are commonly used to signify that inappropriate treatment decisions were made. Therefore, the terms are inherently negative and pejorative.

As with most emotionally charged issues in oncology, it is ideal for professionals in our field to take charge when deficiencies exist. ASCO, NCCN, and the authors of this scoping review have provided a conceptual basis for doing so.

An integrated oncologist-geriatrician approach was shown to be effective in the randomized INTEGERATE trial, showing improved QOL, reduced hospital admissions, and reduced early treatment discontinuation from adverse events (ASCO 2020, Abstract 12011).

Therefore, those clinicians who have not formally, systematically, and routinely supplemented the traditional disease-centric endpoints with patient-centered criteria need to do so.

Similarly, a retrospective study published in JAMA Network Open demonstrated that geriatric and surgical comanagement of OAs with cancer was associated with significantly lower 90-day postoperative mortality and receipt of more supportive care services (physical therapy, occupational therapy, speech and swallow rehabilitation, and nutrition services), in comparison with management from the surgical service only.

These clinical and administrative changes will not only enhance patient management but also facilitate the clinical trials required to clarify optimal treatment intensity. As that occurs, we will be able to apply as much precision to the care of OAs with cancer as we do in other areas of cancer treatment.

Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

SOURCE: Dumontier C et al. J Clin Oncol. 2020 Aug 1;38(22):2558-2569.

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COVID-19 prompts ‘democratization’ of cancer trials

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Although COVID-19 has had negative effects on cancer research, the pandemic has also led to democratization of clinical trials, according to a panelist who spoke at the AACR virtual meeting: COVID-19 and Cancer.

Dr. Alan P. Lyss

The pandemic has taught researchers how to decentralize trials, which should not only improve patient satisfaction but increase trial accrual by providing access to typically underserved populations, Patricia M. LoRusso, DO, of Yale University, New Haven, Conn., said at the meeting.

Dr. LoRusso was one of six panelists who participated in a forum about changes to cancer trials that were prompted by the pandemic. The forum was moderated by Keith T. Flaherty, MD, of Massachusetts General Hospital in Boston.

Dr. Flaherty asked the panelists to explain adjustments their organizations have made in response to the pandemic, discuss accomplishments, and speculate on future challenges and priorities.
 

Trial, administrative, and patient-care modifications

COVID-19 put some cancer trials on hold. For others, the pandemic forced sponsors and study chairs to reduce trial complexity and identify nonessential aspects of the studies, according to panelist José Baselga, MD, PhD, of AstraZeneca.

Specifically, exploratory objectives were subjugated to patient safety and a focus on the primary endpoints of each trial.

Once the critical data were identified, study chairs were asked to determine whether data could be obtained through technologies that could substitute for face-to-face contact between patients and staff – for example, patient-reported outcome tools and at-home digital monitoring.

Modifications prompted by the pandemic include the following:

  • On-site auditing was suspended.
  • Oral investigational agents were shipped directly to patients.
  • “Remote” informed consent (telephone or video consenting) was permitted.
  • Local providers could perform study-related services, with oversight by the research site.
  • Minor deviations from the written protocols were allowed, provided the deviations did not affect patient care or data integrity.

“Obviously, the pandemic has been horrible, but what it has allowed us to do, as investigators in the clinical research landscape, … is to change our focus somewhat and realize, first and foremost, the patient is at the center of this,” Dr. LoRusso said.
 

Operational accomplishments and benefits

The pandemic caused a 40% decline in accrual to studies supported by the National Cancer Institute’s (NCI) Clinical Trials Network (NCTN) from mid-March to early April, according to James H. Doroshow, MD, of NCI.

However, after modifications to administrative and regulatory procedures, accrual to NCTN trials recovered to approximately 80% of prepandemic levels, Dr. Doroshow said.

The pandemic prompted investigators to leverage tools and technology they had not previously used frequently or at all, the panelists pointed out.

Investigators discovered perforce that telehealth could be used for almost all trial-related assessments. In lieu of physical examination, patients could send pictures of rashes and use electronic devices to monitor blood sugar values and vital signs.

Digital radiographic studies were performed at sites that were most convenient for patients, downloaded, and reinterpreted at the study institution. Visiting nurses and neighborhood laboratories enabled less-frequent in-person visits for assessments.

These adjustments have been particularly important for geographically and/or socioeconomically disadvantaged patients, the panelists said.

Overall, there was agreement among the panelists that shared values and trust among regulatory authorities, sponsors, investigators, and clinicians were impressive in their urgency, sincerity, and patient centricity.

“This pandemic … has forced us to think differently and be nimble and creative to our approach to maintaining our overriding goals while at the same time bringing these innovative therapies forward for patients with cancer and other serious and life-threatening diseases as quickly as possible,” said panelist Kristen M. Hege, MD, of Bristol-Myers Squibb.

In fact, Dr. Hege noted, some cancer-related therapies (e.g., BTK inhibitors, JAK inhibitors, and immunomodulatory agents) were “repurposed” rapidly and tested against COVID-related complications.
 

 

 

Streamlining trial regulatory processes

In addition to changing ongoing trials, the pandemic has affected how new research projects are launched.

One new study that came together quickly in response to the pandemic is the NCI COVID-19 in Cancer Patients Study (NCCAPS). NCCAPS is a natural history study with biospecimens and an imaging library. It was approved in just 5 weeks and is active in 650 sites, with “gangbusters” accrual, Dr. Doroshow said.

The rapidness of NCCAPS’ design and implementation should prompt the revision of previously accepted timelines for trial activation and lead to streamlined future processes.

Another project that was launched quickly in response to the pandemic is the COVID-19 evidence accelerator, according to Paul G. Kluetz, MD, of the Food and Drug Administration.

The COVID-19 evidence accelerator integrates real-world evidence into a database to provide investigators and health systems with the ability to gather information, design rapid turnaround queries, and share results. The evidence accelerator can provide study chairs with information that may have relevance to the safety of participants in clinical trials.
 

Future directions and challenges

The panelists agreed that pandemic-related modifications in processes will not only accelerate trial approval and activation but should facilitate higher study accrual, increase the diversity of protocol participants, and decrease the costs associated with clinical trial conduct.

With that in mind, the NCI is planning randomized clinical trials in which “process A” is compared with “process B,” Dr. Doroshow said. The goal is to determine which modifications are most likely to make trials available to patients without compromising data integrity or patient safety.

“How much less data do you need to have an outcome that will be similar?” Dr. Doroshow asked. “How many fewer visits, how many fewer tests, how much can you save? Physicians, clinical trialists, all of us respond to data, and if you get the same outcome at a third of the cost, then everybody benefits.”

Nonetheless, we will need to be vigilant for unintended vulnerabilities from well-intended efforts, according to Dr. Kluetz. Study chairs, sponsors, and regulatory agencies will need to be attentive to whether there are important differences in scan quality or interpretation, missing data that influence trial outcomes, and so on.

