Indolent Lymphoma

The number of cancer survivors who report functional limitation has more than doubled in 20 years, according to a research letter published in JAMA Oncology.

Vishal Patel, BS, a student at the Dell Medical School at The University of Texas at Austin, and colleagues identified 51,258 cancer survivors from the National Health Interview Survey, representing a weighted population of approximately 178.8 million from 1999 to 2018.

Most survivors were women (60.2%) and were at least 65 years old (55.4%). In 1999, 3.6 million weighted survivors reported functional limitation. In 2018, the number increased to 8.2 million, a 2.25-fold increase.

The number of survivors who reported no limitations also increased, but not by as much. That group grew 1.34-fold during the study period.

For context, “the 70% prevalence of functional limitation among survivors in 2018 is nearly twice that of the general population,” the authors wrote.
 

Patients surveyed on function

Functional limitation was defined as “self-reported difficulty performing any of 12 routine physical or social activities without assistance.” Examples of the activities included difficulty sitting for more than 2 hours, difficulty participating in social activities or difficulty pushing or pulling an object the size of a living room chair.

Over the 2 decades analyzed, the adjusted prevalence of functional limitation was highest among survivors of pancreatic cancer (80.3%) and lung cancer (76.5%). Prevalence was lowest for survivors of melanoma (62.2%), breast (61.8%) and prostate (59.5%) cancers.
 

Not just a result of living longer

Mr. Patel told this publication that one assumption people might make when they read these results is that people are just living longer with cancer and losing functional ability accordingly.

“But, in fact, we found that the youngest [– those less than 65 years–] actually contributed to this trend more than the oldest people, which means it’s not just [happening], because people are getting older,” he said.

Hispanic and Black individuals had disproportionately higher increases in functional limitation; percentage point increases over the 2 decades were 19.5 for Black people, 25.1 for Hispanic people and 12.5 for White people. There may be a couple of reasons for that, Mr. Patel noted.

Those who are Black or Hispanic tend to have less access to cancer survivorship care for reasons including insurance status and historic health care inequities, he noted.

“The other potential reason is that they have had less access to cancer care historically. And if, 20 years ago Black and Hispanic individuals didn’t have access to some chemotherapies, and now they do, maybe it’s the increased access to care that’s causing these functional limitations. Because chemotherapy can sometimes be very toxic. It may be sort of a catch-up toxicity,” he said.
 

Quality of life beyond survivorship

Mr. Patel said the results seem to call for building on improved survival rates by tracking and improving function.

“It’s good to celebrate that there are more survivors. But now that we can keep people alive longer, maybe we can shift gears to improving their quality of life,” he said.

The more-than-doubling of functional limitations over 2 decades “is a very sobering trend,” he noted, while pointing out that the functional limitations applied to 8 million people in the United States – people whose needs are not being met.

There’s no sign of the trend stopping, he continued. “We saw no downward trend, only an upward trend.”

Increasingly, including functionality as an endpoint in cancer trials, in addition to improvements in mortality, is one place to start, he added.

“Our findings suggest an urgent need for care teams to understand and address function, for researchers to evaluate function as a core outcome in trials, and for health systems and policy makers to reimagine survivorship care, recognizing the burden of cancer and its treatment on physical, psychosocial, and cognitive function,” the authors wrote in their paper. Limitations of the study include the potential for recall bias, lack of cancer staging or treatment information, and the subjective perception of function.

A coauthor reported personal fees from Astellas, AstraZeneca, AAA, Blue Earth, Janssen, Lantheus, Myovant, Myriad Genetics, Novartis, Telix, and Sanofi, as well as grants from Pfizer and Bayer during the conduct of the study. No other disclosures were reported.

The number of cancer survivors who report functional limitation has more than doubled in 20 years, according to a research letter published in JAMA Oncology.

Vishal Patel, BS, a student at the Dell Medical School at The University of Texas at Austin, and colleagues identified 51,258 cancer survivors from the National Health Interview Survey, representing a weighted population of approximately 178.8 million from 1999 to 2018.

Most survivors were women (60.2%) and were at least 65 years old (55.4%). In 1999, 3.6 million weighted survivors reported functional limitation. In 2018, the number increased to 8.2 million, a 2.25-fold increase.

The number of survivors who reported no limitations also increased, but not by as much. That group grew 1.34-fold during the study period.

For context, “the 70% prevalence of functional limitation among survivors in 2018 is nearly twice that of the general population,” the authors wrote.
 

Patients surveyed on function

Functional limitation was defined as “self-reported difficulty performing any of 12 routine physical or social activities without assistance.” Examples of the activities included difficulty sitting for more than 2 hours, difficulty participating in social activities or difficulty pushing or pulling an object the size of a living room chair.

Over the 2 decades analyzed, the adjusted prevalence of functional limitation was highest among survivors of pancreatic cancer (80.3%) and lung cancer (76.5%). Prevalence was lowest for survivors of melanoma (62.2%), breast (61.8%) and prostate (59.5%) cancers.
 

Not just a result of living longer

Mr. Patel told this publication that one assumption people might make when they read these results is that people are just living longer with cancer and losing functional ability accordingly.

“But, in fact, we found that the youngest [– those less than 65 years–] actually contributed to this trend more than the oldest people, which means it’s not just [happening], because people are getting older,” he said.

Hispanic and Black individuals had disproportionately higher increases in functional limitation; percentage point increases over the 2 decades were 19.5 for Black people, 25.1 for Hispanic people and 12.5 for White people. There may be a couple of reasons for that, Mr. Patel noted.

Those who are Black or Hispanic tend to have less access to cancer survivorship care for reasons including insurance status and historic health care inequities, he noted.

“The other potential reason is that they have had less access to cancer care historically. And if, 20 years ago Black and Hispanic individuals didn’t have access to some chemotherapies, and now they do, maybe it’s the increased access to care that’s causing these functional limitations. Because chemotherapy can sometimes be very toxic. It may be sort of a catch-up toxicity,” he said.
 

Quality of life beyond survivorship

Mr. Patel said the results seem to call for building on improved survival rates by tracking and improving function.

“It’s good to celebrate that there are more survivors. But now that we can keep people alive longer, maybe we can shift gears to improving their quality of life,” he said.

The more-than-doubling of functional limitations over 2 decades “is a very sobering trend,” he noted, while pointing out that the functional limitations applied to 8 million people in the United States – people whose needs are not being met.

There’s no sign of the trend stopping, he continued. “We saw no downward trend, only an upward trend.”

Increasingly, including functionality as an endpoint in cancer trials, in addition to improvements in mortality, is one place to start, he added.

“Our findings suggest an urgent need for care teams to understand and address function, for researchers to evaluate function as a core outcome in trials, and for health systems and policy makers to reimagine survivorship care, recognizing the burden of cancer and its treatment on physical, psychosocial, and cognitive function,” the authors wrote in their paper. Limitations of the study include the potential for recall bias, lack of cancer staging or treatment information, and the subjective perception of function.

A coauthor reported personal fees from Astellas, AstraZeneca, AAA, Blue Earth, Janssen, Lantheus, Myovant, Myriad Genetics, Novartis, Telix, and Sanofi, as well as grants from Pfizer and Bayer during the conduct of the study. No other disclosures were reported.

The number of cancer survivors who report functional limitation has more than doubled in 20 years, according to a research letter published in JAMA Oncology.

Vishal Patel, BS, a student at the Dell Medical School at The University of Texas at Austin, and colleagues identified 51,258 cancer survivors from the National Health Interview Survey, representing a weighted population of approximately 178.8 million from 1999 to 2018.

Most survivors were women (60.2%) and were at least 65 years old (55.4%). In 1999, 3.6 million weighted survivors reported functional limitation. In 2018, the number increased to 8.2 million, a 2.25-fold increase.

The number of survivors who reported no limitations also increased, but not by as much. That group grew 1.34-fold during the study period.

For context, “the 70% prevalence of functional limitation among survivors in 2018 is nearly twice that of the general population,” the authors wrote.
 

Patients surveyed on function

Functional limitation was defined as “self-reported difficulty performing any of 12 routine physical or social activities without assistance.” Examples of the activities included difficulty sitting for more than 2 hours, difficulty participating in social activities or difficulty pushing or pulling an object the size of a living room chair.

Over the 2 decades analyzed, the adjusted prevalence of functional limitation was highest among survivors of pancreatic cancer (80.3%) and lung cancer (76.5%). Prevalence was lowest for survivors of melanoma (62.2%), breast (61.8%) and prostate (59.5%) cancers.
 

Not just a result of living longer

Mr. Patel told this publication that one assumption people might make when they read these results is that people are just living longer with cancer and losing functional ability accordingly.

“But, in fact, we found that the youngest [– those less than 65 years–] actually contributed to this trend more than the oldest people, which means it’s not just [happening], because people are getting older,” he said.

Hispanic and Black individuals had disproportionately higher increases in functional limitation; percentage point increases over the 2 decades were 19.5 for Black people, 25.1 for Hispanic people and 12.5 for White people. There may be a couple of reasons for that, Mr. Patel noted.

Those who are Black or Hispanic tend to have less access to cancer survivorship care for reasons including insurance status and historic health care inequities, he noted.

“The other potential reason is that they have had less access to cancer care historically. And if, 20 years ago Black and Hispanic individuals didn’t have access to some chemotherapies, and now they do, maybe it’s the increased access to care that’s causing these functional limitations. Because chemotherapy can sometimes be very toxic. It may be sort of a catch-up toxicity,” he said.
 

Quality of life beyond survivorship

Mr. Patel said the results seem to call for building on improved survival rates by tracking and improving function.

“It’s good to celebrate that there are more survivors. But now that we can keep people alive longer, maybe we can shift gears to improving their quality of life,” he said.

The more-than-doubling of functional limitations over 2 decades “is a very sobering trend,” he noted, while pointing out that the functional limitations applied to 8 million people in the United States – people whose needs are not being met.

There’s no sign of the trend stopping, he continued. “We saw no downward trend, only an upward trend.”

Increasingly, including functionality as an endpoint in cancer trials, in addition to improvements in mortality, is one place to start, he added.

“Our findings suggest an urgent need for care teams to understand and address function, for researchers to evaluate function as a core outcome in trials, and for health systems and policy makers to reimagine survivorship care, recognizing the burden of cancer and its treatment on physical, psychosocial, and cognitive function,” the authors wrote in their paper. Limitations of the study include the potential for recall bias, lack of cancer staging or treatment information, and the subjective perception of function.

A coauthor reported personal fees from Astellas, AstraZeneca, AAA, Blue Earth, Janssen, Lantheus, Myovant, Myriad Genetics, Novartis, Telix, and Sanofi, as well as grants from Pfizer and Bayer during the conduct of the study. No other disclosures were reported.

Patients with relapsed or refractory B cell non-Hodgkin lymphoma responded positively to a new therapy based on genome editing in early results from a phase 1 study, according to a news release from manufacturer Caribou Biosciences.

In the first-in-human, phase 1 open-label study, known as ANTLER, 5 out of 5 patients with relapsed or refractory B cell non-Hodgkin lymphoma (r/r B-NHL) responded to a single dose of CB-010, an allogeneic CAR-T cell therapy designed to boost antitumor activity, according to the company.

The use of chimeric antigen receptor (CAR) T-cell therapy involves taking T cells out of the body, reprogramming them with CAR to better equip them to kill cancer cells, and putting them back into the body.

The study consists of two sections: an initial dose escalation following a 3 + 3 design, with prespecified, increasing doses, followed by an expanded trial in which all patients receive CB-010 at the dose determined in the first section.

The study population included 6 adults with r/r B-NHL who had relapsed after previous treatment with a median of 3 prior therapies. At baseline, all 6 patients underwent a lymphodepletion regimen consisting of cyclophosphamide at 60 mg/kg/day for 2 days, followed by 5 days of fludarabine at 25 mg/m²/day.

Then all patients received a single dose of 40x106 CAR-T cells. As of the Feb. 23, 2022, data cutoff date, 5 of the 6 patients had completed the 28-day dose-limiting toxicity (DLT) evaluation period. All 5 patients (100%) achieved a response; 4 achieved complete response and 1 achieved partial response. All 4 of the complete responders had ongoing complete response at 3 months, and the longest measured complete response was 6 months, according to the company.

“We are excited to see a 100% overall response rate with CB-010 at dose level 1 for these patients who have limited treatment options,” said Dr. Syed Rizvi, chief medical officer for Caribou Biosciences, in the press release. “We believe this initial level of activity is unparalleled for a single, starting dose of cell therapy. CB-010 was generally well-tolerated, with adverse events routinely observed in autologous or allogeneic anti-CD19 CAR-T cell therapies,” he said.

Based on the promising safety and efficacy results, the company is enrolling patients in a second cohort for treatment at dose level 2 (80x106 CAR-T cells), according to the news release.

Another allogeneic CAR-T cell therapy known as ALLO-501A is being studied in a similar trial conducted by the Moffitt Cancer Center.

Overall, CB-010 was well-tolerated, according to Caribou Biosciences. No cases of graft-versus-host disease were reported. A total of 3 patients developed grade 3 or 4 adverse events (AEs) within the first 28 days; the most common were neutropenia (50%), thrombocytopenia (33%), anemia (17%), and hypogammaglobulinemia (17%). One patient experienced both grade 1 cytokine release syndrome (CRS) and grade 3 Immune effector cell-Associated Neurotoxicity Syndrome (ICANS). This response was characterized as a dose-limiting toxicity. The patient was treated with tocilizumab and steroids, recovered within 39 hours, and went on to achieve a complete response, according to the company.

Although the safety profile in the current study was promising, prior research suggest that concerns associated with CRS and ICANS should not be ignored and may be barriers to treatment.

In an article published in Bone Marrow Transplant in 2021, Dr. Vipul Sheth and Dr. Jordan Gauthier of the Fred Hutchinson Cancer Center, Seattle, noted that adverse effects may remain a challenge to widespread use of CAR-T in patients with refractory or relapsed acute lymphoblastic leukemia, for which it has been approved by the U.S. Food and Drug Administration and several European agencies. However, “there is mounting evidence that earlier, and potentially more targeted, interventions can reduce these toxicities,” they wrote.
 

Study provides solid stepping stone

“CRS and ICANS are mild in most patients but can be severe and sometimes life-threatening in a subset of patients undergoing CD19 CAR T-cell therapy,” Dr. Gauthier said in an interview. “Different strategies are being investigated to mitigate or treat severe toxicities, such as the use of prophylactic corticosteroids, anakinra, lenzilumab, itacitinib. I am hopeful we will soon manage to prevent toxicities while maintaining potent anti-tumor effects,” he said.

“While autologous CD19 CAR-T cells have high efficacy in patients with refractory/relapsed large B-cell lymphoma, product manufacturing remains a complicated and lengthy process in the autologous setting,” Dr. Gauthier noted. “Commercial CAR T-cell manufacturing takes approximately 3-4 weeks, sometimes longer. Some patients won’t survive long enough to receive their infusion. In some patients, T-cell function is dramatically impaired, due to prior therapies or to the disease itself,” he said.

Dr. Gauthier said he was not surprised but that he was encouraged by the apparent early success of the ANTLER study. “The proof-of-concept that allogeneic CD19-targeted CAR T cells can induce high response rates in r/r LBCL has already been established,” he said. “Having said that, it is comforting to see prior findings confirmed by this new study, and those results are exciting for the field,” he added.

As for additional research, “we need longer follow-up after allogeneic CD19-targeted CAR T-cell therapy to ensure responses are durable,” Dr. Gauthier explained. “We also need to better understand the biology driving the antitumor effects and the side effects of CAR T-cells. This will help us build more efficacious and safer CAR T-cell therapies,” he said.
 

Response and side effects show promise for future research

The therapy is “the best CAR-T product” that clinicians can provide for patients knowing that autologous CAR-T works, said Dr. Ahmed Galal, of Duke University, Durham, N.C., in an interview. The current research supports the use of this treatment immediately for patients, he added.

Dr. Galal said he was somewhat surprised, but pleasantly so, by the 100% response rate. This rate is likely because of the small number of patients and may not hold up in further research, but “even 90% would be an amazing achievement,” he said. The tolerable safety profile is encouraging as well, he emphasized. Dr. Galal said that he did not foresee any real barriers to expanded use of the therapy and that technology should make it easier to deliver at authorized centers.

Limitations to the current study are those common to all phase 1 trials, such as the strict inclusion criteria, Dr. Galal said. As research progresses to phase 2, “I don’t think it will be an obstacle to find patients,” he said. However, patients should be aware of side effects, and clinicians should maintain a culture of education to help them understand the value of the therapy, he added.

The complete data from the preliminary findings are scheduled to be presented at the European Hematology Association (EHA) 2022 Hybrid Congress, Vienna, in June, as abstract P1455, titled “First-in-human trial of CB-010, a CRISPR-edited allogeneic anti-CD19 CAR-T cell therapy with a PD-1 knock out, in patients with relapsed or refractory B cell non-Hodgkin lymphoma (ANTLER study).” The findings are scheduled to be presented by Loretta J. Nastoupil, MD, of the University of Texas MD Anderson Cancer Center, according to Caribou Biosciences.

Dr. Gauthier had no financial conflicts to disclose. Dr. Galal had no financial conflicts to disclose.

Patients with relapsed or refractory B cell non-Hodgkin lymphoma responded positively to a new therapy based on genome editing in early results from a phase 1 study, according to a news release from manufacturer Caribou Biosciences.

In the first-in-human, phase 1 open-label study, known as ANTLER, 5 out of 5 patients with relapsed or refractory B cell non-Hodgkin lymphoma (r/r B-NHL) responded to a single dose of CB-010, an allogeneic CAR-T cell therapy designed to boost antitumor activity, according to the company.

The use of chimeric antigen receptor (CAR) T-cell therapy involves taking T cells out of the body, reprogramming them with CAR to better equip them to kill cancer cells, and putting them back into the body.

The study consists of two sections: an initial dose escalation following a 3 + 3 design, with prespecified, increasing doses, followed by an expanded trial in which all patients receive CB-010 at the dose determined in the first section.

The study population included 6 adults with r/r B-NHL who had relapsed after previous treatment with a median of 3 prior therapies. At baseline, all 6 patients underwent a lymphodepletion regimen consisting of cyclophosphamide at 60 mg/kg/day for 2 days, followed by 5 days of fludarabine at 25 mg/m²/day.

Then all patients received a single dose of 40x106 CAR-T cells. As of the Feb. 23, 2022, data cutoff date, 5 of the 6 patients had completed the 28-day dose-limiting toxicity (DLT) evaluation period. All 5 patients (100%) achieved a response; 4 achieved complete response and 1 achieved partial response. All 4 of the complete responders had ongoing complete response at 3 months, and the longest measured complete response was 6 months, according to the company.

