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How Can Kidney Cancer Patients Benefit From New Combination Therapy?

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Changed
Wed, 04/24/2024 - 12:22

 

The latest research supports immune checkpoint inhibitor therapy for clear cell and non–clear cell renal cell carcinoma, but patient selection is key to optimize outcomes, according to a medical oncologist from the Dana-Farber Cancer Institute, Boston.

Michael Serzan, MD, who works in the Lank Center for Genitourinary Oncology at the institute, stated this at the 2024 National Comprehensive Cancer Network Annual Conference, during a presentation.

A systematic review and meta-analysis published in 2022 in European Urology Open Science summarized six randomized controlled trials with a total of 5121 adult patients. In the review, the researchers found that immune checkpoint inhibitors plus vascular endothelial growth factor tyrosine kinase inhibitors (VEGF TKI) were associated with consistent improvements across all risk groups for metastatic renal cell carcinoma.

Additional newer research supports the use of immunotherapy combinations or other immunotherapy plus tyrosine kinase inhibitors as first-line or adjuvant treatments for renal cell carcinoma, Dr. Serzan said during an interview. However, more genomic and histology-directed therapies are needed, he noted.
 

Tips for Evaluating Risk When Treating Renal Cell Carcinoma?

For patients with localized clear cell renal cell carcinoma who have undergone partial or radical nephrectomy, there are several models that estimate the risk of recurrence based on pathologic tumor stage, grade, histology, invasion, and the extent of necrosis, Dr. Serzan said. These models can help guide selection of patients who may be at high risk of recurrence and, therefore, may benefit from adjuvant therapy.

For patients with metastatic clear cell renal cell carcinoma, the IMDC and MSKCC prognostic models stratify patients to favorable, intermediate, and poor risk groups based on clinical and lab factors. The IMDC risk stratification model is used as a prognostic model to stratify patients diagnosed with metastatic kidney cancer, Dr. Serzan said.
 

What Research Supports Treatments for Clear Cell and Non–Clear Cell Renal Cell Carcinoma?

The US Food and Drug Administration (FDA) approved pembrolizumab in 2021 for the adjuvant treatment of renal cell carcinoma (RCC) in patients with intermediate-risk or high-risk of recurrence after nephrectomy or after nephrectomy and resection of metastatic lesions.

Pembrolizumab is the first adjuvant therapy shown to significantly improve overall survival in these patients, Dr. Serzan said. In the KEYNOTE-564 study, published in 2024 in the Journal of Clinical Oncology, pembrolizumab demonstrated an improvement in disease free survival as well as overall survival when compared with placebo.

Several similar studies of adjuvant immune checkpoint inhibitors for renal cell carcinoma involving atezolizumab vs. placebo, nivolumab plus ipilimumab vs. placebo, and nivolumab vs. observation have not shown significant benefits in terms of disease-free survival, Dr. Serzan noted.

The current NCCN Clinical Practice Guidelines in Oncology for Kidney Cancer (Version: 3.2024), which were updated this year, support the use of adjuvant pembrolizumab for patients with stage II, III, or IV clear cell renal cell carcinoma after partial or radical nephrectomy, he said.

Looking ahead, biomarkers are needed to understand the risk of recurrence, and which patients benefit from adjuvant pembrolizumab, Dr. Serzan added.
 

 

 

Where Do VEGF-TKIs Fit In?

VEGF is a treatment target for renal cancer, and angiogenesis inhibition with VEGF TKIs continues to be a subject for study, Dr. Serzan said. In the CABOSUN study, published in the Journal of Clinical Oncology in 2017, patients were randomized to cabozantinib or sunitinib. Progression-free survival was significantly greater in the cabozantinib group, but overall survival was similar between the groups.

In another randomized trial, the CheckMate 214 study, patients received either sunitinib or a combination of nivolumab plus ipilimumab in four doses given every 3 weeks, followed by nivolumab alone every 2 weeks, and these patients were stratified by risk, Dr. Serzan noted.

The median progression-free survival was 12.4 months in the combination group vs. 8.5 months in the sunitinib group for patients at intermediate or poor risk of recurrence. The median progression-free survival was significantly greater in sunitinib patients with favorable risk vs. combination patients with favorable risk (28.9 months vs. 12.4 months).

Overall survival was higher for all patients with combination therapy vs. sunitinib regardless of risk stratification.

Dr. Serzan reviewed the pros of VEGF/PD1 (programmed death-ligand 1) combinations as including a high response rate (generally 52%-72%) and a low rate of primary progressive disease (5%-12%), as well as favorable progression-free and overall survival and low rates of immune-related adverse events.

However, cons of this treatment include lack of data on treatment-free survival as well as the decrease in progression-free survival and overall survival hazard ratios over time and potential chronic VEGF/TKI toxicities, he said.
 

What Treatments Are Recommended for Metastatic Clear Cell Renal Cell Carcinoma Now?

Clear cell renal cell carcinoma (ccRCC) is the most prevalent histological subtype of kidney cancer, accounting for 70%-75% of cases, and these patients are prone to metastasis, recurrence, and resistance to radiotherapy and chemotherapy, according to authors of a recent review published in Frontiers in Oncology.

Dr. Serzan shared his preferred protocol for treatment-naive metastatic ccRCC patients, based on the NCCN guidelines for Kidney Cancer (Version: 3.2024) that had been updated in 2024.

For those with sarcomatoid features, he favors the use of nivolumab/ipilimumab combination, while those without sarcomatoid features, if highly symptomatic, may be treated with any of several combinations: nivolumab/ipilimumab, axitinib/pembrolizumab, cabozantinib/nivolumab, or lenvatinib/pembrolizumab.

For asymptomatic patients without sarcomatoid features, treatment depends on eligibility for immune checkpoint inhibitors or ipilimumab, Dr. Serzan said. His first choice for those eligible is nivolumab/ipilimumab; those not eligible for ipilimumab could receive nivolumab, pembrolizumab, axitinib/pembrolizumab, cabozantinib/nivolumab, or lenvatinib/pembrolizumab.

For patients not eligible for ICIs because of uncontrolled autoimmune disease, or high-dose glucocorticoids, Dr. Serzan recommended treatment with cabozantinib, lenvatinib/everolimus, pazopanib, or sunitinib.
 

What are Some Takeaway Points About Immunotherapy and Renal Cell Carcinoma?

“Immunotherapy has revolutionized treatment for renal cell carcinoma, with significant increases in overall survival, and a small but consistent cure fraction that was unimaginable 10 years ago,” Eric Jonasch, MD, of The University of Texas MD Anderson Cancer Center and vice-chair of the NCCN Guidelines Panel for Kidney Cancer, said in an interview.

 

 

However, challenges to implementing new treatments in clinical practice are ongoing, he said. The major challenges facing clinicians, patients, and their families include the cost of therapy, logistics of treatment administration, and managing toxicities, Dr. Jonasch said.  

Patient selection is key to optimize outcomes with immunotherapy, and shared decision-making is essential to ensure that choice of therapy matches patient expectations and needs — and to maintain clear and open channels of communication while patients are on therapy, Dr. Jonasch said. “In my clinic, we empower patients to take treatment breaks to manage side effects, thereby optimizing quality of life while maintaining treatment efficacy,” he said.

Although significant progress has been made in managing renal cell carcinoma, more research is needed to increase the proportion of patients cured, said Dr. Jonasch. “A clearer understanding of the determinants of response and resistance, which will be driven by information rich clinical trials, will help move us in that direction,” he said.

Dr. Serzan had no financial conflicts to disclose. Dr. Jonasch disclosed research support from AbbVie, Arrowhead, Aveo, BMS, Corvus, Merck, NiKang, ProfoundBio, and Telix, as well as honoraria from Aveo, Eisai, Exelixis, GlaxoSmithKline, Ipsen, Merck, Novartis, NiKang, and Takeda.

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The latest research supports immune checkpoint inhibitor therapy for clear cell and non–clear cell renal cell carcinoma, but patient selection is key to optimize outcomes, according to a medical oncologist from the Dana-Farber Cancer Institute, Boston.

Michael Serzan, MD, who works in the Lank Center for Genitourinary Oncology at the institute, stated this at the 2024 National Comprehensive Cancer Network Annual Conference, during a presentation.

A systematic review and meta-analysis published in 2022 in European Urology Open Science summarized six randomized controlled trials with a total of 5121 adult patients. In the review, the researchers found that immune checkpoint inhibitors plus vascular endothelial growth factor tyrosine kinase inhibitors (VEGF TKI) were associated with consistent improvements across all risk groups for metastatic renal cell carcinoma.

Additional newer research supports the use of immunotherapy combinations or other immunotherapy plus tyrosine kinase inhibitors as first-line or adjuvant treatments for renal cell carcinoma, Dr. Serzan said during an interview. However, more genomic and histology-directed therapies are needed, he noted.
 

Tips for Evaluating Risk When Treating Renal Cell Carcinoma?

For patients with localized clear cell renal cell carcinoma who have undergone partial or radical nephrectomy, there are several models that estimate the risk of recurrence based on pathologic tumor stage, grade, histology, invasion, and the extent of necrosis, Dr. Serzan said. These models can help guide selection of patients who may be at high risk of recurrence and, therefore, may benefit from adjuvant therapy.

For patients with metastatic clear cell renal cell carcinoma, the IMDC and MSKCC prognostic models stratify patients to favorable, intermediate, and poor risk groups based on clinical and lab factors. The IMDC risk stratification model is used as a prognostic model to stratify patients diagnosed with metastatic kidney cancer, Dr. Serzan said.
 

What Research Supports Treatments for Clear Cell and Non–Clear Cell Renal Cell Carcinoma?

The US Food and Drug Administration (FDA) approved pembrolizumab in 2021 for the adjuvant treatment of renal cell carcinoma (RCC) in patients with intermediate-risk or high-risk of recurrence after nephrectomy or after nephrectomy and resection of metastatic lesions.

Pembrolizumab is the first adjuvant therapy shown to significantly improve overall survival in these patients, Dr. Serzan said. In the KEYNOTE-564 study, published in 2024 in the Journal of Clinical Oncology, pembrolizumab demonstrated an improvement in disease free survival as well as overall survival when compared with placebo.

Several similar studies of adjuvant immune checkpoint inhibitors for renal cell carcinoma involving atezolizumab vs. placebo, nivolumab plus ipilimumab vs. placebo, and nivolumab vs. observation have not shown significant benefits in terms of disease-free survival, Dr. Serzan noted.

The current NCCN Clinical Practice Guidelines in Oncology for Kidney Cancer (Version: 3.2024), which were updated this year, support the use of adjuvant pembrolizumab for patients with stage II, III, or IV clear cell renal cell carcinoma after partial or radical nephrectomy, he said.

Looking ahead, biomarkers are needed to understand the risk of recurrence, and which patients benefit from adjuvant pembrolizumab, Dr. Serzan added.
 

 

 

Where Do VEGF-TKIs Fit In?

VEGF is a treatment target for renal cancer, and angiogenesis inhibition with VEGF TKIs continues to be a subject for study, Dr. Serzan said. In the CABOSUN study, published in the Journal of Clinical Oncology in 2017, patients were randomized to cabozantinib or sunitinib. Progression-free survival was significantly greater in the cabozantinib group, but overall survival was similar between the groups.

In another randomized trial, the CheckMate 214 study, patients received either sunitinib or a combination of nivolumab plus ipilimumab in four doses given every 3 weeks, followed by nivolumab alone every 2 weeks, and these patients were stratified by risk, Dr. Serzan noted.

The median progression-free survival was 12.4 months in the combination group vs. 8.5 months in the sunitinib group for patients at intermediate or poor risk of recurrence. The median progression-free survival was significantly greater in sunitinib patients with favorable risk vs. combination patients with favorable risk (28.9 months vs. 12.4 months).

Overall survival was higher for all patients with combination therapy vs. sunitinib regardless of risk stratification.

Dr. Serzan reviewed the pros of VEGF/PD1 (programmed death-ligand 1) combinations as including a high response rate (generally 52%-72%) and a low rate of primary progressive disease (5%-12%), as well as favorable progression-free and overall survival and low rates of immune-related adverse events.

However, cons of this treatment include lack of data on treatment-free survival as well as the decrease in progression-free survival and overall survival hazard ratios over time and potential chronic VEGF/TKI toxicities, he said.
 

What Treatments Are Recommended for Metastatic Clear Cell Renal Cell Carcinoma Now?

Clear cell renal cell carcinoma (ccRCC) is the most prevalent histological subtype of kidney cancer, accounting for 70%-75% of cases, and these patients are prone to metastasis, recurrence, and resistance to radiotherapy and chemotherapy, according to authors of a recent review published in Frontiers in Oncology.

Dr. Serzan shared his preferred protocol for treatment-naive metastatic ccRCC patients, based on the NCCN guidelines for Kidney Cancer (Version: 3.2024) that had been updated in 2024.

For those with sarcomatoid features, he favors the use of nivolumab/ipilimumab combination, while those without sarcomatoid features, if highly symptomatic, may be treated with any of several combinations: nivolumab/ipilimumab, axitinib/pembrolizumab, cabozantinib/nivolumab, or lenvatinib/pembrolizumab.

For asymptomatic patients without sarcomatoid features, treatment depends on eligibility for immune checkpoint inhibitors or ipilimumab, Dr. Serzan said. His first choice for those eligible is nivolumab/ipilimumab; those not eligible for ipilimumab could receive nivolumab, pembrolizumab, axitinib/pembrolizumab, cabozantinib/nivolumab, or lenvatinib/pembrolizumab.

For patients not eligible for ICIs because of uncontrolled autoimmune disease, or high-dose glucocorticoids, Dr. Serzan recommended treatment with cabozantinib, lenvatinib/everolimus, pazopanib, or sunitinib.
 

What are Some Takeaway Points About Immunotherapy and Renal Cell Carcinoma?

“Immunotherapy has revolutionized treatment for renal cell carcinoma, with significant increases in overall survival, and a small but consistent cure fraction that was unimaginable 10 years ago,” Eric Jonasch, MD, of The University of Texas MD Anderson Cancer Center and vice-chair of the NCCN Guidelines Panel for Kidney Cancer, said in an interview.

 

 

However, challenges to implementing new treatments in clinical practice are ongoing, he said. The major challenges facing clinicians, patients, and their families include the cost of therapy, logistics of treatment administration, and managing toxicities, Dr. Jonasch said.  

Patient selection is key to optimize outcomes with immunotherapy, and shared decision-making is essential to ensure that choice of therapy matches patient expectations and needs — and to maintain clear and open channels of communication while patients are on therapy, Dr. Jonasch said. “In my clinic, we empower patients to take treatment breaks to manage side effects, thereby optimizing quality of life while maintaining treatment efficacy,” he said.

Although significant progress has been made in managing renal cell carcinoma, more research is needed to increase the proportion of patients cured, said Dr. Jonasch. “A clearer understanding of the determinants of response and resistance, which will be driven by information rich clinical trials, will help move us in that direction,” he said.

Dr. Serzan had no financial conflicts to disclose. Dr. Jonasch disclosed research support from AbbVie, Arrowhead, Aveo, BMS, Corvus, Merck, NiKang, ProfoundBio, and Telix, as well as honoraria from Aveo, Eisai, Exelixis, GlaxoSmithKline, Ipsen, Merck, Novartis, NiKang, and Takeda.

 

The latest research supports immune checkpoint inhibitor therapy for clear cell and non–clear cell renal cell carcinoma, but patient selection is key to optimize outcomes, according to a medical oncologist from the Dana-Farber Cancer Institute, Boston.

Michael Serzan, MD, who works in the Lank Center for Genitourinary Oncology at the institute, stated this at the 2024 National Comprehensive Cancer Network Annual Conference, during a presentation.

A systematic review and meta-analysis published in 2022 in European Urology Open Science summarized six randomized controlled trials with a total of 5121 adult patients. In the review, the researchers found that immune checkpoint inhibitors plus vascular endothelial growth factor tyrosine kinase inhibitors (VEGF TKI) were associated with consistent improvements across all risk groups for metastatic renal cell carcinoma.

Additional newer research supports the use of immunotherapy combinations or other immunotherapy plus tyrosine kinase inhibitors as first-line or adjuvant treatments for renal cell carcinoma, Dr. Serzan said during an interview. However, more genomic and histology-directed therapies are needed, he noted.
 

Tips for Evaluating Risk When Treating Renal Cell Carcinoma?

For patients with localized clear cell renal cell carcinoma who have undergone partial or radical nephrectomy, there are several models that estimate the risk of recurrence based on pathologic tumor stage, grade, histology, invasion, and the extent of necrosis, Dr. Serzan said. These models can help guide selection of patients who may be at high risk of recurrence and, therefore, may benefit from adjuvant therapy.

For patients with metastatic clear cell renal cell carcinoma, the IMDC and MSKCC prognostic models stratify patients to favorable, intermediate, and poor risk groups based on clinical and lab factors. The IMDC risk stratification model is used as a prognostic model to stratify patients diagnosed with metastatic kidney cancer, Dr. Serzan said.
 

What Research Supports Treatments for Clear Cell and Non–Clear Cell Renal Cell Carcinoma?

The US Food and Drug Administration (FDA) approved pembrolizumab in 2021 for the adjuvant treatment of renal cell carcinoma (RCC) in patients with intermediate-risk or high-risk of recurrence after nephrectomy or after nephrectomy and resection of metastatic lesions.

Pembrolizumab is the first adjuvant therapy shown to significantly improve overall survival in these patients, Dr. Serzan said. In the KEYNOTE-564 study, published in 2024 in the Journal of Clinical Oncology, pembrolizumab demonstrated an improvement in disease free survival as well as overall survival when compared with placebo.

Several similar studies of adjuvant immune checkpoint inhibitors for renal cell carcinoma involving atezolizumab vs. placebo, nivolumab plus ipilimumab vs. placebo, and nivolumab vs. observation have not shown significant benefits in terms of disease-free survival, Dr. Serzan noted.

The current NCCN Clinical Practice Guidelines in Oncology for Kidney Cancer (Version: 3.2024), which were updated this year, support the use of adjuvant pembrolizumab for patients with stage II, III, or IV clear cell renal cell carcinoma after partial or radical nephrectomy, he said.

Looking ahead, biomarkers are needed to understand the risk of recurrence, and which patients benefit from adjuvant pembrolizumab, Dr. Serzan added.
 

 

 

Where Do VEGF-TKIs Fit In?

VEGF is a treatment target for renal cancer, and angiogenesis inhibition with VEGF TKIs continues to be a subject for study, Dr. Serzan said. In the CABOSUN study, published in the Journal of Clinical Oncology in 2017, patients were randomized to cabozantinib or sunitinib. Progression-free survival was significantly greater in the cabozantinib group, but overall survival was similar between the groups.

In another randomized trial, the CheckMate 214 study, patients received either sunitinib or a combination of nivolumab plus ipilimumab in four doses given every 3 weeks, followed by nivolumab alone every 2 weeks, and these patients were stratified by risk, Dr. Serzan noted.

The median progression-free survival was 12.4 months in the combination group vs. 8.5 months in the sunitinib group for patients at intermediate or poor risk of recurrence. The median progression-free survival was significantly greater in sunitinib patients with favorable risk vs. combination patients with favorable risk (28.9 months vs. 12.4 months).

Overall survival was higher for all patients with combination therapy vs. sunitinib regardless of risk stratification.

Dr. Serzan reviewed the pros of VEGF/PD1 (programmed death-ligand 1) combinations as including a high response rate (generally 52%-72%) and a low rate of primary progressive disease (5%-12%), as well as favorable progression-free and overall survival and low rates of immune-related adverse events.

However, cons of this treatment include lack of data on treatment-free survival as well as the decrease in progression-free survival and overall survival hazard ratios over time and potential chronic VEGF/TKI toxicities, he said.
 

What Treatments Are Recommended for Metastatic Clear Cell Renal Cell Carcinoma Now?

Clear cell renal cell carcinoma (ccRCC) is the most prevalent histological subtype of kidney cancer, accounting for 70%-75% of cases, and these patients are prone to metastasis, recurrence, and resistance to radiotherapy and chemotherapy, according to authors of a recent review published in Frontiers in Oncology.