Dr. Hege pointed out that differences among data sources may be less important when treatments generate large effects but may be vitally important when the relative differences among treatments are small.

On a practical level, decentralizing clinical research may negatively impact the finances of tertiary care centers, which could threaten the required infrastructure for clinical trials, a few panelists noted.

The relative balance of NCI-, industry-, and investigator-initiated trials may require adjustment so that research income is adequate to maintain the costs associated with cancer clinical trials.
 

Shared goals and democratization

The pandemic has required all stakeholders in clinical research to rely on relationships of trust and shared goals, said Caroline Robert, MD, PhD, of Institut Gustave Roussy in Villejuif, France.

Dr. Kluetz summarized those goals as improving trial efficiencies, decreasing patient burden, decentralizing trials, and maintaining trial integrity.

A decentralized clinical trials operational model could lead to better generalizability of study outcomes, normalization of life for patients on studies, and lower costs of trial conduct. As such, decentralization would promote democratization.

Coupled with ongoing efforts to reduce eligibility criteria in cancer trials, the pandemic has brought operational solutions that should be perpetuated and has reminded us of the interlocking and mutually supportive relationships on which clinical research success depends.

Dr. Doroshow and Dr. Kluetz disclosed no conflicts of interest. All other panelists disclosed financial relationships, including employment, with a range of companies.

Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

SOURCE: Flaherty KT et al. AACR: COVID-19 and Cancer, Regulatory and Operational Implications of Cancer Clinical Trial Changes During COVID-19.

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Although COVID-19 has had negative effects on cancer research, the pandemic has also led to democratization of clinical trials, according to a panelist who spoke at the AACR virtual meeting: COVID-19 and Cancer.

Dr. Alan P. Lyss

The pandemic has taught researchers how to decentralize trials, which should not only improve patient satisfaction but increase trial accrual by providing access to typically underserved populations, Patricia M. LoRusso, DO, of Yale University, New Haven, Conn., said at the meeting.

Dr. LoRusso was one of six panelists who participated in a forum about changes to cancer trials that were prompted by the pandemic. The forum was moderated by Keith T. Flaherty, MD, of Massachusetts General Hospital in Boston.

Dr. Flaherty asked the panelists to explain adjustments their organizations have made in response to the pandemic, discuss accomplishments, and speculate on future challenges and priorities.
 

Trial, administrative, and patient-care modifications

COVID-19 put some cancer trials on hold. For others, the pandemic forced sponsors and study chairs to reduce trial complexity and identify nonessential aspects of the studies, according to panelist José Baselga, MD, PhD, of AstraZeneca.

Specifically, exploratory objectives were subjugated to patient safety and a focus on the primary endpoints of each trial.

Once the critical data were identified, study chairs were asked to determine whether data could be obtained through technologies that could substitute for face-to-face contact between patients and staff – for example, patient-reported outcome tools and at-home digital monitoring.

Modifications prompted by the pandemic include the following:

  • On-site auditing was suspended.
  • Oral investigational agents were shipped directly to patients.
  • “Remote” informed consent (telephone or video consenting) was permitted.
  • Local providers could perform study-related services, with oversight by the research site.
  • Minor deviations from the written protocols were allowed, provided the deviations did not affect patient care or data integrity.

“Obviously, the pandemic has been horrible, but what it has allowed us to do, as investigators in the clinical research landscape, … is to change our focus somewhat and realize, first and foremost, the patient is at the center of this,” Dr. LoRusso said.
 

Operational accomplishments and benefits

The pandemic caused a 40% decline in accrual to studies supported by the National Cancer Institute’s (NCI) Clinical Trials Network (NCTN) from mid-March to early April, according to James H. Doroshow, MD, of NCI.

However, after modifications to administrative and regulatory procedures, accrual to NCTN trials recovered to approximately 80% of prepandemic levels, Dr. Doroshow said.

The pandemic prompted investigators to leverage tools and technology they had not previously used frequently or at all, the panelists pointed out.

Investigators discovered perforce that telehealth could be used for almost all trial-related assessments. In lieu of physical examination, patients could send pictures of rashes and use electronic devices to monitor blood sugar values and vital signs.

Digital radiographic studies were performed at sites that were most convenient for patients, downloaded, and reinterpreted at the study institution. Visiting nurses and neighborhood laboratories enabled less-frequent in-person visits for assessments.

These adjustments have been particularly important for geographically and/or socioeconomically disadvantaged patients, the panelists said.

Overall, there was agreement among the panelists that shared values and trust among regulatory authorities, sponsors, investigators, and clinicians were impressive in their urgency, sincerity, and patient centricity.

“This pandemic … has forced us to think differently and be nimble and creative to our approach to maintaining our overriding goals while at the same time bringing these innovative therapies forward for patients with cancer and other serious and life-threatening diseases as quickly as possible,” said panelist Kristen M. Hege, MD, of Bristol-Myers Squibb.

In fact, Dr. Hege noted, some cancer-related therapies (e.g., BTK inhibitors, JAK inhibitors, and immunomodulatory agents) were “repurposed” rapidly and tested against COVID-related complications.
 

 

 

Streamlining trial regulatory processes

In addition to changing ongoing trials, the pandemic has affected how new research projects are launched.

One new study that came together quickly in response to the pandemic is the NCI COVID-19 in Cancer Patients Study (NCCAPS). NCCAPS is a natural history study with biospecimens and an imaging library. It was approved in just 5 weeks and is active in 650 sites, with “gangbusters” accrual, Dr. Doroshow said.

The rapidness of NCCAPS’ design and implementation should prompt the revision of previously accepted timelines for trial activation and lead to streamlined future processes.

Another project that was launched quickly in response to the pandemic is the COVID-19 evidence accelerator, according to Paul G. Kluetz, MD, of the Food and Drug Administration.

The COVID-19 evidence accelerator integrates real-world evidence into a database to provide investigators and health systems with the ability to gather information, design rapid turnaround queries, and share results. The evidence accelerator can provide study chairs with information that may have relevance to the safety of participants in clinical trials.
 

Future directions and challenges

The panelists agreed that pandemic-related modifications in processes will not only accelerate trial approval and activation but should facilitate higher study accrual, increase the diversity of protocol participants, and decrease the costs associated with clinical trial conduct.

With that in mind, the NCI is planning randomized clinical trials in which “process A” is compared with “process B,” Dr. Doroshow said. The goal is to determine which modifications are most likely to make trials available to patients without compromising data integrity or patient safety.

“How much less data do you need to have an outcome that will be similar?” Dr. Doroshow asked. “How many fewer visits, how many fewer tests, how much can you save? Physicians, clinical trialists, all of us respond to data, and if you get the same outcome at a third of the cost, then everybody benefits.”