“We are excited to see a 100% overall response rate with CB-010 at dose level 1 for these patients who have limited treatment options,” said Dr. Syed Rizvi, chief medical officer for Caribou Biosciences, in the press release. “We believe this initial level of activity is unparalleled for a single, starting dose of cell therapy. CB-010 was generally well-tolerated, with adverse events routinely observed in autologous or allogeneic anti-CD19 CAR-T cell therapies,” he said.

Based on the promising safety and efficacy results, the company is enrolling patients in a second cohort for treatment at dose level 2 (80x106 CAR-T cells), according to the news release.

Another allogeneic CAR-T cell therapy known as ALLO-501A is being studied in a similar trial conducted by the Moffitt Cancer Center.

Overall, CB-010 was well-tolerated, according to Caribou Biosciences. No cases of graft-versus-host disease were reported. A total of 3 patients developed grade 3 or 4 adverse events (AEs) within the first 28 days; the most common were neutropenia (50%), thrombocytopenia (33%), anemia (17%), and hypogammaglobulinemia (17%). One patient experienced both grade 1 cytokine release syndrome (CRS) and grade 3 Immune effector cell-Associated Neurotoxicity Syndrome (ICANS). This response was characterized as a dose-limiting toxicity. The patient was treated with tocilizumab and steroids, recovered within 39 hours, and went on to achieve a complete response, according to the company.

Although the safety profile in the current study was promising, prior research suggest that concerns associated with CRS and ICANS should not be ignored and may be barriers to treatment.

In an article published in Bone Marrow Transplant in 2021, Dr. Vipul Sheth and Dr. Jordan Gauthier of the Fred Hutchinson Cancer Center, Seattle, noted that adverse effects may remain a challenge to widespread use of CAR-T in patients with refractory or relapsed acute lymphoblastic leukemia, for which it has been approved by the U.S. Food and Drug Administration and several European agencies. However, “there is mounting evidence that earlier, and potentially more targeted, interventions can reduce these toxicities,” they wrote.
 

Study provides solid stepping stone

“CRS and ICANS are mild in most patients but can be severe and sometimes life-threatening in a subset of patients undergoing CD19 CAR T-cell therapy,” Dr. Gauthier said in an interview. “Different strategies are being investigated to mitigate or treat severe toxicities, such as the use of prophylactic corticosteroids, anakinra, lenzilumab, itacitinib. I am hopeful we will soon manage to prevent toxicities while maintaining potent anti-tumor effects,” he said.

“While autologous CD19 CAR-T cells have high efficacy in patients with refractory/relapsed large B-cell lymphoma, product manufacturing remains a complicated and lengthy process in the autologous setting,” Dr. Gauthier noted. “Commercial CAR T-cell manufacturing takes approximately 3-4 weeks, sometimes longer. Some patients won’t survive long enough to receive their infusion. In some patients, T-cell function is dramatically impaired, due to prior therapies or to the disease itself,” he said.

Dr. Gauthier said he was not surprised but that he was encouraged by the apparent early success of the ANTLER study. “The proof-of-concept that allogeneic CD19-targeted CAR T cells can induce high response rates in r/r LBCL has already been established,” he said. “Having said that, it is comforting to see prior findings confirmed by this new study, and those results are exciting for the field,” he added.

As for additional research, “we need longer follow-up after allogeneic CD19-targeted CAR T-cell therapy to ensure responses are durable,” Dr. Gauthier explained. “We also need to better understand the biology driving the antitumor effects and the side effects of CAR T-cells. This will help us build more efficacious and safer CAR T-cell therapies,” he said.
 

Response and side effects show promise for future research

The therapy is “the best CAR-T product” that clinicians can provide for patients knowing that autologous CAR-T works, said Dr. Ahmed Galal, of Duke University, Durham, N.C., in an interview. The current research supports the use of this treatment immediately for patients, he added.

Dr. Galal said he was somewhat surprised, but pleasantly so, by the 100% response rate. This rate is likely because of the small number of patients and may not hold up in further research, but “even 90% would be an amazing achievement,” he said. The tolerable safety profile is encouraging as well, he emphasized. Dr. Galal said that he did not foresee any real barriers to expanded use of the therapy and that technology should make it easier to deliver at authorized centers.

Limitations to the current study are those common to all phase 1 trials, such as the strict inclusion criteria, Dr. Galal said. As research progresses to phase 2, “I don’t think it will be an obstacle to find patients,” he said. However, patients should be aware of side effects, and clinicians should maintain a culture of education to help them understand the value of the therapy, he added.

The complete data from the preliminary findings are scheduled to be presented at the European Hematology Association (EHA) 2022 Hybrid Congress, Vienna, in June, as abstract P1455, titled “First-in-human trial of CB-010, a CRISPR-edited allogeneic anti-CD19 CAR-T cell therapy with a PD-1 knock out, in patients with relapsed or refractory B cell non-Hodgkin lymphoma (ANTLER study).” The findings are scheduled to be presented by Loretta J. Nastoupil, MD, of the University of Texas MD Anderson Cancer Center, according to Caribou Biosciences.

Dr. Gauthier had no financial conflicts to disclose. Dr. Galal had no financial conflicts to disclose.

Patients with relapsed or refractory B cell non-Hodgkin lymphoma responded positively to a new therapy based on genome editing in early results from a phase 1 study, according to a news release from manufacturer Caribou Biosciences.

In the first-in-human, phase 1 open-label study, known as ANTLER, 5 out of 5 patients with relapsed or refractory B cell non-Hodgkin lymphoma (r/r B-NHL) responded to a single dose of CB-010, an allogeneic CAR-T cell therapy designed to boost antitumor activity, according to the company.

The use of chimeric antigen receptor (CAR) T-cell therapy involves taking T cells out of the body, reprogramming them with CAR to better equip them to kill cancer cells, and putting them back into the body.

The study consists of two sections: an initial dose escalation following a 3 + 3 design, with prespecified, increasing doses, followed by an expanded trial in which all patients receive CB-010 at the dose determined in the first section.

The study population included 6 adults with r/r B-NHL who had relapsed after previous treatment with a median of 3 prior therapies. At baseline, all 6 patients underwent a lymphodepletion regimen consisting of cyclophosphamide at 60 mg/kg/day for 2 days, followed by 5 days of fludarabine at 25 mg/m²/day.

Then all patients received a single dose of 40x106 CAR-T cells. As of the Feb. 23, 2022, data cutoff date, 5 of the 6 patients had completed the 28-day dose-limiting toxicity (DLT) evaluation period. All 5 patients (100%) achieved a response; 4 achieved complete response and 1 achieved partial response. All 4 of the complete responders had ongoing complete response at 3 months, and the longest measured complete response was 6 months, according to the company.

“We are excited to see a 100% overall response rate with CB-010 at dose level 1 for these patients who have limited treatment options,” said Dr. Syed Rizvi, chief medical officer for Caribou Biosciences, in the press release. “We believe this initial level of activity is unparalleled for a single, starting dose of cell therapy. CB-010 was generally well-tolerated, with adverse events routinely observed in autologous or allogeneic anti-CD19 CAR-T cell therapies,” he said.

Based on the promising safety and efficacy results, the company is enrolling patients in a second cohort for treatment at dose level 2 (80x106 CAR-T cells), according to the news release.

Another allogeneic CAR-T cell therapy known as ALLO-501A is being studied in a similar trial conducted by the Moffitt Cancer Center.

Overall, CB-010 was well-tolerated, according to Caribou Biosciences. No cases of graft-versus-host disease were reported. A total of 3 patients developed grade 3 or 4 adverse events (AEs) within the first 28 days; the most common were neutropenia (50%), thrombocytopenia (33%), anemia (17%), and hypogammaglobulinemia (17%). One patient experienced both grade 1 cytokine release syndrome (CRS) and grade 3 Immune effector cell-Associated Neurotoxicity Syndrome (ICANS). This response was characterized as a dose-limiting toxicity. The patient was treated with tocilizumab and steroids, recovered within 39 hours, and went on to achieve a complete response, according to the company.

Although the safety profile in the current study was promising, prior research suggest that concerns associated with CRS and ICANS should not be ignored and may be barriers to treatment.

In an article published in Bone Marrow Transplant in 2021, Dr. Vipul Sheth and Dr. Jordan Gauthier of the Fred Hutchinson Cancer Center, Seattle, noted that adverse effects may remain a challenge to widespread use of CAR-T in patients with refractory or relapsed acute lymphoblastic leukemia, for which it has been approved by the U.S. Food and Drug Administration and several European agencies. However, “there is mounting evidence that earlier, and potentially more targeted, interventions can reduce these toxicities,” they wrote.
 

Study provides solid stepping stone

“CRS and ICANS are mild in most patients but can be severe and sometimes life-threatening in a subset of patients undergoing CD19 CAR T-cell therapy,” Dr. Gauthier said in an interview. “Different strategies are being investigated to mitigate or treat severe toxicities, such as the use of prophylactic corticosteroids, anakinra, lenzilumab, itacitinib. I am hopeful we will soon manage to prevent toxicities while maintaining potent anti-tumor effects,” he said.

“While autologous CD19 CAR-T cells have high efficacy in patients with refractory/relapsed large B-cell lymphoma, product manufacturing remains a complicated and lengthy process in the autologous setting,” Dr. Gauthier noted. “Commercial CAR T-cell manufacturing takes approximately 3-4 weeks, sometimes longer. Some patients won’t survive long enough to receive their infusion. In some patients, T-cell function is dramatically impaired, due to prior therapies or to the disease itself,” he said.

Dr. Gauthier said he was not surprised but that he was encouraged by the apparent early success of the ANTLER study. “The proof-of-concept that allogeneic CD19-targeted CAR T cells can induce high response rates in r/r LBCL has already been established,” he said. “Having said that, it is comforting to see prior findings confirmed by this new study, and those results are exciting for the field,” he added.

As for additional research, “we need longer follow-up after allogeneic CD19-targeted CAR T-cell therapy to ensure responses are durable,” Dr. Gauthier explained. “We also need to better understand the biology driving the antitumor effects and the side effects of CAR T-cells. This will help us build more efficacious and safer CAR T-cell therapies,” he said.
 

Response and side effects show promise for future research

The therapy is “the best CAR-T product” that clinicians can provide for patients knowing that autologous CAR-T works, said Dr. Ahmed Galal, of Duke University, Durham, N.C., in an interview. The current research supports the use of this treatment immediately for patients, he added.

Dr. Galal said he was somewhat surprised, but pleasantly so, by the 100% response rate. This rate is likely because of the small number of patients and may not hold up in further research, but “even 90% would be an amazing achievement,” he said. The tolerable safety profile is encouraging as well, he emphasized. Dr. Galal said that he did not foresee any real barriers to expanded use of the therapy and that technology should make it easier to deliver at authorized centers.

Limitations to the current study are those common to all phase 1 trials, such as the strict inclusion criteria, Dr. Galal said. As research progresses to phase 2, “I don’t think it will be an obstacle to find patients,” he said. However, patients should be aware of side effects, and clinicians should maintain a culture of education to help them understand the value of the therapy, he added.

The complete data from the preliminary findings are scheduled to be presented at the European Hematology Association (EHA) 2022 Hybrid Congress, Vienna, in June, as abstract P1455, titled “First-in-human trial of CB-010, a CRISPR-edited allogeneic anti-CD19 CAR-T cell therapy with a PD-1 knock out, in patients with relapsed or refractory B cell non-Hodgkin lymphoma (ANTLER study).” The findings are scheduled to be presented by Loretta J. Nastoupil, MD, of the University of Texas MD Anderson Cancer Center, according to Caribou Biosciences.

Dr. Gauthier had no financial conflicts to disclose. Dr. Galal had no financial conflicts to disclose.

We have a half-forgotten Indian immigrant to thank – a hospital night porter turned biochemist –for revolutionizing treatment of leukemia, the once deadly childhood scourge that is still the most common pediatric cancer.

Dr. Yellapragada SubbaRow has been called the “father of chemotherapy” for developing methotrexate, a powerful, inexpensive therapy for leukemia and other diseases, and he is celebrated for additional scientific achievements. Yet Dr. SubbaRow’s life was marked more by struggle than glory.

1995 Indian stamp; photo in public domain

Born poor in southeastern India, he nearly succumbed to a tropical disease that killed two older brothers, and he didn’t focus on schoolwork until his father died. Later, prejudice dogged his years as an immigrant to the United States, and a blood clot took his life at the age of 53.

Scientifically, however, Dr. SubbaRow (pronounced sue-buh-rao) triumphed, despite mammoth challenges and a lack of recognition that persists to this day. National Cancer Research Month is a fitting time to look back on his extraordinary life and work and pay tribute to his accomplishments.
 

‘Yella,’ folic acid, and a paradigm shift

No one appreciates Dr. SubbaRow more than a cadre of Indian-born physicians who have kept his legacy alive in journal articles, presentations, and a Pulitzer Prize-winning book. Among them is author and oncologist Siddhartha Mukherjee, MD, who chronicled Dr. SubbaRow’s achievements in his New York Times No. 1 bestseller, “The Emperor of All Maladies: A Biography of Cancer.”

As Dr. Mukherjee wrote, Dr. SubbaRow was a “pioneer in many ways, a physician turned cellular physiologist, a chemist who had accidentally wandered into biology.” (Per Indian tradition, SubbaRow is the doctor’s first name, and Yellapragada is his surname, but medical literature uses SubbaRow as his cognomen, with some variations in spelling. Dr. Mukherjee wrote that his friends called him “Yella.”)

Dr. SubbaRow came to the United States in 1923, after enduring a difficult childhood and young adulthood. He’d survived bouts of religious fervor, childhood rebellion (including a bid to run away from home and become a banana trader), and a failed arranged marriage. His wife bore him a child who died in infancy. He left it all behind.

In Boston, medical officials rejected his degree. Broke, he worked for a time as a night porter at Brigham and Women’s Hospital in Boston, changing sheets and cleaning urinals. To a poor but proud high-caste Indian Brahmin, the culture shock of carrying out these tasks must have been especially jarring.

Dr. SubbaRow went on to earn a diploma from Harvard Medical School, also in Boston, and became a junior faculty member. As a foreigner, Dr. Mukherjee wrote, Dr. SubbaRow was a “reclusive, nocturnal, heavily accented vegetarian,” so different from his colleagues that advancement seemed impossible. Despite his pioneering biochemistry work, Harvard later declined to offer Dr. SubbaRow a tenured faculty position.

By the early 1940s, he took a job at an upstate New York pharmaceutical company called Lederle Labs (later purchased by Pfizer). At Lederle, Dr. SubbaRow strove to synthesize the vitamin known as folic acid. He ended up creating a kind of antivitamin, a lookalike that acted like folic acid but only succeeded in gumming up the works in receptors. But what good would it do to stop the body from absorbing folic acid? Plenty, it turned out.
 

Discoveries pile up, but credit and fame prove elusive

Dr. SubbaRow was no stranger to producing landmark biological work. He’d previously codiscovered phosphocreatine and ATP, which are crucial to muscular contractions. However, “in 1935, he had to disown the extent of his role in the discovery of the color test related to phosphorus, instead giving the credit to his co-author, who was being considered for promotion to a full professorship at Harvard,” wrote author Gerald Posner in his 2020 book, “Pharma: Greed, Lies and the Poisoning of America.”

Houston-area oncologist Kirtan Nautiyal, MD, who paid tribute to Dr. SubbaRow in a 2018 article, contended that “with his Indian instinct for self-effacement, he had irreparably sabotaged his own career.”

Dr. SubbaRow and his team also developed “the first effective treatment of filariasis, which causes elephantiasis of the lower limbs and genitals in millions of people, mainly in tropical countries,” Dr. Nautiyal wrote. “Later in the decade, his antibiotic program generated polymyxin, the first effective treatment against the class of bacteria called Gram negatives, and aureomycin, the first “broad-spectrum’ antibiotic.” (Aureomycin is also the first tetracycline antibiotic.)

Dr. SubbaRow’s discovery of a folic acid antagonist would again go largely unheralded. But first came the realization that folic acid made childhood leukemia worse, not better, and the prospect that this process could potentially be reversed.
 

Rise of methotrexate and fall of leukemia

In Boston, Sidney Farber, MD, a Boston pathologist, was desperate to help Robert Sandler, a 2-year-old leukemia patient. Dr. Farber contacted his ex-colleague Dr. SubbaRow to request a supply of aminopterin, an early version of methotrexate that Dr. SubbaRow and his team had developed. Dr. Farber injected Robert with the substance and within 3 days, the toddler’s white blood count started falling – fast. He stopped bleeding, resumed eating, and once again seemed almost identical to his twin brother, as Dr. Mukherjee wrote in his book.

Leukemia had never gone into remission before. Unfortunately, the treatment only worked temporarily. Robert, like other children treated with the drug, relapsed and died within months. But Dr. Farber “saw a door open” – a chemical, a kind of chemotherapy, that could turn back cancer. In the case of folic acid antagonists, they do so by stopping cancer cells from replicating.

Methotrexate, a related agent synthesized by Dr. SubbaRow, would become a mainstay of leukemia treatment and begin to produce long-term remission from acute lymphoblastic leukemia in 1970, when combination chemotherapy was developed.

Other cancers fell to methotrexate treatment. “Previous assumptions that cancer was nearly always fatal were revised, and the field of medical oncology (treatment of cancer with chemotherapy), which had not previously existed, was formally established in 1971,” according to the National Cancer Institute’s history of methotrexate. This account does not mention Dr. SubbaRow.
 

Death takes the doctor, but his legacy remains

In biographies, as well as his own words, Dr. SubbaRow comes across as a prickly, hard-driving workaholic who had little interest in intimate human connections. “It is not good to ask in every letter when I will be back,” he wrote to his wife back in India, before cutting off ties completely in the early 1930s. “I will come as early as possible. ... I do not want to write anything more.”

It seems, as his biographer S.P.K. Gupta noted, that “he was quite determined that the time allotted to him on Earth should be completely devoted to finding cures for ailments that plagued mankind.”

Still, Dr. SubbaRow’s research team was devoted to him, and he had plenty of reasons to be bitter, such as the prejudice and isolation he encountered in the United States and earlier, in British-run India. According to Mr. Posner’s book, even as a young medical student, Dr. SubbaRow heeded the call of Indian independence activist Mohandas Gandhi. He “refused the British surgical gown given him at school and instead donned a traditional and simple cotton Khadi. That act of defiance cost SubbaRow the college degree that was necessary for him to get into the State Medical College.”

During the last year of his life, Dr. SubbaRow faced yet another humiliation: In his landmark 1948 study about aminopterin as a treatment for leukemia, his colleague Dr. Farber failed to credit him, an “astonishing omission” as Yaddanapudi Ravindranath, MBBS, a pediatric hematologist/oncologist at Wayne State University, Detroit, put it. “From everything I know, Dr. Farber spent the rest of his career apologizing and trying to make amends for it,” Dr. Ravindranath said in an interview.
 

