Sarcoma & GIST

Best practices for managing cancer outpatients continue to evolve during the COVID-19 pandemic, with recent innovations in technology, operations, and communication.

“We’ve tried a lot of new things to ensure optimal care for our patients,” said Tiffany A. Traina, MD, of Memorial Sloan Kettering Cancer Center (MSKCC) in New York. “We need to effectively utilize all resources at our disposal to keep in touch with our patients during this time.”

Dr. Traina described the approach to outpatient management used at MSKCC during a presentation at the AACR Virtual Meeting: COVID-19 and Cancer.
 

Four guiding principles

MSKCC has established four guiding principles on how to manage cancer patients during the pandemic: openness, safety, technology, and staffing.

Openness ensures that decisions are guided by clinical priorities to provide optimal patient care and allow for prioritization of clinical research and education, Dr. Traina said.

The safety of patients and staff is of the utmost importance, she added. To ensure safety in the context of outpatient care, several operational levers were developed, including COVID surge planning, universal masking and personal protective equipment guidelines, remote work, clinical levers, and new dashboards and communications.

Dr. Traina said data analytics and dashboards have been key technological tools used to support evidence-based decision-making and deliver care remotely for patients during the pandemic.

Staffing resources have also shifted to support demand at different health system locations.
 

Screening, cohorting, and telemedicine

One measure MSKCC adopted is the MSK Engage Questionnaire, a COVID-19 screening questionnaire assigned to every patient with a scheduled outpatient visit. After completing the questionnaire, patients receive a response denoting whether they need to come into the outpatient setting.

On the staffing side, clinic coordinators prepare appointments accordingly, based on the risk level for each patient.

“We also try to cohort COVID-positive patients into particular areas within the outpatient setting,” Dr. Traina explained. “In addition, we control flow through ambulatory care locations by having separate patient entrances and use other tools to make flow as efficient as possible.”

On the technology side, interactive dashboards are being used to model traffic through different buildings.

“These data and analytics are useful for operational engineering, answering questions such as (1) Are there backups in chemotherapy? and (2) Are patients seeing one particular physician?” Dr. Traina explained. “One important key takeaway is the importance of frequently communicating simple messages through multiple mechanisms, including signage, websites, and dedicated resources.”

Other key technological measures are leveraging telemedicine to convert inpatient appointments to a virtual setting, as well as developing and deploying a system for centralized outpatient follow-up of COVID-19-positive patients.

“We saw a 3,000% increase in telemedicine utilization from February 2020 to June 2020,” Dr. Traina reported. “In a given month, we have approximately 230,000 outpatient visits, and a substantial proportion of these are now done via telemedicine.”

Dr. Traina also noted that multiple organizations have released guidelines addressing when to resume anticancer therapy in patients who have been COVID-19 positive. Adherence is important, as unnecessary COVID-19 testing may delay cancer therapy and is not recommended.

During a live discussion, Louis P. Voigt, MD, of MSKCC, said Dr. Traina’s presentation provided “a lot of good ideas for other institutions who may be facing similar challenges.”

Dr. Traina and Dr. Voigt disclosed no conflicts of interest. No funding sources were reported.

Best practices for managing cancer outpatients continue to evolve during the COVID-19 pandemic, with recent innovations in technology, operations, and communication.

“We’ve tried a lot of new things to ensure optimal care for our patients,” said Tiffany A. Traina, MD, of Memorial Sloan Kettering Cancer Center (MSKCC) in New York. “We need to effectively utilize all resources at our disposal to keep in touch with our patients during this time.”

Dr. Traina described the approach to outpatient management used at MSKCC during a presentation at the AACR Virtual Meeting: COVID-19 and Cancer.
 

Four guiding principles

MSKCC has established four guiding principles on how to manage cancer patients during the pandemic: openness, safety, technology, and staffing.

Openness ensures that decisions are guided by clinical priorities to provide optimal patient care and allow for prioritization of clinical research and education, Dr. Traina said.

The safety of patients and staff is of the utmost importance, she added. To ensure safety in the context of outpatient care, several operational levers were developed, including COVID surge planning, universal masking and personal protective equipment guidelines, remote work, clinical levers, and new dashboards and communications.

Dr. Traina said data analytics and dashboards have been key technological tools used to support evidence-based decision-making and deliver care remotely for patients during the pandemic.

Staffing resources have also shifted to support demand at different health system locations.
 

Screening, cohorting, and telemedicine

One measure MSKCC adopted is the MSK Engage Questionnaire, a COVID-19 screening questionnaire assigned to every patient with a scheduled outpatient visit. After completing the questionnaire, patients receive a response denoting whether they need to come into the outpatient setting.

On the staffing side, clinic coordinators prepare appointments accordingly, based on the risk level for each patient.

“We also try to cohort COVID-positive patients into particular areas within the outpatient setting,” Dr. Traina explained. “In addition, we control flow through ambulatory care locations by having separate patient entrances and use other tools to make flow as efficient as possible.”

On the technology side, interactive dashboards are being used to model traffic through different buildings.

“These data and analytics are useful for operational engineering, answering questions such as (1) Are there backups in chemotherapy? and (2) Are patients seeing one particular physician?” Dr. Traina explained. “One important key takeaway is the importance of frequently communicating simple messages through multiple mechanisms, including signage, websites, and dedicated resources.”

Other key technological measures are leveraging telemedicine to convert inpatient appointments to a virtual setting, as well as developing and deploying a system for centralized outpatient follow-up of COVID-19-positive patients.

“We saw a 3,000% increase in telemedicine utilization from February 2020 to June 2020,” Dr. Traina reported. “In a given month, we have approximately 230,000 outpatient visits, and a substantial proportion of these are now done via telemedicine.”

Dr. Traina also noted that multiple organizations have released guidelines addressing when to resume anticancer therapy in patients who have been COVID-19 positive. Adherence is important, as unnecessary COVID-19 testing may delay cancer therapy and is not recommended.

During a live discussion, Louis P. Voigt, MD, of MSKCC, said Dr. Traina’s presentation provided “a lot of good ideas for other institutions who may be facing similar challenges.”

Dr. Traina and Dr. Voigt disclosed no conflicts of interest. No funding sources were reported.

Best practices for managing cancer outpatients continue to evolve during the COVID-19 pandemic, with recent innovations in technology, operations, and communication.

“We’ve tried a lot of new things to ensure optimal care for our patients,” said Tiffany A. Traina, MD, of Memorial Sloan Kettering Cancer Center (MSKCC) in New York. “We need to effectively utilize all resources at our disposal to keep in touch with our patients during this time.”

Dr. Traina described the approach to outpatient management used at MSKCC during a presentation at the AACR Virtual Meeting: COVID-19 and Cancer.
 

Four guiding principles

MSKCC has established four guiding principles on how to manage cancer patients during the pandemic: openness, safety, technology, and staffing.

Openness ensures that decisions are guided by clinical priorities to provide optimal patient care and allow for prioritization of clinical research and education, Dr. Traina said.

The safety of patients and staff is of the utmost importance, she added. To ensure safety in the context of outpatient care, several operational levers were developed, including COVID surge planning, universal masking and personal protective equipment guidelines, remote work, clinical levers, and new dashboards and communications.

Dr. Traina said data analytics and dashboards have been key technological tools used to support evidence-based decision-making and deliver care remotely for patients during the pandemic.

Staffing resources have also shifted to support demand at different health system locations.
 

Screening, cohorting, and telemedicine

One measure MSKCC adopted is the MSK Engage Questionnaire, a COVID-19 screening questionnaire assigned to every patient with a scheduled outpatient visit. After completing the questionnaire, patients receive a response denoting whether they need to come into the outpatient setting.

On the staffing side, clinic coordinators prepare appointments accordingly, based on the risk level for each patient.

“We also try to cohort COVID-positive patients into particular areas within the outpatient setting,” Dr. Traina explained. “In addition, we control flow through ambulatory care locations by having separate patient entrances and use other tools to make flow as efficient as possible.”

On the technology side, interactive dashboards are being used to model traffic through different buildings.

“These data and analytics are useful for operational engineering, answering questions such as (1) Are there backups in chemotherapy? and (2) Are patients seeing one particular physician?” Dr. Traina explained. “One important key takeaway is the importance of frequently communicating simple messages through multiple mechanisms, including signage, websites, and dedicated resources.”

Other key technological measures are leveraging telemedicine to convert inpatient appointments to a virtual setting, as well as developing and deploying a system for centralized outpatient follow-up of COVID-19-positive patients.

“We saw a 3,000% increase in telemedicine utilization from February 2020 to June 2020,” Dr. Traina reported. “In a given month, we have approximately 230,000 outpatient visits, and a substantial proportion of these are now done via telemedicine.”

Dr. Traina also noted that multiple organizations have released guidelines addressing when to resume anticancer therapy in patients who have been COVID-19 positive. Adherence is important, as unnecessary COVID-19 testing may delay cancer therapy and is not recommended.

During a live discussion, Louis P. Voigt, MD, of MSKCC, said Dr. Traina’s presentation provided “a lot of good ideas for other institutions who may be facing similar challenges.”

Dr. Traina and Dr. Voigt disclosed no conflicts of interest. No funding sources were reported.

All patients receiving active cancer treatment should receive a COVID-19 vaccine and should be prioritized for vaccination, according to preliminary recommendations from the National Comprehensive Cancer Network (NCCN).

Vaccination timing considerations vary based on factors such as cancer and treatment type, and reasons for delaying vaccination in the general public also apply to cancer patients (recent COVID-19 exposure, for example).

In general, however, patients with cancer should be assigned to Centers for Disease Control and Prevention priority group 1 b/c and immunized when vaccination is available to them, the guidelines state. Exceptions to this recommendation include:

• Patients undergoing hematopoietic stem cell transplant or receiving engineered cellular therapy such as chimeric antigen receptor T-cell therapy. Vaccination should be delayed for at least 3 months in these patients to maximize vaccine efficacy. Caregivers of these patients, however, should be immunized when possible.
• Patients with hematologic malignancies who are receiving intensive cytotoxic chemotherapy, such as cytarabine- or anthracycline-based regimens for acute myeloid leukemia. Vaccination in these patients should be delayed until absolute neutrophil count recovery.
• Patients undergoing major surgery. Vaccination should occur at least a few days before or after surgery.
• Patients who have experienced a severe or immediate adverse reaction to any of the ingredients in the mRNA COVID-19 vaccines.

Conversely, vaccination should occur when available in patients with hematologic malignancies and marrow failure who are expected to have limited or no recovery, patients with hematologic malignancies who are on long-term maintenance therapy, and patients with solid tumors who are receiving cytotoxic chemotherapy, targeted therapy, checkpoint inhibitors and other immunotherapy, or radiotherapy.

Caregivers, household contacts, and other close contacts who are 16 years of age and older should be vaccinated whenever they are eligible.
 

Unique concerns in patients with cancer

The NCCN recommendations were developed to address the unique issues and concerns with respect to patients with cancer, who have an increased risk of severe illness from SARS-CoV-2 infection. But the guidelines come with a caveat: “[t]here are limited safety and efficacy data in these patients,” the NCCN emphasized in a press statement.

“Right now, there is urgent need and limited data,” Steven Pergam, MD, co-leader of the NCCN COVID-19 Vaccination Committee, said in the statement.

“Our number one goal is helping to get the vaccine to as many people as we can,” Dr. Pergam said. “That means following existing national and regional directions for prioritizing people who are more likely to face death or severe illness from COVID-19.”

Dr. Pergam, associate professor at Fred Hutchinson Cancer Research Center in Seattle, further explained that “people receiving active cancer treatment are at greater risk for worse outcomes from COVID-19, particularly if they are older and have additional comorbidities, like immunosuppression.”

NCCN’s recommendations couldn’t have come at a better time for patients with cancer, according to Nora Disis, MD, a professor at the University of Washington in Seattle.

“The NCCN’s recommendations to prioritize COVID vaccinations for cancer patients on active treatment is an important step forward in protecting our patients from the infection,” Dr. Disis said in an interview.

“Cancer patients may be at higher risk for the complications seen with infection. In addition, cancer is a disease of older people, and a good number of our patients have the comorbidities that would predict a poorer outcome if they should become sick,” Dr. Disis added. “With the correct treatment, many patients with cancer will be long-term survivors. It is important that they be protected from infection with COVID to realize their best outcome.”
 