Dr. Serzan shared his preferred protocol for treatment-naive metastatic ccRCC patients, based on the NCCN guidelines for Kidney Cancer (Version: 3.2024) that had been updated in 2024.

For those with sarcomatoid features, he favors the use of nivolumab/ipilimumab combination, while those without sarcomatoid features, if highly symptomatic, may be treated with any of several combinations: nivolumab/ipilimumab, axitinib/pembrolizumab, cabozantinib/nivolumab, or lenvatinib/pembrolizumab.

For asymptomatic patients without sarcomatoid features, treatment depends on eligibility for immune checkpoint inhibitors or ipilimumab, Dr. Serzan said. His first choice for those eligible is nivolumab/ipilimumab; those not eligible for ipilimumab could receive nivolumab, pembrolizumab, axitinib/pembrolizumab, cabozantinib/nivolumab, or lenvatinib/pembrolizumab.

For patients not eligible for ICIs because of uncontrolled autoimmune disease, or high-dose glucocorticoids, Dr. Serzan recommended treatment with cabozantinib, lenvatinib/everolimus, pazopanib, or sunitinib.
 

What are Some Takeaway Points About Immunotherapy and Renal Cell Carcinoma?

“Immunotherapy has revolutionized treatment for renal cell carcinoma, with significant increases in overall survival, and a small but consistent cure fraction that was unimaginable 10 years ago,” Eric Jonasch, MD, of The University of Texas MD Anderson Cancer Center and vice-chair of the NCCN Guidelines Panel for Kidney Cancer, said in an interview.

 

 

However, challenges to implementing new treatments in clinical practice are ongoing, he said. The major challenges facing clinicians, patients, and their families include the cost of therapy, logistics of treatment administration, and managing toxicities, Dr. Jonasch said.  

Patient selection is key to optimize outcomes with immunotherapy, and shared decision-making is essential to ensure that choice of therapy matches patient expectations and needs — and to maintain clear and open channels of communication while patients are on therapy, Dr. Jonasch said. “In my clinic, we empower patients to take treatment breaks to manage side effects, thereby optimizing quality of life while maintaining treatment efficacy,” he said.

Although significant progress has been made in managing renal cell carcinoma, more research is needed to increase the proportion of patients cured, said Dr. Jonasch. “A clearer understanding of the determinants of response and resistance, which will be driven by information rich clinical trials, will help move us in that direction,” he said.

Dr. Serzan had no financial conflicts to disclose. Dr. Jonasch disclosed research support from AbbVie, Arrowhead, Aveo, BMS, Corvus, Merck, NiKang, ProfoundBio, and Telix, as well as honoraria from Aveo, Eisai, Exelixis, GlaxoSmithKline, Ipsen, Merck, Novartis, NiKang, and Takeda.

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How Long Should Active Surveillance Last?

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Mon, 04/22/2024 - 14:44

 

Men with low-risk prostate cancer who go on active surveillance rather than treatment are best followed-up for more than 15 years — and perhaps indefinitely — according one of the longest studies to date to look at the issue. 

Previous studies have shown that active surveillance continued for 15 years is appropriate to identify men who progress and need treatment, but now data out to 25 years “suggest that meticulous follow-up is needed over a longer time if the chance for cure is not to be missed,” said Emmeli Palmstedt, PhD, a research student in the Department of Urology at the Sahlgrenska Academy at the University of Gothenburg, Sweden. “These data are crucial, given the long current life expectancy” of men in otherwise good health. 

Dr. Palmstedt presented the findings at the 2024 annual meeting of the European Association of Urology.

At many centers, active surveillance is a standard of care for men with low-risk prostate cancer based on a benefit-to-risk ratio that favors delayed intervention, according to Palmstedt. Several studies, including the Göteburg-1 active surveillance trial initiated at her institution, have supported follow-up for 15 years. A new set of data from Göteborg now extends to 25 years.
 

Long-Life Expectancy Justifies Extended Surveillance

The prospective Göteborg study began enrolling men with very low- or low-risk (78%) or intermediate-risk (22%) prostate cancer in 1995. In the active surveillance program, prostate-specific antigen (PSA) was measured routinely with biopsies ordered for PSA levels ≥ 2.5 ng/mL. 

In an analysis published in 2016 when 202 (43%) of 474 patients managed with active surveillance had discontinued surveillance to start treatment, the median follow-up period was 8 years. The rate of mortality associated with prostate cancer at 15 years was estimated to be 0% for men in the very low-risk group, 4% for men in the low-risk group, and 10% for those with intermediate-risk tumors. The estimates for failure-free survival at 15 years were 88%, 77%, and 40% for the very low-, low-, and intermediate-risk groups, respectively.

In the most recent follow-up, when the median age in the Göteburg-1 study was 80 years (the median age at diagnosis was 66 years), the median follow-up period was 15.1 years with a range of up to 28.1 years. In this analysis, which focused on patients with low-risk prostate cancer at baseline, discontinuations from active surveillance had climbed to 47%. Most of these men discontinued to initiate treatment, but 79 (16%) had failed acute surveillance, meaning their progression was not caught in time for curative-intent treatment, and 2% had died from prostate cancer.
 

Treatment-Free Survival Falls to 31% 

The rate of treatment-free survival, which was estimated to be 65% in the 15-year analysis published in 2016, had declined to 31%. The rate of failure-free survival was 59%, and prostate cancer-specific survival was 92%, according to the researchers. 

While Dr. Palmstedt did not separate out her data for very low- and low-risk patients, she noted that deaths from prostate cancer among all low-risk patients climbed fourfold (8% vs 2%) since the 2016 figures were published. The proportion of men no longer failure-free climbed from 10% to more than 40%. 

“These are non-negligible numbers,” said Dr. Palmstedt, who added that overall survival fell from 69% at 15 years to 37% at 25 years.

Although some men between the 15-year and 25-year timepoints were switched to watchful waiting, these data have not yet been analyzed.

The low rate of deaths from prostate cancer over the extended period is reassuring, Dr. Palmstedt said, but the main message from the new study is that active surveillance permits curative-intent treatment to be offered even after late follow-up. She emphasized that patients without progression by 15 years cannot be considered “safe.”

Based on these data, “men with a long remaining life expectancy should be informed that active surveillance is still viable after 15 years,” Dr. Palmstedt said.
 

 

 

Active Surveillance Now More Common

Over the past decade, the proportion of men with prostate cancer managed with active surveillance has been rising steadily, according to Matthew R. Cooperberg, MD, MPH, professor of urology at the University of California, San Francisco. In a study published last year in JAMA Network Open, Dr. Cooperberg and his colleagues reported that rates of active surveillance rose from 26.5% in 2014 to 59.6% in 2021. However, given the value of the approach for avoiding overtreatment of men with low-risk prostate cancers, even that increase is not enough, he said.

“The window of opportunity for cure is typically very wide,” Dr. Cooperberg said. Although many men “will never need treatment ... long-term surveillance is definitely important” for those that do, he said. The data from trials like Göteborg-1 support the principle that this strategy still preserves the option of treatment when it is needed. 

“Treatment for cure at age 70 is generally far preferable to treatment at 55, and surveillance should absolutely be preferred treatment for the vast majority of men with low-grade disease at diagnosis,” he explained.

Dr. Palmstedt reported no potential conflicts of interest. Dr. Cooperberg reported financial relationships with Astellas, AstraZeneca, Bayer, Dendreon, Exact Sciences, Janssen, Merck, Pfizer, and Verana Health. 
 

A version of this article appeared on Medscape.com.

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Men with low-risk prostate cancer who go on active surveillance rather than treatment are best followed-up for more than 15 years — and perhaps indefinitely — according one of the longest studies to date to look at the issue. 

Previous studies have shown that active surveillance continued for 15 years is appropriate to identify men who progress and need treatment, but now data out to 25 years “suggest that meticulous follow-up is needed over a longer time if the chance for cure is not to be missed,” said Emmeli Palmstedt, PhD, a research student in the Department of Urology at the Sahlgrenska Academy at the University of Gothenburg, Sweden. “These data are crucial, given the long current life expectancy” of men in otherwise good health. 

Dr. Palmstedt presented the findings at the 2024 annual meeting of the European Association of Urology.

At many centers, active surveillance is a standard of care for men with low-risk prostate cancer based on a benefit-to-risk ratio that favors delayed intervention, according to Palmstedt. Several studies, including the Göteburg-1 active surveillance trial initiated at her institution, have supported follow-up for 15 years. A new set of data from Göteborg now extends to 25 years.
 

Long-Life Expectancy Justifies Extended Surveillance

The prospective Göteborg study began enrolling men with very low- or low-risk (78%) or intermediate-risk (22%) prostate cancer in 1995. In the active surveillance program, prostate-specific antigen (PSA) was measured routinely with biopsies ordered for PSA levels ≥ 2.5 ng/mL. 

In an analysis published in 2016 when 202 (43%) of 474 patients managed with active surveillance had discontinued surveillance to start treatment, the median follow-up period was 8 years. The rate of mortality associated with prostate cancer at 15 years was estimated to be 0% for men in the very low-risk group, 4% for men in the low-risk group, and 10% for those with intermediate-risk tumors. The estimates for failure-free survival at 15 years were 88%, 77%, and 40% for the very low-, low-, and intermediate-risk groups, respectively.

In the most recent follow-up, when the median age in the Göteburg-1 study was 80 years (the median age at diagnosis was 66 years), the median follow-up period was 15.1 years with a range of up to 28.1 years. In this analysis, which focused on patients with low-risk prostate cancer at baseline, discontinuations from active surveillance had climbed to 47%. Most of these men discontinued to initiate treatment, but 79 (16%) had failed acute surveillance, meaning their progression was not caught in time for curative-intent treatment, and 2% had died from prostate cancer.
 

Treatment-Free Survival Falls to 31% 

The rate of treatment-free survival, which was estimated to be 65% in the 15-year analysis published in 2016, had declined to 31%. The rate of failure-free survival was 59%, and prostate cancer-specific survival was 92%, according to the researchers. 

While Dr. Palmstedt did not separate out her data for very low- and low-risk patients, she noted that deaths from prostate cancer among all low-risk patients climbed fourfold (8% vs 2%) since the 2016 figures were published. The proportion of men no longer failure-free climbed from 10% to more than 40%. 

“These are non-negligible numbers,” said Dr. Palmstedt, who added that overall survival fell from 69% at 15 years to 37% at 25 years.

Although some men between the 15-year and 25-year timepoints were switched to watchful waiting, these data have not yet been analyzed.

The low rate of deaths from prostate cancer over the extended period is reassuring, Dr. Palmstedt said, but the main message from the new study is that active surveillance permits curative-intent treatment to be offered even after late follow-up. She emphasized that patients without progression by 15 years cannot be considered “safe.”

Based on these data, “men with a long remaining life expectancy should be informed that active surveillance is still viable after 15 years,” Dr. Palmstedt said.
 

 

 

Active Surveillance Now More Common

Over the past decade, the proportion of men with prostate cancer managed with active surveillance has been rising steadily, according to Matthew R. Cooperberg, MD, MPH, professor of urology at the University of California, San Francisco. In a study published last year in JAMA Network Open, Dr. Cooperberg and his colleagues reported that rates of active surveillance rose from 26.5% in 2014 to 59.6% in 2021. However, given the value of the approach for avoiding overtreatment of men with low-risk prostate cancers, even that increase is not enough, he said.

“The window of opportunity for cure is typically very wide,” Dr. Cooperberg said. Although many men “will never need treatment ... long-term surveillance is definitely important” for those that do, he said. The data from trials like Göteborg-1 support the principle that this strategy still preserves the option of treatment when it is needed. 

“Treatment for cure at age 70 is generally far preferable to treatment at 55, and surveillance should absolutely be preferred treatment for the vast majority of men with low-grade disease at diagnosis,” he explained.

Dr. Palmstedt reported no potential conflicts of interest. Dr. Cooperberg reported financial relationships with Astellas, AstraZeneca, Bayer, Dendreon, Exact Sciences, Janssen, Merck, Pfizer, and Verana Health. 
 

A version of this article appeared on Medscape.com.

 

Men with low-risk prostate cancer who go on active surveillance rather than treatment are best followed-up for more than 15 years — and perhaps indefinitely — according one of the longest studies to date to look at the issue. 

Previous studies have shown that active surveillance continued for 15 years is appropriate to identify men who progress and need treatment, but now data out to 25 years “suggest that meticulous follow-up is needed over a longer time if the chance for cure is not to be missed,” said Emmeli Palmstedt, PhD, a research student in the Department of Urology at the Sahlgrenska Academy at the University of Gothenburg, Sweden. “These data are crucial, given the long current life expectancy” of men in otherwise good health. 

Dr. Palmstedt presented the findings at the 2024 annual meeting of the European Association of Urology.

At many centers, active surveillance is a standard of care for men with low-risk prostate cancer based on a benefit-to-risk ratio that favors delayed intervention, according to Palmstedt. Several studies, including the Göteburg-1 active surveillance trial initiated at her institution, have supported follow-up for 15 years. A new set of data from Göteborg now extends to 25 years.
 

Long-Life Expectancy Justifies Extended Surveillance

The prospective Göteborg study began enrolling men with very low- or low-risk (78%) or intermediate-risk (22%) prostate cancer in 1995. In the active surveillance program, prostate-specific antigen (PSA) was measured routinely with biopsies ordered for PSA levels ≥ 2.5 ng/mL. 

In an analysis published in 2016 when 202 (43%) of 474 patients managed with active surveillance had discontinued surveillance to start treatment, the median follow-up period was 8 years. The rate of mortality associated with prostate cancer at 15 years was estimated to be 0% for men in the very low-risk group, 4% for men in the low-risk group, and 10% for those with intermediate-risk tumors. The estimates for failure-free survival at 15 years were 88%, 77%, and 40% for the very low-, low-, and intermediate-risk groups, respectively.

In the most recent follow-up, when the median age in the Göteburg-1 study was 80 years (the median age at diagnosis was 66 years), the median follow-up period was 15.1 years with a range of up to 28.1 years. In this analysis, which focused on patients with low-risk prostate cancer at baseline, discontinuations from active surveillance had climbed to 47%. Most of these men discontinued to initiate treatment, but 79 (16%) had failed acute surveillance, meaning their progression was not caught in time for curative-intent treatment, and 2% had died from prostate cancer.
 

Treatment-Free Survival Falls to 31% 

The rate of treatment-free survival, which was estimated to be 65% in the 15-year analysis published in 2016, had declined to 31%. The rate of failure-free survival was 59%, and prostate cancer-specific survival was 92%, according to the researchers. 

While Dr. Palmstedt did not separate out her data for very low- and low-risk patients, she noted that deaths from prostate cancer among all low-risk patients climbed fourfold (8% vs 2%) since the 2016 figures were published. The proportion of men no longer failure-free climbed from 10% to more than 40%. 

“These are non-negligible numbers,” said Dr. Palmstedt, who added that overall survival fell from 69% at 15 years to 37% at 25 years.

Although some men between the 15-year and 25-year timepoints were switched to watchful waiting, these data have not yet been analyzed.

The low rate of deaths from prostate cancer over the extended period is reassuring, Dr. Palmstedt said, but the main message from the new study is that active surveillance permits curative-intent treatment to be offered even after late follow-up. She emphasized that patients without progression by 15 years cannot be considered “safe.”

Based on these data, “men with a long remaining life expectancy should be informed that active surveillance is still viable after 15 years,” Dr. Palmstedt said.
 

 

 

Active Surveillance Now More Common

Over the past decade, the proportion of men with prostate cancer managed with active surveillance has been rising steadily, according to Matthew R. Cooperberg, MD, MPH, professor of urology at the University of California, San Francisco. In a study published last year in JAMA Network Open, Dr. Cooperberg and his colleagues reported that rates of active surveillance rose from 26.5% in 2014 to 59.6% in 2021. However, given the value of the approach for avoiding overtreatment of men with low-risk prostate cancers, even that increase is not enough, he said.

“The window of opportunity for cure is typically very wide,” Dr. Cooperberg said. Although many men “will never need treatment ... long-term surveillance is definitely important” for those that do, he said. The data from trials like Göteborg-1 support the principle that this strategy still preserves the option of treatment when it is needed. 

“Treatment for cure at age 70 is generally far preferable to treatment at 55, and surveillance should absolutely be preferred treatment for the vast majority of men with low-grade disease at diagnosis,” he explained.

Dr. Palmstedt reported no potential conflicts of interest. Dr. Cooperberg reported financial relationships with Astellas, AstraZeneca, Bayer, Dendreon, Exact Sciences, Janssen, Merck, Pfizer, and Verana Health. 
 

A version of this article appeared on Medscape.com.

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Why Lung Cancer Screening Is Not for Everyone

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Wed, 04/24/2024 - 12:29

 

A study conducted in the United States showed that many individuals undergo lung cancer screening despite having a higher likelihood of experiencing harm rather than benefit. Why does this happen? Could it also occur in Italy?

Reasons in Favor

The authors of the study, which was published in Annals of Family Medicine interviewed 40 former military personnel with a significant history of smoking. Though the patients presented with various comorbidities and had a limited life expectancy, the Veterans Health Administration had offered them lung cancer screening.

Of the 40 respondents, 26 had accepted the screening test. When asked why they had done so, they responded, “to take care of my health and achieve my life goals,” “because screening is an opportunity to identify potential issues,” “because it was recommended by a doctor I trust,” and “because I don’t want to regret not accepting it.” Strangely, when deciding about lung cancer screening, the respondents did not consider their poor health or life expectancy.
 

Potential Harms 

The screening was also welcomed because low-dose computed tomography (LDCT) is a noninvasive test. However, many participants were unaware that the screening needed to be repeated annually and that further imaging or other types of tests could follow LDCT, such as biopsies and bronchoscopies.

Many did not recall discussing with the doctor the potential harms of screening, including overdiagnosis, stress due to false positives, and complications and risks associated with investigations and treatments. Informed about this, several patients stated that they would not necessarily undergo further tests or antitumor treatments, especially if intensive or invasive.

The authors of the article emphasized the importance of shared decision-making with patients who have a marginal expected benefit from screening. But is it correct to offer screening under these conditions? Guidelines advise against screening individuals with limited life expectancy and multiple comorbidities because the risk-benefit ratio is not favorable.
 

Screening in Italy

Italy has no organized public program for lung screening. However, in 2022, the Rete Italiana Screening Polmonare (RISP) program for early lung cancer diagnosis was launched. Supported by European funds, it is coordinated by the National Cancer Institute (INT) in Milan and aims to recruit 10,000 high-risk candidates for free screening at 18 hospitals across Italy.

Optimizing participant selection is important in any screening, but in a program like RISP, it is essential, said Alessandro Pardolesi, MD, a thoracic surgeon at INT. “Subjects with multiple comorbidities would create a limit to the study, because there would be too many confounding factors. By maintaining correct inclusion criteria, we can build a reproducible model to demonstrate that screening has a clear social and economic impact. Only after proving its effectiveness can we consider extending it to patients with pre-existing issues or who are very elderly,” he said. The RISP project is limited to participants aged 55-75 years. Participants must be smokers or have quit smoking no more than 15 years ago, with an average consumption of 20 cigarettes per day for 30 years.

Participant selection for the RISP program is also dictated by the costs to be incurred. “If something emerges from the CT scan, whether oncologic or not, it needs to be investigated, triggering mechanisms that consume time, space, and resources,” said Dr. Pardolesi. The economic aspect is crucial for determining the effectiveness of screening. “We need to demonstrate that in addition to increasing the patient’s life expectancy, healthcare costs are reduced. By anticipating the diagnosis, the intervention is less expensive, the patient is discharged in three days, and there’s no need for therapy, so there’s a saving. This is important, given the increasingly evident economic problems of the Italian public health system,” said Dr. Pardolesi.