Nonetheless, we will need to be vigilant for unintended vulnerabilities from well-intended efforts, according to Dr. Kluetz. Study chairs, sponsors, and regulatory agencies will need to be attentive to whether there are important differences in scan quality or interpretation, missing data that influence trial outcomes, and so on.

Dr. Hege pointed out that differences among data sources may be less important when treatments generate large effects but may be vitally important when the relative differences among treatments are small.

On a practical level, decentralizing clinical research may negatively impact the finances of tertiary care centers, which could threaten the required infrastructure for clinical trials, a few panelists noted.

The relative balance of NCI-, industry-, and investigator-initiated trials may require adjustment so that research income is adequate to maintain the costs associated with cancer clinical trials.
 

Shared goals and democratization

The pandemic has required all stakeholders in clinical research to rely on relationships of trust and shared goals, said Caroline Robert, MD, PhD, of Institut Gustave Roussy in Villejuif, France.

Dr. Kluetz summarized those goals as improving trial efficiencies, decreasing patient burden, decentralizing trials, and maintaining trial integrity.

A decentralized clinical trials operational model could lead to better generalizability of study outcomes, normalization of life for patients on studies, and lower costs of trial conduct. As such, decentralization would promote democratization.

Coupled with ongoing efforts to reduce eligibility criteria in cancer trials, the pandemic has brought operational solutions that should be perpetuated and has reminded us of the interlocking and mutually supportive relationships on which clinical research success depends.

Dr. Doroshow and Dr. Kluetz disclosed no conflicts of interest. All other panelists disclosed financial relationships, including employment, with a range of companies.

Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

SOURCE: Flaherty KT et al. AACR: COVID-19 and Cancer, Regulatory and Operational Implications of Cancer Clinical Trial Changes During COVID-19.

Although COVID-19 has had negative effects on cancer research, the pandemic has also led to democratization of clinical trials, according to a panelist who spoke at the AACR virtual meeting: COVID-19 and Cancer.

Dr. Alan P. Lyss

The pandemic has taught researchers how to decentralize trials, which should not only improve patient satisfaction but increase trial accrual by providing access to typically underserved populations, Patricia M. LoRusso, DO, of Yale University, New Haven, Conn., said at the meeting.

Dr. LoRusso was one of six panelists who participated in a forum about changes to cancer trials that were prompted by the pandemic. The forum was moderated by Keith T. Flaherty, MD, of Massachusetts General Hospital in Boston.

Dr. Flaherty asked the panelists to explain adjustments their organizations have made in response to the pandemic, discuss accomplishments, and speculate on future challenges and priorities.
 

Trial, administrative, and patient-care modifications

COVID-19 put some cancer trials on hold. For others, the pandemic forced sponsors and study chairs to reduce trial complexity and identify nonessential aspects of the studies, according to panelist José Baselga, MD, PhD, of AstraZeneca.

Specifically, exploratory objectives were subjugated to patient safety and a focus on the primary endpoints of each trial.

Once the critical data were identified, study chairs were asked to determine whether data could be obtained through technologies that could substitute for face-to-face contact between patients and staff – for example, patient-reported outcome tools and at-home digital monitoring.

Modifications prompted by the pandemic include the following:

  • On-site auditing was suspended.
  • Oral investigational agents were shipped directly to patients.
  • “Remote” informed consent (telephone or video consenting) was permitted.
  • Local providers could perform study-related services, with oversight by the research site.
  • Minor deviations from the written protocols were allowed, provided the deviations did not affect patient care or data integrity.

“Obviously, the pandemic has been horrible, but what it has allowed us to do, as investigators in the clinical research landscape, … is to change our focus somewhat and realize, first and foremost, the patient is at the center of this,” Dr. LoRusso said.
 

Operational accomplishments and benefits

The pandemic caused a 40% decline in accrual to studies supported by the National Cancer Institute’s (NCI) Clinical Trials Network (NCTN) from mid-March to early April, according to James H. Doroshow, MD, of NCI.

However, after modifications to administrative and regulatory procedures, accrual to NCTN trials recovered to approximately 80% of prepandemic levels, Dr. Doroshow said.

The pandemic prompted investigators to leverage tools and technology they had not previously used frequently or at all, the panelists pointed out.

Investigators discovered perforce that telehealth could be used for almost all trial-related assessments. In lieu of physical examination, patients could send pictures of rashes and use electronic devices to monitor blood sugar values and vital signs.

Digital radiographic studies were performed at sites that were most convenient for patients, downloaded, and reinterpreted at the study institution. Visiting nurses and neighborhood laboratories enabled less-frequent in-person visits for assessments.

These adjustments have been particularly important for geographically and/or socioeconomically disadvantaged patients, the panelists said.

Overall, there was agreement among the panelists that shared values and trust among regulatory authorities, sponsors, investigators, and clinicians were impressive in their urgency, sincerity, and patient centricity.

“This pandemic … has forced us to think differently and be nimble and creative to our approach to maintaining our overriding goals while at the same time bringing these innovative therapies forward for patients with cancer and other serious and life-threatening diseases as quickly as possible,” said panelist Kristen M. Hege, MD, of Bristol-Myers Squibb.

In fact, Dr. Hege noted, some cancer-related therapies (e.g., BTK inhibitors, JAK inhibitors, and immunomodulatory agents) were “repurposed” rapidly and tested against COVID-related complications.
 

 

 

Streamlining trial regulatory processes

In addition to changing ongoing trials, the pandemic has affected how new research projects are launched.

One new study that came together quickly in response to the pandemic is the NCI COVID-19 in Cancer Patients Study (NCCAPS). NCCAPS is a natural history study with biospecimens and an imaging library. It was approved in just 5 weeks and is active in 650 sites, with “gangbusters” accrual, Dr. Doroshow said.

The rapidness of NCCAPS’ design and implementation should prompt the revision of previously accepted timelines for trial activation and lead to streamlined future processes.

Another project that was launched quickly in response to the pandemic is the COVID-19 evidence accelerator, according to Paul G. Kluetz, MD, of the Food and Drug Administration.

The COVID-19 evidence accelerator integrates real-world evidence into a database to provide investigators and health systems with the ability to gather information, design rapid turnaround queries, and share results. The evidence accelerator can provide study chairs with information that may have relevance to the safety of participants in clinical trials.
 

Future directions and challenges

The panelists agreed that pandemic-related modifications in processes will not only accelerate trial approval and activation but should facilitate higher study accrual, increase the diversity of protocol participants, and decrease the costs associated with clinical trial conduct.

With that in mind, the NCI is planning randomized clinical trials in which “process A” is compared with “process B,” Dr. Doroshow said. The goal is to determine which modifications are most likely to make trials available to patients without compromising data integrity or patient safety.

“How much less data do you need to have an outcome that will be similar?” Dr. Doroshow asked. “How many fewer visits, how many fewer tests, how much can you save? Physicians, clinical trialists, all of us respond to data, and if you get the same outcome at a third of the cost, then everybody benefits.”