A career cut short, and a lasting legacy

In 1948, at the age of 53, Dr. SubbaRow suddenly died. “Many think Dr. SubbaRow would have won [the] Nobel Prize had he lived a few years longer,” said Dr. Ravindranath.

Like Dr. SubbaRow, Dr. Ravindranath was born in Andhra Pradesh state, near the city of Chennai formerly known as Madras. “Being a compatriot, in a way I continue his legacy, and I am obviously proud of him,” said Dr. Ravindranath, who has conducted his own landmark research regarding methotrexate and leukemia.

Nearly 75 years after Dr. SubbaRow’s death, Indian-born physicians like Dr. Ravindranath continue to honor him in print, trying to ensure that he’s not forgotten. Methotrexate remains a crucial treatment for leukemia, along with a long list of other ailments, including psoriasis.

Recognition for “Yella” may have come late and infrequently, but a Lederle Laboratories research library named after him offered Dr. SubbaRow a kind of immortality. A plaque there memorialized him in stone as a scientist, teacher, philosopher, and humanitarian, featuring the quote: “Science simply prolongs life. Religion deepens it.”

By all accounts, Dr. SubbaRow was a man of science and faith who had faith in science.

We have a half-forgotten Indian immigrant to thank – a hospital night porter turned biochemist –for revolutionizing treatment of leukemia, the once deadly childhood scourge that is still the most common pediatric cancer.

Dr. Yellapragada SubbaRow has been called the “father of chemotherapy” for developing methotrexate, a powerful, inexpensive therapy for leukemia and other diseases, and he is celebrated for additional scientific achievements. Yet Dr. SubbaRow’s life was marked more by struggle than glory.

1995 Indian stamp; photo in public domain

Born poor in southeastern India, he nearly succumbed to a tropical disease that killed two older brothers, and he didn’t focus on schoolwork until his father died. Later, prejudice dogged his years as an immigrant to the United States, and a blood clot took his life at the age of 53.

Scientifically, however, Dr. SubbaRow (pronounced sue-buh-rao) triumphed, despite mammoth challenges and a lack of recognition that persists to this day. National Cancer Research Month is a fitting time to look back on his extraordinary life and work and pay tribute to his accomplishments.
 

‘Yella,’ folic acid, and a paradigm shift

No one appreciates Dr. SubbaRow more than a cadre of Indian-born physicians who have kept his legacy alive in journal articles, presentations, and a Pulitzer Prize-winning book. Among them is author and oncologist Siddhartha Mukherjee, MD, who chronicled Dr. SubbaRow’s achievements in his New York Times No. 1 bestseller, “The Emperor of All Maladies: A Biography of Cancer.”

As Dr. Mukherjee wrote, Dr. SubbaRow was a “pioneer in many ways, a physician turned cellular physiologist, a chemist who had accidentally wandered into biology.” (Per Indian tradition, SubbaRow is the doctor’s first name, and Yellapragada is his surname, but medical literature uses SubbaRow as his cognomen, with some variations in spelling. Dr. Mukherjee wrote that his friends called him “Yella.”)

Dr. SubbaRow came to the United States in 1923, after enduring a difficult childhood and young adulthood. He’d survived bouts of religious fervor, childhood rebellion (including a bid to run away from home and become a banana trader), and a failed arranged marriage. His wife bore him a child who died in infancy. He left it all behind.

In Boston, medical officials rejected his degree. Broke, he worked for a time as a night porter at Brigham and Women’s Hospital in Boston, changing sheets and cleaning urinals. To a poor but proud high-caste Indian Brahmin, the culture shock of carrying out these tasks must have been especially jarring.

Dr. SubbaRow went on to earn a diploma from Harvard Medical School, also in Boston, and became a junior faculty member. As a foreigner, Dr. Mukherjee wrote, Dr. SubbaRow was a “reclusive, nocturnal, heavily accented vegetarian,” so different from his colleagues that advancement seemed impossible. Despite his pioneering biochemistry work, Harvard later declined to offer Dr. SubbaRow a tenured faculty position.

By the early 1940s, he took a job at an upstate New York pharmaceutical company called Lederle Labs (later purchased by Pfizer). At Lederle, Dr. SubbaRow strove to synthesize the vitamin known as folic acid. He ended up creating a kind of antivitamin, a lookalike that acted like folic acid but only succeeded in gumming up the works in receptors. But what good would it do to stop the body from absorbing folic acid? Plenty, it turned out.
 

Discoveries pile up, but credit and fame prove elusive

Dr. SubbaRow was no stranger to producing landmark biological work. He’d previously codiscovered phosphocreatine and ATP, which are crucial to muscular contractions. However, “in 1935, he had to disown the extent of his role in the discovery of the color test related to phosphorus, instead giving the credit to his co-author, who was being considered for promotion to a full professorship at Harvard,” wrote author Gerald Posner in his 2020 book, “Pharma: Greed, Lies and the Poisoning of America.”

Houston-area oncologist Kirtan Nautiyal, MD, who paid tribute to Dr. SubbaRow in a 2018 article, contended that “with his Indian instinct for self-effacement, he had irreparably sabotaged his own career.”

Dr. SubbaRow and his team also developed “the first effective treatment of filariasis, which causes elephantiasis of the lower limbs and genitals in millions of people, mainly in tropical countries,” Dr. Nautiyal wrote. “Later in the decade, his antibiotic program generated polymyxin, the first effective treatment against the class of bacteria called Gram negatives, and aureomycin, the first “broad-spectrum’ antibiotic.” (Aureomycin is also the first tetracycline antibiotic.)

Dr. SubbaRow’s discovery of a folic acid antagonist would again go largely unheralded. But first came the realization that folic acid made childhood leukemia worse, not better, and the prospect that this process could potentially be reversed.
 

Rise of methotrexate and fall of leukemia

In Boston, Sidney Farber, MD, a Boston pathologist, was desperate to help Robert Sandler, a 2-year-old leukemia patient. Dr. Farber contacted his ex-colleague Dr. SubbaRow to request a supply of aminopterin, an early version of methotrexate that Dr. SubbaRow and his team had developed. Dr. Farber injected Robert with the substance and within 3 days, the toddler’s white blood count started falling – fast. He stopped bleeding, resumed eating, and once again seemed almost identical to his twin brother, as Dr. Mukherjee wrote in his book.

Leukemia had never gone into remission before. Unfortunately, the treatment only worked temporarily. Robert, like other children treated with the drug, relapsed and died within months. But Dr. Farber “saw a door open” – a chemical, a kind of chemotherapy, that could turn back cancer. In the case of folic acid antagonists, they do so by stopping cancer cells from replicating.

Methotrexate, a related agent synthesized by Dr. SubbaRow, would become a mainstay of leukemia treatment and begin to produce long-term remission from acute lymphoblastic leukemia in 1970, when combination chemotherapy was developed.

Other cancers fell to methotrexate treatment. “Previous assumptions that cancer was nearly always fatal were revised, and the field of medical oncology (treatment of cancer with chemotherapy), which had not previously existed, was formally established in 1971,” according to the National Cancer Institute’s history of methotrexate. This account does not mention Dr. SubbaRow.
 

Death takes the doctor, but his legacy remains

In biographies, as well as his own words, Dr. SubbaRow comes across as a prickly, hard-driving workaholic who had little interest in intimate human connections. “It is not good to ask in every letter when I will be back,” he wrote to his wife back in India, before cutting off ties completely in the early 1930s. “I will come as early as possible. ... I do not want to write anything more.”

It seems, as his biographer S.P.K. Gupta noted, that “he was quite determined that the time allotted to him on Earth should be completely devoted to finding cures for ailments that plagued mankind.”

Still, Dr. SubbaRow’s research team was devoted to him, and he had plenty of reasons to be bitter, such as the prejudice and isolation he encountered in the United States and earlier, in British-run India. According to Mr. Posner’s book, even as a young medical student, Dr. SubbaRow heeded the call of Indian independence activist Mohandas Gandhi. He “refused the British surgical gown given him at school and instead donned a traditional and simple cotton Khadi. That act of defiance cost SubbaRow the college degree that was necessary for him to get into the State Medical College.”

During the last year of his life, Dr. SubbaRow faced yet another humiliation: In his landmark 1948 study about aminopterin as a treatment for leukemia, his colleague Dr. Farber failed to credit him, an “astonishing omission” as Yaddanapudi Ravindranath, MBBS, a pediatric hematologist/oncologist at Wayne State University, Detroit, put it. “From everything I know, Dr. Farber spent the rest of his career apologizing and trying to make amends for it,” Dr. Ravindranath said in an interview.
 

A career cut short, and a lasting legacy

In 1948, at the age of 53, Dr. SubbaRow suddenly died. “Many think Dr. SubbaRow would have won [the] Nobel Prize had he lived a few years longer,” said Dr. Ravindranath.

Like Dr. SubbaRow, Dr. Ravindranath was born in Andhra Pradesh state, near the city of Chennai formerly known as Madras. “Being a compatriot, in a way I continue his legacy, and I am obviously proud of him,” said Dr. Ravindranath, who has conducted his own landmark research regarding methotrexate and leukemia.

Nearly 75 years after Dr. SubbaRow’s death, Indian-born physicians like Dr. Ravindranath continue to honor him in print, trying to ensure that he’s not forgotten. Methotrexate remains a crucial treatment for leukemia, along with a long list of other ailments, including psoriasis.

Recognition for “Yella” may have come late and infrequently, but a Lederle Laboratories research library named after him offered Dr. SubbaRow a kind of immortality. A plaque there memorialized him in stone as a scientist, teacher, philosopher, and humanitarian, featuring the quote: “Science simply prolongs life. Religion deepens it.”

By all accounts, Dr. SubbaRow was a man of science and faith who had faith in science.

We have a half-forgotten Indian immigrant to thank – a hospital night porter turned biochemist –for revolutionizing treatment of leukemia, the once deadly childhood scourge that is still the most common pediatric cancer.

Dr. Yellapragada SubbaRow has been called the “father of chemotherapy” for developing methotrexate, a powerful, inexpensive therapy for leukemia and other diseases, and he is celebrated for additional scientific achievements. Yet Dr. SubbaRow’s life was marked more by struggle than glory.

1995 Indian stamp; photo in public domain

Born poor in southeastern India, he nearly succumbed to a tropical disease that killed two older brothers, and he didn’t focus on schoolwork until his father died. Later, prejudice dogged his years as an immigrant to the United States, and a blood clot took his life at the age of 53.

Scientifically, however, Dr. SubbaRow (pronounced sue-buh-rao) triumphed, despite mammoth challenges and a lack of recognition that persists to this day. National Cancer Research Month is a fitting time to look back on his extraordinary life and work and pay tribute to his accomplishments.
 

‘Yella,’ folic acid, and a paradigm shift

No one appreciates Dr. SubbaRow more than a cadre of Indian-born physicians who have kept his legacy alive in journal articles, presentations, and a Pulitzer Prize-winning book. Among them is author and oncologist Siddhartha Mukherjee, MD, who chronicled Dr. SubbaRow’s achievements in his New York Times No. 1 bestseller, “The Emperor of All Maladies: A Biography of Cancer.”

As Dr. Mukherjee wrote, Dr. SubbaRow was a “pioneer in many ways, a physician turned cellular physiologist, a chemist who had accidentally wandered into biology.” (Per Indian tradition, SubbaRow is the doctor’s first name, and Yellapragada is his surname, but medical literature uses SubbaRow as his cognomen, with some variations in spelling. Dr. Mukherjee wrote that his friends called him “Yella.”)

Dr. SubbaRow came to the United States in 1923, after enduring a difficult childhood and young adulthood. He’d survived bouts of religious fervor, childhood rebellion (including a bid to run away from home and become a banana trader), and a failed arranged marriage. His wife bore him a child who died in infancy. He left it all behind.

In Boston, medical officials rejected his degree. Broke, he worked for a time as a night porter at Brigham and Women’s Hospital in Boston, changing sheets and cleaning urinals. To a poor but proud high-caste Indian Brahmin, the culture shock of carrying out these tasks must have been especially jarring.

Dr. SubbaRow went on to earn a diploma from Harvard Medical School, also in Boston, and became a junior faculty member. As a foreigner, Dr. Mukherjee wrote, Dr. SubbaRow was a “reclusive, nocturnal, heavily accented vegetarian,” so different from his colleagues that advancement seemed impossible. Despite his pioneering biochemistry work, Harvard later declined to offer Dr. SubbaRow a tenured faculty position.

By the early 1940s, he took a job at an upstate New York pharmaceutical company called Lederle Labs (later purchased by Pfizer). At Lederle, Dr. SubbaRow strove to synthesize the vitamin known as folic acid. He ended up creating a kind of antivitamin, a lookalike that acted like folic acid but only succeeded in gumming up the works in receptors. But what good would it do to stop the body from absorbing folic acid? Plenty, it turned out.
 

Discoveries pile up, but credit and fame prove elusive

Dr. SubbaRow was no stranger to producing landmark biological work. He’d previously codiscovered phosphocreatine and ATP, which are crucial to muscular contractions. However, “in 1935, he had to disown the extent of his role in the discovery of the color test related to phosphorus, instead giving the credit to his co-author, who was being considered for promotion to a full professorship at Harvard,” wrote author Gerald Posner in his 2020 book, “Pharma: Greed, Lies and the Poisoning of America.”

Houston-area oncologist Kirtan Nautiyal, MD, who paid tribute to Dr. SubbaRow in a 2018 article, contended that “with his Indian instinct for self-effacement, he had irreparably sabotaged his own career.”

Dr. SubbaRow and his team also developed “the first effective treatment of filariasis, which causes elephantiasis of the lower limbs and genitals in millions of people, mainly in tropical countries,” Dr. Nautiyal wrote. “Later in the decade, his antibiotic program generated polymyxin, the first effective treatment against the class of bacteria called Gram negatives, and aureomycin, the first “broad-spectrum’ antibiotic.” (Aureomycin is also the first tetracycline antibiotic.)

Dr. SubbaRow’s discovery of a folic acid antagonist would again go largely unheralded. But first came the realization that folic acid made childhood leukemia worse, not better, and the prospect that this process could potentially be reversed.
 

Rise of methotrexate and fall of leukemia

In Boston, Sidney Farber, MD, a Boston pathologist, was desperate to help Robert Sandler, a 2-year-old leukemia patient. Dr. Farber contacted his ex-colleague Dr. SubbaRow to request a supply of aminopterin, an early version of methotrexate that Dr. SubbaRow and his team had developed. Dr. Farber injected Robert with the substance and within 3 days, the toddler’s white blood count started falling – fast. He stopped bleeding, resumed eating, and once again seemed almost identical to his twin brother, as Dr. Mukherjee wrote in his book.

Leukemia had never gone into remission before. Unfortunately, the treatment only worked temporarily. Robert, like other children treated with the drug, relapsed and died within months. But Dr. Farber “saw a door open” – a chemical, a kind of chemotherapy, that could turn back cancer. In the case of folic acid antagonists, they do so by stopping cancer cells from replicating.

Methotrexate, a related agent synthesized by Dr. SubbaRow, would become a mainstay of leukemia treatment and begin to produce long-term remission from acute lymphoblastic leukemia in 1970, when combination chemotherapy was developed.

Other cancers fell to methotrexate treatment. “Previous assumptions that cancer was nearly always fatal were revised, and the field of medical oncology (treatment of cancer with chemotherapy), which had not previously existed, was formally established in 1971,” according to the National Cancer Institute’s history of methotrexate. This account does not mention Dr. SubbaRow.
 

Death takes the doctor, but his legacy remains

In biographies, as well as his own words, Dr. SubbaRow comes across as a prickly, hard-driving workaholic who had little interest in intimate human connections. “It is not good to ask in every letter when I will be back,” he wrote to his wife back in India, before cutting off ties completely in the early 1930s. “I will come as early as possible. ... I do not want to write anything more.”

It seems, as his biographer S.P.K. Gupta noted, that “he was quite determined that the time allotted to him on Earth should be completely devoted to finding cures for ailments that plagued mankind.”

Still, Dr. SubbaRow’s research team was devoted to him, and he had plenty of reasons to be bitter, such as the prejudice and isolation he encountered in the United States and earlier, in British-run India. According to Mr. Posner’s book, even as a young medical student, Dr. SubbaRow heeded the call of Indian independence activist Mohandas Gandhi. He “refused the British surgical gown given him at school and instead donned a traditional and simple cotton Khadi. That act of defiance cost SubbaRow the college degree that was necessary for him to get into the State Medical College.”

During the last year of his life, Dr. SubbaRow faced yet another humiliation: In his landmark 1948 study about aminopterin as a treatment for leukemia, his colleague Dr. Farber failed to credit him, an “astonishing omission” as Yaddanapudi Ravindranath, MBBS, a pediatric hematologist/oncologist at Wayne State University, Detroit, put it. “From everything I know, Dr. Farber spent the rest of his career apologizing and trying to make amends for it,” Dr. Ravindranath said in an interview.
 

A career cut short, and a lasting legacy

In 1948, at the age of 53, Dr. SubbaRow suddenly died. “Many think Dr. SubbaRow would have won [the] Nobel Prize had he lived a few years longer,” said Dr. Ravindranath.

Like Dr. SubbaRow, Dr. Ravindranath was born in Andhra Pradesh state, near the city of Chennai formerly known as Madras. “Being a compatriot, in a way I continue his legacy, and I am obviously proud of him,” said Dr. Ravindranath, who has conducted his own landmark research regarding methotrexate and leukemia.

Nearly 75 years after Dr. SubbaRow’s death, Indian-born physicians like Dr. Ravindranath continue to honor him in print, trying to ensure that he’s not forgotten. Methotrexate remains a crucial treatment for leukemia, along with a long list of other ailments, including psoriasis.

Recognition for “Yella” may have come late and infrequently, but a Lederle Laboratories research library named after him offered Dr. SubbaRow a kind of immortality. A plaque there memorialized him in stone as a scientist, teacher, philosopher, and humanitarian, featuring the quote: “Science simply prolongs life. Religion deepens it.”

By all accounts, Dr. SubbaRow was a man of science and faith who had faith in science.

Two new cancer drugs have been recommended for approval in the European Union (EU): capmatinib (Tabrecta, Novartis) for the treatment of advanced non–small cell lung cancer (NSCLC) with certain mutations, and conditional approval of mosunetuzumab (Lunsumio, Roche) for relapsed or refractory follicular lymphoma.

The European Medicines Agency (EMA) Committee for Medicinal Products for Human Use (CHMP) issued a positive opinion for the two products at its April meeting.
 

New drug for certain lung cancer patients

Capmatinib is a selective, reversible inhibitor of MET tyrosine kinase and is indicated for the treatment of patients with advanced NSCLC harboring alterations leading to mesenchymal-epithelial transition factor gene exon 14 (METex14) skipping. Patients must have already been treated with immunotherapy and/or platinum-based chemotherapy.