This story was translated from Univadis Italy, which is part of the Medscape professional network, using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

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A study conducted in the United States showed that many individuals undergo lung cancer screening despite having a higher likelihood of experiencing harm rather than benefit. Why does this happen? Could it also occur in Italy?

Reasons in Favor

The authors of the study, which was published in Annals of Family Medicine interviewed 40 former military personnel with a significant history of smoking. Though the patients presented with various comorbidities and had a limited life expectancy, the Veterans Health Administration had offered them lung cancer screening.

Of the 40 respondents, 26 had accepted the screening test. When asked why they had done so, they responded, “to take care of my health and achieve my life goals,” “because screening is an opportunity to identify potential issues,” “because it was recommended by a doctor I trust,” and “because I don’t want to regret not accepting it.” Strangely, when deciding about lung cancer screening, the respondents did not consider their poor health or life expectancy.
 

Potential Harms 

The screening was also welcomed because low-dose computed tomography (LDCT) is a noninvasive test. However, many participants were unaware that the screening needed to be repeated annually and that further imaging or other types of tests could follow LDCT, such as biopsies and bronchoscopies.

Many did not recall discussing with the doctor the potential harms of screening, including overdiagnosis, stress due to false positives, and complications and risks associated with investigations and treatments. Informed about this, several patients stated that they would not necessarily undergo further tests or antitumor treatments, especially if intensive or invasive.

The authors of the article emphasized the importance of shared decision-making with patients who have a marginal expected benefit from screening. But is it correct to offer screening under these conditions? Guidelines advise against screening individuals with limited life expectancy and multiple comorbidities because the risk-benefit ratio is not favorable.
 

Screening in Italy

Italy has no organized public program for lung screening. However, in 2022, the Rete Italiana Screening Polmonare (RISP) program for early lung cancer diagnosis was launched. Supported by European funds, it is coordinated by the National Cancer Institute (INT) in Milan and aims to recruit 10,000 high-risk candidates for free screening at 18 hospitals across Italy.

Optimizing participant selection is important in any screening, but in a program like RISP, it is essential, said Alessandro Pardolesi, MD, a thoracic surgeon at INT. “Subjects with multiple comorbidities would create a limit to the study, because there would be too many confounding factors. By maintaining correct inclusion criteria, we can build a reproducible model to demonstrate that screening has a clear social and economic impact. Only after proving its effectiveness can we consider extending it to patients with pre-existing issues or who are very elderly,” he said. The RISP project is limited to participants aged 55-75 years. Participants must be smokers or have quit smoking no more than 15 years ago, with an average consumption of 20 cigarettes per day for 30 years.

Participant selection for the RISP program is also dictated by the costs to be incurred. “If something emerges from the CT scan, whether oncologic or not, it needs to be investigated, triggering mechanisms that consume time, space, and resources,” said Dr. Pardolesi. The economic aspect is crucial for determining the effectiveness of screening. “We need to demonstrate that in addition to increasing the patient’s life expectancy, healthcare costs are reduced. By anticipating the diagnosis, the intervention is less expensive, the patient is discharged in three days, and there’s no need for therapy, so there’s a saving. This is important, given the increasingly evident economic problems of the Italian public health system,” said Dr. Pardolesi.

This story was translated from Univadis Italy, which is part of the Medscape professional network, using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

 

A study conducted in the United States showed that many individuals undergo lung cancer screening despite having a higher likelihood of experiencing harm rather than benefit. Why does this happen? Could it also occur in Italy?

Reasons in Favor

The authors of the study, which was published in Annals of Family Medicine interviewed 40 former military personnel with a significant history of smoking. Though the patients presented with various comorbidities and had a limited life expectancy, the Veterans Health Administration had offered them lung cancer screening.

Of the 40 respondents, 26 had accepted the screening test. When asked why they had done so, they responded, “to take care of my health and achieve my life goals,” “because screening is an opportunity to identify potential issues,” “because it was recommended by a doctor I trust,” and “because I don’t want to regret not accepting it.” Strangely, when deciding about lung cancer screening, the respondents did not consider their poor health or life expectancy.
 

Potential Harms 

The screening was also welcomed because low-dose computed tomography (LDCT) is a noninvasive test. However, many participants were unaware that the screening needed to be repeated annually and that further imaging or other types of tests could follow LDCT, such as biopsies and bronchoscopies.

Many did not recall discussing with the doctor the potential harms of screening, including overdiagnosis, stress due to false positives, and complications and risks associated with investigations and treatments. Informed about this, several patients stated that they would not necessarily undergo further tests or antitumor treatments, especially if intensive or invasive.

The authors of the article emphasized the importance of shared decision-making with patients who have a marginal expected benefit from screening. But is it correct to offer screening under these conditions? Guidelines advise against screening individuals with limited life expectancy and multiple comorbidities because the risk-benefit ratio is not favorable.
 

Screening in Italy

Italy has no organized public program for lung screening. However, in 2022, the Rete Italiana Screening Polmonare (RISP) program for early lung cancer diagnosis was launched. Supported by European funds, it is coordinated by the National Cancer Institute (INT) in Milan and aims to recruit 10,000 high-risk candidates for free screening at 18 hospitals across Italy.

Optimizing participant selection is important in any screening, but in a program like RISP, it is essential, said Alessandro Pardolesi, MD, a thoracic surgeon at INT. “Subjects with multiple comorbidities would create a limit to the study, because there would be too many confounding factors. By maintaining correct inclusion criteria, we can build a reproducible model to demonstrate that screening has a clear social and economic impact. Only after proving its effectiveness can we consider extending it to patients with pre-existing issues or who are very elderly,” he said. The RISP project is limited to participants aged 55-75 years. Participants must be smokers or have quit smoking no more than 15 years ago, with an average consumption of 20 cigarettes per day for 30 years.

Participant selection for the RISP program is also dictated by the costs to be incurred. “If something emerges from the CT scan, whether oncologic or not, it needs to be investigated, triggering mechanisms that consume time, space, and resources,” said Dr. Pardolesi. The economic aspect is crucial for determining the effectiveness of screening. “We need to demonstrate that in addition to increasing the patient’s life expectancy, healthcare costs are reduced. By anticipating the diagnosis, the intervention is less expensive, the patient is discharged in three days, and there’s no need for therapy, so there’s a saving. This is important, given the increasingly evident economic problems of the Italian public health system,” said Dr. Pardolesi.

This story was translated from Univadis Italy, which is part of the Medscape professional network, using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

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Adding ACEI to Chemotherapy Does Not Prevent Cardiotoxicity

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Changed
Fri, 04/19/2024 - 11:31

 

The addition of an angiotensin-converting enzyme (ACE) inhibitor did not decrease risk for chemotherapy-related cardiac damage in patients being treated for breast cancer and non-Hodgkin lymphoma (NHL), a new randomized trial showed.

The results suggested adding an ACE inhibitor doesn’t affect cardiac injury or cardiac function outcomes “and should not be used as a preventative strategy” in these patients, David Austin, MD, consultant cardiologist, Academic Cardiovascular Unit, The James Cook University Hospital, Middlesbrough, England, and chief investigator for the PROACT study, told this news organization.

But while these negative results are disappointing, he said, “we now have a definitive result in a robustly conducted trial that will take the field forward.”

The findings were presented on April 8, 2024, at the American College of Cardiology (ACC) Scientific Session 2024.

Anthracyclines, which are extracted from Streptomyces bacterium, are chemotherapy drugs widely used to treat several types of cancer. Doxorubicin is among the most clinically important anthracyclines.

While extremely effective, anthracyclines can cause irreversible damage to cardiac cells and ultimately impair cardiac function and even cause heart failure, which may only be evident years after exposure. “Cardiac injury is very common in patients treated with high dose anthracyclines,” noted Dr. Austin.

The open-label PROACT study included 111 adult patients, mean age 58 years and predominantly White and women, being treated for breast cancer (62%) or NHL (38%) at National Health Service hospitals in England with high-dose anthracycline-based chemotherapy.

Patients were randomized to standard care (six cycles of high-dose doxorubicin-equivalent anthracycline-based chemotherapy) plus the ACE inhibitor enalapril maleate or standard care alone. The mean chemotherapy dose was 328 mg/m2; any dose greater than 300 is considered high.

The starting dose of enalapril was 2.5 mg twice a day, which was titrated up to a maximum of 10 mg twice a day. The ACE inhibitor was started at least 2 days before chemotherapy began and finished 3 weeks after the last anthracycline dose.

During the study, enalapril was titrated to 20 mg in more than 75% of patients, with the mean dose being 17.7 mg.
 

Myocardial Injury Outcome

The primary outcome was myocardial injury measured by the presence (≥ 14 ng/L) of high sensitivity cardiac troponin T (cTnT) during anthracycline treatment and 1 month after the last dose of anthracycline.

cTnT is highly expressed in cardiomyocytes and has become a preferred biomarker for detecting acute myocardial infarction and other causes of myocardial injury.

Blood sampling for cTnT and cardiac troponin I (cTnI) was performed at baseline, within 72 hours prior to chemotherapy and at trial completion. All patients had negative troponin results at baseline, indicating no heart damage.

A majority of patients experienced elevations in troponin (78% in the enalapril group and 83% in the standard of care group), but there was no statistically significant difference between groups (adjusted odds ratio [OR], 0.65; 95% CI, 0.23-1.78; P = .405).

There was also no significant difference between groups in terms of cTnI, a secondary endpoint. However, the proportion of patients testing positive for cTnI (47% in the enalapril group and 45% in controls) was substantially lower than that for cTnT.
 

 

 

Large Discrepancy

The “large discrepancy in the rate of injury” with cTnT “has implications for the clinical interpretation of cardiac biomarkers in routine practice, and we should proceed with caution,” Dr. Austin told this news organization.

The finding has implications because guidelines don’t currently differentiate based on the type of troponin, Dr. Austin said in a press release. “I was surprised by the difference, and I think this raises the question of what troponin we should be using.”

Secondary outcomes focused on cardiac function, measured using echocardiography and included left ventricular global longitudinal strain (LVGLS) and left ventricular ejection fraction (LVEF). These were measured at baseline, 4 weeks after the last anthracycline dose and 1 year after the final chemotherapy.

There was no between-group difference in LVGLS cardiac function (21% for enalapril vs 22% for standard of care; adjusted OR, 0.95; 95% CI, 0.33-2.74; P = .921). This was also true for LVEF (4% for enalapril vs 0% for standard of care group; adjusted OR, 4.89; 95% CI, 0.40-674.62; P = .236).

Asked what the research team plans to do next, Dr. Austin said “the immediate first step” is to continue following PROACT patients. “We know heart failure events and cardiac dysfunction can occur later down the line.”

Due to the challenge of enrolling patients into trials like PROACT, “we should come together as a sort of a broader cardiovascular/oncology academic community to try to understand how we can better recruit patients into these studies,” said Dr. Austin.

“We need to solve that problem before we then go on to maybe examine other potential preventative therapies.”

He doesn’t think an alternative ACE inhibitor would prove beneficial. “We need to look elsewhere for effective therapies in this area.”

He noted these new findings are “broadly consistent” with other trials that investigated angiotensin receptor blockers.
 

Tough Population

Commenting on the study during a media briefing, Anita Deswal, chair, medicine, Department of Cardiology, Division of Internal Medicine, The University of Texas, commended the researchers for managing to enroll patients with cancer as this is “a tough” population to get to agree to being in a clinical trial.

“These patients are often overwhelmed financially, physically, and emotionally with the cancer diagnosis, as well as the cancer therapy and, therefore, to enroll them in something to prevent, maybe, some potential cardiac toxicity down the line, is really hard.”

Past trials investigating neuro-hormonal blockers to prevent cardiotoxicity have been criticized for enrolling patients at “too low risk,” said Dr. Deswal. “But investigators here went that step beyond and enrolled patients who were going to receive higher doses of anthracyclines, so kudos to that.”

And she noted investigators managed to get patients on almost the maximum dose of enalapril. “So, the drug was poised to have an effect — if it was there.”

The negative results may have something to do with endpoints. “Maybe we haven’t quite figured out what are the cutoffs for high sensitivity troponin I that identify patients truly at risk” of developing heart failure in the future.

Commenting on the study for this news organization, Anu Lala, MD, assistant professor of medicine at the Icahn School of Medicine at Mount Sinai, New York City, said the results may come as a surprise to some.

“ACE inhibitors are considered cardioprotective and for this reason are often used prophylactically in patients receiving chemotherapy.”

Dr. Lala agrees troponin may not be the right endpoint. “Another question is whether clinical outcomes should be followed in addition to symptoms or onset of any heart failure symptoms, which may hold greater prognostic significance.”

The study was funded by the National Institute for Health and Care Research.

A version of this article appeared on Medscape.com.

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The addition of an angiotensin-converting enzyme (ACE) inhibitor did not decrease risk for chemotherapy-related cardiac damage in patients being treated for breast cancer and non-Hodgkin lymphoma (NHL), a new randomized trial showed.

The results suggested adding an ACE inhibitor doesn’t affect cardiac injury or cardiac function outcomes “and should not be used as a preventative strategy” in these patients, David Austin, MD, consultant cardiologist, Academic Cardiovascular Unit, The James Cook University Hospital, Middlesbrough, England, and chief investigator for the PROACT study, told this news organization.

But while these negative results are disappointing, he said, “we now have a definitive result in a robustly conducted trial that will take the field forward.”

The findings were presented on April 8, 2024, at the American College of Cardiology (ACC) Scientific Session 2024.

Anthracyclines, which are extracted from Streptomyces bacterium, are chemotherapy drugs widely used to treat several types of cancer. Doxorubicin is among the most clinically important anthracyclines.

While extremely effective, anthracyclines can cause irreversible damage to cardiac cells and ultimately impair cardiac function and even cause heart failure, which may only be evident years after exposure. “Cardiac injury is very common in patients treated with high dose anthracyclines,” noted Dr. Austin.

The open-label PROACT study included 111 adult patients, mean age 58 years and predominantly White and women, being treated for breast cancer (62%) or NHL (38%) at National Health Service hospitals in England with high-dose anthracycline-based chemotherapy.

Patients were randomized to standard care (six cycles of high-dose doxorubicin-equivalent anthracycline-based chemotherapy) plus the ACE inhibitor enalapril maleate or standard care alone. The mean chemotherapy dose was 328 mg/m2; any dose greater than 300 is considered high.

The starting dose of enalapril was 2.5 mg twice a day, which was titrated up to a maximum of 10 mg twice a day. The ACE inhibitor was started at least 2 days before chemotherapy began and finished 3 weeks after the last anthracycline dose.

During the study, enalapril was titrated to 20 mg in more than 75% of patients, with the mean dose being 17.7 mg.
 

Myocardial Injury Outcome

The primary outcome was myocardial injury measured by the presence (≥ 14 ng/L) of high sensitivity cardiac troponin T (cTnT) during anthracycline treatment and 1 month after the last dose of anthracycline.

cTnT is highly expressed in cardiomyocytes and has become a preferred biomarker for detecting acute myocardial infarction and other causes of myocardial injury.

Blood sampling for cTnT and cardiac troponin I (cTnI) was performed at baseline, within 72 hours prior to chemotherapy and at trial completion. All patients had negative troponin results at baseline, indicating no heart damage.

A majority of patients experienced elevations in troponin (78% in the enalapril group and 83% in the standard of care group), but there was no statistically significant difference between groups (adjusted odds ratio [OR], 0.65; 95% CI, 0.23-1.78; P = .405).

There was also no significant difference between groups in terms of cTnI, a secondary endpoint. However, the proportion of patients testing positive for cTnI (47% in the enalapril group and 45% in controls) was substantially lower than that for cTnT.
 

 

 

Large Discrepancy

The “large discrepancy in the rate of injury” with cTnT “has implications for the clinical interpretation of cardiac biomarkers in routine practice, and we should proceed with caution,” Dr. Austin told this news organization.

The finding has implications because guidelines don’t currently differentiate based on the type of troponin, Dr. Austin said in a press release. “I was surprised by the difference, and I think this raises the question of what troponin we should be using.”

Secondary outcomes focused on cardiac function, measured using echocardiography and included left ventricular global longitudinal strain (LVGLS) and left ventricular ejection fraction (LVEF). These were measured at baseline, 4 weeks after the last anthracycline dose and 1 year after the final chemotherapy.

There was no between-group difference in LVGLS cardiac function (21% for enalapril vs 22% for standard of care; adjusted OR, 0.95; 95% CI, 0.33-2.74; P = .921). This was also true for LVEF (4% for enalapril vs 0% for standard of care group; adjusted OR, 4.89; 95% CI, 0.40-674.62; P = .236).

Asked what the research team plans to do next, Dr. Austin said “the immediate first step” is to continue following PROACT patients. “We know heart failure events and cardiac dysfunction can occur later down the line.”

Due to the challenge of enrolling patients into trials like PROACT, “we should come together as a sort of a broader cardiovascular/oncology academic community to try to understand how we can better recruit patients into these studies,” said Dr. Austin.

“We need to solve that problem before we then go on to maybe examine other potential preventative therapies.”

He doesn’t think an alternative ACE inhibitor would prove beneficial. “We need to look elsewhere for effective therapies in this area.”

He noted these new findings are “broadly consistent” with other trials that investigated angiotensin receptor blockers.
 

Tough Population

Commenting on the study during a media briefing, Anita Deswal, chair, medicine, Department of Cardiology, Division of Internal Medicine, The University of Texas, commended the researchers for managing to enroll patients with cancer as this is “a tough” population to get to agree to being in a clinical trial.

“These patients are often overwhelmed financially, physically, and emotionally with the cancer diagnosis, as well as the cancer therapy and, therefore, to enroll them in something to prevent, maybe, some potential cardiac toxicity down the line, is really hard.”

Past trials investigating neuro-hormonal blockers to prevent cardiotoxicity have been criticized for enrolling patients at “too low risk,” said Dr. Deswal. “But investigators here went that step beyond and enrolled patients who were going to receive higher doses of anthracyclines, so kudos to that.”

And she noted investigators managed to get patients on almost the maximum dose of enalapril. “So, the drug was poised to have an effect — if it was there.”

The negative results may have something to do with endpoints. “Maybe we haven’t quite figured out what are the cutoffs for high sensitivity troponin I that identify patients truly at risk” of developing heart failure in the future.

Commenting on the study for this news organization, Anu Lala, MD, assistant professor of medicine at the Icahn School of Medicine at Mount Sinai, New York City, said the results may come as a surprise to some.

“ACE inhibitors are considered cardioprotective and for this reason are often used prophylactically in patients receiving chemotherapy.”

Dr. Lala agrees troponin may not be the right endpoint. “Another question is whether clinical outcomes should be followed in addition to symptoms or onset of any heart failure symptoms, which may hold greater prognostic significance.”

The study was funded by the National Institute for Health and Care Research.

A version of this article appeared on Medscape.com.

 

The addition of an angiotensin-converting enzyme (ACE) inhibitor did not decrease risk for chemotherapy-related cardiac damage in patients being treated for breast cancer and non-Hodgkin lymphoma (NHL), a new randomized trial showed.

The results suggested adding an ACE inhibitor doesn’t affect cardiac injury or cardiac function outcomes “and should not be used as a preventative strategy” in these patients, David Austin, MD, consultant cardiologist, Academic Cardiovascular Unit, The James Cook University Hospital, Middlesbrough, England, and chief investigator for the PROACT study, told this news organization.

But while these negative results are disappointing, he said, “we now have a definitive result in a robustly conducted trial that will take the field forward.”

The findings were presented on April 8, 2024, at the American College of Cardiology (ACC) Scientific Session 2024.

Anthracyclines, which are extracted from Streptomyces bacterium, are chemotherapy drugs widely used to treat several types of cancer. Doxorubicin is among the most clinically important anthracyclines.

While extremely effective, anthracyclines can cause irreversible damage to cardiac cells and ultimately impair cardiac function and even cause heart failure, which may only be evident years after exposure. “Cardiac injury is very common in patients treated with high dose anthracyclines,” noted Dr. Austin.

The open-label PROACT study included 111 adult patients, mean age 58 years and predominantly White and women, being treated for breast cancer (62%) or NHL (38%) at National Health Service hospitals in England with high-dose anthracycline-based chemotherapy.