Nonetheless, we will need to be vigilant for unintended vulnerabilities from well-intended efforts, according to Dr. Kluetz. Study chairs, sponsors, and regulatory agencies will need to be attentive to whether there are important differences in scan quality or interpretation, missing data that influence trial outcomes, and so on.

Dr. Hege pointed out that differences among data sources may be less important when treatments generate large effects but may be vitally important when the relative differences among treatments are small.

On a practical level, decentralizing clinical research may negatively impact the finances of tertiary care centers, which could threaten the required infrastructure for clinical trials, a few panelists noted.

The relative balance of NCI-, industry-, and investigator-initiated trials may require adjustment so that research income is adequate to maintain the costs associated with cancer clinical trials.
 

Shared goals and democratization

The pandemic has required all stakeholders in clinical research to rely on relationships of trust and shared goals, said Caroline Robert, MD, PhD, of Institut Gustave Roussy in Villejuif, France.

Dr. Kluetz summarized those goals as improving trial efficiencies, decreasing patient burden, decentralizing trials, and maintaining trial integrity.

A decentralized clinical trials operational model could lead to better generalizability of study outcomes, normalization of life for patients on studies, and lower costs of trial conduct. As such, decentralization would promote democratization.

Coupled with ongoing efforts to reduce eligibility criteria in cancer trials, the pandemic has brought operational solutions that should be perpetuated and has reminded us of the interlocking and mutually supportive relationships on which clinical research success depends.

Dr. Doroshow and Dr. Kluetz disclosed no conflicts of interest. All other panelists disclosed financial relationships, including employment, with a range of companies.

Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers, as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

SOURCE: Flaherty KT et al. AACR: COVID-19 and Cancer, Regulatory and Operational Implications of Cancer Clinical Trial Changes During COVID-19.

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Artificial intelligence matches cancer genotypes to patient phenotypes

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Precision medicine is driven by technologies such as rapid genome sequencing and artificial intelligence (AI), according to a presentation at the AACR virtual meeting II.

Dr. Alan P. Lyss

AI can be applied to the sequencing information derived from advanced cancers to make highly personalized treatment recommendations for patients, said Olivier Elemento, PhD, of Weill Cornell Medicine, New York.

Dr. Elemento described such work during the opening plenary session of the meeting.

Dr. Elemento advocated for whole-genome sequencing (WGS) of metastatic sites, as it can reveal “branched evolution” as tumors progress from localized to metastatic (Nat Genet. 2016 Dec;48[12]:1490-9).

The metastases share common mutations with the primaries from which they arise but also develop their own mutational profiles, which facilitate site-of-origin-agnostic, predictive treatment choices.

As examples, Dr. Elemento mentioned HER2 amplification found in a patient with urothelial cancer (J Natl Compr Canc Netw. 2019 Mar 1;17[3]:194-200) and a patient with uterine serous carcinoma (Gynecol Oncol Rep. 2019 Feb 21;28:54-7), both of whom experienced long-lasting remissions to HER2-targeted therapy.

Dr. Elemento also noted that WGS can reveal complex structural variants in lung adenocarcinomas that lack alterations in the RTK/RAS/RAF pathway (unpublished data).
 

Application of machine learning

One study suggested that microRNA expression and machine learning can be used to identify malignant thyroid lesions (Clin Cancer Res. 2012 Apr 1;18[7]:2032-8). The approach diagnosed malignant lesions with 90% accuracy, 100% sensitivity, and 86% specificity.

Dr. Elemento and colleagues used a similar approach to predict response to immunotherapy in melanoma (unpublished data).



The idea was to mine the cancer genome and transcriptome, allowing for identification of signals from neoantigens, immune gene expression, immune cell composition, and T-cell receptor repertoires, Dr. Elemento said. Integrating these signals with clinical outcome data via machine learning technology enabled the researchers to predict immunotherapy response in malignant melanoma with nearly 90% accuracy.

AI and image analysis

Studies have indicated that AI can be applied to medical images to improve diagnosis and treatment. The approach has been shown to:

Drug development through applied AI

In another study, Dr. Elemento and colleagues used a Bayesian machine learning approach to predict targets of molecules without a known mechanism of action (Nat Commun. 2019 Nov 19;10[1]:5221).

The method involved using data on gene expression profiles, cell line viability, side effects in animals, and structures of the molecules. The researchers applied this method to a large library of orphan small molecules and found it could predict targets in about 40% of cases.

Of 24 AI-predicted microtubule-targeting molecules, 14 depolymerized microtubules in the lab. Five of these molecules were effective in cell lines that were resistant to other microtubule-targeted drugs.

Dr. Elemento went on to describe how Oncoceutics was developing an antineoplastic agent called ONC201, but the company lacked information about the agent’s target. Using AI, the target was identified as dopamine receptor 2 (DRD2; Clin Cancer Res. 2019 Apr 1;25[7]:2305-13).

With that information, Oncoceutics initiated trials of ONC201 in tumors expressing high levels of DRD2, including a highly resistant glioma (J Neurooncol. 2019 Oct;145[1]:97-105). Responses were seen, and ONC201 is now being tested against other DRD2-expressing cancers.
 

 

 

Challenges to acknowledge

Potential benefits of AI in the clinic are exciting, but there are many bench-to-bedside challenges.

A clinically obvious example of AI’s applications is radiographic image analysis. There is no biologic rationale for our RECIST “cut values” for partial response, minimal response, and stable disease.

If AI can measure subtle changes on imaging that correlate with tumor biology (i.e., radiomics), we stand a better chance of predicting treatment outcomes than we can with conventional measurements of shrinkage of arbitrarily selected “target lesions.”

A tremendous amount of work is needed to build the required large image banks. During that time, AI will only improve – and without the human risks of fatigue, inconsistency, or burnout.

Those human frailties notwithstanding, AI cannot substitute for the key discussions between patient and clinician regarding goals of care, trade-offs of risks and benefits, and shared decision-making regarding management options.



At least initially (but painfully), complex technologies like WGS and digital image analysis via AI may further disadvantage patients who are medically disadvantaged by geography or socioeconomic circumstances.

In the discussion period, AACR President Antoni Ribas, MD, of University of California, Los Angeles, asked whether AI can simulate crosstalk between gene pathways so that unique treatment combinations can be identified. Dr. Elemento said those simulations are the subject of ongoing investigation.

The theme of the opening plenary session at the AACR virtual meeting II was “Turning Science into Life-Saving Care.” Applications of AI to optimize personalized use of genomics, digital image analysis, and drug development show great promise for being among the technologies that can help to realize AACR’s thematic vision.

Dr. Elemento disclosed relationships with Volastra Therapeutics, OneThree Biotech, Owkin, Freenome, Genetic Intelligence, Acuamark Diagnostics, Eli Lilly, Janssen, and Sanofi.

Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

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Precision medicine is driven by technologies such as rapid genome sequencing and artificial intelligence (AI), according to a presentation at the AACR virtual meeting II.

Dr. Alan P. Lyss

AI can be applied to the sequencing information derived from advanced cancers to make highly personalized treatment recommendations for patients, said Olivier Elemento, PhD, of Weill Cornell Medicine, New York.

Dr. Elemento described such work during the opening plenary session of the meeting.

Dr. Elemento advocated for whole-genome sequencing (WGS) of metastatic sites, as it can reveal “branched evolution” as tumors progress from localized to metastatic (Nat Genet. 2016 Dec;48[12]:1490-9).

The metastases share common mutations with the primaries from which they arise but also develop their own mutational profiles, which facilitate site-of-origin-agnostic, predictive treatment choices.

As examples, Dr. Elemento mentioned HER2 amplification found in a patient with urothelial cancer (J Natl Compr Canc Netw. 2019 Mar 1;17[3]:194-200) and a patient with uterine serous carcinoma (Gynecol Oncol Rep. 2019 Feb 21;28:54-7), both of whom experienced long-lasting remissions to HER2-targeted therapy.

Dr. Elemento also noted that WGS can reveal complex structural variants in lung adenocarcinomas that lack alterations in the RTK/RAS/RAF pathway (unpublished data).
 

Application of machine learning

One study suggested that microRNA expression and machine learning can be used to identify malignant thyroid lesions (Clin Cancer Res. 2012 Apr 1;18[7]:2032-8). The approach diagnosed malignant lesions with 90% accuracy, 100% sensitivity, and 86% specificity.

Dr. Elemento and colleagues used a similar approach to predict response to immunotherapy in melanoma (unpublished data).



The idea was to mine the cancer genome and transcriptome, allowing for identification of signals from neoantigens, immune gene expression, immune cell composition, and T-cell receptor repertoires, Dr. Elemento said. Integrating these signals with clinical outcome data via machine learning technology enabled the researchers to predict immunotherapy response in malignant melanoma with nearly 90% accuracy.

AI and image analysis

Studies have indicated that AI can be applied to medical images to improve diagnosis and treatment. The approach has been shown to:

Drug development through applied AI

In another study, Dr. Elemento and colleagues used a Bayesian machine learning approach to predict targets of molecules without a known mechanism of action (Nat Commun. 2019 Nov 19;10[1]:5221).

The method involved using data on gene expression profiles, cell line viability, side effects in animals, and structures of the molecules. The researchers applied this method to a large library of orphan small molecules and found it could predict targets in about 40% of cases.

Of 24 AI-predicted microtubule-targeting molecules, 14 depolymerized microtubules in the lab. Five of these molecules were effective in cell lines that were resistant to other microtubule-targeted drugs.

Dr. Elemento went on to describe how Oncoceutics was developing an antineoplastic agent called ONC201, but the company lacked information about the agent’s target. Using AI, the target was identified as dopamine receptor 2 (DRD2; Clin Cancer Res. 2019 Apr 1;25[7]:2305-13).

With that information, Oncoceutics initiated trials of ONC201 in tumors expressing high levels of DRD2, including a highly resistant glioma (J Neurooncol. 2019 Oct;145[1]:97-105). Responses were seen, and ONC201 is now being tested against other DRD2-expressing cancers.
 

 

 

Challenges to acknowledge

Potential benefits of AI in the clinic are exciting, but there are many bench-to-bedside challenges.

A clinically obvious example of AI’s applications is radiographic image analysis. There is no biologic rationale for our RECIST “cut values” for partial response, minimal response, and stable disease.

If AI can measure subtle changes on imaging that correlate with tumor biology (i.e., radiomics), we stand a better chance of predicting treatment outcomes than we can with conventional measurements of shrinkage of arbitrarily selected “target lesions.”

A tremendous amount of work is needed to build the required large image banks. During that time, AI will only improve – and without the human risks of fatigue, inconsistency, or burnout.

Those human frailties notwithstanding, AI cannot substitute for the key discussions between patient and clinician regarding goals of care, trade-offs of risks and benefits, and shared decision-making regarding management options.



At least initially (but painfully), complex technologies like WGS and digital image analysis via AI may further disadvantage patients who are medically disadvantaged by geography or socioeconomic circumstances.

In the discussion period, AACR President Antoni Ribas, MD, of University of California, Los Angeles, asked whether AI can simulate crosstalk between gene pathways so that unique treatment combinations can be identified. Dr. Elemento said those simulations are the subject of ongoing investigation.

The theme of the opening plenary session at the AACR virtual meeting II was “Turning Science into Life-Saving Care.” Applications of AI to optimize personalized use of genomics, digital image analysis, and drug development show great promise for being among the technologies that can help to realize AACR’s thematic vision.

Dr. Elemento disclosed relationships with Volastra Therapeutics, OneThree Biotech, Owkin, Freenome, Genetic Intelligence, Acuamark Diagnostics, Eli Lilly, Janssen, and Sanofi.

Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

Precision medicine is driven by technologies such as rapid genome sequencing and artificial intelligence (AI), according to a presentation at the AACR virtual meeting II.

Dr. Alan P. Lyss

AI can be applied to the sequencing information derived from advanced cancers to make highly personalized treatment recommendations for patients, said Olivier Elemento, PhD, of Weill Cornell Medicine, New York.

Dr. Elemento described such work during the opening plenary session of the meeting.

Dr. Elemento advocated for whole-genome sequencing (WGS) of metastatic sites, as it can reveal “branched evolution” as tumors progress from localized to metastatic (Nat Genet. 2016 Dec;48[12]:1490-9).

The metastases share common mutations with the primaries from which they arise but also develop their own mutational profiles, which facilitate site-of-origin-agnostic, predictive treatment choices.

As examples, Dr. Elemento mentioned HER2 amplification found in a patient with urothelial cancer (J Natl Compr Canc Netw. 2019 Mar 1;17[3]:194-200) and a patient with uterine serous carcinoma (Gynecol Oncol Rep. 2019 Feb 21;28:54-7), both of whom experienced long-lasting remissions to HER2-targeted therapy.

Dr. Elemento also noted that WGS can reveal complex structural variants in lung adenocarcinomas that lack alterations in the RTK/RAS/RAF pathway (unpublished data).
 

Application of machine learning

One study suggested that microRNA expression and machine learning can be used to identify malignant thyroid lesions (Clin Cancer Res. 2012 Apr 1;18[7]:2032-8). The approach diagnosed malignant lesions with 90% accuracy, 100% sensitivity, and 86% specificity.

Dr. Elemento and colleagues used a similar approach to predict response to immunotherapy in melanoma (unpublished data).