The product is approved in the United States, and the Food and Drug Administration noted that it is the first approved treatment for NSCLC with MET exon 14-skipping mutations.

The FDA granted the drug an accelerated approval based on overall response rate and response duration in the GEOMETRY mono-1 trial, which included a cohort of previously treated and treatment-naive patients. The overall response rate was 68% in the treatment-naive patients and 41% in the previously treated patients. The median duration of response was 12.6 months and 9.7 months.

The most common side effects were peripheral edema, nausea, fatigue, vomiting, dyspnea, and decreased appetite.
 

Conditional approval for lymphoma

Mosunetuzumab is an investigational bispecific antibody targeting CD20 and CD3, and redirects T cells to engage and eliminate malignant B cells.

The CHMP recommended a conditional approval for this drug for use as monotherapy for the treatment of adult patients with relapsed or refractory follicular lymphoma  who have received at least two prior systemic therapies.

Mosunetuzumab was reviewed under EMA’s accelerated access program, which usually takes 150 evaluation days as opposed to 210, and it was designated as an orphan medicine during its development.

The EMA stated that the benefits of this product are the high proportion of patients with a complete response and the durability of the treatment response.

As previously reported by this news organization, results from a phase 2 expansion study showed that when used as monotherapy, it induced high response rates and long-duration responses in patients with heavily pretreated, relapsed, or refractory follicular lymphoma.

At a median follow-up of 18.3 months, 54 of 90 patients (60%) had a complete response, and 18 (20%) had a partial response after treatment with mosunetuzumab.

The most common reported side effects were cytokine release syndrome, neutropenia, pyrexia (fever), hypophosphatemia, and headache.

Mosunetuzumab is awaiting FDA approval in the United States.

A conditional marketing authorization from CHMP is granted to products that meet an unmet medical need, and when the benefit to public health of immediate availability outweighs the risk inherent in the fact that additional data are still required. The marketing authorization holder is expected to provide comprehensive clinical data at a later stage.

Detailed recommendations for the use of both products will be described in the summary of product characteristics (SmPC), which will be published in the European public assessment report (EPAR) and made available in all official European Union languages after the marketing authorization has been granted by the European Commission.

A version of this article first appeared on Medscape.com.

Two new cancer drugs have been recommended for approval in the European Union (EU): capmatinib (Tabrecta, Novartis) for the treatment of advanced non–small cell lung cancer (NSCLC) with certain mutations, and conditional approval of mosunetuzumab (Lunsumio, Roche) for relapsed or refractory follicular lymphoma.

The European Medicines Agency (EMA) Committee for Medicinal Products for Human Use (CHMP) issued a positive opinion for the two products at its April meeting.
 

New drug for certain lung cancer patients

Capmatinib is a selective, reversible inhibitor of MET tyrosine kinase and is indicated for the treatment of patients with advanced NSCLC harboring alterations leading to mesenchymal-epithelial transition factor gene exon 14 (METex14) skipping. Patients must have already been treated with immunotherapy and/or platinum-based chemotherapy.

The product is approved in the United States, and the Food and Drug Administration noted that it is the first approved treatment for NSCLC with MET exon 14-skipping mutations.

The FDA granted the drug an accelerated approval based on overall response rate and response duration in the GEOMETRY mono-1 trial, which included a cohort of previously treated and treatment-naive patients. The overall response rate was 68% in the treatment-naive patients and 41% in the previously treated patients. The median duration of response was 12.6 months and 9.7 months.

The most common side effects were peripheral edema, nausea, fatigue, vomiting, dyspnea, and decreased appetite.
 

Conditional approval for lymphoma

Mosunetuzumab is an investigational bispecific antibody targeting CD20 and CD3, and redirects T cells to engage and eliminate malignant B cells.

The CHMP recommended a conditional approval for this drug for use as monotherapy for the treatment of adult patients with relapsed or refractory follicular lymphoma  who have received at least two prior systemic therapies.

Mosunetuzumab was reviewed under EMA’s accelerated access program, which usually takes 150 evaluation days as opposed to 210, and it was designated as an orphan medicine during its development.

The EMA stated that the benefits of this product are the high proportion of patients with a complete response and the durability of the treatment response.

As previously reported by this news organization, results from a phase 2 expansion study showed that when used as monotherapy, it induced high response rates and long-duration responses in patients with heavily pretreated, relapsed, or refractory follicular lymphoma.

At a median follow-up of 18.3 months, 54 of 90 patients (60%) had a complete response, and 18 (20%) had a partial response after treatment with mosunetuzumab.

The most common reported side effects were cytokine release syndrome, neutropenia, pyrexia (fever), hypophosphatemia, and headache.

Mosunetuzumab is awaiting FDA approval in the United States.

A conditional marketing authorization from CHMP is granted to products that meet an unmet medical need, and when the benefit to public health of immediate availability outweighs the risk inherent in the fact that additional data are still required. The marketing authorization holder is expected to provide comprehensive clinical data at a later stage.

Detailed recommendations for the use of both products will be described in the summary of product characteristics (SmPC), which will be published in the European public assessment report (EPAR) and made available in all official European Union languages after the marketing authorization has been granted by the European Commission.

A version of this article first appeared on Medscape.com.

Two new cancer drugs have been recommended for approval in the European Union (EU): capmatinib (Tabrecta, Novartis) for the treatment of advanced non–small cell lung cancer (NSCLC) with certain mutations, and conditional approval of mosunetuzumab (Lunsumio, Roche) for relapsed or refractory follicular lymphoma.

The European Medicines Agency (EMA) Committee for Medicinal Products for Human Use (CHMP) issued a positive opinion for the two products at its April meeting.
 

New drug for certain lung cancer patients

Capmatinib is a selective, reversible inhibitor of MET tyrosine kinase and is indicated for the treatment of patients with advanced NSCLC harboring alterations leading to mesenchymal-epithelial transition factor gene exon 14 (METex14) skipping. Patients must have already been treated with immunotherapy and/or platinum-based chemotherapy.

The product is approved in the United States, and the Food and Drug Administration noted that it is the first approved treatment for NSCLC with MET exon 14-skipping mutations.

The FDA granted the drug an accelerated approval based on overall response rate and response duration in the GEOMETRY mono-1 trial, which included a cohort of previously treated and treatment-naive patients. The overall response rate was 68% in the treatment-naive patients and 41% in the previously treated patients. The median duration of response was 12.6 months and 9.7 months.

The most common side effects were peripheral edema, nausea, fatigue, vomiting, dyspnea, and decreased appetite.
 

Conditional approval for lymphoma

Mosunetuzumab is an investigational bispecific antibody targeting CD20 and CD3, and redirects T cells to engage and eliminate malignant B cells.

The CHMP recommended a conditional approval for this drug for use as monotherapy for the treatment of adult patients with relapsed or refractory follicular lymphoma  who have received at least two prior systemic therapies.

Mosunetuzumab was reviewed under EMA’s accelerated access program, which usually takes 150 evaluation days as opposed to 210, and it was designated as an orphan medicine during its development.

The EMA stated that the benefits of this product are the high proportion of patients with a complete response and the durability of the treatment response.

As previously reported by this news organization, results from a phase 2 expansion study showed that when used as monotherapy, it induced high response rates and long-duration responses in patients with heavily pretreated, relapsed, or refractory follicular lymphoma.

At a median follow-up of 18.3 months, 54 of 90 patients (60%) had a complete response, and 18 (20%) had a partial response after treatment with mosunetuzumab.

The most common reported side effects were cytokine release syndrome, neutropenia, pyrexia (fever), hypophosphatemia, and headache.

Mosunetuzumab is awaiting FDA approval in the United States.

A conditional marketing authorization from CHMP is granted to products that meet an unmet medical need, and when the benefit to public health of immediate availability outweighs the risk inherent in the fact that additional data are still required. The marketing authorization holder is expected to provide comprehensive clinical data at a later stage.

Detailed recommendations for the use of both products will be described in the summary of product characteristics (SmPC), which will be published in the European public assessment report (EPAR) and made available in all official European Union languages after the marketing authorization has been granted by the European Commission.

A version of this article first appeared on Medscape.com.

The Food and Drug Administration announced on Feb. 3 its investigation into “a possible increased risk of death” associated with the lymphoma drug umbralisib (Ukoniq).

The FDA granted accelerated approval to umbralisib in February 2021 for patients with two types of lymphoma: Adults with relapsed or refractory marginal zone lymphoma who received at least one prior therapy, and those with relapsed or refractory follicular lymphoma who received at least three prior therapies.

According to the FDA, the possible increased risk of death arose from early findings in a phase 3 trial evaluating the drug in a related type of cancer: chronic lymphocytic leukemia.

“Because of the seriousness of this safety concern and the similarities between the two types of cancer for which this drug is approved and the type of cancer that was studied in the clinical trial, we are alerting patients and health care professionals that we are reevaluating this risk against the benefits of Ukoniq [umbralisib] for its approved uses,” the FDA safety communication states.

The FDA said it performed an initial review of data from the phase 3, randomized controlled UNITY trial, which is evaluating the efficacy of umbralisib plus a monoclonal antibody in patients with chronic lymphocytic leukemia.

“The results showed a possible increased risk of death in patients receiving the combination of Ukoniq [umbralisib] and the monoclonal antibody compared to the control arm,” according to the FDA. “Those receiving the combination of Ukoniq [umbralisib] and the monoclonal antibody also experienced more serious adverse events than those in the control arm.”

Although the drug has not been approved for patients with chronic lymphocytic leukemia, the FDA believes the findings could “have implications for its approved uses” in marginal zone lymphoma and follicular lymphoma.

However, the phase 2 trial that led to February 2021 approvals found the drug’s safety profile to be “manageable,” with serious adverse reactions reported in 18% of patients receiving the dual oral inhibitor of phosphoinositide 3 kinase delta and casein kinase 1 epsilon. These adverse reactions included diarrhea-colitis (4%), pneumonia (3%), sepsis (2%), and urinary tract infection (2%); however, no elevated risk of death was indicated in that analysis.

The FDA noted it will continue to evaluate the results from the phase 3 UNITY trial in chronic lymphocytic leukemia and has suspended enrollment of new patients in other ongoing clinical trials of the drug.

The FDA stated that it would communicate its “final conclusions and recommendations when we have completed our review.” In the meantime, the agency asks health care professionals to review how patients receiving umbralisib are faring and discuss “the risks and benefits of continuing” versus switching to other treatments.

The FDA also asks clinicians and patients to report side effects involving the drug to the FDA MedWatch program.

A version of this article first appeared on Medscape.com.

The Food and Drug Administration announced on Feb. 3 its investigation into “a possible increased risk of death” associated with the lymphoma drug umbralisib (Ukoniq).

The FDA granted accelerated approval to umbralisib in February 2021 for patients with two types of lymphoma: Adults with relapsed or refractory marginal zone lymphoma who received at least one prior therapy, and those with relapsed or refractory follicular lymphoma who received at least three prior therapies.

According to the FDA, the possible increased risk of death arose from early findings in a phase 3 trial evaluating the drug in a related type of cancer: chronic lymphocytic leukemia.

“Because of the seriousness of this safety concern and the similarities between the two types of cancer for which this drug is approved and the type of cancer that was studied in the clinical trial, we are alerting patients and health care professionals that we are reevaluating this risk against the benefits of Ukoniq [umbralisib] for its approved uses,” the FDA safety communication states.

The FDA said it performed an initial review of data from the phase 3, randomized controlled UNITY trial, which is evaluating the efficacy of umbralisib plus a monoclonal antibody in patients with chronic lymphocytic leukemia.

“The results showed a possible increased risk of death in patients receiving the combination of Ukoniq [umbralisib] and the monoclonal antibody compared to the control arm,” according to the FDA. “Those receiving the combination of Ukoniq [umbralisib] and the monoclonal antibody also experienced more serious adverse events than those in the control arm.”

Although the drug has not been approved for patients with chronic lymphocytic leukemia, the FDA believes the findings could “have implications for its approved uses” in marginal zone lymphoma and follicular lymphoma.

However, the phase 2 trial that led to February 2021 approvals found the drug’s safety profile to be “manageable,” with serious adverse reactions reported in 18% of patients receiving the dual oral inhibitor of phosphoinositide 3 kinase delta and casein kinase 1 epsilon. These adverse reactions included diarrhea-colitis (4%), pneumonia (3%), sepsis (2%), and urinary tract infection (2%); however, no elevated risk of death was indicated in that analysis.

The FDA noted it will continue to evaluate the results from the phase 3 UNITY trial in chronic lymphocytic leukemia and has suspended enrollment of new patients in other ongoing clinical trials of the drug.

The FDA stated that it would communicate its “final conclusions and recommendations when we have completed our review.” In the meantime, the agency asks health care professionals to review how patients receiving umbralisib are faring and discuss “the risks and benefits of continuing” versus switching to other treatments.

The FDA also asks clinicians and patients to report side effects involving the drug to the FDA MedWatch program.

A version of this article first appeared on Medscape.com.

The Food and Drug Administration announced on Feb. 3 its investigation into “a possible increased risk of death” associated with the lymphoma drug umbralisib (Ukoniq).

The FDA granted accelerated approval to umbralisib in February 2021 for patients with two types of lymphoma: Adults with relapsed or refractory marginal zone lymphoma who received at least one prior therapy, and those with relapsed or refractory follicular lymphoma who received at least three prior therapies.

According to the FDA, the possible increased risk of death arose from early findings in a phase 3 trial evaluating the drug in a related type of cancer: chronic lymphocytic leukemia.

“Because of the seriousness of this safety concern and the similarities between the two types of cancer for which this drug is approved and the type of cancer that was studied in the clinical trial, we are alerting patients and health care professionals that we are reevaluating this risk against the benefits of Ukoniq [umbralisib] for its approved uses,” the FDA safety communication states.

The FDA said it performed an initial review of data from the phase 3, randomized controlled UNITY trial, which is evaluating the efficacy of umbralisib plus a monoclonal antibody in patients with chronic lymphocytic leukemia.

“The results showed a possible increased risk of death in patients receiving the combination of Ukoniq [umbralisib] and the monoclonal antibody compared to the control arm,” according to the FDA. “Those receiving the combination of Ukoniq [umbralisib] and the monoclonal antibody also experienced more serious adverse events than those in the control arm.”

Although the drug has not been approved for patients with chronic lymphocytic leukemia, the FDA believes the findings could “have implications for its approved uses” in marginal zone lymphoma and follicular lymphoma.

However, the phase 2 trial that led to February 2021 approvals found the drug’s safety profile to be “manageable,” with serious adverse reactions reported in 18% of patients receiving the dual oral inhibitor of phosphoinositide 3 kinase delta and casein kinase 1 epsilon. These adverse reactions included diarrhea-colitis (4%), pneumonia (3%), sepsis (2%), and urinary tract infection (2%); however, no elevated risk of death was indicated in that analysis.

The FDA noted it will continue to evaluate the results from the phase 3 UNITY trial in chronic lymphocytic leukemia and has suspended enrollment of new patients in other ongoing clinical trials of the drug.

The FDA stated that it would communicate its “final conclusions and recommendations when we have completed our review.” In the meantime, the agency asks health care professionals to review how patients receiving umbralisib are faring and discuss “the risks and benefits of continuing” versus switching to other treatments.

The FDA also asks clinicians and patients to report side effects involving the drug to the FDA MedWatch program.

A version of this article first appeared on Medscape.com.

A new systematic review and meta-analysis finds that unvaccinated cancer patients who contracted COVID-19 last year, were more than two times more likely – than people without cancer – to develop a case of COVID-19 so severe it required hospitalization in an intensive care unit.

“Our study provides the most precise measure to date of the effect of COVID-19 in cancer patients,” wrote researchers who were led by Paolo Boffetta, MD, MPH, a specialist in population science with the Stony Brook Cancer Center in New York.

Dr. Boffetta and colleagues also found that patients with hematologic neoplasms had a higher mortality rate from COVID-19 comparable to that of all cancers combined.

Cancer patients have long been considered to be among those patients who are at high risk of developing COVID-19, and if they contract the disease, they are at high risk of having poor outcomes. Other high-risk patients include those with hypertension, diabetes, chronic kidney disease, or COPD, or the elderly. But how high the risk of developing severe COVID-19 disease is for cancer patients hasn’t yet been documented on a wide scale.

The study, which was made available as a preprint on medRxiv on Oct. 23, is based on an analysis of COVID-19 cases that were documented in 35 reviews, meta-analyses, case reports, and studies indexed in PubMed from authors in North America, Europe, and Asia.

In this study, the pooled odds ratio for mortality for all patients with any cancer was 2.32 (95% confidence interval, 1.82-2.94; 24 studies). For ICU admission, the odds ratio was 2.39 (95% CI, 1.90-3.02; I2 0.0%; 5 studies). And, for disease severity or hospitalization, it was 2.08 (95% CI, 1.60-2.72; I2 92.1%; 15 studies). The pooled mortality odds ratio for hematologic neoplasms was 2.14 (95% CI, 1.87-2.44; I2 20.8%; 8 studies).

Their findings, which have not yet been peer reviewed, confirmed the results of a similar analysis from China published as a preprint in May 2020. The analysis included 181,323 patients (23,736 cancer patients) from 26 studies reported an odds ratio of 2.54 (95% CI, 1.47-4.42). “Cancer patients with COVID-19 have an increased likelihood of death compared to non-cancer COVID-19 patients,” Venkatesulu et al. wrote. And a systematic review and meta-analysis of five studies of 2,619 patients published in October 2020 in Medicine also found a significantly higher risk of death from COVID-19 among cancer patients (odds ratio, 2.63; 95% confidence interval, 1.14-6.06; P = .023; I2 = 26.4%).

Fakih et al., writing in the journal Hematology/Oncology and Stem Cell Therapy conducted a meta-analysis early last year finding a threefold increase for admission to the intensive care unit, an almost fourfold increase for a severe SARS-CoV-2 infection, and a fivefold increase for being intubated.

The three studies show that mortality rates were higher early in the pandemic “when diagnosis and treatment for SARS-CoV-2 might have been delayed, resulting in higher death rate,” Boffetta et al. wrote, adding that their analysis showed only a twofold increase most likely because it was a year-long analysis.

“Future studies will be able to better analyze this association for the different subtypes of cancer. Furthermore, they will eventually be able to evaluate whether the difference among vaccinated population is reduced,” Boffetta et al. wrote.

The authors noted several limitations for the study, including the fact that many of the studies included in the analysis did not include sex, age, comorbidities, and therapy. Nor were the authors able to analyze specific cancers other than hematologic neoplasms.

The authors declared no conflicts of interest.

A new systematic review and meta-analysis finds that unvaccinated cancer patients who contracted COVID-19 last year, were more than two times more likely – than people without cancer – to develop a case of COVID-19 so severe it required hospitalization in an intensive care unit.