Additional vaccine considerations

The NCCN recommendations also address several other issues of importance for cancer patients, including:

• Deprioritizing other vaccines. COVID-19 vaccines should take precedence over other vaccines because data on dual vaccination are lacking. The NCCN recommends waiting 14 days after COVID-19 vaccination to deliver other vaccines.
• Vaccinating clinical trial participants. Trial leads should be consulted to prevent protocol violations or exclusions.
• Decision-making in the setting of limited vaccine availability. The NCCN noted that decisions on allocation must be made in accordance with state and local vaccine guidance but suggests prioritizing appropriate patients on active treatment, those planning to start treatment, and those who have just completed treatment. Additional risk factors for these patients, as well as other factors associated with risk for adverse COVID-19 outcomes, should also be considered. These include advanced age, comorbidities, and adverse social and demographic factors such as poverty and limited health care access.
• The need for ongoing prevention measures. Vaccines have been shown to decrease the incidence of COVID-19 and related complications, but it remains unclear whether vaccines prevent infection and subsequent transmission. This means everyone should continue following prevention recommendations, such as wearing masks and avoiding crowds.

The NCCN stressed that these recommendations are “intended to be a living document that is constantly evolving – it will be updated rapidly whenever new data comes out, as well as any potential new vaccines that may get approved in the future.” The NCCN also noted that the advisory committee will meet regularly to refine the recommendations as needed.

Dr. Pergam disclosed relationships with Chimerix Inc., Merck & Co., Global Life Technologies Inc., and Sanofi-Aventis. Dr. Disis disclosed grants from Pfizer, Bavarian Nordisk, Janssen, and Precigen. She is the founder of EpiThany and editor-in-chief of JAMA Oncology.

sworcester@mdedge.com

All patients receiving active cancer treatment should receive a COVID-19 vaccine and should be prioritized for vaccination, according to preliminary recommendations from the National Comprehensive Cancer Network (NCCN).

Vaccination timing considerations vary based on factors such as cancer and treatment type, and reasons for delaying vaccination in the general public also apply to cancer patients (recent COVID-19 exposure, for example).

In general, however, patients with cancer should be assigned to Centers for Disease Control and Prevention priority group 1 b/c and immunized when vaccination is available to them, the guidelines state. Exceptions to this recommendation include:

• Patients undergoing hematopoietic stem cell transplant or receiving engineered cellular therapy such as chimeric antigen receptor T-cell therapy. Vaccination should be delayed for at least 3 months in these patients to maximize vaccine efficacy. Caregivers of these patients, however, should be immunized when possible.
• Patients with hematologic malignancies who are receiving intensive cytotoxic chemotherapy, such as cytarabine- or anthracycline-based regimens for acute myeloid leukemia. Vaccination in these patients should be delayed until absolute neutrophil count recovery.
• Patients undergoing major surgery. Vaccination should occur at least a few days before or after surgery.
• Patients who have experienced a severe or immediate adverse reaction to any of the ingredients in the mRNA COVID-19 vaccines.

Conversely, vaccination should occur when available in patients with hematologic malignancies and marrow failure who are expected to have limited or no recovery, patients with hematologic malignancies who are on long-term maintenance therapy, and patients with solid tumors who are receiving cytotoxic chemotherapy, targeted therapy, checkpoint inhibitors and other immunotherapy, or radiotherapy.

Caregivers, household contacts, and other close contacts who are 16 years of age and older should be vaccinated whenever they are eligible.
 

Unique concerns in patients with cancer

The NCCN recommendations were developed to address the unique issues and concerns with respect to patients with cancer, who have an increased risk of severe illness from SARS-CoV-2 infection. But the guidelines come with a caveat: “[t]here are limited safety and efficacy data in these patients,” the NCCN emphasized in a press statement.

“Right now, there is urgent need and limited data,” Steven Pergam, MD, co-leader of the NCCN COVID-19 Vaccination Committee, said in the statement.

“Our number one goal is helping to get the vaccine to as many people as we can,” Dr. Pergam said. “That means following existing national and regional directions for prioritizing people who are more likely to face death or severe illness from COVID-19.”

Dr. Pergam, associate professor at Fred Hutchinson Cancer Research Center in Seattle, further explained that “people receiving active cancer treatment are at greater risk for worse outcomes from COVID-19, particularly if they are older and have additional comorbidities, like immunosuppression.”

NCCN’s recommendations couldn’t have come at a better time for patients with cancer, according to Nora Disis, MD, a professor at the University of Washington in Seattle.

“The NCCN’s recommendations to prioritize COVID vaccinations for cancer patients on active treatment is an important step forward in protecting our patients from the infection,” Dr. Disis said in an interview.

“Cancer patients may be at higher risk for the complications seen with infection. In addition, cancer is a disease of older people, and a good number of our patients have the comorbidities that would predict a poorer outcome if they should become sick,” Dr. Disis added. “With the correct treatment, many patients with cancer will be long-term survivors. It is important that they be protected from infection with COVID to realize their best outcome.”
 

Additional vaccine considerations

The NCCN recommendations also address several other issues of importance for cancer patients, including:

• Deprioritizing other vaccines. COVID-19 vaccines should take precedence over other vaccines because data on dual vaccination are lacking. The NCCN recommends waiting 14 days after COVID-19 vaccination to deliver other vaccines.
• Vaccinating clinical trial participants. Trial leads should be consulted to prevent protocol violations or exclusions.
• Decision-making in the setting of limited vaccine availability. The NCCN noted that decisions on allocation must be made in accordance with state and local vaccine guidance but suggests prioritizing appropriate patients on active treatment, those planning to start treatment, and those who have just completed treatment. Additional risk factors for these patients, as well as other factors associated with risk for adverse COVID-19 outcomes, should also be considered. These include advanced age, comorbidities, and adverse social and demographic factors such as poverty and limited health care access.
• The need for ongoing prevention measures. Vaccines have been shown to decrease the incidence of COVID-19 and related complications, but it remains unclear whether vaccines prevent infection and subsequent transmission. This means everyone should continue following prevention recommendations, such as wearing masks and avoiding crowds.

The NCCN stressed that these recommendations are “intended to be a living document that is constantly evolving – it will be updated rapidly whenever new data comes out, as well as any potential new vaccines that may get approved in the future.” The NCCN also noted that the advisory committee will meet regularly to refine the recommendations as needed.

Dr. Pergam disclosed relationships with Chimerix Inc., Merck & Co., Global Life Technologies Inc., and Sanofi-Aventis. Dr. Disis disclosed grants from Pfizer, Bavarian Nordisk, Janssen, and Precigen. She is the founder of EpiThany and editor-in-chief of JAMA Oncology.

sworcester@mdedge.com

All patients receiving active cancer treatment should receive a COVID-19 vaccine and should be prioritized for vaccination, according to preliminary recommendations from the National Comprehensive Cancer Network (NCCN).

Vaccination timing considerations vary based on factors such as cancer and treatment type, and reasons for delaying vaccination in the general public also apply to cancer patients (recent COVID-19 exposure, for example).

In general, however, patients with cancer should be assigned to Centers for Disease Control and Prevention priority group 1 b/c and immunized when vaccination is available to them, the guidelines state. Exceptions to this recommendation include:

• Patients undergoing hematopoietic stem cell transplant or receiving engineered cellular therapy such as chimeric antigen receptor T-cell therapy. Vaccination should be delayed for at least 3 months in these patients to maximize vaccine efficacy. Caregivers of these patients, however, should be immunized when possible.
• Patients with hematologic malignancies who are receiving intensive cytotoxic chemotherapy, such as cytarabine- or anthracycline-based regimens for acute myeloid leukemia. Vaccination in these patients should be delayed until absolute neutrophil count recovery.
• Patients undergoing major surgery. Vaccination should occur at least a few days before or after surgery.
• Patients who have experienced a severe or immediate adverse reaction to any of the ingredients in the mRNA COVID-19 vaccines.

Conversely, vaccination should occur when available in patients with hematologic malignancies and marrow failure who are expected to have limited or no recovery, patients with hematologic malignancies who are on long-term maintenance therapy, and patients with solid tumors who are receiving cytotoxic chemotherapy, targeted therapy, checkpoint inhibitors and other immunotherapy, or radiotherapy.

Caregivers, household contacts, and other close contacts who are 16 years of age and older should be vaccinated whenever they are eligible.
 

Unique concerns in patients with cancer

The NCCN recommendations were developed to address the unique issues and concerns with respect to patients with cancer, who have an increased risk of severe illness from SARS-CoV-2 infection. But the guidelines come with a caveat: “[t]here are limited safety and efficacy data in these patients,” the NCCN emphasized in a press statement.

“Right now, there is urgent need and limited data,” Steven Pergam, MD, co-leader of the NCCN COVID-19 Vaccination Committee, said in the statement.

“Our number one goal is helping to get the vaccine to as many people as we can,” Dr. Pergam said. “That means following existing national and regional directions for prioritizing people who are more likely to face death or severe illness from COVID-19.”

Dr. Pergam, associate professor at Fred Hutchinson Cancer Research Center in Seattle, further explained that “people receiving active cancer treatment are at greater risk for worse outcomes from COVID-19, particularly if they are older and have additional comorbidities, like immunosuppression.”

NCCN’s recommendations couldn’t have come at a better time for patients with cancer, according to Nora Disis, MD, a professor at the University of Washington in Seattle.

“The NCCN’s recommendations to prioritize COVID vaccinations for cancer patients on active treatment is an important step forward in protecting our patients from the infection,” Dr. Disis said in an interview.

“Cancer patients may be at higher risk for the complications seen with infection. In addition, cancer is a disease of older people, and a good number of our patients have the comorbidities that would predict a poorer outcome if they should become sick,” Dr. Disis added. “With the correct treatment, many patients with cancer will be long-term survivors. It is important that they be protected from infection with COVID to realize their best outcome.”
 

Additional vaccine considerations

The NCCN recommendations also address several other issues of importance for cancer patients, including:

• Deprioritizing other vaccines. COVID-19 vaccines should take precedence over other vaccines because data on dual vaccination are lacking. The NCCN recommends waiting 14 days after COVID-19 vaccination to deliver other vaccines.
• Vaccinating clinical trial participants. Trial leads should be consulted to prevent protocol violations or exclusions.
• Decision-making in the setting of limited vaccine availability. The NCCN noted that decisions on allocation must be made in accordance with state and local vaccine guidance but suggests prioritizing appropriate patients on active treatment, those planning to start treatment, and those who have just completed treatment. Additional risk factors for these patients, as well as other factors associated with risk for adverse COVID-19 outcomes, should also be considered. These include advanced age, comorbidities, and adverse social and demographic factors such as poverty and limited health care access.
• The need for ongoing prevention measures. Vaccines have been shown to decrease the incidence of COVID-19 and related complications, but it remains unclear whether vaccines prevent infection and subsequent transmission. This means everyone should continue following prevention recommendations, such as wearing masks and avoiding crowds.

The NCCN stressed that these recommendations are “intended to be a living document that is constantly evolving – it will be updated rapidly whenever new data comes out, as well as any potential new vaccines that may get approved in the future.” The NCCN also noted that the advisory committee will meet regularly to refine the recommendations as needed.

Dr. Pergam disclosed relationships with Chimerix Inc., Merck & Co., Global Life Technologies Inc., and Sanofi-Aventis. Dr. Disis disclosed grants from Pfizer, Bavarian Nordisk, Janssen, and Precigen. She is the founder of EpiThany and editor-in-chief of JAMA Oncology.

sworcester@mdedge.com

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

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

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

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

About angiosarcomas

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

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

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

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

About DART

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

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

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

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

Results in angiosarcoma

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

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

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

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

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

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

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

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

Molecular insights

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

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

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

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

The real impact of DART

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

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

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

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

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

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

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

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

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

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

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

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

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

About angiosarcomas

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

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

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

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

About DART

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

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

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

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

Results in angiosarcoma

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

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

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

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

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

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

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

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

Molecular insights

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

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

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

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

The real impact of DART

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

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

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

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

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

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

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

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

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

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

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

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

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

About angiosarcomas

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

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

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

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

About DART

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

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

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

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

Results in angiosarcoma

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

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

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

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

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

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

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

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

Molecular insights

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

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

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

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

The real impact of DART

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

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

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

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

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

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

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

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

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

Earlier this week, Medscape spoke with Nora Disis, MD, about vaccinating cancer patients. Disis is a medical oncologist and director of both the Institute of Translational Health Sciences and the Cancer Vaccine Institute, the University of Washington, Seattle, Washington. As editor-in-chief of JAMA Oncology, she has watched COVID-19 developments in the oncology community over the past year.

Here are a few themes that Disis said oncologists should be aware of as vaccines eventually begin reaching cancer patients.

We should expect cancer patients to respond to vaccines. Historically, some believed that cancer patients would be unable to mount an immune response to vaccines. Data on other viral vaccines have shown otherwise. For example, there has been a long history of studies of flu vaccination in cancer patients, and in general, those vaccines confer protection. Likewise for pneumococcal vaccine, which, generally speaking, cancer patients should receive.

Special cases may include hematologic malignancies in which the immune system has been destroyed and profound immunosuppression occurs. Data on immunization during this immunosuppressed period are scarce, but what data are available suggest that once cancer patients are through this immunosuppressed period, they can be vaccinated successfully.