The idea was to mine the cancer genome and transcriptome, allowing for identification of signals from neoantigens, immune gene expression, immune cell composition, and T-cell receptor repertoires, Dr. Elemento said. Integrating these signals with clinical outcome data via machine learning technology enabled the researchers to predict immunotherapy response in malignant melanoma with nearly 90% accuracy.

AI and image analysis

Studies have indicated that AI can be applied to medical images to improve diagnosis and treatment. The approach has been shown to:

Drug development through applied AI

In another study, Dr. Elemento and colleagues used a Bayesian machine learning approach to predict targets of molecules without a known mechanism of action (Nat Commun. 2019 Nov 19;10[1]:5221).

The method involved using data on gene expression profiles, cell line viability, side effects in animals, and structures of the molecules. The researchers applied this method to a large library of orphan small molecules and found it could predict targets in about 40% of cases.

Of 24 AI-predicted microtubule-targeting molecules, 14 depolymerized microtubules in the lab. Five of these molecules were effective in cell lines that were resistant to other microtubule-targeted drugs.

Dr. Elemento went on to describe how Oncoceutics was developing an antineoplastic agent called ONC201, but the company lacked information about the agent’s target. Using AI, the target was identified as dopamine receptor 2 (DRD2; Clin Cancer Res. 2019 Apr 1;25[7]:2305-13).

With that information, Oncoceutics initiated trials of ONC201 in tumors expressing high levels of DRD2, including a highly resistant glioma (J Neurooncol. 2019 Oct;145[1]:97-105). Responses were seen, and ONC201 is now being tested against other DRD2-expressing cancers.
 

 

 

Challenges to acknowledge

Potential benefits of AI in the clinic are exciting, but there are many bench-to-bedside challenges.

A clinically obvious example of AI’s applications is radiographic image analysis. There is no biologic rationale for our RECIST “cut values” for partial response, minimal response, and stable disease.

If AI can measure subtle changes on imaging that correlate with tumor biology (i.e., radiomics), we stand a better chance of predicting treatment outcomes than we can with conventional measurements of shrinkage of arbitrarily selected “target lesions.”

A tremendous amount of work is needed to build the required large image banks. During that time, AI will only improve – and without the human risks of fatigue, inconsistency, or burnout.

Those human frailties notwithstanding, AI cannot substitute for the key discussions between patient and clinician regarding goals of care, trade-offs of risks and benefits, and shared decision-making regarding management options.



At least initially (but painfully), complex technologies like WGS and digital image analysis via AI may further disadvantage patients who are medically disadvantaged by geography or socioeconomic circumstances.

In the discussion period, AACR President Antoni Ribas, MD, of University of California, Los Angeles, asked whether AI can simulate crosstalk between gene pathways so that unique treatment combinations can be identified. Dr. Elemento said those simulations are the subject of ongoing investigation.

The theme of the opening plenary session at the AACR virtual meeting II was “Turning Science into Life-Saving Care.” Applications of AI to optimize personalized use of genomics, digital image analysis, and drug development show great promise for being among the technologies that can help to realize AACR’s thematic vision.

Dr. Elemento disclosed relationships with Volastra Therapeutics, OneThree Biotech, Owkin, Freenome, Genetic Intelligence, Acuamark Diagnostics, Eli Lilly, Janssen, and Sanofi.

Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

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Hematologic manifestations of COVID-19

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Changed
Thu, 08/26/2021 - 16:02

While SARS-CoV-2 causes frequent and potentially severe pulmonary disease, extrapulmonary manifestations may be a prominent part of the clinical spectrum, according to a review published in Nature Medicine.

Dr. Alan P. Lyss

In this comprehensive literature review, Aakriti Gupta, MD, of New York-Presbyterian/Columbia University Irving Medical Center and colleagues detailed the epidemiologic and clinical multisystem effects of COVID-19. The authors explained what is known and/or suspected about the pathophysiology of those effects and outlined the resultant management considerations.

Key mechanisms for multiorgan injury include direct viral toxicity, endothelial cell damage with inflammatory mediation of thrombosis, aberrant immune response, and dysregulation of the renin-angiotensin-aldosterone system.

The relative importance of each pathway in the clinical presentation of COVID-19 and the mechanism for extrapulmonary spread of SARS-CoV-2 infection are imperfectly understood, Dr. Gupta and colleagues noted.

As for the hematologic effects of COVID-19, patients may present with several laboratory abnormalities, but the most clinically relevant complications are thromboembolic.
 

COVID-19-associated coagulopathy

Dr. Gupta and colleagues noted that COVID-19–associated coagulopathy (CAC) is accompanied by elevated levels of D-dimer and fibrinogen, with minor abnormalities in prothrombin time, activated partial thromboplastin time, and platelet counts in the initial stage of infection.

Elevated D-dimer levels have been reported in up to 46% of hospitalized patients, and a longitudinal increase while hospitalized is associated with higher mortality.

In initial reports from China and the Netherlands, thrombotic complications were seen in up to 30% of COVID-19 patients in ICUs. Thromboembolic events have been reported in 17%-22% of critically ill COVID-19 patients in studies from Italy and France.

Globally, in severely affected COVID-19 patients, there have been reports of thromboses in intravenous catheters and extracorporeal circuits as well as arterial vascular occlusive events, including myocardial infarction, acute limb ischemia, and stroke.

There have been multiple small studies in which critically ill COVID-19 patients were routinely screened for thrombotic disease. In these studies, rates of thrombotic complications ranged from 69% to 85%, despite thromboprophylaxis. Variability in prophylactic and screening protocols explain discrepancies in event rates.
 

Pathophysiology

The abnormally high blood levels of D-dimer and fibrinogen during the early stages of SARS-CoV-2 infection are reflective of excessive inflammation rather than overt disseminated intravascular coagulation (DIC), which may develop in later stages of illness, according to Dr. Gupta and colleagues. The authors theorized that uninhibited inflammation, along with hypoxia and direct viral-mediated cellular injury, contribute to thrombotic complications in COVID-19 patients.

“The increased expression of ACE2 in endothelial cells after infection with SARS-CoV-2 may perpetuate a vicious cycle of endothelialitis that promotes thromboinflammation,” the authors wrote. “Collectively, hemostatic and inflammatory changes, which reflect endothelial damage and activation as well as critical illness, constitute a prothrombotic milieu.”

The authors noted that small autopsy series have shown high rates of microvascular and macrovascular thromboses, particularly in the pulmonary circulation, in COVID-19 patients.
 

Management considerations

Dr. Gupta and colleagues referenced interim guidelines from the International Society of Thrombosis and Haemostasis that recommend serial complete blood counts, with white blood cell differential and assessment of D-dimer, prothrombin time, and fibrinogen for hospitalized patients with COVID-19. The authors also cited guidelines published in the Journal of the American College of Cardiology that recommend routine risk assessment for venous thromboembolism in all hospitalized patients with COVID-19 and the consideration of standard-dose pharmaco-prophylaxis in patients who lack absolute contraindications.