“Our study provides the most precise measure to date of the effect of COVID-19 in cancer patients,” wrote researchers who were led by Paolo Boffetta, MD, MPH, a specialist in population science with the Stony Brook Cancer Center in New York.

Dr. Boffetta and colleagues also found that patients with hematologic neoplasms had a higher mortality rate from COVID-19 comparable to that of all cancers combined.

Cancer patients have long been considered to be among those patients who are at high risk of developing COVID-19, and if they contract the disease, they are at high risk of having poor outcomes. Other high-risk patients include those with hypertension, diabetes, chronic kidney disease, or COPD, or the elderly. But how high the risk of developing severe COVID-19 disease is for cancer patients hasn’t yet been documented on a wide scale.

The study, which was made available as a preprint on medRxiv on Oct. 23, is based on an analysis of COVID-19 cases that were documented in 35 reviews, meta-analyses, case reports, and studies indexed in PubMed from authors in North America, Europe, and Asia.

In this study, the pooled odds ratio for mortality for all patients with any cancer was 2.32 (95% confidence interval, 1.82-2.94; 24 studies). For ICU admission, the odds ratio was 2.39 (95% CI, 1.90-3.02; I2 0.0%; 5 studies). And, for disease severity or hospitalization, it was 2.08 (95% CI, 1.60-2.72; I2 92.1%; 15 studies). The pooled mortality odds ratio for hematologic neoplasms was 2.14 (95% CI, 1.87-2.44; I2 20.8%; 8 studies).

Their findings, which have not yet been peer reviewed, confirmed the results of a similar analysis from China published as a preprint in May 2020. The analysis included 181,323 patients (23,736 cancer patients) from 26 studies reported an odds ratio of 2.54 (95% CI, 1.47-4.42). “Cancer patients with COVID-19 have an increased likelihood of death compared to non-cancer COVID-19 patients,” Venkatesulu et al. wrote. And a systematic review and meta-analysis of five studies of 2,619 patients published in October 2020 in Medicine also found a significantly higher risk of death from COVID-19 among cancer patients (odds ratio, 2.63; 95% confidence interval, 1.14-6.06; P = .023; I2 = 26.4%).

Fakih et al., writing in the journal Hematology/Oncology and Stem Cell Therapy conducted a meta-analysis early last year finding a threefold increase for admission to the intensive care unit, an almost fourfold increase for a severe SARS-CoV-2 infection, and a fivefold increase for being intubated.

The three studies show that mortality rates were higher early in the pandemic “when diagnosis and treatment for SARS-CoV-2 might have been delayed, resulting in higher death rate,” Boffetta et al. wrote, adding that their analysis showed only a twofold increase most likely because it was a year-long analysis.

“Future studies will be able to better analyze this association for the different subtypes of cancer. Furthermore, they will eventually be able to evaluate whether the difference among vaccinated population is reduced,” Boffetta et al. wrote.

The authors noted several limitations for the study, including the fact that many of the studies included in the analysis did not include sex, age, comorbidities, and therapy. Nor were the authors able to analyze specific cancers other than hematologic neoplasms.

The authors declared no conflicts of interest.

A new systematic review and meta-analysis finds that unvaccinated cancer patients who contracted COVID-19 last year, were more than two times more likely – than people without cancer – to develop a case of COVID-19 so severe it required hospitalization in an intensive care unit.

“Our study provides the most precise measure to date of the effect of COVID-19 in cancer patients,” wrote researchers who were led by Paolo Boffetta, MD, MPH, a specialist in population science with the Stony Brook Cancer Center in New York.

Dr. Boffetta and colleagues also found that patients with hematologic neoplasms had a higher mortality rate from COVID-19 comparable to that of all cancers combined.

Cancer patients have long been considered to be among those patients who are at high risk of developing COVID-19, and if they contract the disease, they are at high risk of having poor outcomes. Other high-risk patients include those with hypertension, diabetes, chronic kidney disease, or COPD, or the elderly. But how high the risk of developing severe COVID-19 disease is for cancer patients hasn’t yet been documented on a wide scale.

The study, which was made available as a preprint on medRxiv on Oct. 23, is based on an analysis of COVID-19 cases that were documented in 35 reviews, meta-analyses, case reports, and studies indexed in PubMed from authors in North America, Europe, and Asia.

In this study, the pooled odds ratio for mortality for all patients with any cancer was 2.32 (95% confidence interval, 1.82-2.94; 24 studies). For ICU admission, the odds ratio was 2.39 (95% CI, 1.90-3.02; I2 0.0%; 5 studies). And, for disease severity or hospitalization, it was 2.08 (95% CI, 1.60-2.72; I2 92.1%; 15 studies). The pooled mortality odds ratio for hematologic neoplasms was 2.14 (95% CI, 1.87-2.44; I2 20.8%; 8 studies).

Their findings, which have not yet been peer reviewed, confirmed the results of a similar analysis from China published as a preprint in May 2020. The analysis included 181,323 patients (23,736 cancer patients) from 26 studies reported an odds ratio of 2.54 (95% CI, 1.47-4.42). “Cancer patients with COVID-19 have an increased likelihood of death compared to non-cancer COVID-19 patients,” Venkatesulu et al. wrote. And a systematic review and meta-analysis of five studies of 2,619 patients published in October 2020 in Medicine also found a significantly higher risk of death from COVID-19 among cancer patients (odds ratio, 2.63; 95% confidence interval, 1.14-6.06; P = .023; I2 = 26.4%).

Fakih et al., writing in the journal Hematology/Oncology and Stem Cell Therapy conducted a meta-analysis early last year finding a threefold increase for admission to the intensive care unit, an almost fourfold increase for a severe SARS-CoV-2 infection, and a fivefold increase for being intubated.

The three studies show that mortality rates were higher early in the pandemic “when diagnosis and treatment for SARS-CoV-2 might have been delayed, resulting in higher death rate,” Boffetta et al. wrote, adding that their analysis showed only a twofold increase most likely because it was a year-long analysis.

“Future studies will be able to better analyze this association for the different subtypes of cancer. Furthermore, they will eventually be able to evaluate whether the difference among vaccinated population is reduced,” Boffetta et al. wrote.

The authors noted several limitations for the study, including the fact that many of the studies included in the analysis did not include sex, age, comorbidities, and therapy. Nor were the authors able to analyze specific cancers other than hematologic neoplasms.

The authors declared no conflicts of interest.

The combination of copanlisib plus rituximab led to a 48% reduction in the risk of disease progression or death, when compared with rituximab plus placebo in a phase 3 trial of patients with relapsed, indolent non-Hodgkin lymphoma (NHL).

The trial, dubbed CHRONOS-3, is the first to report “a broad benefit” across histologic subtypes of relapsed, indolent NHL, and the results are “essentially a long-awaited proof of concept” for combining a PI3K inhibitor with rituximab, according to investigator Matthew Matasar, MD, of Memorial Sloan Kettering Cancer Center in New York.

Dr. Matasar presented results from CHRONOS-3 at the American Association for Cancer Research Annual Meeting 2021: Week 1 (Abstract CT001). The findings were simultaneously published in The Lancet Oncology.

Charles Swanton, MBPhD, of the Francis Crick Institute and UCL Cancer Institute in London, called the results “strongly positive” and said the copanlisib-rituximab combination is “a potential new treatment option” for indolent NHL in patients with a long remission after first-line therapy or those who are unfit for chemotherapy.

Dr. Swanton noted, however, that “one should also bear in mind” the serious adverse events (AEs) seen with copanlisib, particularly hypertension and hyperglycemia. When asked about these AEs, Dr. Matasar said he thinks the combination would be appropriate for patients who meet the study criteria as long as they don’t have severe baseline diabetes or uncontrolled hypertension.
 

Patient and treatment details

The study included 458 patients with CD20-positive, relapsed, indolent, B-cell NHL. Subtypes included follicular lymphoma (n = 275), marginal zone lymphoma (n = 95), small lymphocytic lymphoma (n = 50), and lymphoplasmacytic lymphoma/Waldenström’s macroglobulinemia (n = 38).

All patients were progression free and treatment free before their relapse for at least 12 months after their last rituximab-containing regimen, or at least 6 months before relapse if they were unwilling or unable to undergo chemotherapy.

The patients’ median age was 63 years, and just over half of them were men (52%). About 37% of patients had a history of hypertension at baseline, and about 15% had a history of diabetes.

Patients were randomized to receive copanlisib plus rituximab (n = 307) or rituximab plus placebo (n = 151). Copanlisib was given at 60 mg IV on days 1, 8, and 15 of a 28-day cycle. In both arms, rituximab was given at 375 mg/m² on days 1, 8, 15, and 22 during cycle 1 and on day 1 of cycles 3, 5, 7, and 9.
 

Progression-free survival benefit

At a median follow-up of 19.2 months, the median progression-free survival (PFS) was 21.5 months in the copanlisib-rituximab arm and 13.8 months in the placebo-rituximab arm (hazard ratio, 0.52; P < .0001).

The PFS advantage with copanlisib was seen across subtypes:

• Follicular lymphoma – 22.2 months vs. 18.7 months (P = .001)
• Small lymphocytic lymphoma – 14.2 months vs. 5.7 months (P < .0001)
• Marginal zone lymphoma – 22.1 months vs. 11.5 months (P = .012)
• Lymphoplasmacytic lymphoma/Waldenström’s macroglobulinemia – 33.4 months vs. 16.6 months (P = .054)

The PFS difference among patients with lymphoplasmacytic lymphoma/Waldenström’s macroglobulinemia was likely not statistically significant because of the small sample size, Dr. Matasar said.

He reported that the overall response rate was 81% with copanlisib-rituximab, including a 34% complete response rate. In the placebo arm, the overall response rate was 48%, and 15% of patients had a complete response.

The median overall survival was not estimable in either treatment arm. At a median follow-up of 30.1 months, 14% of patients in the copanlisib arm and 13.2% of patients in the placebo arm had died.
 

More than double the rate of serious AEs

The rate of serious treatment-emergent AEs was 47.2% in the combination arm and 18.5% in the placebo arm.

There were six grade 5 treatment-emergent AEs in the combination arm. One of these – pneumonitis – was deemed treatment related. There was one treatment-emergent death in the placebo arm.

Hyperglycemia and hypertension were the most common grade 3/4 treatment-emergent AEs with the combination. Diarrhea, nausea, neutropenia, and pyrexia were also more frequent with the combination than with rituximab-placebo.

More than half of patients in the combination arm (56.3%) developed grade 3/4 hyperglycemia. In the placebo arm, the incidence of grade 3 hyperglycemia was 8.2%, and there was no grade 4 hyperglycemia.

Rates of grade 3 hypertension were 39.7% in the combination arm and 8.9% in the placebo arm. There was no grade 4 hypertension.

In the combination arm, 2.6% of patients stopped treatment because of hyperglycemia and 0.7% stopped because of hypertension.

Any-grade pneumonitis occurred in 6.8% of patients in the combination arm and 1.4% of those in the placebo arm. The rate of grade 3/4 pneumonitis was 2.7% in the copanlisib arm, and the rate of grade 3 pneumonitis was 0.7% in the placebo arm.

The study was funded by Bayer, the company developing copanlisib. Dr. Matasar disclosed relationships with Bayer, its subsidiaries, and Roche/Genentech. Dr. Swanton disclosed relationships with numerous companies, including Pfizer, Novartis, and GlaxoSmithKline.

[email protected]

The combination of copanlisib plus rituximab led to a 48% reduction in the risk of disease progression or death, when compared with rituximab plus placebo in a phase 3 trial of patients with relapsed, indolent non-Hodgkin lymphoma (NHL).

The trial, dubbed CHRONOS-3, is the first to report “a broad benefit” across histologic subtypes of relapsed, indolent NHL, and the results are “essentially a long-awaited proof of concept” for combining a PI3K inhibitor with rituximab, according to investigator Matthew Matasar, MD, of Memorial Sloan Kettering Cancer Center in New York.

Dr. Matasar presented results from CHRONOS-3 at the American Association for Cancer Research Annual Meeting 2021: Week 1 (Abstract CT001). The findings were simultaneously published in The Lancet Oncology.

Charles Swanton, MBPhD, of the Francis Crick Institute and UCL Cancer Institute in London, called the results “strongly positive” and said the copanlisib-rituximab combination is “a potential new treatment option” for indolent NHL in patients with a long remission after first-line therapy or those who are unfit for chemotherapy.

Dr. Swanton noted, however, that “one should also bear in mind” the serious adverse events (AEs) seen with copanlisib, particularly hypertension and hyperglycemia. When asked about these AEs, Dr. Matasar said he thinks the combination would be appropriate for patients who meet the study criteria as long as they don’t have severe baseline diabetes or uncontrolled hypertension.
 

Patient and treatment details

The study included 458 patients with CD20-positive, relapsed, indolent, B-cell NHL. Subtypes included follicular lymphoma (n = 275), marginal zone lymphoma (n = 95), small lymphocytic lymphoma (n = 50), and lymphoplasmacytic lymphoma/Waldenström’s macroglobulinemia (n = 38).

All patients were progression free and treatment free before their relapse for at least 12 months after their last rituximab-containing regimen, or at least 6 months before relapse if they were unwilling or unable to undergo chemotherapy.

The patients’ median age was 63 years, and just over half of them were men (52%). About 37% of patients had a history of hypertension at baseline, and about 15% had a history of diabetes.

Patients were randomized to receive copanlisib plus rituximab (n = 307) or rituximab plus placebo (n = 151). Copanlisib was given at 60 mg IV on days 1, 8, and 15 of a 28-day cycle. In both arms, rituximab was given at 375 mg/m² on days 1, 8, 15, and 22 during cycle 1 and on day 1 of cycles 3, 5, 7, and 9.
 

Progression-free survival benefit

At a median follow-up of 19.2 months, the median progression-free survival (PFS) was 21.5 months in the copanlisib-rituximab arm and 13.8 months in the placebo-rituximab arm (hazard ratio, 0.52; P < .0001).

The PFS advantage with copanlisib was seen across subtypes:

• Follicular lymphoma – 22.2 months vs. 18.7 months (P = .001)
• Small lymphocytic lymphoma – 14.2 months vs. 5.7 months (P < .0001)
• Marginal zone lymphoma – 22.1 months vs. 11.5 months (P = .012)
• Lymphoplasmacytic lymphoma/Waldenström’s macroglobulinemia – 33.4 months vs. 16.6 months (P = .054)

The PFS difference among patients with lymphoplasmacytic lymphoma/Waldenström’s macroglobulinemia was likely not statistically significant because of the small sample size, Dr. Matasar said.

He reported that the overall response rate was 81% with copanlisib-rituximab, including a 34% complete response rate. In the placebo arm, the overall response rate was 48%, and 15% of patients had a complete response.

The median overall survival was not estimable in either treatment arm. At a median follow-up of 30.1 months, 14% of patients in the copanlisib arm and 13.2% of patients in the placebo arm had died.
 

More than double the rate of serious AEs

The rate of serious treatment-emergent AEs was 47.2% in the combination arm and 18.5% in the placebo arm.

There were six grade 5 treatment-emergent AEs in the combination arm. One of these – pneumonitis – was deemed treatment related. There was one treatment-emergent death in the placebo arm.

Hyperglycemia and hypertension were the most common grade 3/4 treatment-emergent AEs with the combination. Diarrhea, nausea, neutropenia, and pyrexia were also more frequent with the combination than with rituximab-placebo.

More than half of patients in the combination arm (56.3%) developed grade 3/4 hyperglycemia. In the placebo arm, the incidence of grade 3 hyperglycemia was 8.2%, and there was no grade 4 hyperglycemia.

Rates of grade 3 hypertension were 39.7% in the combination arm and 8.9% in the placebo arm. There was no grade 4 hypertension.

In the combination arm, 2.6% of patients stopped treatment because of hyperglycemia and 0.7% stopped because of hypertension.

Any-grade pneumonitis occurred in 6.8% of patients in the combination arm and 1.4% of those in the placebo arm. The rate of grade 3/4 pneumonitis was 2.7% in the copanlisib arm, and the rate of grade 3 pneumonitis was 0.7% in the placebo arm.

The study was funded by Bayer, the company developing copanlisib. Dr. Matasar disclosed relationships with Bayer, its subsidiaries, and Roche/Genentech. Dr. Swanton disclosed relationships with numerous companies, including Pfizer, Novartis, and GlaxoSmithKline.

[email protected]

The combination of copanlisib plus rituximab led to a 48% reduction in the risk of disease progression or death, when compared with rituximab plus placebo in a phase 3 trial of patients with relapsed, indolent non-Hodgkin lymphoma (NHL).

The trial, dubbed CHRONOS-3, is the first to report “a broad benefit” across histologic subtypes of relapsed, indolent NHL, and the results are “essentially a long-awaited proof of concept” for combining a PI3K inhibitor with rituximab, according to investigator Matthew Matasar, MD, of Memorial Sloan Kettering Cancer Center in New York.

Dr. Matasar presented results from CHRONOS-3 at the American Association for Cancer Research Annual Meeting 2021: Week 1 (Abstract CT001). The findings were simultaneously published in The Lancet Oncology.

Charles Swanton, MBPhD, of the Francis Crick Institute and UCL Cancer Institute in London, called the results “strongly positive” and said the copanlisib-rituximab combination is “a potential new treatment option” for indolent NHL in patients with a long remission after first-line therapy or those who are unfit for chemotherapy.

Dr. Swanton noted, however, that “one should also bear in mind” the serious adverse events (AEs) seen with copanlisib, particularly hypertension and hyperglycemia. When asked about these AEs, Dr. Matasar said he thinks the combination would be appropriate for patients who meet the study criteria as long as they don’t have severe baseline diabetes or uncontrolled hypertension.
 

Patient and treatment details

The study included 458 patients with CD20-positive, relapsed, indolent, B-cell NHL. Subtypes included follicular lymphoma (n = 275), marginal zone lymphoma (n = 95), small lymphocytic lymphoma (n = 50), and lymphoplasmacytic lymphoma/Waldenström’s macroglobulinemia (n = 38).

All patients were progression free and treatment free before their relapse for at least 12 months after their last rituximab-containing regimen, or at least 6 months before relapse if they were unwilling or unable to undergo chemotherapy.

The patients’ median age was 63 years, and just over half of them were men (52%). About 37% of patients had a history of hypertension at baseline, and about 15% had a history of diabetes.

Patients were randomized to receive copanlisib plus rituximab (n = 307) or rituximab plus placebo (n = 151). Copanlisib was given at 60 mg IV on days 1, 8, and 15 of a 28-day cycle. In both arms, rituximab was given at 375 mg/m² on days 1, 8, 15, and 22 during cycle 1 and on day 1 of cycles 3, 5, 7, and 9.
 

Progression-free survival benefit

At a median follow-up of 19.2 months, the median progression-free survival (PFS) was 21.5 months in the copanlisib-rituximab arm and 13.8 months in the placebo-rituximab arm (hazard ratio, 0.52; P < .0001).