The type of vaccine will probably be important for cancer patients. Currently, there are 61 coronavirus vaccines in human clinical trials, and 17 have reached the final stages of testing. At least 85 preclinical vaccines are under active investigation in animals.

Both the Pfizer-BioNTech and Moderna COVID vaccines are mRNA type. There are many other types, including protein-based vaccines, viral vector vaccines based on adenoviruses, and inactivated or attenuated coronavirus vaccines.

The latter vaccines, particularly attenuated live virus vaccines, may not be a good choice for cancer patients. Especially in those with rapidly progressing disease or on chemotherapy, attenuated live viruses may cause a low-grade infection.

Incidentally, the technology used in the genetic, or mRNA, vaccines developed by both Pfizer-BioNTech and Moderna was initially developed for fighting cancer, and studies have shown that patients can generate immune responses to cancer-associated proteins with this type of vaccine.

These genetic vaccines could turn out to be the most effective for cancer patients, especially those with solid tumors.

Our understanding is very limited right now. Neither the Pfizer-BioNTech nor the Moderna early data discuss cancer patients. Two of the most important questions for cancer patients are dosing and booster scheduling. Potential defects in lymphocyte function among cancer patients may require unique initial dosing and booster schedules. In terms of timing, it is unclear how active therapy might affect a patient’s immune response to vaccination and whether vaccines should be timed with therapy cycles.

Vaccine access may depend on whether cancer patients are viewed as a vulnerable population. Those at higher risk for severe COVID-19 clearly have a greater need for vaccination. While there are data suggesting that cancer patients are at higher risk, they are a bit murky, in part because cancer patients are a heterogeneous group. For example, there are data suggesting that lung and blood cancer patients fare worse. There is also a suggestion that, like in the general population, COVID risk in cancer patients remains driven by comorbidities.

It is likely, then, that personalized risk factors such as type of cancer therapy, site of disease, and comorbidities will shape individual choices about vaccination among cancer patients.

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

Earlier this week, Medscape spoke with Nora Disis, MD, about vaccinating cancer patients. Disis is a medical oncologist and director of both the Institute of Translational Health Sciences and the Cancer Vaccine Institute, the University of Washington, Seattle, Washington. As editor-in-chief of JAMA Oncology, she has watched COVID-19 developments in the oncology community over the past year.

Here are a few themes that Disis said oncologists should be aware of as vaccines eventually begin reaching cancer patients.

We should expect cancer patients to respond to vaccines. Historically, some believed that cancer patients would be unable to mount an immune response to vaccines. Data on other viral vaccines have shown otherwise. For example, there has been a long history of studies of flu vaccination in cancer patients, and in general, those vaccines confer protection. Likewise for pneumococcal vaccine, which, generally speaking, cancer patients should receive.

Special cases may include hematologic malignancies in which the immune system has been destroyed and profound immunosuppression occurs. Data on immunization during this immunosuppressed period are scarce, but what data are available suggest that once cancer patients are through this immunosuppressed period, they can be vaccinated successfully.

The type of vaccine will probably be important for cancer patients. Currently, there are 61 coronavirus vaccines in human clinical trials, and 17 have reached the final stages of testing. At least 85 preclinical vaccines are under active investigation in animals.

Both the Pfizer-BioNTech and Moderna COVID vaccines are mRNA type. There are many other types, including protein-based vaccines, viral vector vaccines based on adenoviruses, and inactivated or attenuated coronavirus vaccines.

The latter vaccines, particularly attenuated live virus vaccines, may not be a good choice for cancer patients. Especially in those with rapidly progressing disease or on chemotherapy, attenuated live viruses may cause a low-grade infection.

Incidentally, the technology used in the genetic, or mRNA, vaccines developed by both Pfizer-BioNTech and Moderna was initially developed for fighting cancer, and studies have shown that patients can generate immune responses to cancer-associated proteins with this type of vaccine.

These genetic vaccines could turn out to be the most effective for cancer patients, especially those with solid tumors.

Our understanding is very limited right now. Neither the Pfizer-BioNTech nor the Moderna early data discuss cancer patients. Two of the most important questions for cancer patients are dosing and booster scheduling. Potential defects in lymphocyte function among cancer patients may require unique initial dosing and booster schedules. In terms of timing, it is unclear how active therapy might affect a patient’s immune response to vaccination and whether vaccines should be timed with therapy cycles.

Vaccine access may depend on whether cancer patients are viewed as a vulnerable population. Those at higher risk for severe COVID-19 clearly have a greater need for vaccination. While there are data suggesting that cancer patients are at higher risk, they are a bit murky, in part because cancer patients are a heterogeneous group. For example, there are data suggesting that lung and blood cancer patients fare worse. There is also a suggestion that, like in the general population, COVID risk in cancer patients remains driven by comorbidities.

It is likely, then, that personalized risk factors such as type of cancer therapy, site of disease, and comorbidities will shape individual choices about vaccination among cancer patients.

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

Earlier this week, Medscape spoke with Nora Disis, MD, about vaccinating cancer patients. Disis is a medical oncologist and director of both the Institute of Translational Health Sciences and the Cancer Vaccine Institute, the University of Washington, Seattle, Washington. As editor-in-chief of JAMA Oncology, she has watched COVID-19 developments in the oncology community over the past year.

Here are a few themes that Disis said oncologists should be aware of as vaccines eventually begin reaching cancer patients.

We should expect cancer patients to respond to vaccines. Historically, some believed that cancer patients would be unable to mount an immune response to vaccines. Data on other viral vaccines have shown otherwise. For example, there has been a long history of studies of flu vaccination in cancer patients, and in general, those vaccines confer protection. Likewise for pneumococcal vaccine, which, generally speaking, cancer patients should receive.

Special cases may include hematologic malignancies in which the immune system has been destroyed and profound immunosuppression occurs. Data on immunization during this immunosuppressed period are scarce, but what data are available suggest that once cancer patients are through this immunosuppressed period, they can be vaccinated successfully.

The type of vaccine will probably be important for cancer patients. Currently, there are 61 coronavirus vaccines in human clinical trials, and 17 have reached the final stages of testing. At least 85 preclinical vaccines are under active investigation in animals.

Both the Pfizer-BioNTech and Moderna COVID vaccines are mRNA type. There are many other types, including protein-based vaccines, viral vector vaccines based on adenoviruses, and inactivated or attenuated coronavirus vaccines.

The latter vaccines, particularly attenuated live virus vaccines, may not be a good choice for cancer patients. Especially in those with rapidly progressing disease or on chemotherapy, attenuated live viruses may cause a low-grade infection.

Incidentally, the technology used in the genetic, or mRNA, vaccines developed by both Pfizer-BioNTech and Moderna was initially developed for fighting cancer, and studies have shown that patients can generate immune responses to cancer-associated proteins with this type of vaccine.

These genetic vaccines could turn out to be the most effective for cancer patients, especially those with solid tumors.

Our understanding is very limited right now. Neither the Pfizer-BioNTech nor the Moderna early data discuss cancer patients. Two of the most important questions for cancer patients are dosing and booster scheduling. Potential defects in lymphocyte function among cancer patients may require unique initial dosing and booster schedules. In terms of timing, it is unclear how active therapy might affect a patient’s immune response to vaccination and whether vaccines should be timed with therapy cycles.

Vaccine access may depend on whether cancer patients are viewed as a vulnerable population. Those at higher risk for severe COVID-19 clearly have a greater need for vaccination. While there are data suggesting that cancer patients are at higher risk, they are a bit murky, in part because cancer patients are a heterogeneous group. For example, there are data suggesting that lung and blood cancer patients fare worse. There is also a suggestion that, like in the general population, COVID risk in cancer patients remains driven by comorbidities.

It is likely, then, that personalized risk factors such as type of cancer therapy, site of disease, and comorbidities will shape individual choices about vaccination among cancer patients.

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

Rates of cancer increased by 30% from 1973 to 2015 in adolescents and young adults (AYAs) aged 15–39 years in the United States, according to a review of almost a half million cases in the National Institutes of Health’s Surveillance, Epidemiology, and End Results database.

There was an annual increase of 0.537 new cases per 100,000 people, from 57.2 cases per 100,000 in 1973 to 74.2 in 2015.

Kidney carcinoma led with the highest rate increase. There were also marked increases in thyroid and colorectal carcinoma, germ cell and trophoblastic neoplasms, and melanoma, among others.

The report was published online December 1 in JAMA Network Open.

“Clinicians should be on the lookout for these cancers in their adolescent and young adult patients,” said senior investigator Nicholas Zaorsky, MD, an assistant professor of radiation oncology and public health sciences at the Penn State Cancer Institute, Hershey, Pennsylvania.

“Now that there is a better understanding of the types of cancer that are prevalent and rising in this age group, prevention, screening, diagnosis and treatment protocols specifically targeted to this population should be developed,” he said in a press release.

The reasons for the increases are unclear, but environmental and dietary factors, increasing obesity, and changing screening practices are likely in play, the authors comment. In addition, “cancer screening and overdiagnosis are thought to account for much of the increasing rates of thyroid and kidney carcinoma, among others,” they add.

The American Cancer Society (ACS) recently found similar increases in thyroid, kidney, and colorectal cancer among AYAs, as well as an increase in uterine cancer.

It’s important to note, however, that “this phenomenon is largely driven by trends for thyroid cancer, which is thought to be a result of overdiagnosis,” said ACS surveillance researcher Kimberly Miller, MPH, when asked to comment on the new study.

“As such, it is extremely important to also consider trends in cancer mortality rates among this age group, which are declining overall but are increasing for colorectal and uterine cancers. The fact that both incidence and mortality rates are increasing for these two cancers suggests a true increase in disease burden and certainly requires further attention and research,” she said.

Historically, management of cancer in AYAs has fallen somewhere between pediatric and adult oncology, neither of which capture the distinct biological, social, and economic needs of AYAs. Research has also focused on childhood and adult cancers, leaving cancer in AYAs inadequately studied.

The new findings are “valuable to guide more targeted research and interventions specifically to AYAs,” Zaorsky and colleagues say in their report.

Among female patients ― 59.1% of the study population ― incidence increased for 15 cancers, including kidney carcinoma (annual percent change [APC], 3.632), thyroid carcinoma (APC, 3.456), and myeloma, mast cell, and miscellaneous lymphoreticular neoplasms not otherwise specified (APC, 2.805). Rates of five cancers declined, led by astrocytoma not otherwise specified (APC, –3.369) and carcinoma of the gonads (APC, –1.743).

Among male patients, incidence increased for 14 cancers, including kidney carcinoma (APC, 3.572), unspecified soft tissue sarcoma (APC 2.543), and thyroid carcinoma (APC, 2.273). Incidence fell for seven, led by astrocytoma not otherwise specified (APC, –3.759) and carcinoma of the trachea, bronchus, and lung (APC, –2.635).

Increased testicular cancer rates (APC, 1.246) could be related to greater prenatal exposure to estrogen and progesterone or through dairy consumption; increasing survival of premature infants; and greater exposure to cannabis, among other possibilities, the investigators say.

Increases in colorectal cancer might be related to fewer vegetables and more fat and processed meat in the diet; lack of exercise; and increasing obesity. Human papillomavirus infection has also been implicated.

Higher rates of melanoma could be related to tanning bed use.

Declines in some cancers could be related to greater use of oral contraceptives; laws reducing exposure to benzene and other chemicals; and fewer people smoking.

Although kidney carcinoma has increased at the greatest rate, it’s uncommon. Colorectal and thyroid carcinoma, melanoma, non-Hodgkin lymphoma, and germ cell and trophoblastic neoplasms of the gonads contribute more to the overall increase in cancers among AYAs, the investigators note.

Almost 80% of the patients were White; 10.3% were Black.

The study was funded by the National Center for Advancing Translational Sciences. The investigators have disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

Rates of cancer increased by 30% from 1973 to 2015 in adolescents and young adults (AYAs) aged 15–39 years in the United States, according to a review of almost a half million cases in the National Institutes of Health’s Surveillance, Epidemiology, and End Results database.

There was an annual increase of 0.537 new cases per 100,000 people, from 57.2 cases per 100,000 in 1973 to 74.2 in 2015.

Kidney carcinoma led with the highest rate increase. There were also marked increases in thyroid and colorectal carcinoma, germ cell and trophoblastic neoplasms, and melanoma, among others.

The report was published online December 1 in JAMA Network Open.

“Clinicians should be on the lookout for these cancers in their adolescent and young adult patients,” said senior investigator Nicholas Zaorsky, MD, an assistant professor of radiation oncology and public health sciences at the Penn State Cancer Institute, Hershey, Pennsylvania.

“Now that there is a better understanding of the types of cancer that are prevalent and rising in this age group, prevention, screening, diagnosis and treatment protocols specifically targeted to this population should be developed,” he said in a press release.