Patients were randomized to standard care (six cycles of high-dose doxorubicin-equivalent anthracycline-based chemotherapy) plus the ACE inhibitor enalapril maleate or standard care alone. The mean chemotherapy dose was 328 mg/m2; any dose greater than 300 is considered high.

The starting dose of enalapril was 2.5 mg twice a day, which was titrated up to a maximum of 10 mg twice a day. The ACE inhibitor was started at least 2 days before chemotherapy began and finished 3 weeks after the last anthracycline dose.

During the study, enalapril was titrated to 20 mg in more than 75% of patients, with the mean dose being 17.7 mg.
 

Myocardial Injury Outcome

The primary outcome was myocardial injury measured by the presence (≥ 14 ng/L) of high sensitivity cardiac troponin T (cTnT) during anthracycline treatment and 1 month after the last dose of anthracycline.

cTnT is highly expressed in cardiomyocytes and has become a preferred biomarker for detecting acute myocardial infarction and other causes of myocardial injury.

Blood sampling for cTnT and cardiac troponin I (cTnI) was performed at baseline, within 72 hours prior to chemotherapy and at trial completion. All patients had negative troponin results at baseline, indicating no heart damage.

A majority of patients experienced elevations in troponin (78% in the enalapril group and 83% in the standard of care group), but there was no statistically significant difference between groups (adjusted odds ratio [OR], 0.65; 95% CI, 0.23-1.78; P = .405).

There was also no significant difference between groups in terms of cTnI, a secondary endpoint. However, the proportion of patients testing positive for cTnI (47% in the enalapril group and 45% in controls) was substantially lower than that for cTnT.
 

 

 

Large Discrepancy

The “large discrepancy in the rate of injury” with cTnT “has implications for the clinical interpretation of cardiac biomarkers in routine practice, and we should proceed with caution,” Dr. Austin told this news organization.

The finding has implications because guidelines don’t currently differentiate based on the type of troponin, Dr. Austin said in a press release. “I was surprised by the difference, and I think this raises the question of what troponin we should be using.”

Secondary outcomes focused on cardiac function, measured using echocardiography and included left ventricular global longitudinal strain (LVGLS) and left ventricular ejection fraction (LVEF). These were measured at baseline, 4 weeks after the last anthracycline dose and 1 year after the final chemotherapy.

There was no between-group difference in LVGLS cardiac function (21% for enalapril vs 22% for standard of care; adjusted OR, 0.95; 95% CI, 0.33-2.74; P = .921). This was also true for LVEF (4% for enalapril vs 0% for standard of care group; adjusted OR, 4.89; 95% CI, 0.40-674.62; P = .236).

Asked what the research team plans to do next, Dr. Austin said “the immediate first step” is to continue following PROACT patients. “We know heart failure events and cardiac dysfunction can occur later down the line.”

Due to the challenge of enrolling patients into trials like PROACT, “we should come together as a sort of a broader cardiovascular/oncology academic community to try to understand how we can better recruit patients into these studies,” said Dr. Austin.

“We need to solve that problem before we then go on to maybe examine other potential preventative therapies.”

He doesn’t think an alternative ACE inhibitor would prove beneficial. “We need to look elsewhere for effective therapies in this area.”

He noted these new findings are “broadly consistent” with other trials that investigated angiotensin receptor blockers.
 

Tough Population

Commenting on the study during a media briefing, Anita Deswal, chair, medicine, Department of Cardiology, Division of Internal Medicine, The University of Texas, commended the researchers for managing to enroll patients with cancer as this is “a tough” population to get to agree to being in a clinical trial.

“These patients are often overwhelmed financially, physically, and emotionally with the cancer diagnosis, as well as the cancer therapy and, therefore, to enroll them in something to prevent, maybe, some potential cardiac toxicity down the line, is really hard.”

Past trials investigating neuro-hormonal blockers to prevent cardiotoxicity have been criticized for enrolling patients at “too low risk,” said Dr. Deswal. “But investigators here went that step beyond and enrolled patients who were going to receive higher doses of anthracyclines, so kudos to that.”

And she noted investigators managed to get patients on almost the maximum dose of enalapril. “So, the drug was poised to have an effect — if it was there.”

The negative results may have something to do with endpoints. “Maybe we haven’t quite figured out what are the cutoffs for high sensitivity troponin I that identify patients truly at risk” of developing heart failure in the future.

Commenting on the study for this news organization, Anu Lala, MD, assistant professor of medicine at the Icahn School of Medicine at Mount Sinai, New York City, said the results may come as a surprise to some.

“ACE inhibitors are considered cardioprotective and for this reason are often used prophylactically in patients receiving chemotherapy.”

Dr. Lala agrees troponin may not be the right endpoint. “Another question is whether clinical outcomes should be followed in addition to symptoms or onset of any heart failure symptoms, which may hold greater prognostic significance.”

The study was funded by the National Institute for Health and Care Research.

A version of this article appeared on Medscape.com.

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What’s Driving the Higher Breast Cancer Death Rate in Black Women?

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More women today are surviving breast cancer if it’s caught early, largely because of better screening and more effective and targeted treatments.

However, not everyone has benefited equitably from this progress. Critical gaps in breast cancer outcomes and survival remain for women in racial and ethnic minority groups.

Black women for instance, have a 41% higher death rate from breast cancer compared with White patients. They also have a greater incidence of aggressive disease like triple-negative breast cancer. Native American and Hispanic women, meanwhile, are more likely to be diagnosed with breast cancer at an earlier age than White women and experience more aggressive breast cancers.

In 2023, Farhad Islami, MD, PhD, and his team published an updated analysis of racial/ethnic and socioeconomic disparities in cancer trends based on data from 2014 to 2020. The analysis found that Black women in particular, were the least likely to have an early-stage diagnosis of breast cancer. Localized‐stage breast cancer was diagnosed in 57% of Black women versus 68% of White women.

American Cancer Society
Dr. Farhad Islami

“Despite substantial progress in cancer prevention, early detection, and treatments, the burden of cancer remains greater among populations that have been historically marginalized, including people of color, people with lower socioeconomic status, and people living in nonmetropolitan areas,” said Dr. Islami, who is senior scientific director of cancer disparity research in the Surveillance & Health Equity Science Department at the American Cancer Society.

The reasons behind outcomes disparities in breast cancer are complex, making solutions challenging, say experts researching racial differences in cancer outcomes.

While social determinants of health (SDH) seem to be drivers of higher breast cancer mortality in Black women, biological differences between Black and White women are also linked to poorer outcomes in Black women with breast cancer, new studies suggest. Among the findings of this research is that breast cancer tests may be contributing to the disparities and misguiding care for some patients of color.
 

SDH and Screening Rates Differences By Race

A range of factors contribute to racial and ethnic disparities in breast cancer outcomes, said Pamela Ganschow, MD, an associate professor in the Department of Internal Medicine at the University of Illinois Cancer Center in Chicago and part of the university’s Cancer Prevention and Control research program. These include socioeconomic status, access to timely and high-quality care across the cancer control continuum, cultural beliefs, differences in genetic makeup and tumor biology, as well as system biases, such as implicit biases and systemic racism, Dr. Ganschow said.

Dr. Islami adds that gaps in access to cancer prevention, early detection, and treatment are largely rooted in fundamental inequities in social determinants of health (SDH), such as whether a patient has safe housing, transportation, education, job opportunities, income, access to nutritious foods, and language and literacy skills, among others.

Dr. Islami’s analysis, for example, shows that people of color are generally more likely to have lower educational attainment and to experience poverty, food insecurity, and housing insecurity compared with White people. Among people aged 18-64 years, the age-adjusted proportion of individuals with no health insurance in 2021 was also higher among Black (13.7%), American Indian/Alaskan Native (18.7%), and Hispanic (28.7%) patients than among White (7.8%) or Asian (5.9%) people, according to the report.

Competing needs can also get in the way of prioritizing cancer screenings, especially for patients in lower socio-economic populations, Dr. Ganschow said.

University of Illinois Cancer Center
Dr. Pamela Ganschow


“You’ve got people who are working a job or three jobs, just to make ends meet for their family and can’t necessarily take time off to get that done,” she said. “Nor is it prioritized in their head because they’ve got to put a meal on the table.”

But the racial disparities between Black and White women, at least, are not clearly explained by differences between the screening rates..

Of patients who received mammograms 76% were White and 79% were Black, according to another recent study coauthored by Dr. Islami. While Black women appear to have the highest breast cancer screening rates, some data suggest such rates are being overreported.

Lower screening rates were seen in American Indian/Alaska Native (59%), Asian (67%), and Hispanic women (74%).
 

 

 

Biological Differences, Bad Testing Recommendations May Contribute to Poor Outcomes

Differences in biology may be one overlooked internal driver of lower breast cancer survival in Black women.

Researchers at Sanford Burnham Prebys in La Jolla, California, recently analyzed the breast cells of White and Black women, finding significant molecular differences that may be contributing to higher breast cancer mortality rates in Black women.

Investigators analyzed both healthy tissue and tumor tissue from 185 Black women and compared the samples to that of White women. They discovered differences among Black and White women in the way their DNA repair genes are expressed, both in healthy breast tissue and in tumors positive for estrogen receptor breast cancer. Molecular differences were also present in the cellular signals that control how fast cells, including cancer cells, grow.

DNA repair is part of normal cellular function and helps cells recover from damage that can occur during DNA replication or in response to external factors, such as stress.

“One of the first lines of defense, to prevent the cell from becoming a tumor are DNA damage repair pathways,” said Svasti Haricharan, PhD, a coauthor of the study and an assistant professor at Sanford Burnham Prebys. “We know there are many different DNA damage repair pathways that respond to different types of DNA damage. What we didn’t know was that, even in our normal cells, based on your race and ethnicity, you have different levels of DNA repair proteins.”

Sanford Burnham Prebys
Dr. Svasti Haricharan


The study found that many of the proteins associated with endocrine resistance and poor outcomes in breast cancer patients are differently regulated in Black women compared with White woman. These differences contribute to resistance to standard endocrine therapy, Dr. Haricharan said.

“Because we never studied the biology in Black woman, it was just assumed that across all demographics, it must be the same,” she said. “We are not even accounting for the possibility there are likely intrinsic differences for how you will respond to an endocrine treatment.”

Testing and treatment may also be playing a role in worse breast cancer outcomes for Black women.

In an analysis of 73,363 women with early-stage, estrogen receptor–positive breast cancer, investigators found that a common test used to decide the treatment course for patients may be leading to bad recommendations for Black women.

The test, known as the 21-gene breast recurrence score, is the most commonly ordered biomarker test used to guide doctor’s recommendations for patients with estrogen receptor–positive breast cancer, the most common form of cancer in Black women, representing about 70%-80% of cases.

The test helps physicians identify which patients are good candidates for chemo, but the test may underestimate the benefit of chemo for Black women. It ranks some Black women as unlikely to benefit from chemo, when they actually would have benefited, according to the January 2024 study, published in the Journal of the National Comprehensive Cancer Network.

The test gives a score of zero to 100, explains Kent Hoskins, MD, oncology service line medical director at the University of Illinois (UI) Health and director of the Familial Breast Cancer Clinic at UI Health, both in Chicago. The higher the score, the higher the risk and the greater the benefit of chemotherapy. A patient is either above the cut-off score and receives chemo, or is below the cut-off score and does not. In the analysis, investigators found that Black women start improving with chemo at a lower score than White women do.

University of Illinois Cancer Center
Dr. Kent Hoskins


Dr. Hoskins said the results raise questions about whether the biomarker test should be modified to be more applicable to Black women, whether other tests should be used, or if physicians should judge cut-off scores differently, depending on race.
 

 

 

How Neighborhood Impacts Breast Cancer, Death Rates

Living in a disadvantaged neighborhood also lowers breast cancer survival, according to new research. A disadvantaged neighborhood is generally defined as a location associated with higher concentrations of poverty, higher rates of unemployment, and less access to health care, quality housing, food, and community resources, according to the Centers for Disease Control and Prevention.

Authors of a study published in JAMA Network Open on April 18 identified 350,824 patients with breast cancer. Of these, 41,519 (11.8%) were Hispanic, 39,631 (11.3%) were non-Hispanic Black, and 234,698 (66.9%) were non-Hispanic White. Investigators divided the patients into five groups representing the lowest to highest neighborhood socioeconomic indices using the Yost Index. (The Yost Index is used by the National Cancer Institute for cancer surveillance and is based on variables such as household income, home value, median rent, percentage below 150% of the poverty line, education, and unemployment.)

Of the Black and Hispanic patients in the study, the highest proportions of both demographics lived in the most disadvantaged neighborhoods. (16,141 Black patients [30.9%]) and 10,168 Hispanic patients [19.5%]). Although 45% of White patients also fell into that same category, the highest proportion of White patients in the study lived in the most advantaged neighborhoods (66,529 patients [76.2%]).

Findings showed patients in the most disadvantaged neighborhoods had the highest proportion of triple-negative breast cancer. Patients in this group also had the lowest proportion of patients who completed surgery and radiation, and the highest proportion of patients who received chemotherapy, compared with all other neighborhood groups. The most advantaged neighborhoods group had higher proportions of localized-stage cancer, a higher proportion of patients who underwent surgery and radiation, and the lowest proportion of patients receiving chemotherapy treatment.

Patients in the most disadvantaged neighborhoods also had the highest risk of mortality (hazard ratio [HR,] 1.53; 95% CI, 1.48-1.59; P less than .001) compared with patients living in the most advantaged neighborhoods. Non-Hispanic Black patients in particular, had the highest risk of mortality, compared with non-Hispanic White patients (HR, 1.16; 95% CI, 1.13-1.20; P less than .001).

Authors wrote that the findings suggest neighborhood disadvantage is independently associated with shorter survival in patients with breast cancer, even after controlling for individual-level factors, tumor characteristics, and treatment.

“To address these residual disparities associated with neighborhood disadvantage, research must focus on which components of the built environment influence outcomes,” the authors said.

Another recent study also found correlations among where breast cancer patients lived and how they fared with the disease.

Jasmine M. Miller-Kleinhenz, PhD, an assistant professor at University of Mississippi Medical Center in Jackson, studied how historical redlining impacts breast cancer development and outcomes in her research published in JAMA Network Open, earlier this year. Redlining refers to the practice of denying people access to credit because of where they live. Historically, mortgage lenders widely redlined neighborhoods with predominantly Black residents. The 1968 Fair Housing Act outlawed racially motivated redlining, but consequences from historical redlining still exist.

University of Mississippi Medical Center
Dr. Jasmine M. Miller-Kleinhenz


Dr. Miller-Kleinhenz and her colleagues analyzed a cohort of 1764 women diagnosed with breast cancer between January 2010 and December 2017, who were followed up through December 2019. Investigators accessed the cohort based on three exposures: historic redlining (HRL), contemporary mortgage discrimination (CMD), and persistent mortgage discrimination (PMD). Contemporary mortgage discrimination refers to current-day discriminatory mortgage practices and persistent mortgage discrimination refers to neighborhoods that have experienced both HRL and CMD.

Findings showed that Black women living in historical redlined areas had increased odds of being diagnosed with aggressive forms of breast cancer, while White women in redlined areas had increased odds of late-stage diagnosis.

White women exposed to persistent mortgage discrimination were twice as likely to die of breast cancer, compared with their White counterparts living in areas without historical redlining or contemporary mortgage discrimination, the study found.

That is not to say that Black women did not have an increased risk of breast cancer mortality, Dr. Miller-Kleinhenz explained. Black women had a more than threefold elevated risk of breast cancer mortality compared with White women no matter where they lived, according to the findings.

“These results were surprising because it is showing that while neighborhood conditions might be a major driver of breast cancer mortality in White women, there are factors beyond the neighborhood that are additional drivers that are contributing to poor outcomes in Black women,” she said.
 

 

 

Hope for Improved Outcomes, Higher Survival Rates

Investigators hope the findings of all of this new research lead to better, more targeted treatments and, in turn, improved outcomes.

Dr. Haricharan is optimistic about the improvement of breast cancer outcomes as more is learned about the biology of Black patients and other non-White patients.

There is a growing effort to include more data from minoritized populations in breast cancer research studies, Dr. Haricharan said, and she foresees associated changes to clinical protocols in the future. Her own team is working on creating larger data sets that are more representative of non-White patients to further analyze the differences found in their prior study.

“I think there’s this understanding that, until we have data sets that are more representative, we really are catering to [only one] population in terms of our diagnostic and therapeutic technological advances,” she said.

The American Cancer Society meanwhile, is launching a new initiative in May that aims to collect more health data from Black women to ultimately develop more effective cancer interventions. VOICES of Black Women will focus on collecting and studying health data from Black women through online surveys. The society’s goal is to enroll at least 100,000 Black women in the United States between ages 25 and 55.

Dr. Miller-Kleinhenz called the initiative “an important step to starting to research and answer some of these lingering questions about why there continue to be breast cancer disparities.”

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More women today are surviving breast cancer if it’s caught early, largely because of better screening and more effective and targeted treatments.

However, not everyone has benefited equitably from this progress. Critical gaps in breast cancer outcomes and survival remain for women in racial and ethnic minority groups.

Black women for instance, have a 41% higher death rate from breast cancer compared with White patients. They also have a greater incidence of aggressive disease like triple-negative breast cancer. Native American and Hispanic women, meanwhile, are more likely to be diagnosed with breast cancer at an earlier age than White women and experience more aggressive breast cancers.

In 2023, Farhad Islami, MD, PhD, and his team published an updated analysis of racial/ethnic and socioeconomic disparities in cancer trends based on data from 2014 to 2020. The analysis found that Black women in particular, were the least likely to have an early-stage diagnosis of breast cancer. Localized‐stage breast cancer was diagnosed in 57% of Black women versus 68% of White women.

American Cancer Society
Dr. Farhad Islami

“Despite substantial progress in cancer prevention, early detection, and treatments, the burden of cancer remains greater among populations that have been historically marginalized, including people of color, people with lower socioeconomic status, and people living in nonmetropolitan areas,” said Dr. Islami, who is senior scientific director of cancer disparity research in the Surveillance & Health Equity Science Department at the American Cancer Society.

The reasons behind outcomes disparities in breast cancer are complex, making solutions challenging, say experts researching racial differences in cancer outcomes.

While social determinants of health (SDH) seem to be drivers of higher breast cancer mortality in Black women, biological differences between Black and White women are also linked to poorer outcomes in Black women with breast cancer, new studies suggest. Among the findings of this research is that breast cancer tests may be contributing to the disparities and misguiding care for some patients of color.
 

SDH and Screening Rates Differences By Race

A range of factors contribute to racial and ethnic disparities in breast cancer outcomes, said Pamela Ganschow, MD, an associate professor in the Department of Internal Medicine at the University of Illinois Cancer Center in Chicago and part of the university’s Cancer Prevention and Control research program. These include socioeconomic status, access to timely and high-quality care across the cancer control continuum, cultural beliefs, differences in genetic makeup and tumor biology, as well as system biases, such as implicit biases and systemic racism, Dr. Ganschow said.

Dr. Islami adds that gaps in access to cancer prevention, early detection, and treatment are largely rooted in fundamental inequities in social determinants of health (SDH), such as whether a patient has safe housing, transportation, education, job opportunities, income, access to nutritious foods, and language and literacy skills, among others.

Dr. Islami’s analysis, for example, shows that people of color are generally more likely to have lower educational attainment and to experience poverty, food insecurity, and housing insecurity compared with White people. Among people aged 18-64 years, the age-adjusted proportion of individuals with no health insurance in 2021 was also higher among Black (13.7%), American Indian/Alaskan Native (18.7%), and Hispanic (28.7%) patients than among White (7.8%) or Asian (5.9%) people, according to the report.

Competing needs can also get in the way of prioritizing cancer screenings, especially for patients in lower socio-economic populations, Dr. Ganschow said.