The PFS advantage with copanlisib was seen across subtypes:

• Follicular lymphoma – 22.2 months vs. 18.7 months (P = .001)
• Small lymphocytic lymphoma – 14.2 months vs. 5.7 months (P < .0001)
• Marginal zone lymphoma – 22.1 months vs. 11.5 months (P = .012)
• Lymphoplasmacytic lymphoma/Waldenström’s macroglobulinemia – 33.4 months vs. 16.6 months (P = .054)

The PFS difference among patients with lymphoplasmacytic lymphoma/Waldenström’s macroglobulinemia was likely not statistically significant because of the small sample size, Dr. Matasar said.

He reported that the overall response rate was 81% with copanlisib-rituximab, including a 34% complete response rate. In the placebo arm, the overall response rate was 48%, and 15% of patients had a complete response.

The median overall survival was not estimable in either treatment arm. At a median follow-up of 30.1 months, 14% of patients in the copanlisib arm and 13.2% of patients in the placebo arm had died.
 

More than double the rate of serious AEs

The rate of serious treatment-emergent AEs was 47.2% in the combination arm and 18.5% in the placebo arm.

There were six grade 5 treatment-emergent AEs in the combination arm. One of these – pneumonitis – was deemed treatment related. There was one treatment-emergent death in the placebo arm.

Hyperglycemia and hypertension were the most common grade 3/4 treatment-emergent AEs with the combination. Diarrhea, nausea, neutropenia, and pyrexia were also more frequent with the combination than with rituximab-placebo.

More than half of patients in the combination arm (56.3%) developed grade 3/4 hyperglycemia. In the placebo arm, the incidence of grade 3 hyperglycemia was 8.2%, and there was no grade 4 hyperglycemia.

Rates of grade 3 hypertension were 39.7% in the combination arm and 8.9% in the placebo arm. There was no grade 4 hypertension.

In the combination arm, 2.6% of patients stopped treatment because of hyperglycemia and 0.7% stopped because of hypertension.

Any-grade pneumonitis occurred in 6.8% of patients in the combination arm and 1.4% of those in the placebo arm. The rate of grade 3/4 pneumonitis was 2.7% in the copanlisib arm, and the rate of grade 3 pneumonitis was 0.7% in the placebo arm.

The study was funded by Bayer, the company developing copanlisib. Dr. Matasar disclosed relationships with Bayer, its subsidiaries, and Roche/Genentech. Dr. Swanton disclosed relationships with numerous companies, including Pfizer, Novartis, and GlaxoSmithKline.

[email protected]

The first report on responses to COVID-19 vaccination among patients with cancer suggests that, for these patients, the immune response that occurs after the first dose of vaccine is reduced, in comparison with the response that occurs in healthy individuals.

The new findings, which are soon to be published as a preprint, cast doubt on the current U.K. policy of delaying the second dose of the vaccine.

Delaying the second dose can leave most patients with cancer wholly or partially unprotected, according to the researchers. Moreover, such a delay has implications for transmission of SARS-CoV-2 in the cancer patient’s environs as well as for the evolution of virus variants that could be of concern, the researchers concluded.

The data come from a British study that included 151 patients with cancer and 54 healthy control persons. All participants received the COVID-19 mRNA BNT162b2 vaccine (Pfizer-BioNTech).

This vaccine requires two doses. The first few participants in this study were given the second dose 21 days after they had received the first dose, but then national guidelines changed, and the remaining participants had to wait 12 weeks to receive their second dose.

The researchers reported that, among health controls, the immune efficacy of the first dose was very high (97% efficacious). By contrast, among patients with solid tumors, the immune efficacy of a single dose was strikingly low (39%), and it was even lower in patients with hematologic malignancies (13%).

The second dose of vaccine greatly and rapidly increased the immune efficacy in patients with solid tumors (95% within 2 weeks of receiving the second dose), the researchers added.

Too few patients with hematologic cancers had received the second dose before the study ended for clear conclusions to be drawn. Nevertheless, the available data suggest that 50% of patients with hematologic cancers who had received the booster at day 21 were seropositive at 5 weeks vs. only 8% of those who had not received the booster.

“Our data provide the first real-world evidence of immune efficacy following one dose of the Pfizer vaccine in immunocompromised patient populations [and] clearly show that the poor one-dose efficacy in cancer patients can be rescued with an early booster at day 21,” commented senior author Sheeba Irshad, MD, senior clinical lecturer, King’s College London.

“Based on our findings, we would recommend an urgent review of the vaccine strategy for clinically extremely vulnerable groups. Until then, it is important that cancer patients continue to observe all public health measures in place, such as social distancing and shielding when attending hospitals, even after vaccination,” Dr. Irshad added.

The paper, with first author Leticia Monin-Aldama, PhD, is scheduled to appear on the preprint server medRxiv. It has not undergone peer review. The paper was distributed to journalists, with comments from experts not involved in the study, by the UK Science Media Centre.

These data are “of immediate importance” to patients with cancer, commented Shoba Amarnath, PhD, Newcastle University research fellow, Laboratory of T-cell Regulation, Newcastle University Center for Cancer, Newcastle upon Tyne, England.

“These findings are consistent with our understanding. … We know that the immune system within cancer patients is compromised as compared to healthy controls,” Dr. Amarnath said. “The data in the study support the notion that, in solid cancer patients, a considerable delay in second dose will extend the period when cancer patients are at risk of SARS-CoV-2 infection.”

Although more data are required, “this study does raise the issue of whether patients with cancer, other diseases, or those undergoing therapies that affect the body’s immune response should be fast-tracked for their second vaccine dose,” commented Lawrence Young, PhD, professor of molecular oncology and director of the Warwick Cancer Research Center, University of Warwick, Coventry, England.

Stephen Evans, MSc, professor of pharmacoepidemiology, London School of Hygiene and Tropical Medicine, underlined that the study is “essentially” observational and “inevitable limitations must be taken into account.

“Nevertheless, these results do suggest that the vaccines may well not protect those patients with cancer as well as those without cancer,” Mr. Evans said. He added that it is “important that this population continues to observe all COVID-19–associated measures, such as social distancing and shielding when attending hospitals, even after vaccination.”

Study details

Previous studies have shown that some patients with cancer have prolonged responses to SARS-CoV-2 infection, with ongoing immune dysregulation, inefficient seroconversion, and prolonged viral shedding.

There are few data, however, on how these patients respond to COVID-19 vaccination. The authors point out that, among the 18,860 individuals who received the Pfizer vaccine during its development trials, “none with an active oncological diagnosis was included.”

To investigate this issue, they launched the SARS-CoV-2 for Cancer Patients (SOAP-02) study.

The 151 patients with cancer who participated in this study were mostly elderly, the authors noted (75% were older than 65 years; the median age was 73 years). The majority (63%) had solid-tumor malignancies. Of those, 8% had late-stage disease and had been living with their cancer for more than 24 months.

The healthy control persons were vaccine-eligible primary health care workers who were not age matched to the cancer patients.

All participants received the first dose of vaccine; 31 (of 151) patients with cancer and 16 (of 54) healthy control persons received the second dose on day 21.

The remaining participants were scheduled to receive their second dose 12 weeks later (after the study ended), in line with the changes in the national guidelines.

The team reported that, approximately 21 days after receiving the first vaccine dose, the immune efficacy of the vaccine was estimated to be 97% among healthy control persons vs. 39% for patients with solid tumors and only 13% for those with hematologic malignancies (P < .0001 for both).

T-cell responses, as assessed via interferon-gamma and/or interleukin-2 production, were observed in 82% of healthy control persons, 71% of patients with solid tumors, and 50% of those with hematologic cancers.

Vaccine boosting at day 21 resulted in immune efficacy of 100% for healthy control persons and 95% for patients with solid tumors. In contrast, only 43% of those who did not receive the second dose were seropositive 2 weeks later.

Further analysis suggested that participants who did not have a serologic response were “spread evenly” across different cancer types, but the reduced responses were more frequent among patients who had received the vaccine within 15 days of cancer treatment, especially chemotherapy, and had undergone intensive treatments.

The SOAP study is sponsored by King’s College London and Guy’s and St. Thomas Trust Foundation NHS Trust. It is funded from grants from the KCL Charity, Cancer Research UK, and program grants from Breast Cancer Now. The investigators have disclosed no relevant financial relationships.

A version of this article first appeared on Medscape.com.

The first report on responses to COVID-19 vaccination among patients with cancer suggests that, for these patients, the immune response that occurs after the first dose of vaccine is reduced, in comparison with the response that occurs in healthy individuals.

The new findings, which are soon to be published as a preprint, cast doubt on the current U.K. policy of delaying the second dose of the vaccine.

Delaying the second dose can leave most patients with cancer wholly or partially unprotected, according to the researchers. Moreover, such a delay has implications for transmission of SARS-CoV-2 in the cancer patient’s environs as well as for the evolution of virus variants that could be of concern, the researchers concluded.

The data come from a British study that included 151 patients with cancer and 54 healthy control persons. All participants received the COVID-19 mRNA BNT162b2 vaccine (Pfizer-BioNTech).

This vaccine requires two doses. The first few participants in this study were given the second dose 21 days after they had received the first dose, but then national guidelines changed, and the remaining participants had to wait 12 weeks to receive their second dose.

The researchers reported that, among health controls, the immune efficacy of the first dose was very high (97% efficacious). By contrast, among patients with solid tumors, the immune efficacy of a single dose was strikingly low (39%), and it was even lower in patients with hematologic malignancies (13%).

The second dose of vaccine greatly and rapidly increased the immune efficacy in patients with solid tumors (95% within 2 weeks of receiving the second dose), the researchers added.

Too few patients with hematologic cancers had received the second dose before the study ended for clear conclusions to be drawn. Nevertheless, the available data suggest that 50% of patients with hematologic cancers who had received the booster at day 21 were seropositive at 5 weeks vs. only 8% of those who had not received the booster.

“Our data provide the first real-world evidence of immune efficacy following one dose of the Pfizer vaccine in immunocompromised patient populations [and] clearly show that the poor one-dose efficacy in cancer patients can be rescued with an early booster at day 21,” commented senior author Sheeba Irshad, MD, senior clinical lecturer, King’s College London.

“Based on our findings, we would recommend an urgent review of the vaccine strategy for clinically extremely vulnerable groups. Until then, it is important that cancer patients continue to observe all public health measures in place, such as social distancing and shielding when attending hospitals, even after vaccination,” Dr. Irshad added.

The paper, with first author Leticia Monin-Aldama, PhD, is scheduled to appear on the preprint server medRxiv. It has not undergone peer review. The paper was distributed to journalists, with comments from experts not involved in the study, by the UK Science Media Centre.

These data are “of immediate importance” to patients with cancer, commented Shoba Amarnath, PhD, Newcastle University research fellow, Laboratory of T-cell Regulation, Newcastle University Center for Cancer, Newcastle upon Tyne, England.

“These findings are consistent with our understanding. … We know that the immune system within cancer patients is compromised as compared to healthy controls,” Dr. Amarnath said. “The data in the study support the notion that, in solid cancer patients, a considerable delay in second dose will extend the period when cancer patients are at risk of SARS-CoV-2 infection.”

Although more data are required, “this study does raise the issue of whether patients with cancer, other diseases, or those undergoing therapies that affect the body’s immune response should be fast-tracked for their second vaccine dose,” commented Lawrence Young, PhD, professor of molecular oncology and director of the Warwick Cancer Research Center, University of Warwick, Coventry, England.

Stephen Evans, MSc, professor of pharmacoepidemiology, London School of Hygiene and Tropical Medicine, underlined that the study is “essentially” observational and “inevitable limitations must be taken into account.

“Nevertheless, these results do suggest that the vaccines may well not protect those patients with cancer as well as those without cancer,” Mr. Evans said. He added that it is “important that this population continues to observe all COVID-19–associated measures, such as social distancing and shielding when attending hospitals, even after vaccination.”

Study details

Previous studies have shown that some patients with cancer have prolonged responses to SARS-CoV-2 infection, with ongoing immune dysregulation, inefficient seroconversion, and prolonged viral shedding.

There are few data, however, on how these patients respond to COVID-19 vaccination. The authors point out that, among the 18,860 individuals who received the Pfizer vaccine during its development trials, “none with an active oncological diagnosis was included.”

To investigate this issue, they launched the SARS-CoV-2 for Cancer Patients (SOAP-02) study.

The 151 patients with cancer who participated in this study were mostly elderly, the authors noted (75% were older than 65 years; the median age was 73 years). The majority (63%) had solid-tumor malignancies. Of those, 8% had late-stage disease and had been living with their cancer for more than 24 months.

The healthy control persons were vaccine-eligible primary health care workers who were not age matched to the cancer patients.

All participants received the first dose of vaccine; 31 (of 151) patients with cancer and 16 (of 54) healthy control persons received the second dose on day 21.

The remaining participants were scheduled to receive their second dose 12 weeks later (after the study ended), in line with the changes in the national guidelines.

The team reported that, approximately 21 days after receiving the first vaccine dose, the immune efficacy of the vaccine was estimated to be 97% among healthy control persons vs. 39% for patients with solid tumors and only 13% for those with hematologic malignancies (P < .0001 for both).

T-cell responses, as assessed via interferon-gamma and/or interleukin-2 production, were observed in 82% of healthy control persons, 71% of patients with solid tumors, and 50% of those with hematologic cancers.

Vaccine boosting at day 21 resulted in immune efficacy of 100% for healthy control persons and 95% for patients with solid tumors. In contrast, only 43% of those who did not receive the second dose were seropositive 2 weeks later.

Further analysis suggested that participants who did not have a serologic response were “spread evenly” across different cancer types, but the reduced responses were more frequent among patients who had received the vaccine within 15 days of cancer treatment, especially chemotherapy, and had undergone intensive treatments.

The SOAP study is sponsored by King’s College London and Guy’s and St. Thomas Trust Foundation NHS Trust. It is funded from grants from the KCL Charity, Cancer Research UK, and program grants from Breast Cancer Now. The investigators have disclosed no relevant financial relationships.

A version of this article first appeared on Medscape.com.

The first report on responses to COVID-19 vaccination among patients with cancer suggests that, for these patients, the immune response that occurs after the first dose of vaccine is reduced, in comparison with the response that occurs in healthy individuals.

The new findings, which are soon to be published as a preprint, cast doubt on the current U.K. policy of delaying the second dose of the vaccine.

Delaying the second dose can leave most patients with cancer wholly or partially unprotected, according to the researchers. Moreover, such a delay has implications for transmission of SARS-CoV-2 in the cancer patient’s environs as well as for the evolution of virus variants that could be of concern, the researchers concluded.

The data come from a British study that included 151 patients with cancer and 54 healthy control persons. All participants received the COVID-19 mRNA BNT162b2 vaccine (Pfizer-BioNTech).

This vaccine requires two doses. The first few participants in this study were given the second dose 21 days after they had received the first dose, but then national guidelines changed, and the remaining participants had to wait 12 weeks to receive their second dose.

The researchers reported that, among health controls, the immune efficacy of the first dose was very high (97% efficacious). By contrast, among patients with solid tumors, the immune efficacy of a single dose was strikingly low (39%), and it was even lower in patients with hematologic malignancies (13%).

The second dose of vaccine greatly and rapidly increased the immune efficacy in patients with solid tumors (95% within 2 weeks of receiving the second dose), the researchers added.

Too few patients with hematologic cancers had received the second dose before the study ended for clear conclusions to be drawn. Nevertheless, the available data suggest that 50% of patients with hematologic cancers who had received the booster at day 21 were seropositive at 5 weeks vs. only 8% of those who had not received the booster.

“Our data provide the first real-world evidence of immune efficacy following one dose of the Pfizer vaccine in immunocompromised patient populations [and] clearly show that the poor one-dose efficacy in cancer patients can be rescued with an early booster at day 21,” commented senior author Sheeba Irshad, MD, senior clinical lecturer, King’s College London.

“Based on our findings, we would recommend an urgent review of the vaccine strategy for clinically extremely vulnerable groups. Until then, it is important that cancer patients continue to observe all public health measures in place, such as social distancing and shielding when attending hospitals, even after vaccination,” Dr. Irshad added.

The paper, with first author Leticia Monin-Aldama, PhD, is scheduled to appear on the preprint server medRxiv. It has not undergone peer review. The paper was distributed to journalists, with comments from experts not involved in the study, by the UK Science Media Centre.

These data are “of immediate importance” to patients with cancer, commented Shoba Amarnath, PhD, Newcastle University research fellow, Laboratory of T-cell Regulation, Newcastle University Center for Cancer, Newcastle upon Tyne, England.

“These findings are consistent with our understanding. … We know that the immune system within cancer patients is compromised as compared to healthy controls,” Dr. Amarnath said. “The data in the study support the notion that, in solid cancer patients, a considerable delay in second dose will extend the period when cancer patients are at risk of SARS-CoV-2 infection.”

Although more data are required, “this study does raise the issue of whether patients with cancer, other diseases, or those undergoing therapies that affect the body’s immune response should be fast-tracked for their second vaccine dose,” commented Lawrence Young, PhD, professor of molecular oncology and director of the Warwick Cancer Research Center, University of Warwick, Coventry, England.

Stephen Evans, MSc, professor of pharmacoepidemiology, London School of Hygiene and Tropical Medicine, underlined that the study is “essentially” observational and “inevitable limitations must be taken into account.

“Nevertheless, these results do suggest that the vaccines may well not protect those patients with cancer as well as those without cancer,” Mr. Evans said. He added that it is “important that this population continues to observe all COVID-19–associated measures, such as social distancing and shielding when attending hospitals, even after vaccination.”

Study details

Previous studies have shown that some patients with cancer have prolonged responses to SARS-CoV-2 infection, with ongoing immune dysregulation, inefficient seroconversion, and prolonged viral shedding.

There are few data, however, on how these patients respond to COVID-19 vaccination. The authors point out that, among the 18,860 individuals who received the Pfizer vaccine during its development trials, “none with an active oncological diagnosis was included.”

To investigate this issue, they launched the SARS-CoV-2 for Cancer Patients (SOAP-02) study.

The 151 patients with cancer who participated in this study were mostly elderly, the authors noted (75% were older than 65 years; the median age was 73 years). The majority (63%) had solid-tumor malignancies. Of those, 8% had late-stage disease and had been living with their cancer for more than 24 months.

The healthy control persons were vaccine-eligible primary health care workers who were not age matched to the cancer patients.

All participants received the first dose of vaccine; 31 (of 151) patients with cancer and 16 (of 54) healthy control persons received the second dose on day 21.

The remaining participants were scheduled to receive their second dose 12 weeks later (after the study ended), in line with the changes in the national guidelines.