The reasons for the increases are unclear, but environmental and dietary factors, increasing obesity, and changing screening practices are likely in play, the authors comment. In addition, “cancer screening and overdiagnosis are thought to account for much of the increasing rates of thyroid and kidney carcinoma, among others,” they add.

The American Cancer Society (ACS) recently found similar increases in thyroid, kidney, and colorectal cancer among AYAs, as well as an increase in uterine cancer.

It’s important to note, however, that “this phenomenon is largely driven by trends for thyroid cancer, which is thought to be a result of overdiagnosis,” said ACS surveillance researcher Kimberly Miller, MPH, when asked to comment on the new study.

“As such, it is extremely important to also consider trends in cancer mortality rates among this age group, which are declining overall but are increasing for colorectal and uterine cancers. The fact that both incidence and mortality rates are increasing for these two cancers suggests a true increase in disease burden and certainly requires further attention and research,” she said.

Historically, management of cancer in AYAs has fallen somewhere between pediatric and adult oncology, neither of which capture the distinct biological, social, and economic needs of AYAs. Research has also focused on childhood and adult cancers, leaving cancer in AYAs inadequately studied.

The new findings are “valuable to guide more targeted research and interventions specifically to AYAs,” Zaorsky and colleagues say in their report.

Among female patients ― 59.1% of the study population ― incidence increased for 15 cancers, including kidney carcinoma (annual percent change [APC], 3.632), thyroid carcinoma (APC, 3.456), and myeloma, mast cell, and miscellaneous lymphoreticular neoplasms not otherwise specified (APC, 2.805). Rates of five cancers declined, led by astrocytoma not otherwise specified (APC, –3.369) and carcinoma of the gonads (APC, –1.743).

Among male patients, incidence increased for 14 cancers, including kidney carcinoma (APC, 3.572), unspecified soft tissue sarcoma (APC 2.543), and thyroid carcinoma (APC, 2.273). Incidence fell for seven, led by astrocytoma not otherwise specified (APC, –3.759) and carcinoma of the trachea, bronchus, and lung (APC, –2.635).

Increased testicular cancer rates (APC, 1.246) could be related to greater prenatal exposure to estrogen and progesterone or through dairy consumption; increasing survival of premature infants; and greater exposure to cannabis, among other possibilities, the investigators say.

Increases in colorectal cancer might be related to fewer vegetables and more fat and processed meat in the diet; lack of exercise; and increasing obesity. Human papillomavirus infection has also been implicated.

Higher rates of melanoma could be related to tanning bed use.

Declines in some cancers could be related to greater use of oral contraceptives; laws reducing exposure to benzene and other chemicals; and fewer people smoking.

Although kidney carcinoma has increased at the greatest rate, it’s uncommon. Colorectal and thyroid carcinoma, melanoma, non-Hodgkin lymphoma, and germ cell and trophoblastic neoplasms of the gonads contribute more to the overall increase in cancers among AYAs, the investigators note.

Almost 80% of the patients were White; 10.3% were Black.

The study was funded by the National Center for Advancing Translational Sciences. The investigators have disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

Rates of cancer increased by 30% from 1973 to 2015 in adolescents and young adults (AYAs) aged 15–39 years in the United States, according to a review of almost a half million cases in the National Institutes of Health’s Surveillance, Epidemiology, and End Results database.

There was an annual increase of 0.537 new cases per 100,000 people, from 57.2 cases per 100,000 in 1973 to 74.2 in 2015.

Kidney carcinoma led with the highest rate increase. There were also marked increases in thyroid and colorectal carcinoma, germ cell and trophoblastic neoplasms, and melanoma, among others.

The report was published online December 1 in JAMA Network Open.

“Clinicians should be on the lookout for these cancers in their adolescent and young adult patients,” said senior investigator Nicholas Zaorsky, MD, an assistant professor of radiation oncology and public health sciences at the Penn State Cancer Institute, Hershey, Pennsylvania.

“Now that there is a better understanding of the types of cancer that are prevalent and rising in this age group, prevention, screening, diagnosis and treatment protocols specifically targeted to this population should be developed,” he said in a press release.

The reasons for the increases are unclear, but environmental and dietary factors, increasing obesity, and changing screening practices are likely in play, the authors comment. In addition, “cancer screening and overdiagnosis are thought to account for much of the increasing rates of thyroid and kidney carcinoma, among others,” they add.

The American Cancer Society (ACS) recently found similar increases in thyroid, kidney, and colorectal cancer among AYAs, as well as an increase in uterine cancer.

It’s important to note, however, that “this phenomenon is largely driven by trends for thyroid cancer, which is thought to be a result of overdiagnosis,” said ACS surveillance researcher Kimberly Miller, MPH, when asked to comment on the new study.

“As such, it is extremely important to also consider trends in cancer mortality rates among this age group, which are declining overall but are increasing for colorectal and uterine cancers. The fact that both incidence and mortality rates are increasing for these two cancers suggests a true increase in disease burden and certainly requires further attention and research,” she said.

Historically, management of cancer in AYAs has fallen somewhere between pediatric and adult oncology, neither of which capture the distinct biological, social, and economic needs of AYAs. Research has also focused on childhood and adult cancers, leaving cancer in AYAs inadequately studied.

The new findings are “valuable to guide more targeted research and interventions specifically to AYAs,” Zaorsky and colleagues say in their report.

Among female patients ― 59.1% of the study population ― incidence increased for 15 cancers, including kidney carcinoma (annual percent change [APC], 3.632), thyroid carcinoma (APC, 3.456), and myeloma, mast cell, and miscellaneous lymphoreticular neoplasms not otherwise specified (APC, 2.805). Rates of five cancers declined, led by astrocytoma not otherwise specified (APC, –3.369) and carcinoma of the gonads (APC, –1.743).

Among male patients, incidence increased for 14 cancers, including kidney carcinoma (APC, 3.572), unspecified soft tissue sarcoma (APC 2.543), and thyroid carcinoma (APC, 2.273). Incidence fell for seven, led by astrocytoma not otherwise specified (APC, –3.759) and carcinoma of the trachea, bronchus, and lung (APC, –2.635).

Increased testicular cancer rates (APC, 1.246) could be related to greater prenatal exposure to estrogen and progesterone or through dairy consumption; increasing survival of premature infants; and greater exposure to cannabis, among other possibilities, the investigators say.

Increases in colorectal cancer might be related to fewer vegetables and more fat and processed meat in the diet; lack of exercise; and increasing obesity. Human papillomavirus infection has also been implicated.

Higher rates of melanoma could be related to tanning bed use.

Declines in some cancers could be related to greater use of oral contraceptives; laws reducing exposure to benzene and other chemicals; and fewer people smoking.

Although kidney carcinoma has increased at the greatest rate, it’s uncommon. Colorectal and thyroid carcinoma, melanoma, non-Hodgkin lymphoma, and germ cell and trophoblastic neoplasms of the gonads contribute more to the overall increase in cancers among AYAs, the investigators note.

Almost 80% of the patients were White; 10.3% were Black.

The study was funded by the National Center for Advancing Translational Sciences. The investigators have disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

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

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

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

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

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

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

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

Scarcity of palliative care specialists

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

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

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

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

Special considerations regarding telehealth for palliative care

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

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

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

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

REACH PC study demonstrates feasibility of telehealth model

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

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

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

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

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

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

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

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

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

‘Webside’ manner

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

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

Is telehealth the future of palliative care?

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

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

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

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

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

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

Dr. Temel disclosed institutional research funding from Pfizer.


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

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

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

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

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

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

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

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

Scarcity of palliative care specialists

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

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

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

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

Special considerations regarding telehealth for palliative care

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

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

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

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

REACH PC study demonstrates feasibility of telehealth model

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

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

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

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

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

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

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

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

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

‘Webside’ manner

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

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

Is telehealth the future of palliative care?

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

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

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

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

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

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

Dr. Temel disclosed institutional research funding from Pfizer.


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

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

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

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

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

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

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

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

Scarcity of palliative care specialists

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

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

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

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

Special considerations regarding telehealth for palliative care

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

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

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

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

REACH PC study demonstrates feasibility of telehealth model

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

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

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

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

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

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

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

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

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

‘Webside’ manner

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

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

Is telehealth the future of palliative care?

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

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

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

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

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

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

Dr. Temel disclosed institutional research funding from Pfizer.


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

Canceled appointments, postponed surgeries, and delayed cancer diagnoses – all are a recipe for exhaustion for oncologists around the world, struggling to reach and treat their patients during the pandemic. Physicians and their teams felt the pain as COVID-19 took its initial march around the globe.

“We saw the distress of people with cancer who could no longer get to anyone on the phone. Their medical visit was usually canceled. Their radiotherapy session was postponed or modified, and chemotherapy postponed,” says Axel Kahn, MD, chairman of the board of directors of La Ligue Nationale Contre le Cancer (National League Against Cancer). “In the vast majority of cases, cancer treatment can be postponed or readjusted, without affecting the patient’s chances of survival, but there has been a lot of anxiety because the patients do not know that.”

The stay-at-home factor was one that played out across many months during the first wave.

“I believe that the ‘stay-home’ message that we transmitted was rigorously followed by patients who should have come to the emergency room much earlier and who, therefore, were admitted with a much more deteriorated general condition than in non-COVID-19 times,” says Benjamín Domingo Arrué, MD, from the department of medical oncology at Hospital Universitari i Politècnic La Fe in Valencia, Spain.

And in Brazil, some of the impact from the initial hit of COVID-19 on oncology is only now being felt, according to Laura Testa, MD, head of breast medical oncology, Instituto do Câncer do Estado de São Paulo.

“We are starting to see a lot of cancer cases that didn’t show up at the beginning of the pandemic, but now they are arriving to us already in advanced stages,” she said. “These patients need hospital care. If the situation worsens and goes back to what we saw at the peak of the curve, I fear the public system won’t be able to treat properly the oncology patients that need hospital care and the patients with cancer who also have COVID-19.”

But even as health care worker fatigue and concerns linger, oncologists say that what they have learned in the last 6 months has helped them prepare as COVID-19 cases increase and a second global wave kicks up.
 

Lessons from the first wave

In the United States, COVID-19 hit different regions at different times and to different degrees. One of the areas hit first was Seattle.

“We jumped on top of this, we were evidence based, we put things in place very, very quickly,” said Julie Gralow, MD, professor at the University of Washington and the Fred Hutchinson Cancer Research Center, both in Seattle.

“We did a really good job keeping COVID out of our cancer centers,” Dr. Gralow said. “We learned how to be super safe, and to keep symptomatic people out of the building, and to limit the extra people they could bring with them. It’s all about the number of contacts you have.”

The story was different, though, for oncologists in several other countries, and sometimes it varied immensely within each nation.

“We treated fewer patients with cancer during the first wave,” says Dirk Arnold, MD, medical director of the Asklepios Tumor Center Hamburg (Germany), in an interview. “In part, this was because staff were quarantined and because we had a completely different infrastructure in all of the hospitals. But also fewer patients with cancer came to the clinic at all. A lot of resources were directed toward COVID-19.” 

In Spain, telemedicine helped keep up with visits, but other areas felt the effect of COVID-19 patient loads.

“At least in the oncology department of our center, we have practically maintained 100% of visits, mostly by telephone,” says Dr. Arrué, “but the reality is that our country has not yet been prepared for telemedicine.”

Laura Mezquita, MD, of the department of medical oncology at Hospital Clinic de Barcelona, describes a more dramatic situation: “We have seen how some of our patients, especially with metastatic disease, have been dismissed for intensive care and life-support treatments, as well as specific treatments against COVID-19 (tocilizumab, remdesivir, etc.) due to the general health collapse of the former wave,” she said. She adds that specific oncologic populations, such as those with thoracic tumors, have been more affected.
 

Distress among oncologists 

Many oncologists are still feeling stressed and fatigued after the first wave, just as a second string of outbreaks is on its way. 

A survey presented at last month’s ESMO 2020 Congress found that, in July-August, moral distress was reported by one-third of the oncologists who responded, and more than half reported a feeling of exhaustion. 

“The tiredness and team exhaustion is noticeable,” said Dr. Arnold. “We recently had a task force discussion about what will happen when we have a second wave and how the department and our services will adapt. It was clear that those who were at the very front in the first wave had only a limited desire to do that again in the second wave.”

Another concern: COVID-19’s effect on staffing levels. 

“We have a population of young caregivers who are affected by the COVID-19 disease with an absenteeism rate that is quite unprecedented,” said Sophie Beaupère, general delegate of Unicancer since January.

She said that, in general, the absenteeism rate in the cancer centers averages 5%-6%, depending on the year. But that rate is now skyrocketing.
 

Stop-start cycle for surgery

As caregivers quarantined around the world, more than 10% of patients with cancer had treatment canceled or delayed during the first wave of the pandemic, according to another survey from ESMO, involving 109 oncologists from 18 countries.