University of Illinois Cancer Center
Dr. Pamela Ganschow


“You’ve got people who are working a job or three jobs, just to make ends meet for their family and can’t necessarily take time off to get that done,” she said. “Nor is it prioritized in their head because they’ve got to put a meal on the table.”

But the racial disparities between Black and White women, at least, are not clearly explained by differences between the screening rates..

Of patients who received mammograms 76% were White and 79% were Black, according to another recent study coauthored by Dr. Islami. While Black women appear to have the highest breast cancer screening rates, some data suggest such rates are being overreported.

Lower screening rates were seen in American Indian/Alaska Native (59%), Asian (67%), and Hispanic women (74%).
 

 

 

Biological Differences, Bad Testing Recommendations May Contribute to Poor Outcomes

Differences in biology may be one overlooked internal driver of lower breast cancer survival in Black women.

Researchers at Sanford Burnham Prebys in La Jolla, California, recently analyzed the breast cells of White and Black women, finding significant molecular differences that may be contributing to higher breast cancer mortality rates in Black women.

Investigators analyzed both healthy tissue and tumor tissue from 185 Black women and compared the samples to that of White women. They discovered differences among Black and White women in the way their DNA repair genes are expressed, both in healthy breast tissue and in tumors positive for estrogen receptor breast cancer. Molecular differences were also present in the cellular signals that control how fast cells, including cancer cells, grow.

DNA repair is part of normal cellular function and helps cells recover from damage that can occur during DNA replication or in response to external factors, such as stress.

“One of the first lines of defense, to prevent the cell from becoming a tumor are DNA damage repair pathways,” said Svasti Haricharan, PhD, a coauthor of the study and an assistant professor at Sanford Burnham Prebys. “We know there are many different DNA damage repair pathways that respond to different types of DNA damage. What we didn’t know was that, even in our normal cells, based on your race and ethnicity, you have different levels of DNA repair proteins.”

Sanford Burnham Prebys
Dr. Svasti Haricharan


The study found that many of the proteins associated with endocrine resistance and poor outcomes in breast cancer patients are differently regulated in Black women compared with White woman. These differences contribute to resistance to standard endocrine therapy, Dr. Haricharan said.

“Because we never studied the biology in Black woman, it was just assumed that across all demographics, it must be the same,” she said. “We are not even accounting for the possibility there are likely intrinsic differences for how you will respond to an endocrine treatment.”

Testing and treatment may also be playing a role in worse breast cancer outcomes for Black women.

In an analysis of 73,363 women with early-stage, estrogen receptor–positive breast cancer, investigators found that a common test used to decide the treatment course for patients may be leading to bad recommendations for Black women.

The test, known as the 21-gene breast recurrence score, is the most commonly ordered biomarker test used to guide doctor’s recommendations for patients with estrogen receptor–positive breast cancer, the most common form of cancer in Black women, representing about 70%-80% of cases.

The test helps physicians identify which patients are good candidates for chemo, but the test may underestimate the benefit of chemo for Black women. It ranks some Black women as unlikely to benefit from chemo, when they actually would have benefited, according to the January 2024 study, published in the Journal of the National Comprehensive Cancer Network.

The test gives a score of zero to 100, explains Kent Hoskins, MD, oncology service line medical director at the University of Illinois (UI) Health and director of the Familial Breast Cancer Clinic at UI Health, both in Chicago. The higher the score, the higher the risk and the greater the benefit of chemotherapy. A patient is either above the cut-off score and receives chemo, or is below the cut-off score and does not. In the analysis, investigators found that Black women start improving with chemo at a lower score than White women do.

University of Illinois Cancer Center
Dr. Kent Hoskins


Dr. Hoskins said the results raise questions about whether the biomarker test should be modified to be more applicable to Black women, whether other tests should be used, or if physicians should judge cut-off scores differently, depending on race.
 

 

 

How Neighborhood Impacts Breast Cancer, Death Rates

Living in a disadvantaged neighborhood also lowers breast cancer survival, according to new research. A disadvantaged neighborhood is generally defined as a location associated with higher concentrations of poverty, higher rates of unemployment, and less access to health care, quality housing, food, and community resources, according to the Centers for Disease Control and Prevention.

Authors of a study published in JAMA Network Open on April 18 identified 350,824 patients with breast cancer. Of these, 41,519 (11.8%) were Hispanic, 39,631 (11.3%) were non-Hispanic Black, and 234,698 (66.9%) were non-Hispanic White. Investigators divided the patients into five groups representing the lowest to highest neighborhood socioeconomic indices using the Yost Index. (The Yost Index is used by the National Cancer Institute for cancer surveillance and is based on variables such as household income, home value, median rent, percentage below 150% of the poverty line, education, and unemployment.)

Of the Black and Hispanic patients in the study, the highest proportions of both demographics lived in the most disadvantaged neighborhoods. (16,141 Black patients [30.9%]) and 10,168 Hispanic patients [19.5%]). Although 45% of White patients also fell into that same category, the highest proportion of White patients in the study lived in the most advantaged neighborhoods (66,529 patients [76.2%]).

Findings showed patients in the most disadvantaged neighborhoods had the highest proportion of triple-negative breast cancer. Patients in this group also had the lowest proportion of patients who completed surgery and radiation, and the highest proportion of patients who received chemotherapy, compared with all other neighborhood groups. The most advantaged neighborhoods group had higher proportions of localized-stage cancer, a higher proportion of patients who underwent surgery and radiation, and the lowest proportion of patients receiving chemotherapy treatment.

Patients in the most disadvantaged neighborhoods also had the highest risk of mortality (hazard ratio [HR,] 1.53; 95% CI, 1.48-1.59; P less than .001) compared with patients living in the most advantaged neighborhoods. Non-Hispanic Black patients in particular, had the highest risk of mortality, compared with non-Hispanic White patients (HR, 1.16; 95% CI, 1.13-1.20; P less than .001).

Authors wrote that the findings suggest neighborhood disadvantage is independently associated with shorter survival in patients with breast cancer, even after controlling for individual-level factors, tumor characteristics, and treatment.

“To address these residual disparities associated with neighborhood disadvantage, research must focus on which components of the built environment influence outcomes,” the authors said.

Another recent study also found correlations among where breast cancer patients lived and how they fared with the disease.

Jasmine M. Miller-Kleinhenz, PhD, an assistant professor at University of Mississippi Medical Center in Jackson, studied how historical redlining impacts breast cancer development and outcomes in her research published in JAMA Network Open, earlier this year. Redlining refers to the practice of denying people access to credit because of where they live. Historically, mortgage lenders widely redlined neighborhoods with predominantly Black residents. The 1968 Fair Housing Act outlawed racially motivated redlining, but consequences from historical redlining still exist.

University of Mississippi Medical Center
Dr. Jasmine M. Miller-Kleinhenz


Dr. Miller-Kleinhenz and her colleagues analyzed a cohort of 1764 women diagnosed with breast cancer between January 2010 and December 2017, who were followed up through December 2019. Investigators accessed the cohort based on three exposures: historic redlining (HRL), contemporary mortgage discrimination (CMD), and persistent mortgage discrimination (PMD). Contemporary mortgage discrimination refers to current-day discriminatory mortgage practices and persistent mortgage discrimination refers to neighborhoods that have experienced both HRL and CMD.

Findings showed that Black women living in historical redlined areas had increased odds of being diagnosed with aggressive forms of breast cancer, while White women in redlined areas had increased odds of late-stage diagnosis.

White women exposed to persistent mortgage discrimination were twice as likely to die of breast cancer, compared with their White counterparts living in areas without historical redlining or contemporary mortgage discrimination, the study found.

That is not to say that Black women did not have an increased risk of breast cancer mortality, Dr. Miller-Kleinhenz explained. Black women had a more than threefold elevated risk of breast cancer mortality compared with White women no matter where they lived, according to the findings.

“These results were surprising because it is showing that while neighborhood conditions might be a major driver of breast cancer mortality in White women, there are factors beyond the neighborhood that are additional drivers that are contributing to poor outcomes in Black women,” she said.
 

 

 

Hope for Improved Outcomes, Higher Survival Rates

Investigators hope the findings of all of this new research lead to better, more targeted treatments and, in turn, improved outcomes.

Dr. Haricharan is optimistic about the improvement of breast cancer outcomes as more is learned about the biology of Black patients and other non-White patients.

There is a growing effort to include more data from minoritized populations in breast cancer research studies, Dr. Haricharan said, and she foresees associated changes to clinical protocols in the future. Her own team is working on creating larger data sets that are more representative of non-White patients to further analyze the differences found in their prior study.

“I think there’s this understanding that, until we have data sets that are more representative, we really are catering to [only one] population in terms of our diagnostic and therapeutic technological advances,” she said.

The American Cancer Society meanwhile, is launching a new initiative in May that aims to collect more health data from Black women to ultimately develop more effective cancer interventions. VOICES of Black Women will focus on collecting and studying health data from Black women through online surveys. The society’s goal is to enroll at least 100,000 Black women in the United States between ages 25 and 55.

Dr. Miller-Kleinhenz called the initiative “an important step to starting to research and answer some of these lingering questions about why there continue to be breast cancer disparities.”

 

More women today are surviving breast cancer if it’s caught early, largely because of better screening and more effective and targeted treatments.

However, not everyone has benefited equitably from this progress. Critical gaps in breast cancer outcomes and survival remain for women in racial and ethnic minority groups.

Black women for instance, have a 41% higher death rate from breast cancer compared with White patients. They also have a greater incidence of aggressive disease like triple-negative breast cancer. Native American and Hispanic women, meanwhile, are more likely to be diagnosed with breast cancer at an earlier age than White women and experience more aggressive breast cancers.

In 2023, Farhad Islami, MD, PhD, and his team published an updated analysis of racial/ethnic and socioeconomic disparities in cancer trends based on data from 2014 to 2020. The analysis found that Black women in particular, were the least likely to have an early-stage diagnosis of breast cancer. Localized‐stage breast cancer was diagnosed in 57% of Black women versus 68% of White women.

American Cancer Society
Dr. Farhad Islami

“Despite substantial progress in cancer prevention, early detection, and treatments, the burden of cancer remains greater among populations that have been historically marginalized, including people of color, people with lower socioeconomic status, and people living in nonmetropolitan areas,” said Dr. Islami, who is senior scientific director of cancer disparity research in the Surveillance & Health Equity Science Department at the American Cancer Society.

The reasons behind outcomes disparities in breast cancer are complex, making solutions challenging, say experts researching racial differences in cancer outcomes.

While social determinants of health (SDH) seem to be drivers of higher breast cancer mortality in Black women, biological differences between Black and White women are also linked to poorer outcomes in Black women with breast cancer, new studies suggest. Among the findings of this research is that breast cancer tests may be contributing to the disparities and misguiding care for some patients of color.
 

SDH and Screening Rates Differences By Race

A range of factors contribute to racial and ethnic disparities in breast cancer outcomes, said Pamela Ganschow, MD, an associate professor in the Department of Internal Medicine at the University of Illinois Cancer Center in Chicago and part of the university’s Cancer Prevention and Control research program. These include socioeconomic status, access to timely and high-quality care across the cancer control continuum, cultural beliefs, differences in genetic makeup and tumor biology, as well as system biases, such as implicit biases and systemic racism, Dr. Ganschow said.

Dr. Islami adds that gaps in access to cancer prevention, early detection, and treatment are largely rooted in fundamental inequities in social determinants of health (SDH), such as whether a patient has safe housing, transportation, education, job opportunities, income, access to nutritious foods, and language and literacy skills, among others.

Dr. Islami’s analysis, for example, shows that people of color are generally more likely to have lower educational attainment and to experience poverty, food insecurity, and housing insecurity compared with White people. Among people aged 18-64 years, the age-adjusted proportion of individuals with no health insurance in 2021 was also higher among Black (13.7%), American Indian/Alaskan Native (18.7%), and Hispanic (28.7%) patients than among White (7.8%) or Asian (5.9%) people, according to the report.

Competing needs can also get in the way of prioritizing cancer screenings, especially for patients in lower socio-economic populations, Dr. Ganschow said.

University of Illinois Cancer Center
Dr. Pamela Ganschow


“You’ve got people who are working a job or three jobs, just to make ends meet for their family and can’t necessarily take time off to get that done,” she said. “Nor is it prioritized in their head because they’ve got to put a meal on the table.”

But the racial disparities between Black and White women, at least, are not clearly explained by differences between the screening rates..

Of patients who received mammograms 76% were White and 79% were Black, according to another recent study coauthored by Dr. Islami. While Black women appear to have the highest breast cancer screening rates, some data suggest such rates are being overreported.

Lower screening rates were seen in American Indian/Alaska Native (59%), Asian (67%), and Hispanic women (74%).
 

 

 

Biological Differences, Bad Testing Recommendations May Contribute to Poor Outcomes

Differences in biology may be one overlooked internal driver of lower breast cancer survival in Black women.

Researchers at Sanford Burnham Prebys in La Jolla, California, recently analyzed the breast cells of White and Black women, finding significant molecular differences that may be contributing to higher breast cancer mortality rates in Black women.

Investigators analyzed both healthy tissue and tumor tissue from 185 Black women and compared the samples to that of White women. They discovered differences among Black and White women in the way their DNA repair genes are expressed, both in healthy breast tissue and in tumors positive for estrogen receptor breast cancer. Molecular differences were also present in the cellular signals that control how fast cells, including cancer cells, grow.

DNA repair is part of normal cellular function and helps cells recover from damage that can occur during DNA replication or in response to external factors, such as stress.

“One of the first lines of defense, to prevent the cell from becoming a tumor are DNA damage repair pathways,” said Svasti Haricharan, PhD, a coauthor of the study and an assistant professor at Sanford Burnham Prebys. “We know there are many different DNA damage repair pathways that respond to different types of DNA damage. What we didn’t know was that, even in our normal cells, based on your race and ethnicity, you have different levels of DNA repair proteins.”

Sanford Burnham Prebys
Dr. Svasti Haricharan


The study found that many of the proteins associated with endocrine resistance and poor outcomes in breast cancer patients are differently regulated in Black women compared with White woman. These differences contribute to resistance to standard endocrine therapy, Dr. Haricharan said.

“Because we never studied the biology in Black woman, it was just assumed that across all demographics, it must be the same,” she said. “We are not even accounting for the possibility there are likely intrinsic differences for how you will respond to an endocrine treatment.”

Testing and treatment may also be playing a role in worse breast cancer outcomes for Black women.

In an analysis of 73,363 women with early-stage, estrogen receptor–positive breast cancer, investigators found that a common test used to decide the treatment course for patients may be leading to bad recommendations for Black women.

The test, known as the 21-gene breast recurrence score, is the most commonly ordered biomarker test used to guide doctor’s recommendations for patients with estrogen receptor–positive breast cancer, the most common form of cancer in Black women, representing about 70%-80% of cases.

The test helps physicians identify which patients are good candidates for chemo, but the test may underestimate the benefit of chemo for Black women. It ranks some Black women as unlikely to benefit from chemo, when they actually would have benefited, according to the January 2024 study, published in the Journal of the National Comprehensive Cancer Network.

The test gives a score of zero to 100, explains Kent Hoskins, MD, oncology service line medical director at the University of Illinois (UI) Health and director of the Familial Breast Cancer Clinic at UI Health, both in Chicago. The higher the score, the higher the risk and the greater the benefit of chemotherapy. A patient is either above the cut-off score and receives chemo, or is below the cut-off score and does not. In the analysis, investigators found that Black women start improving with chemo at a lower score than White women do.

University of Illinois Cancer Center
Dr. Kent Hoskins


Dr. Hoskins said the results raise questions about whether the biomarker test should be modified to be more applicable to Black women, whether other tests should be used, or if physicians should judge cut-off scores differently, depending on race.
 

 

 

How Neighborhood Impacts Breast Cancer, Death Rates

Living in a disadvantaged neighborhood also lowers breast cancer survival, according to new research. A disadvantaged neighborhood is generally defined as a location associated with higher concentrations of poverty, higher rates of unemployment, and less access to health care, quality housing, food, and community resources, according to the Centers for Disease Control and Prevention.

Authors of a study published in JAMA Network Open on April 18 identified 350,824 patients with breast cancer. Of these, 41,519 (11.8%) were Hispanic, 39,631 (11.3%) were non-Hispanic Black, and 234,698 (66.9%) were non-Hispanic White. Investigators divided the patients into five groups representing the lowest to highest neighborhood socioeconomic indices using the Yost Index. (The Yost Index is used by the National Cancer Institute for cancer surveillance and is based on variables such as household income, home value, median rent, percentage below 150% of the poverty line, education, and unemployment.)

Of the Black and Hispanic patients in the study, the highest proportions of both demographics lived in the most disadvantaged neighborhoods. (16,141 Black patients [30.9%]) and 10,168 Hispanic patients [19.5%]). Although 45% of White patients also fell into that same category, the highest proportion of White patients in the study lived in the most advantaged neighborhoods (66,529 patients [76.2%]).

Findings showed patients in the most disadvantaged neighborhoods had the highest proportion of triple-negative breast cancer. Patients in this group also had the lowest proportion of patients who completed surgery and radiation, and the highest proportion of patients who received chemotherapy, compared with all other neighborhood groups. The most advantaged neighborhoods group had higher proportions of localized-stage cancer, a higher proportion of patients who underwent surgery and radiation, and the lowest proportion of patients receiving chemotherapy treatment.

Patients in the most disadvantaged neighborhoods also had the highest risk of mortality (hazard ratio [HR,] 1.53; 95% CI, 1.48-1.59; P less than .001) compared with patients living in the most advantaged neighborhoods. Non-Hispanic Black patients in particular, had the highest risk of mortality, compared with non-Hispanic White patients (HR, 1.16; 95% CI, 1.13-1.20; P less than .001).

Authors wrote that the findings suggest neighborhood disadvantage is independently associated with shorter survival in patients with breast cancer, even after controlling for individual-level factors, tumor characteristics, and treatment.

“To address these residual disparities associated with neighborhood disadvantage, research must focus on which components of the built environment influence outcomes,” the authors said.

Another recent study also found correlations among where breast cancer patients lived and how they fared with the disease.

Jasmine M. Miller-Kleinhenz, PhD, an assistant professor at University of Mississippi Medical Center in Jackson, studied how historical redlining impacts breast cancer development and outcomes in her research published in JAMA Network Open, earlier this year. Redlining refers to the practice of denying people access to credit because of where they live. Historically, mortgage lenders widely redlined neighborhoods with predominantly Black residents. The 1968 Fair Housing Act outlawed racially motivated redlining, but consequences from historical redlining still exist.

University of Mississippi Medical Center
Dr. Jasmine M. Miller-Kleinhenz


Dr. Miller-Kleinhenz and her colleagues analyzed a cohort of 1764 women diagnosed with breast cancer between January 2010 and December 2017, who were followed up through December 2019. Investigators accessed the cohort based on three exposures: historic redlining (HRL), contemporary mortgage discrimination (CMD), and persistent mortgage discrimination (PMD). Contemporary mortgage discrimination refers to current-day discriminatory mortgage practices and persistent mortgage discrimination refers to neighborhoods that have experienced both HRL and CMD.

Findings showed that Black women living in historical redlined areas had increased odds of being diagnosed with aggressive forms of breast cancer, while White women in redlined areas had increased odds of late-stage diagnosis.

White women exposed to persistent mortgage discrimination were twice as likely to die of breast cancer, compared with their White counterparts living in areas without historical redlining or contemporary mortgage discrimination, the study found.

That is not to say that Black women did not have an increased risk of breast cancer mortality, Dr. Miller-Kleinhenz explained. Black women had a more than threefold elevated risk of breast cancer mortality compared with White women no matter where they lived, according to the findings.

“These results were surprising because it is showing that while neighborhood conditions might be a major driver of breast cancer mortality in White women, there are factors beyond the neighborhood that are additional drivers that are contributing to poor outcomes in Black women,” she said.
 

 

 

Hope for Improved Outcomes, Higher Survival Rates

Investigators hope the findings of all of this new research lead to better, more targeted treatments and, in turn, improved outcomes.