The team reported that, approximately 21 days after receiving the first vaccine dose, the immune efficacy of the vaccine was estimated to be 97% among healthy control persons vs. 39% for patients with solid tumors and only 13% for those with hematologic malignancies (P < .0001 for both).

T-cell responses, as assessed via interferon-gamma and/or interleukin-2 production, were observed in 82% of healthy control persons, 71% of patients with solid tumors, and 50% of those with hematologic cancers.

Vaccine boosting at day 21 resulted in immune efficacy of 100% for healthy control persons and 95% for patients with solid tumors. In contrast, only 43% of those who did not receive the second dose were seropositive 2 weeks later.

Further analysis suggested that participants who did not have a serologic response were “spread evenly” across different cancer types, but the reduced responses were more frequent among patients who had received the vaccine within 15 days of cancer treatment, especially chemotherapy, and had undergone intensive treatments.

The SOAP study is sponsored by King’s College London and Guy’s and St. Thomas Trust Foundation NHS Trust. It is funded from grants from the KCL Charity, Cancer Research UK, and program grants from Breast Cancer Now. The investigators have disclosed no relevant financial relationships.

A version of this article first appeared on Medscape.com.

An international survey provides new insights into how COVID-19 has affected, and may continue to affect, the field of oncology.

The survey showed that “COVID-19 has had a major impact on the organization of patient care, on the well-being of caregivers, on continued medical education, and on clinical trial activities in oncology,” stated Guy Jerusalem, MD, PhD, of Centre Hospitalier Universitaire de Liège (Belgium).

Dr. Jerusalem presented these findings at the European Society for Medical Oncology Virtual Congress 2020.

The survey was distributed by 20 oncologists from 10 of the countries most affected by COVID-19. Responses were obtained from 109 oncologists representing centers in 18 countries. The responses were recorded between June 17 and July 14, 2020.

The survey consisted of 95 items intended to evaluate the impact of COVID-19 on the organization of oncologic care. Questions encompassed the capacity and service offered at each center, the magnitude of COVID-19–based care interruptions and the reasons for them, the ensuing challenges faced, interventions implemented, and the estimated harms to patients during the pandemic.

The 109 oncologists surveyed had a median of 20 years of oncology experience. A majority of respondents were men (61.5%), and the median age was 48.5 years.

The respondents had worked predominantly (62.4%) at academic hospitals, with 29.6% at community hospitals. Most respondents worked at general hospitals with an oncology unit (66.1%) rather than a specialized separate cancer center (32.1%).

The most common specialty was breast cancer (60.6%), followed by gastrointestinal cancer (10.1%), urogenital cancer (9.2%), and lung cancer (8.3%).
 

Impact on treatment

The treatment modalities affected by the pandemic – through cancellations or delays in more than 10% of patients – included surgery (in 34% of centers), chemotherapy (22%), radiotherapy (13.7%), checkpoint inhibitor therapy (9.1%), monoclonal antibodies (9%), and oral targeted therapy (3.7%).

Among oncologists treating breast cancer, cancellations/delays in more than 10% of patients were reported for everolimus (18%), CDK4/6 inhibitors (8.9%), and endocrine therapy (2.2%).

Overall, 34.8% of respondents reported increased use of granulocyte colony–stimulating factor, and 6.4% reported increased use of erythropoietin.

On the other hand, 11.1% of respondents reported a decrease in the use of double immunotherapy, and 21.9% reported decreased use of corticosteroids.

Not only can the immunosuppressive effects of steroid use increase infection risks, Dr. Jerusalem noted, fever suppression can lead to a delayed diagnosis of COVID-19.

“To circumvent potential higher infection risks or greater disease severity, we use lower doses of steroids, but this is not based on studies,” he said.

“Previous exposure to steroids or being on steroids at the time of COVID-19 infection is a detrimental factor for complications and mortality,” commented ESMO President Solange Peters, MD, PhD, of Centre Hospitalier Universitaire Vaudois in Lausanne, Switzerland.

Frontline Medical News

Dr. Peters noted that the observation was based on lung cancer registry findings. Furthermore, because data from smaller outbreaks of other coronavirus infections suggested worse prognosis and increased mortality, steroid use was already feared in the very early days of the COVID-19 pandemic.

Lastly, earlier cessation of palliative treatment was observed in 32.1% of centers, and 64.2% of respondents agreed that undertreatment because of COVID-19 is a major concern.

Dr. Jerusalem noted that the survey data do not explain the early cessation of palliative treatment. “I suspect that many patients died at home rather than alone in institutions because it was the only way they could die with their families around them.”
 

Telehealth, meetings, and trials

The survey also revealed rationales for the use of teleconsultation, including follow-up (94.5%), oral therapy (92.7%), immunotherapy (57.8%), and chemotherapy (55%).

Most respondents reported more frequent use of virtual meetings for continuing medical education (94%), oncologic team meetings (92%), and tumor boards (82%).

While about 82% of respondents said they were likely to continue the use of telemedicine, 45% said virtual conferences are not an acceptable alternative to live international conferences such as ESMO, Dr. Jerusalem said.

Finally, nearly three-quarters of respondents (72.5%) said all clinical trial activities are or will soon be activated, or never stopped, at their centers. On the other hand, 27.5% of respondents reported that their centers had major protocol violations or deviations, and 37% of respondents said they expect significant reductions in clinical trial activities this year.

Dr. Jerusalem concluded that COVID-19 is having a major, long-term impact on the organization of patient care, caregivers, continued medical education, and clinical trial activities in oncology.

He cautioned that “the risk of a delayed diagnosis of new cancers and economic consequences of COVID-19 on access to health care and cancer treatments have to be carefully evaluated.”

This research was funded by Fondation Léon Fredericq. Dr. Jerusalem disclosed relationships with Novartis, Roche, Lilly, Pfizer, Amgen, Bristol-Myers Squibb, AstraZeneca, Daiichi Sankyo, AbbVie, MedImmune, and Merck. Dr. Peters disclosed relationships with AbbVie, Amgen, AstraZeneca, and many other companies.

SOURCE: Jerusalem G et al. ESMO 2020, Abstract LBA76.

An international survey provides new insights into how COVID-19 has affected, and may continue to affect, the field of oncology.

The survey showed that “COVID-19 has had a major impact on the organization of patient care, on the well-being of caregivers, on continued medical education, and on clinical trial activities in oncology,” stated Guy Jerusalem, MD, PhD, of Centre Hospitalier Universitaire de Liège (Belgium).

Dr. Jerusalem presented these findings at the European Society for Medical Oncology Virtual Congress 2020.

The survey was distributed by 20 oncologists from 10 of the countries most affected by COVID-19. Responses were obtained from 109 oncologists representing centers in 18 countries. The responses were recorded between June 17 and July 14, 2020.

The survey consisted of 95 items intended to evaluate the impact of COVID-19 on the organization of oncologic care. Questions encompassed the capacity and service offered at each center, the magnitude of COVID-19–based care interruptions and the reasons for them, the ensuing challenges faced, interventions implemented, and the estimated harms to patients during the pandemic.

The 109 oncologists surveyed had a median of 20 years of oncology experience. A majority of respondents were men (61.5%), and the median age was 48.5 years.

The respondents had worked predominantly (62.4%) at academic hospitals, with 29.6% at community hospitals. Most respondents worked at general hospitals with an oncology unit (66.1%) rather than a specialized separate cancer center (32.1%).

The most common specialty was breast cancer (60.6%), followed by gastrointestinal cancer (10.1%), urogenital cancer (9.2%), and lung cancer (8.3%).
 

Impact on treatment

The treatment modalities affected by the pandemic – through cancellations or delays in more than 10% of patients – included surgery (in 34% of centers), chemotherapy (22%), radiotherapy (13.7%), checkpoint inhibitor therapy (9.1%), monoclonal antibodies (9%), and oral targeted therapy (3.7%).

Among oncologists treating breast cancer, cancellations/delays in more than 10% of patients were reported for everolimus (18%), CDK4/6 inhibitors (8.9%), and endocrine therapy (2.2%).

Overall, 34.8% of respondents reported increased use of granulocyte colony–stimulating factor, and 6.4% reported increased use of erythropoietin.

On the other hand, 11.1% of respondents reported a decrease in the use of double immunotherapy, and 21.9% reported decreased use of corticosteroids.

Not only can the immunosuppressive effects of steroid use increase infection risks, Dr. Jerusalem noted, fever suppression can lead to a delayed diagnosis of COVID-19.

“To circumvent potential higher infection risks or greater disease severity, we use lower doses of steroids, but this is not based on studies,” he said.

“Previous exposure to steroids or being on steroids at the time of COVID-19 infection is a detrimental factor for complications and mortality,” commented ESMO President Solange Peters, MD, PhD, of Centre Hospitalier Universitaire Vaudois in Lausanne, Switzerland.

Frontline Medical News

Dr. Peters noted that the observation was based on lung cancer registry findings. Furthermore, because data from smaller outbreaks of other coronavirus infections suggested worse prognosis and increased mortality, steroid use was already feared in the very early days of the COVID-19 pandemic.

Lastly, earlier cessation of palliative treatment was observed in 32.1% of centers, and 64.2% of respondents agreed that undertreatment because of COVID-19 is a major concern.

Dr. Jerusalem noted that the survey data do not explain the early cessation of palliative treatment. “I suspect that many patients died at home rather than alone in institutions because it was the only way they could die with their families around them.”
 

Telehealth, meetings, and trials

The survey also revealed rationales for the use of teleconsultation, including follow-up (94.5%), oral therapy (92.7%), immunotherapy (57.8%), and chemotherapy (55%).

Most respondents reported more frequent use of virtual meetings for continuing medical education (94%), oncologic team meetings (92%), and tumor boards (82%).

While about 82% of respondents said they were likely to continue the use of telemedicine, 45% said virtual conferences are not an acceptable alternative to live international conferences such as ESMO, Dr. Jerusalem said.

Finally, nearly three-quarters of respondents (72.5%) said all clinical trial activities are or will soon be activated, or never stopped, at their centers. On the other hand, 27.5% of respondents reported that their centers had major protocol violations or deviations, and 37% of respondents said they expect significant reductions in clinical trial activities this year.

Dr. Jerusalem concluded that COVID-19 is having a major, long-term impact on the organization of patient care, caregivers, continued medical education, and clinical trial activities in oncology.

He cautioned that “the risk of a delayed diagnosis of new cancers and economic consequences of COVID-19 on access to health care and cancer treatments have to be carefully evaluated.”

This research was funded by Fondation Léon Fredericq. Dr. Jerusalem disclosed relationships with Novartis, Roche, Lilly, Pfizer, Amgen, Bristol-Myers Squibb, AstraZeneca, Daiichi Sankyo, AbbVie, MedImmune, and Merck. Dr. Peters disclosed relationships with AbbVie, Amgen, AstraZeneca, and many other companies.

SOURCE: Jerusalem G et al. ESMO 2020, Abstract LBA76.

An international survey provides new insights into how COVID-19 has affected, and may continue to affect, the field of oncology.

The survey showed that “COVID-19 has had a major impact on the organization of patient care, on the well-being of caregivers, on continued medical education, and on clinical trial activities in oncology,” stated Guy Jerusalem, MD, PhD, of Centre Hospitalier Universitaire de Liège (Belgium).

Dr. Jerusalem presented these findings at the European Society for Medical Oncology Virtual Congress 2020.

The survey was distributed by 20 oncologists from 10 of the countries most affected by COVID-19. Responses were obtained from 109 oncologists representing centers in 18 countries. The responses were recorded between June 17 and July 14, 2020.

The survey consisted of 95 items intended to evaluate the impact of COVID-19 on the organization of oncologic care. Questions encompassed the capacity and service offered at each center, the magnitude of COVID-19–based care interruptions and the reasons for them, the ensuing challenges faced, interventions implemented, and the estimated harms to patients during the pandemic.

The 109 oncologists surveyed had a median of 20 years of oncology experience. A majority of respondents were men (61.5%), and the median age was 48.5 years.

The respondents had worked predominantly (62.4%) at academic hospitals, with 29.6% at community hospitals. Most respondents worked at general hospitals with an oncology unit (66.1%) rather than a specialized separate cancer center (32.1%).

The most common specialty was breast cancer (60.6%), followed by gastrointestinal cancer (10.1%), urogenital cancer (9.2%), and lung cancer (8.3%).
 

Impact on treatment

The treatment modalities affected by the pandemic – through cancellations or delays in more than 10% of patients – included surgery (in 34% of centers), chemotherapy (22%), radiotherapy (13.7%), checkpoint inhibitor therapy (9.1%), monoclonal antibodies (9%), and oral targeted therapy (3.7%).

Among oncologists treating breast cancer, cancellations/delays in more than 10% of patients were reported for everolimus (18%), CDK4/6 inhibitors (8.9%), and endocrine therapy (2.2%).

Overall, 34.8% of respondents reported increased use of granulocyte colony–stimulating factor, and 6.4% reported increased use of erythropoietin.

On the other hand, 11.1% of respondents reported a decrease in the use of double immunotherapy, and 21.9% reported decreased use of corticosteroids.

Not only can the immunosuppressive effects of steroid use increase infection risks, Dr. Jerusalem noted, fever suppression can lead to a delayed diagnosis of COVID-19.

“To circumvent potential higher infection risks or greater disease severity, we use lower doses of steroids, but this is not based on studies,” he said.

“Previous exposure to steroids or being on steroids at the time of COVID-19 infection is a detrimental factor for complications and mortality,” commented ESMO President Solange Peters, MD, PhD, of Centre Hospitalier Universitaire Vaudois in Lausanne, Switzerland.

Frontline Medical News

Dr. Peters noted that the observation was based on lung cancer registry findings. Furthermore, because data from smaller outbreaks of other coronavirus infections suggested worse prognosis and increased mortality, steroid use was already feared in the very early days of the COVID-19 pandemic.

Lastly, earlier cessation of palliative treatment was observed in 32.1% of centers, and 64.2% of respondents agreed that undertreatment because of COVID-19 is a major concern.

Dr. Jerusalem noted that the survey data do not explain the early cessation of palliative treatment. “I suspect that many patients died at home rather than alone in institutions because it was the only way they could die with their families around them.”
 

Telehealth, meetings, and trials

The survey also revealed rationales for the use of teleconsultation, including follow-up (94.5%), oral therapy (92.7%), immunotherapy (57.8%), and chemotherapy (55%).

Most respondents reported more frequent use of virtual meetings for continuing medical education (94%), oncologic team meetings (92%), and tumor boards (82%).

While about 82% of respondents said they were likely to continue the use of telemedicine, 45% said virtual conferences are not an acceptable alternative to live international conferences such as ESMO, Dr. Jerusalem said.

Finally, nearly three-quarters of respondents (72.5%) said all clinical trial activities are or will soon be activated, or never stopped, at their centers. On the other hand, 27.5% of respondents reported that their centers had major protocol violations or deviations, and 37% of respondents said they expect significant reductions in clinical trial activities this year.

Dr. Jerusalem concluded that COVID-19 is having a major, long-term impact on the organization of patient care, caregivers, continued medical education, and clinical trial activities in oncology.

He cautioned that “the risk of a delayed diagnosis of new cancers and economic consequences of COVID-19 on access to health care and cancer treatments have to be carefully evaluated.”

This research was funded by Fondation Léon Fredericq. Dr. Jerusalem disclosed relationships with Novartis, Roche, Lilly, Pfizer, Amgen, Bristol-Myers Squibb, AstraZeneca, Daiichi Sankyo, AbbVie, MedImmune, and Merck. Dr. Peters disclosed relationships with AbbVie, Amgen, AstraZeneca, and many other companies.

SOURCE: Jerusalem G et al. ESMO 2020, Abstract LBA76.

All patients with cancer who are candidates for systemic anticancer therapy should be screened for hepatitis B virus (HBV) infection prior to or at the start of therapy, according to an updated provisional clinical opinion (PCO) from the American Society of Clinical Oncology.

“This is a new approach [that] will actively take system changes ... but it will ultimately be safer for patients – and that is crucial,” commented Jessica P. Hwang, MD, MPH, cochair of the American Society of Clinical Oncology HBV Screening Expert Panel and the first author of the PCO.

Uptake of this universal screening approach would streamline testing protocols and identify more patients at risk for HBV reactivation who should receive prophylactic antiviral therapy, Dr. Hwang said in an interview.

The PCO calls for antiviral prophylaxis during and for at least 12 months after therapy for those with chronic HBV infection who are receiving any systemic anticancer treatment and for those with have had HBV in the past and are receiving any therapies that pose a risk for HBV reactivation.

“Hepatitis B reactivation can cause really terrible outcomes, like organ failure and even death,” Dr. Hwang, who is also a professor at the University of Texas MD Anderson Cancer Center, Houston, commented in an interview.

“This whole [issue of] reactivation and adverse outcomes with anticancer therapies is completely preventable with good planning, good communication, comanagement with specialists, and antiviral therapy and monitoring,” she added.

The updated opinion was published online July 27 in the Journal of Clinical Oncology.

It was developed in response to new data that call into question the previously recommended risk-adaptive approach to HBV screening of cancer patients, say the authors.

ASCO PCOs are developed “to provide timely clinical guidance” on the basis of emerging practice-changing information. This is the second update to follow the initial HBV screening PCO, published in 2010. In the absence of clear consensus because of limited data, the original PCO called for a risk-based approach to screening. A 2015 update extended the recommendation for screening to patients starting anti-CD20 therapy or who are to undergo stem cell transplant and to those with risk factors for HBV exposure.

The current update provides “a clinically pragmatic approach to HBV screening and management” that is based on the latest findings, say the authors. These include findings from a multicenter prospective cohort study of more than 3000 patients. In that study, 21% of patients with chronic HBV had no known risk factors for the infection. In another large prospective observational cohort study, led by Dr. Hwang, which included more than 2100 patients with cancer, 90% had one or more significant risk factors for HBV infection, making selective screening “inefficient and impractical,” she said.

“The results of these two studies suggest that a universal screening approach, its potential harms (e.g., patient and clinician anxiety about management, financial burden associated with antiviral therapy) notwithstanding, is the most efficient, clinically pragmatic approach to HBV screening in persons anticipating systemic anticancer treatment,” the authors comment.

The screening recommended in the PCO requires three tests: hepatitis B surface antigen (HBsAg), core antibody total immunoglobulin or IgG, and antibody to HBsAg tests.

Anticancer therapy should not be delayed pending the results, they write.

Planning for monitoring and long-term prophylaxis for chronic HBV infection should involve a clinician experienced in HBV management, the authors write. Management of those with past infection should be individualized. Alternatively, patients with past infection can be carefully monitored rather than given prophylactic treatment, as long as frequent and consistent follow-up is possible to allow for rapid initiation of antiviral therapy in the event of reactivation, they say.

Hormonal therapy without systemic anticancer therapy is not likely to lead to HBV reactivation in patients with chronic or past infection; antiviral therapy and management of these patients should follow relevant national HBV guidelines, they note.