Difficulties were reported for surgeries by 34% of the centers, but also difficulties with delivering chemotherapy (22% of centers), radiotherapy (13.7%), and therapy with checkpoint inhibitors (9.1%), monoclonal antibodies (9%), and oral targeted therapy (3.7%).

Stopping surgery is a real concern in France, noted Dr. Kahn, the National League Against Cancer chair. He says that in regions that were badly hit by COVID-19, “it was not possible to have access to the operating room for people who absolutely needed surgery; for example, patients with lung cancer that was still operable. Most of the recovery rooms were mobilized for resuscitation.”

There may be some solutions, suggested Thierry Breton, director general of the National Institute of Cancer in France. “We are getting prepared, with the health ministry, for a possible increase in hospital tension, which would lead to a situation where we would have to reschedule operations. Nationally, regionally, and locally, we are seeing how we can resume and prioritize surgeries that have not been done.”
 

Delays in cancer diagnosis

While COVID-19 affected treatment, many oncologists say the major impact of the first wave was a delay in diagnosing cancer. Some of this was a result of the suspension of cancer screening programs, but there was also fear among the general public about visiting clinics and hospitals during a pandemic.

“We didn’t do so well with cancer during the first wave here in the U.K.,” said Karol Sikora, PhD, MBBChir, professor of cancer medicine and founding dean at the University of Buckingham Medical School, London. “Cancer diagnostic pathways virtually stalled partly because patients didn’t seek help, but getting scans and biopsies was also very difficult. Even patients referred urgently under the ‘2-weeks-wait’ rule were turned down.” 

In France, “the delay in diagnosis is indisputable,” said Dr. Kahn. “About 50% of the cancer diagnoses one would expect during this period were missed.” 

“I am worried that there remains a major traffic jam that has not been caught up with, and, in the meantime, the health crisis is worsening,” he added.  

In Seattle, Dr. Gralow said the first COVID-19 wave had little impact on treatment for breast cancer, but it was in screening for breast cancer “where things really got messed up.”

“Even though we’ve been fully ramped up again,” she said, concerns remain. To ensure that screening mammography is maintained, “we have spaced out the visits to keep our waiting rooms less populated, with a longer time between using the machine so we can clean it. To do this, we have extended operating hours and are now opening on Saturday.

“So we’re actually at 100% of our capacity, but I’m really nervous, though, that a lot of people put off their screening mammogram and aren’t going to come in and get it.

“Not only did people get the message to stay home and not do nonessential things, but I think a lot of people lost their health insurance when they lost their jobs,” she said, and without health insurance, they are not covered for cancer screening.
 

Looking ahead, with a plan

Many oncologists agree that access to care can and must be improved – and there were some positive moves.

“Some regimens changed during the first months of the pandemic, and I don’t see them going back to the way they were anytime soon,” said Dr. Testa. “The changes/adaptations that were made to minimize the chance of SARS-CoV-2 infection are still in place and will go on for a while. In this context, telemedicine helped a lot. The pandemic forced the stakeholders to step up and put it in place in March. And now it’s here to stay.”

The experience gained in the last several months has driven preparation for the next wave.

“We are not going to see the disorganization that we saw during the first wave,” said Florence Joly, MD, PhD, head of medical oncology at the Centre François Baclesse in Caen, France. “The difference between now and earlier this year is that COVID diagnostic tests are available. That was one of the problems in the first wave. We had no way to diagnose.”

On the East Coast of the United States, medical oncologist Charu Aggarwal, MD, MPH, is also optimistic: “I think we’re at a place where we can manage.”

“I believe if there was going to be a new wave of COVID-19 cases we would be: better psychologically prepared and better organized,” said Dr. Aggarwal, assistant professor of medicine in the hematology-oncology division at the University of Pennsylvania, Philadelphia. “We already have experience with all of the tools, we have telemedicine available, we have screening protocols available, we have testing, we are already universally masking, everyone’s hand-washing, so I do think that means we would be okay.” 

Dr. Arnold agreed that “we are much better prepared than for the first wave, but … we have immense tasks in the area of patient management, the digitization of patient care, the clear allocation of resources when there is a second or third wave. In many areas of preparation, I believe, unfortunately, we are not as well positioned as we had actually hoped.” 

The first wave of COVID hit cancer services in the United Kingdom particularly hard: One modeling study suggested that delays in cancer referrals will lead to thousands of additional deaths and tens of thousands of life-years lost.

“Cancer services are working at near normal levels now, but they are still fragile and could be severely compromised again if the NHS [National Health Service] gets flooded by COVID patients,” said Dr. Sikora.

The second wave may be different. “Although the number of infections has increased, the hospitalizations have only risen a little. Let’s see what happens,” he said in an interview. Since then, however, infections have continued to rise, and there has been an increase in hospitalizations. New social distancing measures in the United Kingdom were put into place on Oct. 12, with the aim of protecting the NHS from overload.

Dr. Arrué describes it this way: “The reality is that the ‘second wave’ has left behind the initial grief and shock that both patients and health professionals experienced when faced with something that, until now, we had only seen in the movies.” The second wave has led to new restrictions – including a partial lockdown since the beginning of October.

Dr. Aggarwal says her department recently had a conference with Anthony Fauci, MD, director of the National Institute of Allergy and Infectious Diseases, about the impact of COVID-19 on oncology.

“I asked him what advice he’d give oncologists, and he said to go back to as much screening as you were doing previously as quickly as possible. That’s what must be relayed to our oncologists in the community – and also to primary care physicians – because they are often the ones who are ordering and championing the screening efforts.”

This article was originated by Aude Lecrubier, Medscape French edition, and developed by Zosia Chustecka, Medscape Oncology. With additional reporting by Kate Johnson, freelance medical journalist, Claudia Gottschling for Medscape Germany, Leoleli Schwartz for Medscape em português, Tim Locke for Medscape United Kingdom, and Carla Nieto Martínez, freelance medical journalist for Medscape Spanish edition. 

This article first appeared on Medscape.com.

Canceled appointments, postponed surgeries, and delayed cancer diagnoses – all are a recipe for exhaustion for oncologists around the world, struggling to reach and treat their patients during the pandemic. Physicians and their teams felt the pain as COVID-19 took its initial march around the globe.

“We saw the distress of people with cancer who could no longer get to anyone on the phone. Their medical visit was usually canceled. Their radiotherapy session was postponed or modified, and chemotherapy postponed,” says Axel Kahn, MD, chairman of the board of directors of La Ligue Nationale Contre le Cancer (National League Against Cancer). “In the vast majority of cases, cancer treatment can be postponed or readjusted, without affecting the patient’s chances of survival, but there has been a lot of anxiety because the patients do not know that.”

The stay-at-home factor was one that played out across many months during the first wave.

“I believe that the ‘stay-home’ message that we transmitted was rigorously followed by patients who should have come to the emergency room much earlier and who, therefore, were admitted with a much more deteriorated general condition than in non-COVID-19 times,” says Benjamín Domingo Arrué, MD, from the department of medical oncology at Hospital Universitari i Politècnic La Fe in Valencia, Spain.

And in Brazil, some of the impact from the initial hit of COVID-19 on oncology is only now being felt, according to Laura Testa, MD, head of breast medical oncology, Instituto do Câncer do Estado de São Paulo.

“We are starting to see a lot of cancer cases that didn’t show up at the beginning of the pandemic, but now they are arriving to us already in advanced stages,” she said. “These patients need hospital care. If the situation worsens and goes back to what we saw at the peak of the curve, I fear the public system won’t be able to treat properly the oncology patients that need hospital care and the patients with cancer who also have COVID-19.”

But even as health care worker fatigue and concerns linger, oncologists say that what they have learned in the last 6 months has helped them prepare as COVID-19 cases increase and a second global wave kicks up.
 

Lessons from the first wave

In the United States, COVID-19 hit different regions at different times and to different degrees. One of the areas hit first was Seattle.

“We jumped on top of this, we were evidence based, we put things in place very, very quickly,” said Julie Gralow, MD, professor at the University of Washington and the Fred Hutchinson Cancer Research Center, both in Seattle.

“We did a really good job keeping COVID out of our cancer centers,” Dr. Gralow said. “We learned how to be super safe, and to keep symptomatic people out of the building, and to limit the extra people they could bring with them. It’s all about the number of contacts you have.”

The story was different, though, for oncologists in several other countries, and sometimes it varied immensely within each nation.

“We treated fewer patients with cancer during the first wave,” says Dirk Arnold, MD, medical director of the Asklepios Tumor Center Hamburg (Germany), in an interview. “In part, this was because staff were quarantined and because we had a completely different infrastructure in all of the hospitals. But also fewer patients with cancer came to the clinic at all. A lot of resources were directed toward COVID-19.” 

In Spain, telemedicine helped keep up with visits, but other areas felt the effect of COVID-19 patient loads.

“At least in the oncology department of our center, we have practically maintained 100% of visits, mostly by telephone,” says Dr. Arrué, “but the reality is that our country has not yet been prepared for telemedicine.”

Laura Mezquita, MD, of the department of medical oncology at Hospital Clinic de Barcelona, describes a more dramatic situation: “We have seen how some of our patients, especially with metastatic disease, have been dismissed for intensive care and life-support treatments, as well as specific treatments against COVID-19 (tocilizumab, remdesivir, etc.) due to the general health collapse of the former wave,” she said. She adds that specific oncologic populations, such as those with thoracic tumors, have been more affected.
 

Distress among oncologists 

Many oncologists are still feeling stressed and fatigued after the first wave, just as a second string of outbreaks is on its way. 

A survey presented at last month’s ESMO 2020 Congress found that, in July-August, moral distress was reported by one-third of the oncologists who responded, and more than half reported a feeling of exhaustion. 

“The tiredness and team exhaustion is noticeable,” said Dr. Arnold. “We recently had a task force discussion about what will happen when we have a second wave and how the department and our services will adapt. It was clear that those who were at the very front in the first wave had only a limited desire to do that again in the second wave.”

Another concern: COVID-19’s effect on staffing levels. 

“We have a population of young caregivers who are affected by the COVID-19 disease with an absenteeism rate that is quite unprecedented,” said Sophie Beaupère, general delegate of Unicancer since January.

She said that, in general, the absenteeism rate in the cancer centers averages 5%-6%, depending on the year. But that rate is now skyrocketing.
 

Stop-start cycle for surgery

As caregivers quarantined around the world, more than 10% of patients with cancer had treatment canceled or delayed during the first wave of the pandemic, according to another survey from ESMO, involving 109 oncologists from 18 countries.

Difficulties were reported for surgeries by 34% of the centers, but also difficulties with delivering chemotherapy (22% of centers), radiotherapy (13.7%), and therapy with checkpoint inhibitors (9.1%), monoclonal antibodies (9%), and oral targeted therapy (3.7%).

Stopping surgery is a real concern in France, noted Dr. Kahn, the National League Against Cancer chair. He says that in regions that were badly hit by COVID-19, “it was not possible to have access to the operating room for people who absolutely needed surgery; for example, patients with lung cancer that was still operable. Most of the recovery rooms were mobilized for resuscitation.”

There may be some solutions, suggested Thierry Breton, director general of the National Institute of Cancer in France. “We are getting prepared, with the health ministry, for a possible increase in hospital tension, which would lead to a situation where we would have to reschedule operations. Nationally, regionally, and locally, we are seeing how we can resume and prioritize surgeries that have not been done.”
 

Delays in cancer diagnosis

While COVID-19 affected treatment, many oncologists say the major impact of the first wave was a delay in diagnosing cancer. Some of this was a result of the suspension of cancer screening programs, but there was also fear among the general public about visiting clinics and hospitals during a pandemic.

“We didn’t do so well with cancer during the first wave here in the U.K.,” said Karol Sikora, PhD, MBBChir, professor of cancer medicine and founding dean at the University of Buckingham Medical School, London. “Cancer diagnostic pathways virtually stalled partly because patients didn’t seek help, but getting scans and biopsies was also very difficult. Even patients referred urgently under the ‘2-weeks-wait’ rule were turned down.” 

In France, “the delay in diagnosis is indisputable,” said Dr. Kahn. “About 50% of the cancer diagnoses one would expect during this period were missed.” 

“I am worried that there remains a major traffic jam that has not been caught up with, and, in the meantime, the health crisis is worsening,” he added.  

In Seattle, Dr. Gralow said the first COVID-19 wave had little impact on treatment for breast cancer, but it was in screening for breast cancer “where things really got messed up.”

“Even though we’ve been fully ramped up again,” she said, concerns remain. To ensure that screening mammography is maintained, “we have spaced out the visits to keep our waiting rooms less populated, with a longer time between using the machine so we can clean it. To do this, we have extended operating hours and are now opening on Saturday.

“So we’re actually at 100% of our capacity, but I’m really nervous, though, that a lot of people put off their screening mammogram and aren’t going to come in and get it.

“Not only did people get the message to stay home and not do nonessential things, but I think a lot of people lost their health insurance when they lost their jobs,” she said, and without health insurance, they are not covered for cancer screening.
 