Dr. Haricharan is optimistic about the improvement of breast cancer outcomes as more is learned about the biology of Black patients and other non-White patients.

There is a growing effort to include more data from minoritized populations in breast cancer research studies, Dr. Haricharan said, and she foresees associated changes to clinical protocols in the future. Her own team is working on creating larger data sets that are more representative of non-White patients to further analyze the differences found in their prior study.

“I think there’s this understanding that, until we have data sets that are more representative, we really are catering to [only one] population in terms of our diagnostic and therapeutic technological advances,” she said.

The American Cancer Society meanwhile, is launching a new initiative in May that aims to collect more health data from Black women to ultimately develop more effective cancer interventions. VOICES of Black Women will focus on collecting and studying health data from Black women through online surveys. The society’s goal is to enroll at least 100,000 Black women in the United States between ages 25 and 55.

Dr. Miller-Kleinhenz called the initiative “an important step to starting to research and answer some of these lingering questions about why there continue to be breast cancer disparities.”

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Microbial Signature of KRAS-Mutated Colorectal Cancer Identified

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Changed
Tue, 04/23/2024 - 16:58

 

Gut microbiota signatures associated with KRAS mutations in patients with colorectal cancer (CRC) have been identified by researchers.

Their findings suggest that the gut microbes may serve as noninvasive biomarkers to help identify subtypes of CRC and guide personalized treatment recommendations.

“Our new work contributes to the growing body of evidence highlighting the significance of microbiota-driven mechanisms in cancer pathogenesis,” lead investigator Weizhong Tang, MD, with Guangxi Medical University Cancer Hospital in Nanning, China, said in a statement. 

The research was recently published online in Microbiology Spectrum

The onset and growth of CRC has been linked both to imbalances in the gut microbiome and to mutations in the KRAS gene — about 40% of people with CRC have a KRAS mutation. Yet, the interplay between gut dysbiosis and KRAS mutations in CRC remains unclear. 

To investigate further, Dr. Tang and colleagues used 16s rRNA sequencing to analyze stool samples from 94 patients with CRC, including 24 with KRAS-mutated CRC and 70 with KRAS wild-type (nonmutated) CRC. 

The researchers identified 26 distinct types of gut microbiota with statistically significant differences in abundance between the KRAS mutant and KRAS wild-type CRC patients.

At the genus level, FusobacteriumClostridium, and Shewanella were all abundant in the KRAS mutant group. 

Fusobacterium is a Gram-negative microbe found in the gastrointestinal tract and the oral cavity. Recent studies have established a strong link between Fusobacterium and CRC development. Other work found elevated levels of Fusobacterium nucleatum were not only closely associated with KRAS mutation but also correlated with chemoresistance in CRC.

Clostridium produces metabolites in the large intestine, which are known to cause DNA damage and trigger inflammatory responses, thereby increasing the risk of CRC development. 

Similarly, Shewanella has been proven to be a contributor to CRC development.

The researchers say it’s “plausible” to consider all three as potential noninvasive biomarkers for identifying KRAS mutation in CRC patients.

In contrast, Bifidobacterium and Akkermansia were abundant in the KRAS wild-type group. 

Bifidobacterium is a probiotic with antitumor activity and Akkermansia is a Gram-negative anaerobic bacterium abundant in the gut and currently recognized as a potential probiotic. 

The researchers speculated that CRC patients may have a reduced likelihood of developing KRAS mutation in the presence of Bifidobacterium and Akkermansia.

Analyses of biological pathways of gut microbiota associated with KRAS mutation status in CRC revealed a significantly higher abundance of the isoflavonoid biosynthesis pathway in the KRAS wild-type group compared with the KRAS mutant group.

“In comparison to KRAS mutant CRC, it is postulated that KRAS wild-type CRC may be less aggressive due to the upregulation of the isoflavonoid biosynthesis pathway, which may inhibit CRC development and progression,” the authors wrote.

Promising Predictive Model

Dr. Tang and colleagues also developed a machine learning model to predict KRAS mutation status in CRC patients based on the gut microbiota signature in KRAS mutant CRC. 

The initial results underscore the model’s predictive efficacy and suggest that it has “considerable potential for clinical application, offering a novel dimension in the prediction of KRAS mutation status among CRC patients in a clinical setting,” the authors wrote. 

They caution that the model requires data from a larger cohort to improve its efficacy, and they plan to do larger studies to validate the findings. 

The study had no commercial funding. The authors declared no relevant conflicts of interest. 

A version of this article appeared on Medscape.com.

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Gut microbiota signatures associated with KRAS mutations in patients with colorectal cancer (CRC) have been identified by researchers.

Their findings suggest that the gut microbes may serve as noninvasive biomarkers to help identify subtypes of CRC and guide personalized treatment recommendations.

“Our new work contributes to the growing body of evidence highlighting the significance of microbiota-driven mechanisms in cancer pathogenesis,” lead investigator Weizhong Tang, MD, with Guangxi Medical University Cancer Hospital in Nanning, China, said in a statement. 

The research was recently published online in Microbiology Spectrum

The onset and growth of CRC has been linked both to imbalances in the gut microbiome and to mutations in the KRAS gene — about 40% of people with CRC have a KRAS mutation. Yet, the interplay between gut dysbiosis and KRAS mutations in CRC remains unclear. 

To investigate further, Dr. Tang and colleagues used 16s rRNA sequencing to analyze stool samples from 94 patients with CRC, including 24 with KRAS-mutated CRC and 70 with KRAS wild-type (nonmutated) CRC. 

The researchers identified 26 distinct types of gut microbiota with statistically significant differences in abundance between the KRAS mutant and KRAS wild-type CRC patients.

At the genus level, FusobacteriumClostridium, and Shewanella were all abundant in the KRAS mutant group. 

Fusobacterium is a Gram-negative microbe found in the gastrointestinal tract and the oral cavity. Recent studies have established a strong link between Fusobacterium and CRC development. Other work found elevated levels of Fusobacterium nucleatum were not only closely associated with KRAS mutation but also correlated with chemoresistance in CRC.

Clostridium produces metabolites in the large intestine, which are known to cause DNA damage and trigger inflammatory responses, thereby increasing the risk of CRC development. 

Similarly, Shewanella has been proven to be a contributor to CRC development.

The researchers say it’s “plausible” to consider all three as potential noninvasive biomarkers for identifying KRAS mutation in CRC patients.

In contrast, Bifidobacterium and Akkermansia were abundant in the KRAS wild-type group. 

Bifidobacterium is a probiotic with antitumor activity and Akkermansia is a Gram-negative anaerobic bacterium abundant in the gut and currently recognized as a potential probiotic. 

The researchers speculated that CRC patients may have a reduced likelihood of developing KRAS mutation in the presence of Bifidobacterium and Akkermansia.

Analyses of biological pathways of gut microbiota associated with KRAS mutation status in CRC revealed a significantly higher abundance of the isoflavonoid biosynthesis pathway in the KRAS wild-type group compared with the KRAS mutant group.

“In comparison to KRAS mutant CRC, it is postulated that KRAS wild-type CRC may be less aggressive due to the upregulation of the isoflavonoid biosynthesis pathway, which may inhibit CRC development and progression,” the authors wrote.

Promising Predictive Model

Dr. Tang and colleagues also developed a machine learning model to predict KRAS mutation status in CRC patients based on the gut microbiota signature in KRAS mutant CRC. 

The initial results underscore the model’s predictive efficacy and suggest that it has “considerable potential for clinical application, offering a novel dimension in the prediction of KRAS mutation status among CRC patients in a clinical setting,” the authors wrote. 

They caution that the model requires data from a larger cohort to improve its efficacy, and they plan to do larger studies to validate the findings. 

The study had no commercial funding. The authors declared no relevant conflicts of interest. 

A version of this article appeared on Medscape.com.

 

Gut microbiota signatures associated with KRAS mutations in patients with colorectal cancer (CRC) have been identified by researchers.

Their findings suggest that the gut microbes may serve as noninvasive biomarkers to help identify subtypes of CRC and guide personalized treatment recommendations.

“Our new work contributes to the growing body of evidence highlighting the significance of microbiota-driven mechanisms in cancer pathogenesis,” lead investigator Weizhong Tang, MD, with Guangxi Medical University Cancer Hospital in Nanning, China, said in a statement. 

The research was recently published online in Microbiology Spectrum

The onset and growth of CRC has been linked both to imbalances in the gut microbiome and to mutations in the KRAS gene — about 40% of people with CRC have a KRAS mutation. Yet, the interplay between gut dysbiosis and KRAS mutations in CRC remains unclear. 

To investigate further, Dr. Tang and colleagues used 16s rRNA sequencing to analyze stool samples from 94 patients with CRC, including 24 with KRAS-mutated CRC and 70 with KRAS wild-type (nonmutated) CRC. 

The researchers identified 26 distinct types of gut microbiota with statistically significant differences in abundance between the KRAS mutant and KRAS wild-type CRC patients.

At the genus level, FusobacteriumClostridium, and Shewanella were all abundant in the KRAS mutant group. 

Fusobacterium is a Gram-negative microbe found in the gastrointestinal tract and the oral cavity. Recent studies have established a strong link between Fusobacterium and CRC development. Other work found elevated levels of Fusobacterium nucleatum were not only closely associated with KRAS mutation but also correlated with chemoresistance in CRC.

Clostridium produces metabolites in the large intestine, which are known to cause DNA damage and trigger inflammatory responses, thereby increasing the risk of CRC development. 

Similarly, Shewanella has been proven to be a contributor to CRC development.

The researchers say it’s “plausible” to consider all three as potential noninvasive biomarkers for identifying KRAS mutation in CRC patients.

In contrast, Bifidobacterium and Akkermansia were abundant in the KRAS wild-type group. 

Bifidobacterium is a probiotic with antitumor activity and Akkermansia is a Gram-negative anaerobic bacterium abundant in the gut and currently recognized as a potential probiotic. 

The researchers speculated that CRC patients may have a reduced likelihood of developing KRAS mutation in the presence of Bifidobacterium and Akkermansia.

Analyses of biological pathways of gut microbiota associated with KRAS mutation status in CRC revealed a significantly higher abundance of the isoflavonoid biosynthesis pathway in the KRAS wild-type group compared with the KRAS mutant group.

“In comparison to KRAS mutant CRC, it is postulated that KRAS wild-type CRC may be less aggressive due to the upregulation of the isoflavonoid biosynthesis pathway, which may inhibit CRC development and progression,” the authors wrote.

Promising Predictive Model

Dr. Tang and colleagues also developed a machine learning model to predict KRAS mutation status in CRC patients based on the gut microbiota signature in KRAS mutant CRC. 

The initial results underscore the model’s predictive efficacy and suggest that it has “considerable potential for clinical application, offering a novel dimension in the prediction of KRAS mutation status among CRC patients in a clinical setting,” the authors wrote. 

They caution that the model requires data from a larger cohort to improve its efficacy, and they plan to do larger studies to validate the findings. 

The study had no commercial funding. The authors declared no relevant conflicts of interest. 

A version of this article appeared on Medscape.com.

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Certain Women May Face Higher Risk for Second Breast Cancer

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Wed, 04/24/2024 - 12:06

 

TOPLINE:

A recent study suggests that younger breast cancer survivors with a germline pathogenic variant or those with an initial diagnosis of in situ vs invasive primary breast cancer have a significantly higher risk for a second primary breast cancer.

METHODOLOGY:

  • Women who are diagnosed with breast cancer at age 40 or younger are about two to three times more likely to develop second primary breast cancer compared with women who are older when first diagnosed.
  • However, data are lacking on whether certain factors increase a woman’s risk for a second primary breast cancer.
  • To classify the risk of developing a second primary breast cancer, the researchers evaluated a main cohort of 685 patients with stages 0-III breast cancer who were diagnosed at age 40 years or younger and had undergone unilateral mastectomy or lumpectomy as primary surgery between August 2006 and June 2015. The team also analyzed data on 547 younger women who had a bilateral mastectomy.
  • The researchers assessed various breast cancer risk factors, including self-reported ethnicity, race, age, family history of breast or ovarian cancer, germline genetics, tumor stage, grade, and receptor status.
  • The primary outcome was the diagnosis of a second primary breast cancer that occurred at least 6 months after the initial diagnosis of primary breast cancer.

TAKEAWAY:

  • Among the 685 main study participants, 17 (2.5%) developed a second primary breast cancer (15 contralateral and 2 ipsilateral) over a median of 4.2 years since their primary diagnosis. The 5- and 10-year cumulative incidence of a second primary breast cancer was 1.5% and 2.6%, respectively.
  • Overall, only 33 women were positive for a germline pathogenic variant, and having a pathogenic variant was associated with a fourfold higher risk for second primary breast cancer compared with noncarriers at 5 years (5.5% vs 1.3%) and at 10 years (8.9% vs 2.2%). These findings were held in multivariate models.
  • Patients initially diagnosed with in situ disease had more than a fivefold higher risk for second primary breast cancer compared with those initially diagnosed with invasive disease — 6.2% vs 1.2% at 5 years and 10.4% vs 2.1% at 10 years (hazard ratio, 5.25; P = .004). These findings were held in multivariate models (adjusted sub-hazard ratio [sHR], 5.61; 95% CI, 1.52-20.70) and among women without a pathogenic variant (adjusted sHR, 5.67; 95% CI, 1.54-20.90).
  • The researchers also found a low risk for contralateral breast cancer among women without pathogenic variants, which could inform surgical decision-making.

IN PRACTICE:

Although the number of women positive for a germline pathogenic variant was small (n = 33) and “results should be interpreted cautiously,” the analysis signals “the importance of genetic testing” in younger breast cancer survivors to gauge their risk for a second primary breast cancer, the authors concluded. The authors added that their “finding of a higher risk of [second primary breast cancer] among those diagnosed with in situ primary [breast cancer] merits further investigation.”

 

 

SOURCE:

This study, led by Kristen D. Brantley, PhD, from Harvard T. H. Chan School of Public Health, Boston, was published online in JAMA Oncology.

LIMITATIONS:

A small number of second breast cancer events limited the authors’ ability to assess the effects of multiple risk factors together. Data on risk factors might be incomplete. About 9% of participants completed abbreviated questionnaires that did not include information on body mass index, alcohol, smoking, and family history. Frequencies of pathogenic variants besides BRCA1 and BRCA2 may be underestimated.

DISCLOSURES:

This study received no external funding. Four authors reported receiving grants or royalties outside this work. Other reported no competing interests.

A version of this article appeared on Medscape.com.

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TOPLINE:

A recent study suggests that younger breast cancer survivors with a germline pathogenic variant or those with an initial diagnosis of in situ vs invasive primary breast cancer have a significantly higher risk for a second primary breast cancer.

METHODOLOGY:

  • Women who are diagnosed with breast cancer at age 40 or younger are about two to three times more likely to develop second primary breast cancer compared with women who are older when first diagnosed.
  • However, data are lacking on whether certain factors increase a woman’s risk for a second primary breast cancer.
  • To classify the risk of developing a second primary breast cancer, the researchers evaluated a main cohort of 685 patients with stages 0-III breast cancer who were diagnosed at age 40 years or younger and had undergone unilateral mastectomy or lumpectomy as primary surgery between August 2006 and June 2015. The team also analyzed data on 547 younger women who had a bilateral mastectomy.
  • The researchers assessed various breast cancer risk factors, including self-reported ethnicity, race, age, family history of breast or ovarian cancer, germline genetics, tumor stage, grade, and receptor status.
  • The primary outcome was the diagnosis of a second primary breast cancer that occurred at least 6 months after the initial diagnosis of primary breast cancer.

TAKEAWAY:

  • Among the 685 main study participants, 17 (2.5%) developed a second primary breast cancer (15 contralateral and 2 ipsilateral) over a median of 4.2 years since their primary diagnosis. The 5- and 10-year cumulative incidence of a second primary breast cancer was 1.5% and 2.6%, respectively.
  • Overall, only 33 women were positive for a germline pathogenic variant, and having a pathogenic variant was associated with a fourfold higher risk for second primary breast cancer compared with noncarriers at 5 years (5.5% vs 1.3%) and at 10 years (8.9% vs 2.2%). These findings were held in multivariate models.
  • Patients initially diagnosed with in situ disease had more than a fivefold higher risk for second primary breast cancer compared with those initially diagnosed with invasive disease — 6.2% vs 1.2% at 5 years and 10.4% vs 2.1% at 10 years (hazard ratio, 5.25; P = .004). These findings were held in multivariate models (adjusted sub-hazard ratio [sHR], 5.61; 95% CI, 1.52-20.70) and among women without a pathogenic variant (adjusted sHR, 5.67; 95% CI, 1.54-20.90).
  • The researchers also found a low risk for contralateral breast cancer among women without pathogenic variants, which could inform surgical decision-making.

IN PRACTICE:

Although the number of women positive for a germline pathogenic variant was small (n = 33) and “results should be interpreted cautiously,” the analysis signals “the importance of genetic testing” in younger breast cancer survivors to gauge their risk for a second primary breast cancer, the authors concluded. The authors added that their “finding of a higher risk of [second primary breast cancer] among those diagnosed with in situ primary [breast cancer] merits further investigation.”

 

 

SOURCE:

This study, led by Kristen D. Brantley, PhD, from Harvard T. H. Chan School of Public Health, Boston, was published online in JAMA Oncology.

LIMITATIONS:

A small number of second breast cancer events limited the authors’ ability to assess the effects of multiple risk factors together. Data on risk factors might be incomplete. About 9% of participants completed abbreviated questionnaires that did not include information on body mass index, alcohol, smoking, and family history. Frequencies of pathogenic variants besides BRCA1 and BRCA2 may be underestimated.

DISCLOSURES:

This study received no external funding. Four authors reported receiving grants or royalties outside this work. Other reported no competing interests.

A version of this article appeared on Medscape.com.

 

TOPLINE:

A recent study suggests that younger breast cancer survivors with a germline pathogenic variant or those with an initial diagnosis of in situ vs invasive primary breast cancer have a significantly higher risk for a second primary breast cancer.

METHODOLOGY:

  • Women who are diagnosed with breast cancer at age 40 or younger are about two to three times more likely to develop second primary breast cancer compared with women who are older when first diagnosed.
  • However, data are lacking on whether certain factors increase a woman’s risk for a second primary breast cancer.
  • To classify the risk of developing a second primary breast cancer, the researchers evaluated a main cohort of 685 patients with stages 0-III breast cancer who were diagnosed at age 40 years or younger and had undergone unilateral mastectomy or lumpectomy as primary surgery between August 2006 and June 2015. The team also analyzed data on 547 younger women who had a bilateral mastectomy.
  • The researchers assessed various breast cancer risk factors, including self-reported ethnicity, race, age, family history of breast or ovarian cancer, germline genetics, tumor stage, grade, and receptor status.
  • The primary outcome was the diagnosis of a second primary breast cancer that occurred at least 6 months after the initial diagnosis of primary breast cancer.

TAKEAWAY:

  • Among the 685 main study participants, 17 (2.5%) developed a second primary breast cancer (15 contralateral and 2 ipsilateral) over a median of 4.2 years since their primary diagnosis. The 5- and 10-year cumulative incidence of a second primary breast cancer was 1.5% and 2.6%, respectively.
  • Overall, only 33 women were positive for a germline pathogenic variant, and having a pathogenic variant was associated with a fourfold higher risk for second primary breast cancer compared with noncarriers at 5 years (5.5% vs 1.3%) and at 10 years (8.9% vs 2.2%). These findings were held in multivariate models.
  • Patients initially diagnosed with in situ disease had more than a fivefold higher risk for second primary breast cancer compared with those initially diagnosed with invasive disease — 6.2% vs 1.2% at 5 years and 10.4% vs 2.1% at 10 years (hazard ratio, 5.25; P = .004). These findings were held in multivariate models (adjusted sub-hazard ratio [sHR], 5.61; 95% CI, 1.52-20.70) and among women without a pathogenic variant (adjusted sHR, 5.67; 95% CI, 1.54-20.90).
  • The researchers also found a low risk for contralateral breast cancer among women without pathogenic variants, which could inform surgical decision-making.