Empiric use of higher-than-routine prophylactic-dose or therapeutic-dose anticoagulation in ICU patients in the absence of proven thromboses has been implemented in some institutions, Dr. Gupta and colleagues noted. Parenteral anticoagulants (such as low-molecular-weight or unfractionated heparin) are preferred to oral anticoagulants because of short half-life, available reversal agents, and the potential for drug interactions between oral agents and antiviral and/or antibacterial treatment, according to the authors.

They wrote that randomized clinical trials “will be crucial to establishing effective and safe strategies” for anticoagulation in COVID-19 patients. To this point, few randomized trials have been published to guide management of COVID-19–associated extrapulmonary manifestations, including CAC.
 

Research priorities

A more complete understanding of the organ-specific pathophysiology of this multisystem disease is vital, according to Dr. Gupta and colleagues.

“Regional, national, and international collaborations of clinicians and scientists focused on high-quality, transparent, ethical, and evidence-based research practices would help propel the global community toward achieving success against this pandemic,” the authors wrote.

They noted that common definitions and data standards for research are key for cross-institutional and international collaborations.

Initial attention to high-quality prospective scientific documentation standards would have been valuable and will be required for dedicated trials to address the multisystem effects of COVID-19.
 

Community of learners

As much as at any prior time in their careers, during the COVID-19 pandemic, health care providers have been enveloped in a community of learners – a group of people who share values and beliefs and who actively engage in learning from one another.

Through a patchwork of sources – news media, social media, traditional medical journals, general and COVID-focused meetings, and, most importantly, patients – we have been living in a learning-centered environment. Academicians, clinicians, practicing physicians, researchers, patients, family members, and caregivers have been actively and intentionally building a knowledge base together.

Through their published review, Dr. Gupta and colleagues have contributed meaningfully to the understanding our learning community has of the various extrapulmonary manifestations of COVID-19. The authors have provided a nice template for further research and clinical advances.

Dr. Gupta and colleagues disclosed financial relationships with a range of pharmaceutical companies and other organizations.

Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

Source: Gupta A et al. Nat Med. 2020 Jul;26(7):1017-32.

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While SARS-CoV-2 causes frequent and potentially severe pulmonary disease, extrapulmonary manifestations may be a prominent part of the clinical spectrum, according to a review published in Nature Medicine.

Dr. Alan P. Lyss

In this comprehensive literature review, Aakriti Gupta, MD, of New York-Presbyterian/Columbia University Irving Medical Center and colleagues detailed the epidemiologic and clinical multisystem effects of COVID-19. The authors explained what is known and/or suspected about the pathophysiology of those effects and outlined the resultant management considerations.

Key mechanisms for multiorgan injury include direct viral toxicity, endothelial cell damage with inflammatory mediation of thrombosis, aberrant immune response, and dysregulation of the renin-angiotensin-aldosterone system.

The relative importance of each pathway in the clinical presentation of COVID-19 and the mechanism for extrapulmonary spread of SARS-CoV-2 infection are imperfectly understood, Dr. Gupta and colleagues noted.

As for the hematologic effects of COVID-19, patients may present with several laboratory abnormalities, but the most clinically relevant complications are thromboembolic.
 

COVID-19-associated coagulopathy

Dr. Gupta and colleagues noted that COVID-19–associated coagulopathy (CAC) is accompanied by elevated levels of D-dimer and fibrinogen, with minor abnormalities in prothrombin time, activated partial thromboplastin time, and platelet counts in the initial stage of infection.

Elevated D-dimer levels have been reported in up to 46% of hospitalized patients, and a longitudinal increase while hospitalized is associated with higher mortality.

In initial reports from China and the Netherlands, thrombotic complications were seen in up to 30% of COVID-19 patients in ICUs. Thromboembolic events have been reported in 17%-22% of critically ill COVID-19 patients in studies from Italy and France.

Globally, in severely affected COVID-19 patients, there have been reports of thromboses in intravenous catheters and extracorporeal circuits as well as arterial vascular occlusive events, including myocardial infarction, acute limb ischemia, and stroke.

There have been multiple small studies in which critically ill COVID-19 patients were routinely screened for thrombotic disease. In these studies, rates of thrombotic complications ranged from 69% to 85%, despite thromboprophylaxis. Variability in prophylactic and screening protocols explain discrepancies in event rates.
 

Pathophysiology

The abnormally high blood levels of D-dimer and fibrinogen during the early stages of SARS-CoV-2 infection are reflective of excessive inflammation rather than overt disseminated intravascular coagulation (DIC), which may develop in later stages of illness, according to Dr. Gupta and colleagues. The authors theorized that uninhibited inflammation, along with hypoxia and direct viral-mediated cellular injury, contribute to thrombotic complications in COVID-19 patients.

“The increased expression of ACE2 in endothelial cells after infection with SARS-CoV-2 may perpetuate a vicious cycle of endothelialitis that promotes thromboinflammation,” the authors wrote. “Collectively, hemostatic and inflammatory changes, which reflect endothelial damage and activation as well as critical illness, constitute a prothrombotic milieu.”

The authors noted that small autopsy series have shown high rates of microvascular and macrovascular thromboses, particularly in the pulmonary circulation, in COVID-19 patients.
 

Management considerations

Dr. Gupta and colleagues referenced interim guidelines from the International Society of Thrombosis and Haemostasis that recommend serial complete blood counts, with white blood cell differential and assessment of D-dimer, prothrombin time, and fibrinogen for hospitalized patients with COVID-19. The authors also cited guidelines published in the Journal of the American College of Cardiology that recommend routine risk assessment for venous thromboembolism in all hospitalized patients with COVID-19 and the consideration of standard-dose pharmaco-prophylaxis in patients who lack absolute contraindications.

Empiric use of higher-than-routine prophylactic-dose or therapeutic-dose anticoagulation in ICU patients in the absence of proven thromboses has been implemented in some institutions, Dr. Gupta and colleagues noted. Parenteral anticoagulants (such as low-molecular-weight or unfractionated heparin) are preferred to oral anticoagulants because of short half-life, available reversal agents, and the potential for drug interactions between oral agents and antiviral and/or antibacterial treatment, according to the authors.

They wrote that randomized clinical trials “will be crucial to establishing effective and safe strategies” for anticoagulation in COVID-19 patients. To this point, few randomized trials have been published to guide management of COVID-19–associated extrapulmonary manifestations, including CAC.
 

Research priorities

A more complete understanding of the organ-specific pathophysiology of this multisystem disease is vital, according to Dr. Gupta and colleagues.

“Regional, national, and international collaborations of clinicians and scientists focused on high-quality, transparent, ethical, and evidence-based research practices would help propel the global community toward achieving success against this pandemic,” the authors wrote.