Looking ahead, with a plan

Many oncologists agree that access to care can and must be improved – and there were some positive moves.

“Some regimens changed during the first months of the pandemic, and I don’t see them going back to the way they were anytime soon,” said Dr. Testa. “The changes/adaptations that were made to minimize the chance of SARS-CoV-2 infection are still in place and will go on for a while. In this context, telemedicine helped a lot. The pandemic forced the stakeholders to step up and put it in place in March. And now it’s here to stay.”

The experience gained in the last several months has driven preparation for the next wave.

“We are not going to see the disorganization that we saw during the first wave,” said Florence Joly, MD, PhD, head of medical oncology at the Centre François Baclesse in Caen, France. “The difference between now and earlier this year is that COVID diagnostic tests are available. That was one of the problems in the first wave. We had no way to diagnose.”

On the East Coast of the United States, medical oncologist Charu Aggarwal, MD, MPH, is also optimistic: “I think we’re at a place where we can manage.”

“I believe if there was going to be a new wave of COVID-19 cases we would be: better psychologically prepared and better organized,” said Dr. Aggarwal, assistant professor of medicine in the hematology-oncology division at the University of Pennsylvania, Philadelphia. “We already have experience with all of the tools, we have telemedicine available, we have screening protocols available, we have testing, we are already universally masking, everyone’s hand-washing, so I do think that means we would be okay.” 

Dr. Arnold agreed that “we are much better prepared than for the first wave, but … we have immense tasks in the area of patient management, the digitization of patient care, the clear allocation of resources when there is a second or third wave. In many areas of preparation, I believe, unfortunately, we are not as well positioned as we had actually hoped.” 

The first wave of COVID hit cancer services in the United Kingdom particularly hard: One modeling study suggested that delays in cancer referrals will lead to thousands of additional deaths and tens of thousands of life-years lost.

“Cancer services are working at near normal levels now, but they are still fragile and could be severely compromised again if the NHS [National Health Service] gets flooded by COVID patients,” said Dr. Sikora.

The second wave may be different. “Although the number of infections has increased, the hospitalizations have only risen a little. Let’s see what happens,” he said in an interview. Since then, however, infections have continued to rise, and there has been an increase in hospitalizations. New social distancing measures in the United Kingdom were put into place on Oct. 12, with the aim of protecting the NHS from overload.

Dr. Arrué describes it this way: “The reality is that the ‘second wave’ has left behind the initial grief and shock that both patients and health professionals experienced when faced with something that, until now, we had only seen in the movies.” The second wave has led to new restrictions – including a partial lockdown since the beginning of October.

Dr. Aggarwal says her department recently had a conference with Anthony Fauci, MD, director of the National Institute of Allergy and Infectious Diseases, about the impact of COVID-19 on oncology.

“I asked him what advice he’d give oncologists, and he said to go back to as much screening as you were doing previously as quickly as possible. That’s what must be relayed to our oncologists in the community – and also to primary care physicians – because they are often the ones who are ordering and championing the screening efforts.”

This article was originated by Aude Lecrubier, Medscape French edition, and developed by Zosia Chustecka, Medscape Oncology. With additional reporting by Kate Johnson, freelance medical journalist, Claudia Gottschling for Medscape Germany, Leoleli Schwartz for Medscape em português, Tim Locke for Medscape United Kingdom, and Carla Nieto Martínez, freelance medical journalist for Medscape Spanish edition. 

This article first appeared on Medscape.com.

Canceled appointments, postponed surgeries, and delayed cancer diagnoses – all are a recipe for exhaustion for oncologists around the world, struggling to reach and treat their patients during the pandemic. Physicians and their teams felt the pain as COVID-19 took its initial march around the globe.

“We saw the distress of people with cancer who could no longer get to anyone on the phone. Their medical visit was usually canceled. Their radiotherapy session was postponed or modified, and chemotherapy postponed,” says Axel Kahn, MD, chairman of the board of directors of La Ligue Nationale Contre le Cancer (National League Against Cancer). “In the vast majority of cases, cancer treatment can be postponed or readjusted, without affecting the patient’s chances of survival, but there has been a lot of anxiety because the patients do not know that.”

The stay-at-home factor was one that played out across many months during the first wave.

“I believe that the ‘stay-home’ message that we transmitted was rigorously followed by patients who should have come to the emergency room much earlier and who, therefore, were admitted with a much more deteriorated general condition than in non-COVID-19 times,” says Benjamín Domingo Arrué, MD, from the department of medical oncology at Hospital Universitari i Politècnic La Fe in Valencia, Spain.

And in Brazil, some of the impact from the initial hit of COVID-19 on oncology is only now being felt, according to Laura Testa, MD, head of breast medical oncology, Instituto do Câncer do Estado de São Paulo.

“We are starting to see a lot of cancer cases that didn’t show up at the beginning of the pandemic, but now they are arriving to us already in advanced stages,” she said. “These patients need hospital care. If the situation worsens and goes back to what we saw at the peak of the curve, I fear the public system won’t be able to treat properly the oncology patients that need hospital care and the patients with cancer who also have COVID-19.”

But even as health care worker fatigue and concerns linger, oncologists say that what they have learned in the last 6 months has helped them prepare as COVID-19 cases increase and a second global wave kicks up.
 

Lessons from the first wave

In the United States, COVID-19 hit different regions at different times and to different degrees. One of the areas hit first was Seattle.

“We jumped on top of this, we were evidence based, we put things in place very, very quickly,” said Julie Gralow, MD, professor at the University of Washington and the Fred Hutchinson Cancer Research Center, both in Seattle.

“We did a really good job keeping COVID out of our cancer centers,” Dr. Gralow said. “We learned how to be super safe, and to keep symptomatic people out of the building, and to limit the extra people they could bring with them. It’s all about the number of contacts you have.”

The story was different, though, for oncologists in several other countries, and sometimes it varied immensely within each nation.

“We treated fewer patients with cancer during the first wave,” says Dirk Arnold, MD, medical director of the Asklepios Tumor Center Hamburg (Germany), in an interview. “In part, this was because staff were quarantined and because we had a completely different infrastructure in all of the hospitals. But also fewer patients with cancer came to the clinic at all. A lot of resources were directed toward COVID-19.” 

In Spain, telemedicine helped keep up with visits, but other areas felt the effect of COVID-19 patient loads.

“At least in the oncology department of our center, we have practically maintained 100% of visits, mostly by telephone,” says Dr. Arrué, “but the reality is that our country has not yet been prepared for telemedicine.”

Laura Mezquita, MD, of the department of medical oncology at Hospital Clinic de Barcelona, describes a more dramatic situation: “We have seen how some of our patients, especially with metastatic disease, have been dismissed for intensive care and life-support treatments, as well as specific treatments against COVID-19 (tocilizumab, remdesivir, etc.) due to the general health collapse of the former wave,” she said. She adds that specific oncologic populations, such as those with thoracic tumors, have been more affected.
 

Distress among oncologists 

Many oncologists are still feeling stressed and fatigued after the first wave, just as a second string of outbreaks is on its way. 

A survey presented at last month’s ESMO 2020 Congress found that, in July-August, moral distress was reported by one-third of the oncologists who responded, and more than half reported a feeling of exhaustion. 

“The tiredness and team exhaustion is noticeable,” said Dr. Arnold. “We recently had a task force discussion about what will happen when we have a second wave and how the department and our services will adapt. It was clear that those who were at the very front in the first wave had only a limited desire to do that again in the second wave.”

Another concern: COVID-19’s effect on staffing levels. 

“We have a population of young caregivers who are affected by the COVID-19 disease with an absenteeism rate that is quite unprecedented,” said Sophie Beaupère, general delegate of Unicancer since January.

She said that, in general, the absenteeism rate in the cancer centers averages 5%-6%, depending on the year. But that rate is now skyrocketing.
 

Stop-start cycle for surgery

As caregivers quarantined around the world, more than 10% of patients with cancer had treatment canceled or delayed during the first wave of the pandemic, according to another survey from ESMO, involving 109 oncologists from 18 countries.

Difficulties were reported for surgeries by 34% of the centers, but also difficulties with delivering chemotherapy (22% of centers), radiotherapy (13.7%), and therapy with checkpoint inhibitors (9.1%), monoclonal antibodies (9%), and oral targeted therapy (3.7%).

Stopping surgery is a real concern in France, noted Dr. Kahn, the National League Against Cancer chair. He says that in regions that were badly hit by COVID-19, “it was not possible to have access to the operating room for people who absolutely needed surgery; for example, patients with lung cancer that was still operable. Most of the recovery rooms were mobilized for resuscitation.”

There may be some solutions, suggested Thierry Breton, director general of the National Institute of Cancer in France. “We are getting prepared, with the health ministry, for a possible increase in hospital tension, which would lead to a situation where we would have to reschedule operations. Nationally, regionally, and locally, we are seeing how we can resume and prioritize surgeries that have not been done.”
 

Delays in cancer diagnosis

While COVID-19 affected treatment, many oncologists say the major impact of the first wave was a delay in diagnosing cancer. Some of this was a result of the suspension of cancer screening programs, but there was also fear among the general public about visiting clinics and hospitals during a pandemic.

“We didn’t do so well with cancer during the first wave here in the U.K.,” said Karol Sikora, PhD, MBBChir, professor of cancer medicine and founding dean at the University of Buckingham Medical School, London. “Cancer diagnostic pathways virtually stalled partly because patients didn’t seek help, but getting scans and biopsies was also very difficult. Even patients referred urgently under the ‘2-weeks-wait’ rule were turned down.” 

In France, “the delay in diagnosis is indisputable,” said Dr. Kahn. “About 50% of the cancer diagnoses one would expect during this period were missed.” 

“I am worried that there remains a major traffic jam that has not been caught up with, and, in the meantime, the health crisis is worsening,” he added.  

In Seattle, Dr. Gralow said the first COVID-19 wave had little impact on treatment for breast cancer, but it was in screening for breast cancer “where things really got messed up.”

“Even though we’ve been fully ramped up again,” she said, concerns remain. To ensure that screening mammography is maintained, “we have spaced out the visits to keep our waiting rooms less populated, with a longer time between using the machine so we can clean it. To do this, we have extended operating hours and are now opening on Saturday.

“So we’re actually at 100% of our capacity, but I’m really nervous, though, that a lot of people put off their screening mammogram and aren’t going to come in and get it.

“Not only did people get the message to stay home and not do nonessential things, but I think a lot of people lost their health insurance when they lost their jobs,” she said, and without health insurance, they are not covered for cancer screening.
 

Looking ahead, with a plan

Many oncologists agree that access to care can and must be improved – and there were some positive moves.

“Some regimens changed during the first months of the pandemic, and I don’t see them going back to the way they were anytime soon,” said Dr. Testa. “The changes/adaptations that were made to minimize the chance of SARS-CoV-2 infection are still in place and will go on for a while. In this context, telemedicine helped a lot. The pandemic forced the stakeholders to step up and put it in place in March. And now it’s here to stay.”

The experience gained in the last several months has driven preparation for the next wave.

“We are not going to see the disorganization that we saw during the first wave,” said Florence Joly, MD, PhD, head of medical oncology at the Centre François Baclesse in Caen, France. “The difference between now and earlier this year is that COVID diagnostic tests are available. That was one of the problems in the first wave. We had no way to diagnose.”

On the East Coast of the United States, medical oncologist Charu Aggarwal, MD, MPH, is also optimistic: “I think we’re at a place where we can manage.”

“I believe if there was going to be a new wave of COVID-19 cases we would be: better psychologically prepared and better organized,” said Dr. Aggarwal, assistant professor of medicine in the hematology-oncology division at the University of Pennsylvania, Philadelphia. “We already have experience with all of the tools, we have telemedicine available, we have screening protocols available, we have testing, we are already universally masking, everyone’s hand-washing, so I do think that means we would be okay.” 

Dr. Arnold agreed that “we are much better prepared than for the first wave, but … we have immense tasks in the area of patient management, the digitization of patient care, the clear allocation of resources when there is a second or third wave. In many areas of preparation, I believe, unfortunately, we are not as well positioned as we had actually hoped.” 

The first wave of COVID hit cancer services in the United Kingdom particularly hard: One modeling study suggested that delays in cancer referrals will lead to thousands of additional deaths and tens of thousands of life-years lost.

“Cancer services are working at near normal levels now, but they are still fragile and could be severely compromised again if the NHS [National Health Service] gets flooded by COVID patients,” said Dr. Sikora.

The second wave may be different. “Although the number of infections has increased, the hospitalizations have only risen a little. Let’s see what happens,” he said in an interview. Since then, however, infections have continued to rise, and there has been an increase in hospitalizations. New social distancing measures in the United Kingdom were put into place on Oct. 12, with the aim of protecting the NHS from overload.