IN PRACTICE:

Although the number of women positive for a germline pathogenic variant was small (n = 33) and “results should be interpreted cautiously,” the analysis signals “the importance of genetic testing” in younger breast cancer survivors to gauge their risk for a second primary breast cancer, the authors concluded. The authors added that their “finding of a higher risk of [second primary breast cancer] among those diagnosed with in situ primary [breast cancer] merits further investigation.”

 

 

SOURCE:

This study, led by Kristen D. Brantley, PhD, from Harvard T. H. Chan School of Public Health, Boston, was published online in JAMA Oncology.

LIMITATIONS:

A small number of second breast cancer events limited the authors’ ability to assess the effects of multiple risk factors together. Data on risk factors might be incomplete. About 9% of participants completed abbreviated questionnaires that did not include information on body mass index, alcohol, smoking, and family history. Frequencies of pathogenic variants besides BRCA1 and BRCA2 may be underestimated.

DISCLOSURES:

This study received no external funding. Four authors reported receiving grants or royalties outside this work. Other reported no competing interests.

A version of this article appeared on Medscape.com.

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Most Targeted Cancer Drugs Lack Substantial Clinical Benefit

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Tue, 04/23/2024 - 17:03

 

TOPLINE:

An analysis of molecular-targeted cancer drug therapies recently approved in the United States found that fewer than one-third demonstrated substantial clinical benefits at the time of approval.

METHODOLOGY:

  • The strength and quality of evidence supporting genome-targeted cancer drug approvals vary. A big reason is the growing number of cancer drug approvals based on surrogate endpoints, such as disease-free and progression-free survival, instead of clinical endpoints, such as overall survival or quality of life. The US Food and Drug Administration (FDA) has also approved genome-targeted cancer drugs based on phase 1 or single-arm trials.
  • Given these less rigorous considerations for approval, “the validity and value of the targets and surrogate measures underlying FDA genome-targeted cancer drug approvals are uncertain,” the researchers explained.
  • In the current analysis, researchers assessed the validity of the molecular targets as well as the clinical benefits of genome-targeted cancer drugs approved in the United States from 2015 to 2022 based on results from pivotal trials.
  • The researchers evaluated the strength of evidence supporting molecular targetability using the European Society for Medical Oncology (ESMO) Scale for Clinical Actionability of Molecular Targets (ESCAT) and the clinical benefit using the ESMO–Magnitude of Clinical Benefit Scale (ESMO-MCBS).
  • The authors defined a substantial clinical benefit as an A or B grade for curative intent and a 4 or 5 for noncurative intent. High-benefit genomic-based cancer treatments were defined as those associated with a substantial clinical benefit (ESMO-MCBS) and that qualified as ESCAT category level I-A (a clinical benefit based on prospective randomized data) or I-B (prospective nonrandomized data).

TAKEAWAY:

  • The analyses focused on 50 molecular-targeted cancer drugs covering 84 indications. Of which, 45 indications (54%) were approved based on phase 1 or 2 pivotal trials, 45 (54%) were supported by single-arm pivotal trials and the remaining 39 (46%) by randomized trial, and 48 (57%) were approved based on subgroup analyses.
  • Among the 84 indications, more than half (55%) of the pivotal trials supporting approval used overall response rate as a primary endpoint, 31% used progression-free survival, and 6% used disease-free survival. Only seven indications (8%) were supported by pivotal trials demonstrating an improvement in overall survival.
  • Among the 84 trials, 24 (29%) met the ESMO-MCBS threshold for substantial clinical benefit.
  • Overall, when combining all ratings, only 24 of the 84 indications (29%) were considered high-benefit genomic-based cancer treatments.

IN PRACTICE:

“We applied the ESMO-MCBS and ESCAT value frameworks to identify therapies and molecular targets providing high clinical value that should be widely available to patients” and “found that drug indications supported by these characteristics represent a minority of cancer drug approvals in recent years,” the authors said. Using these value frameworks could help payers, governments, and individual patients “prioritize the availability of high-value molecular-targeted therapies.”

SOURCE:

The study, with first author Ariadna Tibau, MD, PhD, Brigham and Women’s Hospital and Harvard Medical School, Boston, was published online in JAMA Oncology.

LIMITATIONS:

The study evaluated only trials that supported regulatory approval and did not include outcomes of postapproval clinical studies, which could lead to changes in ESMO-MCBS grades and ESCAT levels of evidence over time.

DISCLOSURES:

The study was funded by the Kaiser Permanente Institute for Health Policy, Arnold Ventures, and the Commonwealth Fund. The authors had no relevant disclosures.

A version of this article appeared on Medscape.com.

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TOPLINE:

An analysis of molecular-targeted cancer drug therapies recently approved in the United States found that fewer than one-third demonstrated substantial clinical benefits at the time of approval.

METHODOLOGY:

  • The strength and quality of evidence supporting genome-targeted cancer drug approvals vary. A big reason is the growing number of cancer drug approvals based on surrogate endpoints, such as disease-free and progression-free survival, instead of clinical endpoints, such as overall survival or quality of life. The US Food and Drug Administration (FDA) has also approved genome-targeted cancer drugs based on phase 1 or single-arm trials.
  • Given these less rigorous considerations for approval, “the validity and value of the targets and surrogate measures underlying FDA genome-targeted cancer drug approvals are uncertain,” the researchers explained.
  • In the current analysis, researchers assessed the validity of the molecular targets as well as the clinical benefits of genome-targeted cancer drugs approved in the United States from 2015 to 2022 based on results from pivotal trials.
  • The researchers evaluated the strength of evidence supporting molecular targetability using the European Society for Medical Oncology (ESMO) Scale for Clinical Actionability of Molecular Targets (ESCAT) and the clinical benefit using the ESMO–Magnitude of Clinical Benefit Scale (ESMO-MCBS).
  • The authors defined a substantial clinical benefit as an A or B grade for curative intent and a 4 or 5 for noncurative intent. High-benefit genomic-based cancer treatments were defined as those associated with a substantial clinical benefit (ESMO-MCBS) and that qualified as ESCAT category level I-A (a clinical benefit based on prospective randomized data) or I-B (prospective nonrandomized data).

TAKEAWAY:

  • The analyses focused on 50 molecular-targeted cancer drugs covering 84 indications. Of which, 45 indications (54%) were approved based on phase 1 or 2 pivotal trials, 45 (54%) were supported by single-arm pivotal trials and the remaining 39 (46%) by randomized trial, and 48 (57%) were approved based on subgroup analyses.
  • Among the 84 indications, more than half (55%) of the pivotal trials supporting approval used overall response rate as a primary endpoint, 31% used progression-free survival, and 6% used disease-free survival. Only seven indications (8%) were supported by pivotal trials demonstrating an improvement in overall survival.
  • Among the 84 trials, 24 (29%) met the ESMO-MCBS threshold for substantial clinical benefit.
  • Overall, when combining all ratings, only 24 of the 84 indications (29%) were considered high-benefit genomic-based cancer treatments.

IN PRACTICE:

“We applied the ESMO-MCBS and ESCAT value frameworks to identify therapies and molecular targets providing high clinical value that should be widely available to patients” and “found that drug indications supported by these characteristics represent a minority of cancer drug approvals in recent years,” the authors said. Using these value frameworks could help payers, governments, and individual patients “prioritize the availability of high-value molecular-targeted therapies.”

SOURCE:

The study, with first author Ariadna Tibau, MD, PhD, Brigham and Women’s Hospital and Harvard Medical School, Boston, was published online in JAMA Oncology.

LIMITATIONS:

The study evaluated only trials that supported regulatory approval and did not include outcomes of postapproval clinical studies, which could lead to changes in ESMO-MCBS grades and ESCAT levels of evidence over time.

DISCLOSURES:

The study was funded by the Kaiser Permanente Institute for Health Policy, Arnold Ventures, and the Commonwealth Fund. The authors had no relevant disclosures.

A version of this article appeared on Medscape.com.

 

TOPLINE:

An analysis of molecular-targeted cancer drug therapies recently approved in the United States found that fewer than one-third demonstrated substantial clinical benefits at the time of approval.

METHODOLOGY:

  • The strength and quality of evidence supporting genome-targeted cancer drug approvals vary. A big reason is the growing number of cancer drug approvals based on surrogate endpoints, such as disease-free and progression-free survival, instead of clinical endpoints, such as overall survival or quality of life. The US Food and Drug Administration (FDA) has also approved genome-targeted cancer drugs based on phase 1 or single-arm trials.
  • Given these less rigorous considerations for approval, “the validity and value of the targets and surrogate measures underlying FDA genome-targeted cancer drug approvals are uncertain,” the researchers explained.
  • In the current analysis, researchers assessed the validity of the molecular targets as well as the clinical benefits of genome-targeted cancer drugs approved in the United States from 2015 to 2022 based on results from pivotal trials.
  • The researchers evaluated the strength of evidence supporting molecular targetability using the European Society for Medical Oncology (ESMO) Scale for Clinical Actionability of Molecular Targets (ESCAT) and the clinical benefit using the ESMO–Magnitude of Clinical Benefit Scale (ESMO-MCBS).
  • The authors defined a substantial clinical benefit as an A or B grade for curative intent and a 4 or 5 for noncurative intent. High-benefit genomic-based cancer treatments were defined as those associated with a substantial clinical benefit (ESMO-MCBS) and that qualified as ESCAT category level I-A (a clinical benefit based on prospective randomized data) or I-B (prospective nonrandomized data).

TAKEAWAY:

  • The analyses focused on 50 molecular-targeted cancer drugs covering 84 indications. Of which, 45 indications (54%) were approved based on phase 1 or 2 pivotal trials, 45 (54%) were supported by single-arm pivotal trials and the remaining 39 (46%) by randomized trial, and 48 (57%) were approved based on subgroup analyses.
  • Among the 84 indications, more than half (55%) of the pivotal trials supporting approval used overall response rate as a primary endpoint, 31% used progression-free survival, and 6% used disease-free survival. Only seven indications (8%) were supported by pivotal trials demonstrating an improvement in overall survival.
  • Among the 84 trials, 24 (29%) met the ESMO-MCBS threshold for substantial clinical benefit.
  • Overall, when combining all ratings, only 24 of the 84 indications (29%) were considered high-benefit genomic-based cancer treatments.

IN PRACTICE:

“We applied the ESMO-MCBS and ESCAT value frameworks to identify therapies and molecular targets providing high clinical value that should be widely available to patients” and “found that drug indications supported by these characteristics represent a minority of cancer drug approvals in recent years,” the authors said. Using these value frameworks could help payers, governments, and individual patients “prioritize the availability of high-value molecular-targeted therapies.”

SOURCE:

The study, with first author Ariadna Tibau, MD, PhD, Brigham and Women’s Hospital and Harvard Medical School, Boston, was published online in JAMA Oncology.

LIMITATIONS:

The study evaluated only trials that supported regulatory approval and did not include outcomes of postapproval clinical studies, which could lead to changes in ESMO-MCBS grades and ESCAT levels of evidence over time.

DISCLOSURES:

The study was funded by the Kaiser Permanente Institute for Health Policy, Arnold Ventures, and the Commonwealth Fund. The authors had no relevant disclosures.

A version of this article appeared on Medscape.com.

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Blood Test Shows Promise for Improving CRC Screening

Article Type
Changed
Tue, 04/16/2024 - 12:17

— A new cell-free DNA (cfDNA)-based blood test shows promising performance in detecting colorectal cancer and advanced precancerous lesions, say the authors of new research.

Rachel B. Issaka, MD, MAS, of the Fred Hutchinson Cancer Center, Seattle, presented the clinical data, which was published in The New England Journal of Medicine, at the American Association for Cancer Research annual meeting.

Fred Hutchinson Cancer Center
Dr. Rachel B. Issaka

The authors of the study evaluated the performance of a cfDNA blood-based test in a population eligible for colorectal cancer screening. The researchers found that the test had high sensitivity for the detection of colorectal cancer and high specificity for advanced precancerous lesions.

This novel blood test could improve screening adherence and, ultimately, reduce colorectal cancer-related mortality, Dr. Issaka said during her presentation.

“This test has the potential to help us reach the 80% screening target in colorectal cancer. However, this will depend on many factors, including access, implementation, follow-up colonoscopy, and characteristics of the test,” Dr. Issaka said in an interview.

She added that, when approved for broader use, anyone who wants to use this blood test for colorectal cancer screening should have a frank conversation with their healthcare provider.

“Considering the person’s age, medical history, family history, and any potential symptoms, and how the test performs will dictate if it’s the right test for that person versus another screening strategy,” Dr. Issaka explained.
 

The Blood Test Detects Colorectal Cancer With High Accuracy

The investigators of the observational ECLIPSE trial evaluated the performance of the cfDNA-based blood test in 7861 individuals who were eligible for colorectal cancer screening. The study population included people from more than 200 rural and urban sites across 34 states, including community hospitals, private practices, gastroenterology clinics, and academic centers. “The study enrolled a diverse cohort that is reflective of the demographics of the intended use population in the US,” Dr. Issaka said during her talk.

The co-primary outcomes of the study were the test’s sensitivity for detecting colorectal cancer and its specificity for identifying advanced neoplasia.

In her presentation, Dr. Issaka highlighted that the test had 83.1% (95% confidence interval [CI], 72.2%-90.3%) sensitivity for the detection of colorectal cancer, meaning that it was able to correctly identify most participants with the disease. The test’s sensitivity was even higher (87.5%; 95% CI, 75.3%-94.1%) for stage I, II, or III colorectal cancer. “These are the stages at which early intervention can have the greatest impact on patient prognosis,” Dr. Issaka said.

Moreover, the blood test showed 89.6% (95% CI, 88.8%-90.3%) specificity for advanced neoplasia, including colorectal cancer and advanced precancerous lesions. The specificity of the test for negative colonoscopy results (no colorectal cancer, advanced precancerous lesions, or nonadvanced precancerous lesions) was 89.9% (95% CI, 89.0%-90.7%).

Dr. Issaka highlighted that this cfDNA assay is the first blood-based test with performance comparable to current guideline-recommended noninvasive options for CRC.
 

The Blood Test Shows Limited Ability To Detect Advanced Precancerous Lesions

During her presentation, Dr. Issaka acknowledged that the cfDNA-based blood test had a lower sensitivity (13.2%; 95% CI, 11.3%-15.3%) for the detection of advanced precancerous lesions, suggesting that it may be more effective at identifying established cancers than early-stage precancerous changes. Low sensitivity was also observed for high-grade dysplasia (22.6%; 95% CI, 11.4%-39.8%). However, she emphasized that the test could still play a valuable role in a comprehensive screening approach, potentially serving as a first-line tool to identify individuals who would then undergo follow-up colonoscopy.

“Although blood-based tests perform well at finding cancers, they do not do so well at finding precancerous polyps. This is relevant because colorectal cancer is one of the few cancers that we can prevent by finding and removing precancerous polyps,” Folasade P. May, MD, PhD, MPhil, said in an interview.

“Users must also understand that if the test result is abnormal, a colonoscopy is required to look for cancers and polyps that might have caused the abnormal result,” added Dr. May, associate professor at UCLA. She was not involved in the study.
 

Clinical Implications and Future Steps

According to the study published in the NEJM, colorectal cancer is the third most commonly diagnosed cancer in the United States, and early detection is crucial for effective treatment. However, over a third of eligible individuals are not up to date with recommended screening.

During her talk, Dr. Issaka noted that colonoscopy is the most commonly used screening method for colorectal cancer. What contributes to the low adherence to getting a colonoscopy among the eligible population is that some find it inconvenient, and the test is invasive, she added.

According to Dr. May, the key advantage of cfDNA-based screening is that many people will find it easier to complete a blood test than the currently available screening tests.

“This option may allow us to screen individuals that we have previously struggled to convince to get screened for colorectal cancer,” she said.

In an interview, Dr. Issaka acknowledged that the potential public health impact of any noninvasive screening test depends on how many people with abnormal results complete a follow-up colonoscopy. “This is an important quality metric to track,” she said.

In an interview, Dr. Issaka emphasized that comparing this cfDNA blood test with emerging blood tests and other noninvasive screening strategies will empower patients and clinicians to select the right test at the right time for the right patient.

She added that the study was conducted in an average-risk screening population and that further research is needed to evaluate the test’s performance in higher-risk groups and to assess its real-world impact on screening adherence and colorectal cancer-related outcomes.

Commenting on potential challenges with implementing this cfDNA blood test in clinical practice, Dr. May said, “As we consider incorporating blood-based tests into clinical practice, some challenges include cost, equitable access to tests and follow-up, performance in young adults who are newly eligible for screening, and follow-up after abnormal results.”

She added that, if there is uptake of these tests, it will be important to track how that impacts colorectal cancer screening rates, stage at diagnosis, and whether there is stage migration, incidence, and mortality.

“At this time, I feel that these tests are appropriate for individuals who will not or cannot participate in one of the currently recommended screening tests. These include colonoscopy and stool-based tests, like FIT and FIT-DNA,” Dr. May concluded.

Dr. Issaka reported financial relationships with the National Institutes of Health/National Cancer Institute, American College of Gastroenterology, and Guardant Health Inc. Dr. May reported financial relationships with Takeda, Medtronic, Johnson & Johnson, Saint Supply, Exact Sciences, Freenome, Geneoscopy, Guardant Health, InterVenn, Natura, National Institutes of Health/National Cancer Institute, Veterans Affairs HSR&D, Broad Institute, Stand up to Cancer, and NRG Oncology.

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— A new cell-free DNA (cfDNA)-based blood test shows promising performance in detecting colorectal cancer and advanced precancerous lesions, say the authors of new research.

Rachel B. Issaka, MD, MAS, of the Fred Hutchinson Cancer Center, Seattle, presented the clinical data, which was published in The New England Journal of Medicine, at the American Association for Cancer Research annual meeting.

Fred Hutchinson Cancer Center
Dr. Rachel B. Issaka

The authors of the study evaluated the performance of a cfDNA blood-based test in a population eligible for colorectal cancer screening. The researchers found that the test had high sensitivity for the detection of colorectal cancer and high specificity for advanced precancerous lesions.

This novel blood test could improve screening adherence and, ultimately, reduce colorectal cancer-related mortality, Dr. Issaka said during her presentation.

“This test has the potential to help us reach the 80% screening target in colorectal cancer. However, this will depend on many factors, including access, implementation, follow-up colonoscopy, and characteristics of the test,” Dr. Issaka said in an interview.

She added that, when approved for broader use, anyone who wants to use this blood test for colorectal cancer screening should have a frank conversation with their healthcare provider.

“Considering the person’s age, medical history, family history, and any potential symptoms, and how the test performs will dictate if it’s the right test for that person versus another screening strategy,” Dr. Issaka explained.
 

The Blood Test Detects Colorectal Cancer With High Accuracy

The investigators of the observational ECLIPSE trial evaluated the performance of the cfDNA-based blood test in 7861 individuals who were eligible for colorectal cancer screening. The study population included people from more than 200 rural and urban sites across 34 states, including community hospitals, private practices, gastroenterology clinics, and academic centers. “The study enrolled a diverse cohort that is reflective of the demographics of the intended use population in the US,” Dr. Issaka said during her talk.

The co-primary outcomes of the study were the test’s sensitivity for detecting colorectal cancer and its specificity for identifying advanced neoplasia.

In her presentation, Dr. Issaka highlighted that the test had 83.1% (95% confidence interval [CI], 72.2%-90.3%) sensitivity for the detection of colorectal cancer, meaning that it was able to correctly identify most participants with the disease. The test’s sensitivity was even higher (87.5%; 95% CI, 75.3%-94.1%) for stage I, II, or III colorectal cancer. “These are the stages at which early intervention can have the greatest impact on patient prognosis,” Dr. Issaka said.

Moreover, the blood test showed 89.6% (95% CI, 88.8%-90.3%) specificity for advanced neoplasia, including colorectal cancer and advanced precancerous lesions. The specificity of the test for negative colonoscopy results (no colorectal cancer, advanced precancerous lesions, or nonadvanced precancerous lesions) was 89.9% (95% CI, 89.0%-90.7%).