Challenges in implementing universal HBV screening

The expert panel acknowledges the challenges associated with implementation of universal HBV screening as recommended in their report and notes that electronic health record–based approaches that use alerts to prompt screening have demonstrated success. In one study of high-risk primary care patients, an EHR alert system significantly increased testing rates (odds ratio, 2.64 in comparison with a control group without alerts), and another study that used a simple “sticky-note” alert system to promote referral of HBsAg patients to hepatologists increased referrals from 28% to 73%.

In a cancer population, a “comprehensive set of multimodal interventions,” including pharmacy staff checks for screening prior to anti-CD20 therapy administration and electronic medication order reviews to assess for appropriate testing and treatment before anti-CD20 therapy, increased testing rates to greater than 90% and antiviral prophylaxis rates to more than 80%.

A study of 965 patients in Taiwan showed that a computer-assisted reminder system that prompted for testing prior to ordering anticancer therapy increased screening from 8% to 86% but was less effective for improving the rates of antiviral prophylaxis for those who tested positive for HBV, particularly among physicians treating patients with nonhematologic malignancies.

“Future studies will be needed to make universal HBV screening and linkage to care efficient and systematic, likely based in EHR systems,” the panel says. The authors note that “[o]ngoing studies of HBV tests such as ultrasensitive HBsAg, HBV RNA, and hepatitis B core antigen are being studied and may be useful in predicting risk of HBV reactivation.”

The panel also identified a research gap related to HBV reactivation risks “for the growing list of agents that deplete or modulate B cells.” It notes a need for additional research on the cost-effectiveness of HBV screening. The results of prior cost analyses have been inconsistent and vary with respect to the population studied. For example, universal screening and antiviral prophylaxis approaches have been shown to be cost-effective for patients with hematologic malignancies and high HBV reactivation risk but are less so for patients with solid tumors and lower reactivation risk, they explain.

Dr. Hwang said that not one of the more than 2100 patients in her HBV screening cohort study encountered problems with receiving insurance payment for their HBV screening.

“That’s a really strong statement that insurance payers are accepting of this kind of preventative service,” she said.

Expert panel cochair Andrew Artz, MD, commented that there is now greater acceptance of the need for HBV screening across medical specialties.

“There’s growing consensus among hepatologists, infectious disease specialists, oncologists, and HBV specialists that we need to do a better job of finding patients with hepatitis B [who are] about to receive immunocompromising treatment,” Dr. Artz said in an interview.

Dr. Artz is director of the Program for Aging and Blood Cancers and deputy director of the Center for Cancer and Aging at City of Hope Comprehensive Cancer Center, Duarte, California.

He suggested that the growing acceptance is due in part to the increasing number of anticancer therapies available and the resulting increase in the likelihood of patients receiving therapies that could cause reactivation.

More therapies – and more lines of therapy – could mean greater risk, he explained. He said that testing is easy and that universal screening is the simplest approach to determining who needs it. “There’s no question we will have to change practice,” Dr. Artz said in an interview. “But this is easier than the previous approach that essentially wasn’t being followed because it was too difficult to follow and patients were being missed.”

Most clinicians will appreciate having an approach that’s easier to follow, Dr. Artz predicted.

If there’s a challenge it will be in developing partnerships with HBV specialists, particularly in rural areas. In areas where there is a paucity of subspecialists, oncologists will have to “take some ownership of the issue,” as they often do in such settings, he said.

However, with support from pharmacists, administrators, and others in embracing this guidance, implementation can take place at a systems level rather than an individual clinician level, he added.

The recommendations in this updated PCO were all rated as “strong,” with the exception of the recommendation on hormonal therapy in the absence of systemic anticancer therapy, which was rated as “moderate.” All were based on “informal consensus,” with the exception of the key recommendation for universal HBV screening – use of three specific tests – which was “evidence based.”

The expert panel agreed that the benefits outweigh the harms for each recommendation in the update.

Dr. Hwang received research funding to her institution from Gilead Sciences and Merck Sharp & Dohme. She also has a relationship with the Asian Health Foundation. Dr. Artz received research funding from Miltenyi Biotec. All expert panel members’ disclosures are available in the PCO update.

This article first appeared on Medscape.com.

All patients with cancer who are candidates for systemic anticancer therapy should be screened for hepatitis B virus (HBV) infection prior to or at the start of therapy, according to an updated provisional clinical opinion (PCO) from the American Society of Clinical Oncology.

“This is a new approach [that] will actively take system changes ... but it will ultimately be safer for patients – and that is crucial,” commented Jessica P. Hwang, MD, MPH, cochair of the American Society of Clinical Oncology HBV Screening Expert Panel and the first author of the PCO.

Uptake of this universal screening approach would streamline testing protocols and identify more patients at risk for HBV reactivation who should receive prophylactic antiviral therapy, Dr. Hwang said in an interview.

The PCO calls for antiviral prophylaxis during and for at least 12 months after therapy for those with chronic HBV infection who are receiving any systemic anticancer treatment and for those with have had HBV in the past and are receiving any therapies that pose a risk for HBV reactivation.

“Hepatitis B reactivation can cause really terrible outcomes, like organ failure and even death,” Dr. Hwang, who is also a professor at the University of Texas MD Anderson Cancer Center, Houston, commented in an interview.

“This whole [issue of] reactivation and adverse outcomes with anticancer therapies is completely preventable with good planning, good communication, comanagement with specialists, and antiviral therapy and monitoring,” she added.

The updated opinion was published online July 27 in the Journal of Clinical Oncology.

It was developed in response to new data that call into question the previously recommended risk-adaptive approach to HBV screening of cancer patients, say the authors.

ASCO PCOs are developed “to provide timely clinical guidance” on the basis of emerging practice-changing information. This is the second update to follow the initial HBV screening PCO, published in 2010. In the absence of clear consensus because of limited data, the original PCO called for a risk-based approach to screening. A 2015 update extended the recommendation for screening to patients starting anti-CD20 therapy or who are to undergo stem cell transplant and to those with risk factors for HBV exposure.

The current update provides “a clinically pragmatic approach to HBV screening and management” that is based on the latest findings, say the authors. These include findings from a multicenter prospective cohort study of more than 3000 patients. In that study, 21% of patients with chronic HBV had no known risk factors for the infection. In another large prospective observational cohort study, led by Dr. Hwang, which included more than 2100 patients with cancer, 90% had one or more significant risk factors for HBV infection, making selective screening “inefficient and impractical,” she said.

“The results of these two studies suggest that a universal screening approach, its potential harms (e.g., patient and clinician anxiety about management, financial burden associated with antiviral therapy) notwithstanding, is the most efficient, clinically pragmatic approach to HBV screening in persons anticipating systemic anticancer treatment,” the authors comment.

The screening recommended in the PCO requires three tests: hepatitis B surface antigen (HBsAg), core antibody total immunoglobulin or IgG, and antibody to HBsAg tests.

Anticancer therapy should not be delayed pending the results, they write.

Planning for monitoring and long-term prophylaxis for chronic HBV infection should involve a clinician experienced in HBV management, the authors write. Management of those with past infection should be individualized. Alternatively, patients with past infection can be carefully monitored rather than given prophylactic treatment, as long as frequent and consistent follow-up is possible to allow for rapid initiation of antiviral therapy in the event of reactivation, they say.

Hormonal therapy without systemic anticancer therapy is not likely to lead to HBV reactivation in patients with chronic or past infection; antiviral therapy and management of these patients should follow relevant national HBV guidelines, they note.

Challenges in implementing universal HBV screening

The expert panel acknowledges the challenges associated with implementation of universal HBV screening as recommended in their report and notes that electronic health record–based approaches that use alerts to prompt screening have demonstrated success. In one study of high-risk primary care patients, an EHR alert system significantly increased testing rates (odds ratio, 2.64 in comparison with a control group without alerts), and another study that used a simple “sticky-note” alert system to promote referral of HBsAg patients to hepatologists increased referrals from 28% to 73%.

In a cancer population, a “comprehensive set of multimodal interventions,” including pharmacy staff checks for screening prior to anti-CD20 therapy administration and electronic medication order reviews to assess for appropriate testing and treatment before anti-CD20 therapy, increased testing rates to greater than 90% and antiviral prophylaxis rates to more than 80%.

A study of 965 patients in Taiwan showed that a computer-assisted reminder system that prompted for testing prior to ordering anticancer therapy increased screening from 8% to 86% but was less effective for improving the rates of antiviral prophylaxis for those who tested positive for HBV, particularly among physicians treating patients with nonhematologic malignancies.

“Future studies will be needed to make universal HBV screening and linkage to care efficient and systematic, likely based in EHR systems,” the panel says. The authors note that “[o]ngoing studies of HBV tests such as ultrasensitive HBsAg, HBV RNA, and hepatitis B core antigen are being studied and may be useful in predicting risk of HBV reactivation.”

The panel also identified a research gap related to HBV reactivation risks “for the growing list of agents that deplete or modulate B cells.” It notes a need for additional research on the cost-effectiveness of HBV screening. The results of prior cost analyses have been inconsistent and vary with respect to the population studied. For example, universal screening and antiviral prophylaxis approaches have been shown to be cost-effective for patients with hematologic malignancies and high HBV reactivation risk but are less so for patients with solid tumors and lower reactivation risk, they explain.

Dr. Hwang said that not one of the more than 2100 patients in her HBV screening cohort study encountered problems with receiving insurance payment for their HBV screening.

“That’s a really strong statement that insurance payers are accepting of this kind of preventative service,” she said.

Expert panel cochair Andrew Artz, MD, commented that there is now greater acceptance of the need for HBV screening across medical specialties.

“There’s growing consensus among hepatologists, infectious disease specialists, oncologists, and HBV specialists that we need to do a better job of finding patients with hepatitis B [who are] about to receive immunocompromising treatment,” Dr. Artz said in an interview.

Dr. Artz is director of the Program for Aging and Blood Cancers and deputy director of the Center for Cancer and Aging at City of Hope Comprehensive Cancer Center, Duarte, California.

He suggested that the growing acceptance is due in part to the increasing number of anticancer therapies available and the resulting increase in the likelihood of patients receiving therapies that could cause reactivation.

More therapies – and more lines of therapy – could mean greater risk, he explained. He said that testing is easy and that universal screening is the simplest approach to determining who needs it. “There’s no question we will have to change practice,” Dr. Artz said in an interview. “But this is easier than the previous approach that essentially wasn’t being followed because it was too difficult to follow and patients were being missed.”

Most clinicians will appreciate having an approach that’s easier to follow, Dr. Artz predicted.

If there’s a challenge it will be in developing partnerships with HBV specialists, particularly in rural areas. In areas where there is a paucity of subspecialists, oncologists will have to “take some ownership of the issue,” as they often do in such settings, he said.

However, with support from pharmacists, administrators, and others in embracing this guidance, implementation can take place at a systems level rather than an individual clinician level, he added.

The recommendations in this updated PCO were all rated as “strong,” with the exception of the recommendation on hormonal therapy in the absence of systemic anticancer therapy, which was rated as “moderate.” All were based on “informal consensus,” with the exception of the key recommendation for universal HBV screening – use of three specific tests – which was “evidence based.”

The expert panel agreed that the benefits outweigh the harms for each recommendation in the update.

Dr. Hwang received research funding to her institution from Gilead Sciences and Merck Sharp & Dohme. She also has a relationship with the Asian Health Foundation. Dr. Artz received research funding from Miltenyi Biotec. All expert panel members’ disclosures are available in the PCO update.

This article first appeared on Medscape.com.

All patients with cancer who are candidates for systemic anticancer therapy should be screened for hepatitis B virus (HBV) infection prior to or at the start of therapy, according to an updated provisional clinical opinion (PCO) from the American Society of Clinical Oncology.

“This is a new approach [that] will actively take system changes ... but it will ultimately be safer for patients – and that is crucial,” commented Jessica P. Hwang, MD, MPH, cochair of the American Society of Clinical Oncology HBV Screening Expert Panel and the first author of the PCO.

Uptake of this universal screening approach would streamline testing protocols and identify more patients at risk for HBV reactivation who should receive prophylactic antiviral therapy, Dr. Hwang said in an interview.

The PCO calls for antiviral prophylaxis during and for at least 12 months after therapy for those with chronic HBV infection who are receiving any systemic anticancer treatment and for those with have had HBV in the past and are receiving any therapies that pose a risk for HBV reactivation.

“Hepatitis B reactivation can cause really terrible outcomes, like organ failure and even death,” Dr. Hwang, who is also a professor at the University of Texas MD Anderson Cancer Center, Houston, commented in an interview.

“This whole [issue of] reactivation and adverse outcomes with anticancer therapies is completely preventable with good planning, good communication, comanagement with specialists, and antiviral therapy and monitoring,” she added.

The updated opinion was published online July 27 in the Journal of Clinical Oncology.

It was developed in response to new data that call into question the previously recommended risk-adaptive approach to HBV screening of cancer patients, say the authors.

ASCO PCOs are developed “to provide timely clinical guidance” on the basis of emerging practice-changing information. This is the second update to follow the initial HBV screening PCO, published in 2010. In the absence of clear consensus because of limited data, the original PCO called for a risk-based approach to screening. A 2015 update extended the recommendation for screening to patients starting anti-CD20 therapy or who are to undergo stem cell transplant and to those with risk factors for HBV exposure.

The current update provides “a clinically pragmatic approach to HBV screening and management” that is based on the latest findings, say the authors. These include findings from a multicenter prospective cohort study of more than 3000 patients. In that study, 21% of patients with chronic HBV had no known risk factors for the infection. In another large prospective observational cohort study, led by Dr. Hwang, which included more than 2100 patients with cancer, 90% had one or more significant risk factors for HBV infection, making selective screening “inefficient and impractical,” she said.

“The results of these two studies suggest that a universal screening approach, its potential harms (e.g., patient and clinician anxiety about management, financial burden associated with antiviral therapy) notwithstanding, is the most efficient, clinically pragmatic approach to HBV screening in persons anticipating systemic anticancer treatment,” the authors comment.

The screening recommended in the PCO requires three tests: hepatitis B surface antigen (HBsAg), core antibody total immunoglobulin or IgG, and antibody to HBsAg tests.

Anticancer therapy should not be delayed pending the results, they write.

Planning for monitoring and long-term prophylaxis for chronic HBV infection should involve a clinician experienced in HBV management, the authors write. Management of those with past infection should be individualized. Alternatively, patients with past infection can be carefully monitored rather than given prophylactic treatment, as long as frequent and consistent follow-up is possible to allow for rapid initiation of antiviral therapy in the event of reactivation, they say.

Hormonal therapy without systemic anticancer therapy is not likely to lead to HBV reactivation in patients with chronic or past infection; antiviral therapy and management of these patients should follow relevant national HBV guidelines, they note.

Challenges in implementing universal HBV screening

The expert panel acknowledges the challenges associated with implementation of universal HBV screening as recommended in their report and notes that electronic health record–based approaches that use alerts to prompt screening have demonstrated success. In one study of high-risk primary care patients, an EHR alert system significantly increased testing rates (odds ratio, 2.64 in comparison with a control group without alerts), and another study that used a simple “sticky-note” alert system to promote referral of HBsAg patients to hepatologists increased referrals from 28% to 73%.

In a cancer population, a “comprehensive set of multimodal interventions,” including pharmacy staff checks for screening prior to anti-CD20 therapy administration and electronic medication order reviews to assess for appropriate testing and treatment before anti-CD20 therapy, increased testing rates to greater than 90% and antiviral prophylaxis rates to more than 80%.

A study of 965 patients in Taiwan showed that a computer-assisted reminder system that prompted for testing prior to ordering anticancer therapy increased screening from 8% to 86% but was less effective for improving the rates of antiviral prophylaxis for those who tested positive for HBV, particularly among physicians treating patients with nonhematologic malignancies.

“Future studies will be needed to make universal HBV screening and linkage to care efficient and systematic, likely based in EHR systems,” the panel says. The authors note that “[o]ngoing studies of HBV tests such as ultrasensitive HBsAg, HBV RNA, and hepatitis B core antigen are being studied and may be useful in predicting risk of HBV reactivation.”

The panel also identified a research gap related to HBV reactivation risks “for the growing list of agents that deplete or modulate B cells.” It notes a need for additional research on the cost-effectiveness of HBV screening. The results of prior cost analyses have been inconsistent and vary with respect to the population studied. For example, universal screening and antiviral prophylaxis approaches have been shown to be cost-effective for patients with hematologic malignancies and high HBV reactivation risk but are less so for patients with solid tumors and lower reactivation risk, they explain.

Dr. Hwang said that not one of the more than 2100 patients in her HBV screening cohort study encountered problems with receiving insurance payment for their HBV screening.

“That’s a really strong statement that insurance payers are accepting of this kind of preventative service,” she said.

Expert panel cochair Andrew Artz, MD, commented that there is now greater acceptance of the need for HBV screening across medical specialties.

“There’s growing consensus among hepatologists, infectious disease specialists, oncologists, and HBV specialists that we need to do a better job of finding patients with hepatitis B [who are] about to receive immunocompromising treatment,” Dr. Artz said in an interview.

Dr. Artz is director of the Program for Aging and Blood Cancers and deputy director of the Center for Cancer and Aging at City of Hope Comprehensive Cancer Center, Duarte, California.

He suggested that the growing acceptance is due in part to the increasing number of anticancer therapies available and the resulting increase in the likelihood of patients receiving therapies that could cause reactivation.

More therapies – and more lines of therapy – could mean greater risk, he explained. He said that testing is easy and that universal screening is the simplest approach to determining who needs it. “There’s no question we will have to change practice,” Dr. Artz said in an interview. “But this is easier than the previous approach that essentially wasn’t being followed because it was too difficult to follow and patients were being missed.”

Most clinicians will appreciate having an approach that’s easier to follow, Dr. Artz predicted.

If there’s a challenge it will be in developing partnerships with HBV specialists, particularly in rural areas. In areas where there is a paucity of subspecialists, oncologists will have to “take some ownership of the issue,” as they often do in such settings, he said.

However, with support from pharmacists, administrators, and others in embracing this guidance, implementation can take place at a systems level rather than an individual clinician level, he added.

The recommendations in this updated PCO were all rated as “strong,” with the exception of the recommendation on hormonal therapy in the absence of systemic anticancer therapy, which was rated as “moderate.” All were based on “informal consensus,” with the exception of the key recommendation for universal HBV screening – use of three specific tests – which was “evidence based.”

The expert panel agreed that the benefits outweigh the harms for each recommendation in the update.

Dr. Hwang received research funding to her institution from Gilead Sciences and Merck Sharp & Dohme. She also has a relationship with the Asian Health Foundation. Dr. Artz received research funding from Miltenyi Biotec. All expert panel members’ disclosures are available in the PCO update.

This article first appeared on Medscape.com.