Dr. Arrué describes it this way: “The reality is that the ‘second wave’ has left behind the initial grief and shock that both patients and health professionals experienced when faced with something that, until now, we had only seen in the movies.” The second wave has led to new restrictions – including a partial lockdown since the beginning of October.

Dr. Aggarwal says her department recently had a conference with Anthony Fauci, MD, director of the National Institute of Allergy and Infectious Diseases, about the impact of COVID-19 on oncology.

“I asked him what advice he’d give oncologists, and he said to go back to as much screening as you were doing previously as quickly as possible. That’s what must be relayed to our oncologists in the community – and also to primary care physicians – because they are often the ones who are ordering and championing the screening efforts.”

This article was originated by Aude Lecrubier, Medscape French edition, and developed by Zosia Chustecka, Medscape Oncology. With additional reporting by Kate Johnson, freelance medical journalist, Claudia Gottschling for Medscape Germany, Leoleli Schwartz for Medscape em português, Tim Locke for Medscape United Kingdom, and Carla Nieto Martínez, freelance medical journalist for Medscape Spanish edition. 

This article first appeared on Medscape.com.

Mortality in patients with COVID-19 and cancer is associated with general clinical and demographic factors, cancer-specific factors, cancer treatment variables, and laboratory parameters, according to two presentations at the European Society for Medical Oncology Virtual Congress 2020.

Two analyses of data from the COVID-19 and Cancer Consortium (CCC19) were presented at the meeting.

The data suggest that older age, male sex, more comorbidities, poor performance status, progressive cancer or multiple cancers, hematologic malignancy, and recent cancer therapy are all associated with higher mortality among patients with cancer and COVID-19. Anti-CD20 therapy is associated with an especially high mortality rate, according to an investigator.

Among hospitalized patients, increased absolute neutrophil count as well as abnormal D-dimer, high-sensitivity troponin, and C-reactive protein are associated with a higher risk of mortality.

Prior analyses of CCC19 data pointed to several factors associated with higher COVID-19 death rates, according to Petros Grivas, MD, PhD, of University of Washington, Seattle, who presented some CCC19 data at the meeting. However, the prior analyses were limited by weak statistical power and low event rates, Dr. Grivas said.
 

Clinical and laboratory factors: Abstract LBA72

The aim of Dr. Grivas’s analysis was to validate a priori identified demographic and clinicopathologic factors associated with 30-day all-cause mortality in patients with COVID-19 and cancer. Dr. Grivas and colleagues also explored the potential association between laboratory parameters and 30-day all-cause mortality.

The analysis included 3,899 patients with cancer and COVID-19 from 124 centers. Most centers are in the United States, but 4% are in Canada, and 2% are in Spain. About two-thirds of patients were 60 years of age or younger at baseline, half were men, 79% had solid tumors, and 21% had hematologic malignancies.

Cancer-specific factors associated with an increased risk of 30-day all-cause mortality were having progressive cancer (adjusted odds ratio, 2.9), receiving cancer therapy within 3 months (aOR, 1.2), having a hematologic versus solid tumor (aOR, 1.7), and having multiple malignancies (aOR, 1.5).

Clinical factors associated with an increased risk of 30-day all-cause mortality were Black versus White race (aOR, 1.5), older age (aOR, 1.7 per 10 years), three or more actively treated comorbidities (versus none; aOR, 2.1), and Eastern Cooperative Oncology Group performance status of 2 or more (versus 0; aOR, 4.6).

In hospitalized patients, several laboratory variables were associated with an increased risk of 30-day all-cause mortality. Having an absolute neutrophil count above the upper limit of normal doubled the risk (aOR, 2.0), while abnormal D-dimer, high-sensitivity troponin, and C-reactive protein all more than doubled the risk of mortality (aORs of 2.5, 2.5, and 2.4, respectively).

Further risk modeling with multivariable analysis will be performed after longer follow-up, Dr. Grivas noted.
 

Treatment-related outcomes: Abstract LBA71

An additional analysis of CCC19 data encompassed 3,654 patients. In this analysis, researchers investigated the correlation between timing of cancer treatment and COVID-19–related complications and 30-day mortality.

Mortality was highest among cancer patients treated 1-3 months prior to COVID-19 diagnosis, with all-cause mortality at 28%, said Trisha M. Wise-Draper, MD, PhD, of University of Cincinnati, when presenting the data at the meeting.

Rates for other complications (hospitalization, oxygen required, ICU admission, and mechanical ventilation) were similar regardless of treatment timing.

The unadjusted 30-day mortality rate was highest for patients treated most recently with chemoimmunotherapy (30%), followed by chemotherapy (18%), chemoradiotherapy (18%), and targeted therapy (17%).

The mortality rate was “particularly high,” at 50%, in patients receiving anti-CD20 therapy 1-3 months prior to COVID-19 diagnosis – the time period for which significant B-cell depletion develops, Dr. Wise-Draper observed.

An analysis of disease status among 1,449 patients treated within 3 months of COVID-19 diagnosis showed mortality risk increasing from 6% among patients in remission or with newly emergent disease, to 22% in patients with any active cancer, to 34% in those with progressing disease, Dr. Wise-Draper said.

Discussant Benjamin Solomon, MD, PhD, of Peter MacCallum Cancer Centre in Melbourne, made note of the high 30-day mortality rate seen in patients receiving anti-CD20 therapy as well as the elevated standardized mortality ratios with recent chemoimmunotherapy and targeted therapy.

“Although there are some limitations of this analysis, it provides the best data we have to date about the effects of treatment on early mortality in patients with COVID-19 and cancer. It points to a modest but heterogeneous effect of treatment on outcome, one which is likely to become clearer with larger cohorts and additional analysis,” Dr. Solomon said.

This research was funded by the American Cancer Society, Hope Foundation for Cancer Research, Jim and Carol O’Hare Fund, National Cancer Institute, National Human Genome Research Institute, Vanderbilt Institute for Clinical and Translational Research, and Fonds de Recherche du Quebec-Sante. Dr. Grivas disclosed relationships with many companies, but none are related to this work. Dr. Wise-Draper disclosed relationships with Merck, Bristol-Myers Squibb, Tesaro, GlaxoSmithKline, AstraZeneca, Shattuck Labs, and Rakuten. Dr. Solomon disclosed relationships with Amgen, AstraZeneca, Merck, Bristol-Myers Squibb, Novartis, Pfizer, and Roche-Genentech.

SOURCES: Grivas P et al. ESMO 2020, Abstract LBA72; Wise-Draper TM et al. ESMO 2020, Abstract LBA71.

Mortality in patients with COVID-19 and cancer is associated with general clinical and demographic factors, cancer-specific factors, cancer treatment variables, and laboratory parameters, according to two presentations at the European Society for Medical Oncology Virtual Congress 2020.

Two analyses of data from the COVID-19 and Cancer Consortium (CCC19) were presented at the meeting.

The data suggest that older age, male sex, more comorbidities, poor performance status, progressive cancer or multiple cancers, hematologic malignancy, and recent cancer therapy are all associated with higher mortality among patients with cancer and COVID-19. Anti-CD20 therapy is associated with an especially high mortality rate, according to an investigator.

Among hospitalized patients, increased absolute neutrophil count as well as abnormal D-dimer, high-sensitivity troponin, and C-reactive protein are associated with a higher risk of mortality.

Prior analyses of CCC19 data pointed to several factors associated with higher COVID-19 death rates, according to Petros Grivas, MD, PhD, of University of Washington, Seattle, who presented some CCC19 data at the meeting. However, the prior analyses were limited by weak statistical power and low event rates, Dr. Grivas said.
 

Clinical and laboratory factors: Abstract LBA72

The aim of Dr. Grivas’s analysis was to validate a priori identified demographic and clinicopathologic factors associated with 30-day all-cause mortality in patients with COVID-19 and cancer. Dr. Grivas and colleagues also explored the potential association between laboratory parameters and 30-day all-cause mortality.

The analysis included 3,899 patients with cancer and COVID-19 from 124 centers. Most centers are in the United States, but 4% are in Canada, and 2% are in Spain. About two-thirds of patients were 60 years of age or younger at baseline, half were men, 79% had solid tumors, and 21% had hematologic malignancies.

Cancer-specific factors associated with an increased risk of 30-day all-cause mortality were having progressive cancer (adjusted odds ratio, 2.9), receiving cancer therapy within 3 months (aOR, 1.2), having a hematologic versus solid tumor (aOR, 1.7), and having multiple malignancies (aOR, 1.5).

Clinical factors associated with an increased risk of 30-day all-cause mortality were Black versus White race (aOR, 1.5), older age (aOR, 1.7 per 10 years), three or more actively treated comorbidities (versus none; aOR, 2.1), and Eastern Cooperative Oncology Group performance status of 2 or more (versus 0; aOR, 4.6).

In hospitalized patients, several laboratory variables were associated with an increased risk of 30-day all-cause mortality. Having an absolute neutrophil count above the upper limit of normal doubled the risk (aOR, 2.0), while abnormal D-dimer, high-sensitivity troponin, and C-reactive protein all more than doubled the risk of mortality (aORs of 2.5, 2.5, and 2.4, respectively).

Further risk modeling with multivariable analysis will be performed after longer follow-up, Dr. Grivas noted.
 

Treatment-related outcomes: Abstract LBA71

An additional analysis of CCC19 data encompassed 3,654 patients. In this analysis, researchers investigated the correlation between timing of cancer treatment and COVID-19–related complications and 30-day mortality.

Mortality was highest among cancer patients treated 1-3 months prior to COVID-19 diagnosis, with all-cause mortality at 28%, said Trisha M. Wise-Draper, MD, PhD, of University of Cincinnati, when presenting the data at the meeting.

Rates for other complications (hospitalization, oxygen required, ICU admission, and mechanical ventilation) were similar regardless of treatment timing.

The unadjusted 30-day mortality rate was highest for patients treated most recently with chemoimmunotherapy (30%), followed by chemotherapy (18%), chemoradiotherapy (18%), and targeted therapy (17%).

The mortality rate was “particularly high,” at 50%, in patients receiving anti-CD20 therapy 1-3 months prior to COVID-19 diagnosis – the time period for which significant B-cell depletion develops, Dr. Wise-Draper observed.

An analysis of disease status among 1,449 patients treated within 3 months of COVID-19 diagnosis showed mortality risk increasing from 6% among patients in remission or with newly emergent disease, to 22% in patients with any active cancer, to 34% in those with progressing disease, Dr. Wise-Draper said.

Discussant Benjamin Solomon, MD, PhD, of Peter MacCallum Cancer Centre in Melbourne, made note of the high 30-day mortality rate seen in patients receiving anti-CD20 therapy as well as the elevated standardized mortality ratios with recent chemoimmunotherapy and targeted therapy.

“Although there are some limitations of this analysis, it provides the best data we have to date about the effects of treatment on early mortality in patients with COVID-19 and cancer. It points to a modest but heterogeneous effect of treatment on outcome, one which is likely to become clearer with larger cohorts and additional analysis,” Dr. Solomon said.

This research was funded by the American Cancer Society, Hope Foundation for Cancer Research, Jim and Carol O’Hare Fund, National Cancer Institute, National Human Genome Research Institute, Vanderbilt Institute for Clinical and Translational Research, and Fonds de Recherche du Quebec-Sante. Dr. Grivas disclosed relationships with many companies, but none are related to this work. Dr. Wise-Draper disclosed relationships with Merck, Bristol-Myers Squibb, Tesaro, GlaxoSmithKline, AstraZeneca, Shattuck Labs, and Rakuten. Dr. Solomon disclosed relationships with Amgen, AstraZeneca, Merck, Bristol-Myers Squibb, Novartis, Pfizer, and Roche-Genentech.

SOURCES: Grivas P et al. ESMO 2020, Abstract LBA72; Wise-Draper TM et al. ESMO 2020, Abstract LBA71.

Mortality in patients with COVID-19 and cancer is associated with general clinical and demographic factors, cancer-specific factors, cancer treatment variables, and laboratory parameters, according to two presentations at the European Society for Medical Oncology Virtual Congress 2020.

Two analyses of data from the COVID-19 and Cancer Consortium (CCC19) were presented at the meeting.

The data suggest that older age, male sex, more comorbidities, poor performance status, progressive cancer or multiple cancers, hematologic malignancy, and recent cancer therapy are all associated with higher mortality among patients with cancer and COVID-19. Anti-CD20 therapy is associated with an especially high mortality rate, according to an investigator.

Among hospitalized patients, increased absolute neutrophil count as well as abnormal D-dimer, high-sensitivity troponin, and C-reactive protein are associated with a higher risk of mortality.

Prior analyses of CCC19 data pointed to several factors associated with higher COVID-19 death rates, according to Petros Grivas, MD, PhD, of University of Washington, Seattle, who presented some CCC19 data at the meeting. However, the prior analyses were limited by weak statistical power and low event rates, Dr. Grivas said.
 