Dr. Issaka highlighted that this cfDNA assay is the first blood-based test with performance comparable to current guideline-recommended noninvasive options for CRC.
 

The Blood Test Shows Limited Ability To Detect Advanced Precancerous Lesions

During her presentation, Dr. Issaka acknowledged that the cfDNA-based blood test had a lower sensitivity (13.2%; 95% CI, 11.3%-15.3%) for the detection of advanced precancerous lesions, suggesting that it may be more effective at identifying established cancers than early-stage precancerous changes. Low sensitivity was also observed for high-grade dysplasia (22.6%; 95% CI, 11.4%-39.8%). However, she emphasized that the test could still play a valuable role in a comprehensive screening approach, potentially serving as a first-line tool to identify individuals who would then undergo follow-up colonoscopy.

“Although blood-based tests perform well at finding cancers, they do not do so well at finding precancerous polyps. This is relevant because colorectal cancer is one of the few cancers that we can prevent by finding and removing precancerous polyps,” Folasade P. May, MD, PhD, MPhil, said in an interview.

“Users must also understand that if the test result is abnormal, a colonoscopy is required to look for cancers and polyps that might have caused the abnormal result,” added Dr. May, associate professor at UCLA. She was not involved in the study.
 

Clinical Implications and Future Steps

According to the study published in the NEJM, colorectal cancer is the third most commonly diagnosed cancer in the United States, and early detection is crucial for effective treatment. However, over a third of eligible individuals are not up to date with recommended screening.

During her talk, Dr. Issaka noted that colonoscopy is the most commonly used screening method for colorectal cancer. What contributes to the low adherence to getting a colonoscopy among the eligible population is that some find it inconvenient, and the test is invasive, she added.

According to Dr. May, the key advantage of cfDNA-based screening is that many people will find it easier to complete a blood test than the currently available screening tests.

“This option may allow us to screen individuals that we have previously struggled to convince to get screened for colorectal cancer,” she said.

In an interview, Dr. Issaka acknowledged that the potential public health impact of any noninvasive screening test depends on how many people with abnormal results complete a follow-up colonoscopy. “This is an important quality metric to track,” she said.

In an interview, Dr. Issaka emphasized that comparing this cfDNA blood test with emerging blood tests and other noninvasive screening strategies will empower patients and clinicians to select the right test at the right time for the right patient.

She added that the study was conducted in an average-risk screening population and that further research is needed to evaluate the test’s performance in higher-risk groups and to assess its real-world impact on screening adherence and colorectal cancer-related outcomes.

Commenting on potential challenges with implementing this cfDNA blood test in clinical practice, Dr. May said, “As we consider incorporating blood-based tests into clinical practice, some challenges include cost, equitable access to tests and follow-up, performance in young adults who are newly eligible for screening, and follow-up after abnormal results.”

She added that, if there is uptake of these tests, it will be important to track how that impacts colorectal cancer screening rates, stage at diagnosis, and whether there is stage migration, incidence, and mortality.

“At this time, I feel that these tests are appropriate for individuals who will not or cannot participate in one of the currently recommended screening tests. These include colonoscopy and stool-based tests, like FIT and FIT-DNA,” Dr. May concluded.

Dr. Issaka reported financial relationships with the National Institutes of Health/National Cancer Institute, American College of Gastroenterology, and Guardant Health Inc. Dr. May reported financial relationships with Takeda, Medtronic, Johnson & Johnson, Saint Supply, Exact Sciences, Freenome, Geneoscopy, Guardant Health, InterVenn, Natura, National Institutes of Health/National Cancer Institute, Veterans Affairs HSR&D, Broad Institute, Stand up to Cancer, and NRG Oncology.

— A new cell-free DNA (cfDNA)-based blood test shows promising performance in detecting colorectal cancer and advanced precancerous lesions, say the authors of new research.

Rachel B. Issaka, MD, MAS, of the Fred Hutchinson Cancer Center, Seattle, presented the clinical data, which was published in The New England Journal of Medicine, at the American Association for Cancer Research annual meeting.

Fred Hutchinson Cancer Center
Dr. Rachel B. Issaka

The authors of the study evaluated the performance of a cfDNA blood-based test in a population eligible for colorectal cancer screening. The researchers found that the test had high sensitivity for the detection of colorectal cancer and high specificity for advanced precancerous lesions.

This novel blood test could improve screening adherence and, ultimately, reduce colorectal cancer-related mortality, Dr. Issaka said during her presentation.

“This test has the potential to help us reach the 80% screening target in colorectal cancer. However, this will depend on many factors, including access, implementation, follow-up colonoscopy, and characteristics of the test,” Dr. Issaka said in an interview.

She added that, when approved for broader use, anyone who wants to use this blood test for colorectal cancer screening should have a frank conversation with their healthcare provider.

“Considering the person’s age, medical history, family history, and any potential symptoms, and how the test performs will dictate if it’s the right test for that person versus another screening strategy,” Dr. Issaka explained.
 

The Blood Test Detects Colorectal Cancer With High Accuracy

The investigators of the observational ECLIPSE trial evaluated the performance of the cfDNA-based blood test in 7861 individuals who were eligible for colorectal cancer screening. The study population included people from more than 200 rural and urban sites across 34 states, including community hospitals, private practices, gastroenterology clinics, and academic centers. “The study enrolled a diverse cohort that is reflective of the demographics of the intended use population in the US,” Dr. Issaka said during her talk.

The co-primary outcomes of the study were the test’s sensitivity for detecting colorectal cancer and its specificity for identifying advanced neoplasia.

In her presentation, Dr. Issaka highlighted that the test had 83.1% (95% confidence interval [CI], 72.2%-90.3%) sensitivity for the detection of colorectal cancer, meaning that it was able to correctly identify most participants with the disease. The test’s sensitivity was even higher (87.5%; 95% CI, 75.3%-94.1%) for stage I, II, or III colorectal cancer. “These are the stages at which early intervention can have the greatest impact on patient prognosis,” Dr. Issaka said.

Moreover, the blood test showed 89.6% (95% CI, 88.8%-90.3%) specificity for advanced neoplasia, including colorectal cancer and advanced precancerous lesions. The specificity of the test for negative colonoscopy results (no colorectal cancer, advanced precancerous lesions, or nonadvanced precancerous lesions) was 89.9% (95% CI, 89.0%-90.7%).

Dr. Issaka highlighted that this cfDNA assay is the first blood-based test with performance comparable to current guideline-recommended noninvasive options for CRC.
 

The Blood Test Shows Limited Ability To Detect Advanced Precancerous Lesions

During her presentation, Dr. Issaka acknowledged that the cfDNA-based blood test had a lower sensitivity (13.2%; 95% CI, 11.3%-15.3%) for the detection of advanced precancerous lesions, suggesting that it may be more effective at identifying established cancers than early-stage precancerous changes. Low sensitivity was also observed for high-grade dysplasia (22.6%; 95% CI, 11.4%-39.8%). However, she emphasized that the test could still play a valuable role in a comprehensive screening approach, potentially serving as a first-line tool to identify individuals who would then undergo follow-up colonoscopy.

“Although blood-based tests perform well at finding cancers, they do not do so well at finding precancerous polyps. This is relevant because colorectal cancer is one of the few cancers that we can prevent by finding and removing precancerous polyps,” Folasade P. May, MD, PhD, MPhil, said in an interview.

“Users must also understand that if the test result is abnormal, a colonoscopy is required to look for cancers and polyps that might have caused the abnormal result,” added Dr. May, associate professor at UCLA. She was not involved in the study.
 

Clinical Implications and Future Steps

According to the study published in the NEJM, colorectal cancer is the third most commonly diagnosed cancer in the United States, and early detection is crucial for effective treatment. However, over a third of eligible individuals are not up to date with recommended screening.

During her talk, Dr. Issaka noted that colonoscopy is the most commonly used screening method for colorectal cancer. What contributes to the low adherence to getting a colonoscopy among the eligible population is that some find it inconvenient, and the test is invasive, she added.

According to Dr. May, the key advantage of cfDNA-based screening is that many people will find it easier to complete a blood test than the currently available screening tests.

“This option may allow us to screen individuals that we have previously struggled to convince to get screened for colorectal cancer,” she said.

In an interview, Dr. Issaka acknowledged that the potential public health impact of any noninvasive screening test depends on how many people with abnormal results complete a follow-up colonoscopy. “This is an important quality metric to track,” she said.

In an interview, Dr. Issaka emphasized that comparing this cfDNA blood test with emerging blood tests and other noninvasive screening strategies will empower patients and clinicians to select the right test at the right time for the right patient.

She added that the study was conducted in an average-risk screening population and that further research is needed to evaluate the test’s performance in higher-risk groups and to assess its real-world impact on screening adherence and colorectal cancer-related outcomes.

Commenting on potential challenges with implementing this cfDNA blood test in clinical practice, Dr. May said, “As we consider incorporating blood-based tests into clinical practice, some challenges include cost, equitable access to tests and follow-up, performance in young adults who are newly eligible for screening, and follow-up after abnormal results.”

She added that, if there is uptake of these tests, it will be important to track how that impacts colorectal cancer screening rates, stage at diagnosis, and whether there is stage migration, incidence, and mortality.

“At this time, I feel that these tests are appropriate for individuals who will not or cannot participate in one of the currently recommended screening tests. These include colonoscopy and stool-based tests, like FIT and FIT-DNA,” Dr. May concluded.

Dr. Issaka reported financial relationships with the National Institutes of Health/National Cancer Institute, American College of Gastroenterology, and Guardant Health Inc. Dr. May reported financial relationships with Takeda, Medtronic, Johnson & Johnson, Saint Supply, Exact Sciences, Freenome, Geneoscopy, Guardant Health, InterVenn, Natura, National Institutes of Health/National Cancer Institute, Veterans Affairs HSR&D, Broad Institute, Stand up to Cancer, and NRG Oncology.

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Is Axillary Surgery in Early Breast Cancer on Its Way Out?

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Changed
Tue, 04/16/2024 - 12:04

 

TOPLINE:

Omitting axillary lymph node dissection does not increase the risk for recurrence or compromise 5-year overall survival outcomes in patients with early-stage, node-negative breast cancer with sentinel-node metastases undergoing surgery and radiation therapy.

METHODOLOGY:

  • A growing body of evidence has indicated that patients with one or two positive sentinel nodes undergoing breast-conserving surgery and radiation therapy can skip axillary lymph node dissection and achieve similar outcomes compared with patients receiving axillary dissection.
  • However, these earlier studies had notable limitations, such as limited statistical power, uncertain nodal radiotherapy target volumes, and minimal data on relevant clinical subgroups.
  • To fill the gaps in the literature, the researchers conducted a trial with a large, inclusive cohort of patients with node-negative stage T1-T3 breast cancer who had one or two sentinel-node macrometastases and had undergone a mastectomy or breast-conserving surgery.
  • The trial randomized 2540 patients to either completion axillary lymph node dissection (n = 1205) or sentinel-node biopsy only (n = 1335). Nearly 90% of patients received adjuvant radiation therapy, and the majority also received systematic therapy.
  • Earlier recurrence-free survival findings and patient-reported outcomes were reported last December. The researchers now reported overall survival findings as well as secondary endpoints of breast cancer-specific survival.

TAKEAWAY:

  • The researchers reported 191 recurrences or deaths over a median follow-up of 46.8 months; 62 patients (4.6%) in the sentinel-node biopsy–only group died, and 69 patients (5.7%) in the dissection group died.
  • The biopsy-only group had an estimated 5-year overall survival of 92.9% compared with 92.0% in the dissection group and an estimated 5-year breast cancer-specific survival of 97.1% vs 96.6% in the dissection group.
  • The estimated 5-year recurrence-free survival was 89.7% in the biopsy-only group vs 88.7% in the dissection group (hazard ratio [HR], 0.89; 95% CI, 0.66-1.19).
  • This non-inferior difference held across all prespecified patient subgroups, except in patients with estrogen receptor-positive, human epidermal growth factor receptor 2–positive disease, in which sentinel biopsy alone appeared to be better (HR, 0.26).

IN PRACTICE:

“This trial provides robust evidence that the omission of completion axillary-lymph-node dissection was safe in patients with clinically node-negative T1, T2, or T3 breast cancer and one or two sentinel-node macrometastases who received adjuvant systemic treatment and radiation therapy according to national guidelines,” the authors concluded.

“It is clear that the role of axillary dissection is rapidly disappearing,” Kandace P. McGuire, MD, of Virginia Commonwealth University, Richmond, wrote in an accompanying editorial. “However, axillary staging continues to be vital with regard to decisions about appropriate breast cancer therapy.”

SOURCE:

This work, led by Jana de Boniface, MD, PhD, from Karolinska Institute, Stockholm, was published online in The New England Journal of Medicine, alongside the accompanying editorial by Dr. McGuire.

LIMITATIONS:

The study limitations include unavailable radiation therapy details for comparison, low male recruitment hindering sex-based analysis, short follow-up for luminal subtype breast cancer, unmet enrollment targets, and higher withdrawal rates in the dissection group.

DISCLOSURES:

This study was supported by the Swedish Research Council, Swedish Cancer Society, Nordic Cancer Union, and Swedish Breast Cancer Association. One coauthor reported receiving consultancy fees from various pharmaceutical companies outside this work.

A version of this article appeared on Medscape.com.

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TOPLINE:

Omitting axillary lymph node dissection does not increase the risk for recurrence or compromise 5-year overall survival outcomes in patients with early-stage, node-negative breast cancer with sentinel-node metastases undergoing surgery and radiation therapy.

METHODOLOGY:

  • A growing body of evidence has indicated that patients with one or two positive sentinel nodes undergoing breast-conserving surgery and radiation therapy can skip axillary lymph node dissection and achieve similar outcomes compared with patients receiving axillary dissection.
  • However, these earlier studies had notable limitations, such as limited statistical power, uncertain nodal radiotherapy target volumes, and minimal data on relevant clinical subgroups.
  • To fill the gaps in the literature, the researchers conducted a trial with a large, inclusive cohort of patients with node-negative stage T1-T3 breast cancer who had one or two sentinel-node macrometastases and had undergone a mastectomy or breast-conserving surgery.
  • The trial randomized 2540 patients to either completion axillary lymph node dissection (n = 1205) or sentinel-node biopsy only (n = 1335). Nearly 90% of patients received adjuvant radiation therapy, and the majority also received systematic therapy.
  • Earlier recurrence-free survival findings and patient-reported outcomes were reported last December. The researchers now reported overall survival findings as well as secondary endpoints of breast cancer-specific survival.

TAKEAWAY:

  • The researchers reported 191 recurrences or deaths over a median follow-up of 46.8 months; 62 patients (4.6%) in the sentinel-node biopsy–only group died, and 69 patients (5.7%) in the dissection group died.
  • The biopsy-only group had an estimated 5-year overall survival of 92.9% compared with 92.0% in the dissection group and an estimated 5-year breast cancer-specific survival of 97.1% vs 96.6% in the dissection group.
  • The estimated 5-year recurrence-free survival was 89.7% in the biopsy-only group vs 88.7% in the dissection group (hazard ratio [HR], 0.89; 95% CI, 0.66-1.19).
  • This non-inferior difference held across all prespecified patient subgroups, except in patients with estrogen receptor-positive, human epidermal growth factor receptor 2–positive disease, in which sentinel biopsy alone appeared to be better (HR, 0.26).

IN PRACTICE:

“This trial provides robust evidence that the omission of completion axillary-lymph-node dissection was safe in patients with clinically node-negative T1, T2, or T3 breast cancer and one or two sentinel-node macrometastases who received adjuvant systemic treatment and radiation therapy according to national guidelines,” the authors concluded.

“It is clear that the role of axillary dissection is rapidly disappearing,” Kandace P. McGuire, MD, of Virginia Commonwealth University, Richmond, wrote in an accompanying editorial. “However, axillary staging continues to be vital with regard to decisions about appropriate breast cancer therapy.”

SOURCE:

This work, led by Jana de Boniface, MD, PhD, from Karolinska Institute, Stockholm, was published online in The New England Journal of Medicine, alongside the accompanying editorial by Dr. McGuire.

LIMITATIONS:

The study limitations include unavailable radiation therapy details for comparison, low male recruitment hindering sex-based analysis, short follow-up for luminal subtype breast cancer, unmet enrollment targets, and higher withdrawal rates in the dissection group.

DISCLOSURES:

This study was supported by the Swedish Research Council, Swedish Cancer Society, Nordic Cancer Union, and Swedish Breast Cancer Association. One coauthor reported receiving consultancy fees from various pharmaceutical companies outside this work.

A version of this article appeared on Medscape.com.

 

TOPLINE:

Omitting axillary lymph node dissection does not increase the risk for recurrence or compromise 5-year overall survival outcomes in patients with early-stage, node-negative breast cancer with sentinel-node metastases undergoing surgery and radiation therapy.

METHODOLOGY:

  • A growing body of evidence has indicated that patients with one or two positive sentinel nodes undergoing breast-conserving surgery and radiation therapy can skip axillary lymph node dissection and achieve similar outcomes compared with patients receiving axillary dissection.
  • However, these earlier studies had notable limitations, such as limited statistical power, uncertain nodal radiotherapy target volumes, and minimal data on relevant clinical subgroups.
  • To fill the gaps in the literature, the researchers conducted a trial with a large, inclusive cohort of patients with node-negative stage T1-T3 breast cancer who had one or two sentinel-node macrometastases and had undergone a mastectomy or breast-conserving surgery.
  • The trial randomized 2540 patients to either completion axillary lymph node dissection (n = 1205) or sentinel-node biopsy only (n = 1335). Nearly 90% of patients received adjuvant radiation therapy, and the majority also received systematic therapy.
  • Earlier recurrence-free survival findings and patient-reported outcomes were reported last December. The researchers now reported overall survival findings as well as secondary endpoints of breast cancer-specific survival.

TAKEAWAY:

  • The researchers reported 191 recurrences or deaths over a median follow-up of 46.8 months; 62 patients (4.6%) in the sentinel-node biopsy–only group died, and 69 patients (5.7%) in the dissection group died.
  • The biopsy-only group had an estimated 5-year overall survival of 92.9% compared with 92.0% in the dissection group and an estimated 5-year breast cancer-specific survival of 97.1% vs 96.6% in the dissection group.
  • The estimated 5-year recurrence-free survival was 89.7% in the biopsy-only group vs 88.7% in the dissection group (hazard ratio [HR], 0.89; 95% CI, 0.66-1.19).
  • This non-inferior difference held across all prespecified patient subgroups, except in patients with estrogen receptor-positive, human epidermal growth factor receptor 2–positive disease, in which sentinel biopsy alone appeared to be better (HR, 0.26).

IN PRACTICE:

“This trial provides robust evidence that the omission of completion axillary-lymph-node dissection was safe in patients with clinically node-negative T1, T2, or T3 breast cancer and one or two sentinel-node macrometastases who received adjuvant systemic treatment and radiation therapy according to national guidelines,” the authors concluded.

“It is clear that the role of axillary dissection is rapidly disappearing,” Kandace P. McGuire, MD, of Virginia Commonwealth University, Richmond, wrote in an accompanying editorial. “However, axillary staging continues to be vital with regard to decisions about appropriate breast cancer therapy.”

SOURCE:

This work, led by Jana de Boniface, MD, PhD, from Karolinska Institute, Stockholm, was published online in The New England Journal of Medicine, alongside the accompanying editorial by Dr. McGuire.

LIMITATIONS:

The study limitations include unavailable radiation therapy details for comparison, low male recruitment hindering sex-based analysis, short follow-up for luminal subtype breast cancer, unmet enrollment targets, and higher withdrawal rates in the dissection group.

DISCLOSURES:

This study was supported by the Swedish Research Council, Swedish Cancer Society, Nordic Cancer Union, and Swedish Breast Cancer Association. One coauthor reported receiving consultancy fees from various pharmaceutical companies outside this work.

A version of this article appeared on Medscape.com.

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