They noted that common definitions and data standards for research are key for cross-institutional and international collaborations.

Initial attention to high-quality prospective scientific documentation standards would have been valuable and will be required for dedicated trials to address the multisystem effects of COVID-19.
 

Community of learners

As much as at any prior time in their careers, during the COVID-19 pandemic, health care providers have been enveloped in a community of learners – a group of people who share values and beliefs and who actively engage in learning from one another.

Through a patchwork of sources – news media, social media, traditional medical journals, general and COVID-focused meetings, and, most importantly, patients – we have been living in a learning-centered environment. Academicians, clinicians, practicing physicians, researchers, patients, family members, and caregivers have been actively and intentionally building a knowledge base together.

Through their published review, Dr. Gupta and colleagues have contributed meaningfully to the understanding our learning community has of the various extrapulmonary manifestations of COVID-19. The authors have provided a nice template for further research and clinical advances.

Dr. Gupta and colleagues disclosed financial relationships with a range of pharmaceutical companies and other organizations.

Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

Source: Gupta A et al. Nat Med. 2020 Jul;26(7):1017-32.

While SARS-CoV-2 causes frequent and potentially severe pulmonary disease, extrapulmonary manifestations may be a prominent part of the clinical spectrum, according to a review published in Nature Medicine.

Dr. Alan P. Lyss

In this comprehensive literature review, Aakriti Gupta, MD, of New York-Presbyterian/Columbia University Irving Medical Center and colleagues detailed the epidemiologic and clinical multisystem effects of COVID-19. The authors explained what is known and/or suspected about the pathophysiology of those effects and outlined the resultant management considerations.

Key mechanisms for multiorgan injury include direct viral toxicity, endothelial cell damage with inflammatory mediation of thrombosis, aberrant immune response, and dysregulation of the renin-angiotensin-aldosterone system.

The relative importance of each pathway in the clinical presentation of COVID-19 and the mechanism for extrapulmonary spread of SARS-CoV-2 infection are imperfectly understood, Dr. Gupta and colleagues noted.

As for the hematologic effects of COVID-19, patients may present with several laboratory abnormalities, but the most clinically relevant complications are thromboembolic.
 

COVID-19-associated coagulopathy

Dr. Gupta and colleagues noted that COVID-19–associated coagulopathy (CAC) is accompanied by elevated levels of D-dimer and fibrinogen, with minor abnormalities in prothrombin time, activated partial thromboplastin time, and platelet counts in the initial stage of infection.

Elevated D-dimer levels have been reported in up to 46% of hospitalized patients, and a longitudinal increase while hospitalized is associated with higher mortality.

In initial reports from China and the Netherlands, thrombotic complications were seen in up to 30% of COVID-19 patients in ICUs. Thromboembolic events have been reported in 17%-22% of critically ill COVID-19 patients in studies from Italy and France.

Globally, in severely affected COVID-19 patients, there have been reports of thromboses in intravenous catheters and extracorporeal circuits as well as arterial vascular occlusive events, including myocardial infarction, acute limb ischemia, and stroke.

There have been multiple small studies in which critically ill COVID-19 patients were routinely screened for thrombotic disease. In these studies, rates of thrombotic complications ranged from 69% to 85%, despite thromboprophylaxis. Variability in prophylactic and screening protocols explain discrepancies in event rates.
 

Pathophysiology

The abnormally high blood levels of D-dimer and fibrinogen during the early stages of SARS-CoV-2 infection are reflective of excessive inflammation rather than overt disseminated intravascular coagulation (DIC), which may develop in later stages of illness, according to Dr. Gupta and colleagues. The authors theorized that uninhibited inflammation, along with hypoxia and direct viral-mediated cellular injury, contribute to thrombotic complications in COVID-19 patients.

“The increased expression of ACE2 in endothelial cells after infection with SARS-CoV-2 may perpetuate a vicious cycle of endothelialitis that promotes thromboinflammation,” the authors wrote. “Collectively, hemostatic and inflammatory changes, which reflect endothelial damage and activation as well as critical illness, constitute a prothrombotic milieu.”

The authors noted that small autopsy series have shown high rates of microvascular and macrovascular thromboses, particularly in the pulmonary circulation, in COVID-19 patients.
 

Management considerations

Dr. Gupta and colleagues referenced interim guidelines from the International Society of Thrombosis and Haemostasis that recommend serial complete blood counts, with white blood cell differential and assessment of D-dimer, prothrombin time, and fibrinogen for hospitalized patients with COVID-19. The authors also cited guidelines published in the Journal of the American College of Cardiology that recommend routine risk assessment for venous thromboembolism in all hospitalized patients with COVID-19 and the consideration of standard-dose pharmaco-prophylaxis in patients who lack absolute contraindications.

Empiric use of higher-than-routine prophylactic-dose or therapeutic-dose anticoagulation in ICU patients in the absence of proven thromboses has been implemented in some institutions, Dr. Gupta and colleagues noted. Parenteral anticoagulants (such as low-molecular-weight or unfractionated heparin) are preferred to oral anticoagulants because of short half-life, available reversal agents, and the potential for drug interactions between oral agents and antiviral and/or antibacterial treatment, according to the authors.

They wrote that randomized clinical trials “will be crucial to establishing effective and safe strategies” for anticoagulation in COVID-19 patients. To this point, few randomized trials have been published to guide management of COVID-19–associated extrapulmonary manifestations, including CAC.
 

Research priorities

A more complete understanding of the organ-specific pathophysiology of this multisystem disease is vital, according to Dr. Gupta and colleagues.

“Regional, national, and international collaborations of clinicians and scientists focused on high-quality, transparent, ethical, and evidence-based research practices would help propel the global community toward achieving success against this pandemic,” the authors wrote.

They noted that common definitions and data standards for research are key for cross-institutional and international collaborations.

Initial attention to high-quality prospective scientific documentation standards would have been valuable and will be required for dedicated trials to address the multisystem effects of COVID-19.
 

Community of learners

As much as at any prior time in their careers, during the COVID-19 pandemic, health care providers have been enveloped in a community of learners – a group of people who share values and beliefs and who actively engage in learning from one another.

Through a patchwork of sources – news media, social media, traditional medical journals, general and COVID-focused meetings, and, most importantly, patients – we have been living in a learning-centered environment. Academicians, clinicians, practicing physicians, researchers, patients, family members, and caregivers have been actively and intentionally building a knowledge base together.

Through their published review, Dr. Gupta and colleagues have contributed meaningfully to the understanding our learning community has of the various extrapulmonary manifestations of COVID-19. The authors have provided a nice template for further research and clinical advances.

Dr. Gupta and colleagues disclosed financial relationships with a range of pharmaceutical companies and other organizations.

Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

Source: Gupta A et al. Nat Med. 2020 Jul;26(7):1017-32.

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