Clinical and laboratory factors: Abstract LBA72

The aim of Dr. Grivas’s analysis was to validate a priori identified demographic and clinicopathologic factors associated with 30-day all-cause mortality in patients with COVID-19 and cancer. Dr. Grivas and colleagues also explored the potential association between laboratory parameters and 30-day all-cause mortality.

The analysis included 3,899 patients with cancer and COVID-19 from 124 centers. Most centers are in the United States, but 4% are in Canada, and 2% are in Spain. About two-thirds of patients were 60 years of age or younger at baseline, half were men, 79% had solid tumors, and 21% had hematologic malignancies.

Cancer-specific factors associated with an increased risk of 30-day all-cause mortality were having progressive cancer (adjusted odds ratio, 2.9), receiving cancer therapy within 3 months (aOR, 1.2), having a hematologic versus solid tumor (aOR, 1.7), and having multiple malignancies (aOR, 1.5).

Clinical factors associated with an increased risk of 30-day all-cause mortality were Black versus White race (aOR, 1.5), older age (aOR, 1.7 per 10 years), three or more actively treated comorbidities (versus none; aOR, 2.1), and Eastern Cooperative Oncology Group performance status of 2 or more (versus 0; aOR, 4.6).

In hospitalized patients, several laboratory variables were associated with an increased risk of 30-day all-cause mortality. Having an absolute neutrophil count above the upper limit of normal doubled the risk (aOR, 2.0), while abnormal D-dimer, high-sensitivity troponin, and C-reactive protein all more than doubled the risk of mortality (aORs of 2.5, 2.5, and 2.4, respectively).

Further risk modeling with multivariable analysis will be performed after longer follow-up, Dr. Grivas noted.
 

Treatment-related outcomes: Abstract LBA71

An additional analysis of CCC19 data encompassed 3,654 patients. In this analysis, researchers investigated the correlation between timing of cancer treatment and COVID-19–related complications and 30-day mortality.

Mortality was highest among cancer patients treated 1-3 months prior to COVID-19 diagnosis, with all-cause mortality at 28%, said Trisha M. Wise-Draper, MD, PhD, of University of Cincinnati, when presenting the data at the meeting.

Rates for other complications (hospitalization, oxygen required, ICU admission, and mechanical ventilation) were similar regardless of treatment timing.

The unadjusted 30-day mortality rate was highest for patients treated most recently with chemoimmunotherapy (30%), followed by chemotherapy (18%), chemoradiotherapy (18%), and targeted therapy (17%).

The mortality rate was “particularly high,” at 50%, in patients receiving anti-CD20 therapy 1-3 months prior to COVID-19 diagnosis – the time period for which significant B-cell depletion develops, Dr. Wise-Draper observed.

An analysis of disease status among 1,449 patients treated within 3 months of COVID-19 diagnosis showed mortality risk increasing from 6% among patients in remission or with newly emergent disease, to 22% in patients with any active cancer, to 34% in those with progressing disease, Dr. Wise-Draper said.

Discussant Benjamin Solomon, MD, PhD, of Peter MacCallum Cancer Centre in Melbourne, made note of the high 30-day mortality rate seen in patients receiving anti-CD20 therapy as well as the elevated standardized mortality ratios with recent chemoimmunotherapy and targeted therapy.

“Although there are some limitations of this analysis, it provides the best data we have to date about the effects of treatment on early mortality in patients with COVID-19 and cancer. It points to a modest but heterogeneous effect of treatment on outcome, one which is likely to become clearer with larger cohorts and additional analysis,” Dr. Solomon said.

This research was funded by the American Cancer Society, Hope Foundation for Cancer Research, Jim and Carol O’Hare Fund, National Cancer Institute, National Human Genome Research Institute, Vanderbilt Institute for Clinical and Translational Research, and Fonds de Recherche du Quebec-Sante. Dr. Grivas disclosed relationships with many companies, but none are related to this work. Dr. Wise-Draper disclosed relationships with Merck, Bristol-Myers Squibb, Tesaro, GlaxoSmithKline, AstraZeneca, Shattuck Labs, and Rakuten. Dr. Solomon disclosed relationships with Amgen, AstraZeneca, Merck, Bristol-Myers Squibb, Novartis, Pfizer, and Roche-Genentech.

SOURCES: Grivas P et al. ESMO 2020, Abstract LBA72; Wise-Draper TM et al. ESMO 2020, Abstract LBA71.

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

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

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

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

About scoping reviews

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

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

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

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

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

Findings and implications

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

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

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

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

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

Care of individual patients and clinical research

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

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

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

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

Employing disease-centric and geriatric domains

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

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

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

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

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

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

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

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

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

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

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

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

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

About scoping reviews

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

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

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

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

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

Findings and implications

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

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

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

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

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

Care of individual patients and clinical research

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

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

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

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

Employing disease-centric and geriatric domains

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

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

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

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

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

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

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

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

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

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

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

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

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

About scoping reviews

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

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

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

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

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

Findings and implications

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

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

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

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

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

Care of individual patients and clinical research

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

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

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

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

Employing disease-centric and geriatric domains

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

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

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

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

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

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

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

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

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

Good news about cancer – with new data showing falling mortality rates and improved survival rates – is tempered somewhat by a “grim reality,” says the American Association for Cancer Research (AACR).

“The burden of cancer is not shouldered equally by all segments of the U.S. population,” the AACR adds. “The adverse differences in cancer burden that exist among certain population groups are one of the most pressing public health challenges that we face in the United States.” 

AACR president Antoni Ribas, MD, PhD, gave some examples of these disparities at a September 16 Congressional briefing that focused on the inaugural AACR Cancer Disparities Progress Report 2020.

He noted that:

• Black men have more than double the rate of death from prostate cancer compared with men of other racial and ethnic groups.
• Hispanic children are 24% more likely to develop leukemia than non-Hispanic children.
• Non-Hispanic Black children and adolescents with cancer are more than 50% more likely to die from the cancer than non-Hispanic white children and adolescents with cancer.
• Women of low socioeconomic status with early stage ovarian cancer are 50% less likely to receive recommended care than are women of high socioeconomic status.
• In addition to racial and ethnic minority groups, other populations that bear a disproportionate burden when it comes to cancer include individuals lacking adequate health insurance coverage, immigrants, those with disabilities, residents in rural areas, and members of the lesbian, gay, bisexual, and transgender communities.

“It is absolutely unacceptable that advances in cancer care and treatment are not benefiting everyone equally,” Ribas commented.
 

Making progress against cancer

Progress being made against cancer was highlighted in another publication, the annual AACR Cancer Progress Report 2020.

U.S. cancer deaths declined by 29% between 1991 and 2017, translating to nearly 3 million cancer deaths avoided, the report notes. In addition, 5-year survival rates for all cancers combined increased from 49% in the mid-1970s to 70% for patients diagnosed from 2010-2016.

Between August 2019 and July 31 of this year, the U.S. Food and Drug Administration approved 20 new anticancer drugs for various cancer types and 15 new indications for previously approved cancer drugs, marking the highest number of approvals in one 12-month period since AACR started producing these reports 10 years ago.

A continuing reduction in the cigarette smoking rate among US adults, which is now below 14%, is contributing greatly to declines in lung cancer rates, which have largely driven the improvements in cancer survival, the AACR noted.

This report also notes that progress has been made toward reducing cancer disparities. Overall disparities in cancer death rates among racial and ethnic groups are less pronounced now than they have been in the past two decades. For example, the overall cancer death rate for African American patients was 33% higher than for White patients in 1990 but just 14% higher in 2016.

However, both reports agree that more must be done to reduce cancer disparities even further. 

They highlight initiatives that are underway, including:

• The draft guidance issued by the FDA to promote diversification of clinical trial populations.
• The National Institutes of Health’s (NIH’s) Continuing Umbrella of Research Experiences (CURE) program supporting underrepresented students and scientists along their academic and research career pathway.
• The Centers for Disease Control and Prevention’s Racial and Ethnic Approaches to Community Health (REACH) program, a grant-making program focused on encouraging preventive behaviors in underserved communities.
• The NIH’s All of Us program, which is gathering information from the genomes of 1 million healthy individuals with a focus on recruitment from historically underrepresented populations.

Ribas also announced that AACR has established a task force to focus on racial inequalities in cancer research.

Eliminating disparities would save money, argued John D. Carpten, PhD, from the University of Southern California, Los Angeles, who chaired the steering committee that developed the AACR Cancer Disparities Progress Report.

Carpten noted research showing that eliminating disparities for racial and ethnic minorities between 2003 and 2006 would have reduced health care costs by more than $1 trillion in the United States. This underscores the potentially far-reaching impact of efforts to eliminate disparities, he said.

“Without a doubt, socioeconomics and inequities in access to quality care represent major factors influencing cancer health disparities, and these disparities will persist until we address these issues” he said.

Both progress reports culminate in a call to action, largely focused on the need for “unwavering, bipartisan support from Congress, in the form of robust and sustained annual increases in funding for the NIH, NCI [National Cancer Institute], and FDA,” which is vital for accelerating the pace of progress.

The challenge is now compounded by the ongoing COVID-19 pandemic: Both progress reports note that racial and ethnic minorities, including African Americans, are not only affected disproportionately by cancer, but also by COVID-19, further highlighting the “stark inequities in health care.”

Ribas further called for action from national leadership and the scientific community.

“During this unprecedented time in our nation’s history, there is also a need for our nation’s leaders to take on a much bigger role in confronting and combating the structural and systemic racism that contributes to health disparities,” he said. The “pervasive racism and social injustices” that have contributed to disparities in both COVID-19 and cancer underscore the need for “the scientific community to step up and partner with Congress to assess and address this issue within the research community.”

This article first appeared on Medscape.com.

Good news about cancer – with new data showing falling mortality rates and improved survival rates – is tempered somewhat by a “grim reality,” says the American Association for Cancer Research (AACR).

“The burden of cancer is not shouldered equally by all segments of the U.S. population,” the AACR adds. “The adverse differences in cancer burden that exist among certain population groups are one of the most pressing public health challenges that we face in the United States.” 

AACR president Antoni Ribas, MD, PhD, gave some examples of these disparities at a September 16 Congressional briefing that focused on the inaugural AACR Cancer Disparities Progress Report 2020.

He noted that:

• Black men have more than double the rate of death from prostate cancer compared with men of other racial and ethnic groups.
• Hispanic children are 24% more likely to develop leukemia than non-Hispanic children.
• Non-Hispanic Black children and adolescents with cancer are more than 50% more likely to die from the cancer than non-Hispanic white children and adolescents with cancer.
• Women of low socioeconomic status with early stage ovarian cancer are 50% less likely to receive recommended care than are women of high socioeconomic status.
• In addition to racial and ethnic minority groups, other populations that bear a disproportionate burden when it comes to cancer include individuals lacking adequate health insurance coverage, immigrants, those with disabilities, residents in rural areas, and members of the lesbian, gay, bisexual, and transgender communities.

“It is absolutely unacceptable that advances in cancer care and treatment are not benefiting everyone equally,” Ribas commented.
 

Making progress against cancer

Progress being made against cancer was highlighted in another publication, the annual AACR Cancer Progress Report 2020.

U.S. cancer deaths declined by 29% between 1991 and 2017, translating to nearly 3 million cancer deaths avoided, the report notes. In addition, 5-year survival rates for all cancers combined increased from 49% in the mid-1970s to 70% for patients diagnosed from 2010-2016.

Between August 2019 and July 31 of this year, the U.S. Food and Drug Administration approved 20 new anticancer drugs for various cancer types and 15 new indications for previously approved cancer drugs, marking the highest number of approvals in one 12-month period since AACR started producing these reports 10 years ago.

A continuing reduction in the cigarette smoking rate among US adults, which is now below 14%, is contributing greatly to declines in lung cancer rates, which have largely driven the improvements in cancer survival, the AACR noted.

This report also notes that progress has been made toward reducing cancer disparities. Overall disparities in cancer death rates among racial and ethnic groups are less pronounced now than they have been in the past two decades. For example, the overall cancer death rate for African American patients was 33% higher than for White patients in 1990 but just 14% higher in 2016.

However, both reports agree that more must be done to reduce cancer disparities even further. 

They highlight initiatives that are underway, including:

• The draft guidance issued by the FDA to promote diversification of clinical trial populations.
• The National Institutes of Health’s (NIH’s) Continuing Umbrella of Research Experiences (CURE) program supporting underrepresented students and scientists along their academic and research career pathway.
• The Centers for Disease Control and Prevention’s Racial and Ethnic Approaches to Community Health (REACH) program, a grant-making program focused on encouraging preventive behaviors in underserved communities.
• The NIH’s All of Us program, which is gathering information from the genomes of 1 million healthy individuals with a focus on recruitment from historically underrepresented populations.

Ribas also announced that AACR has established a task force to focus on racial inequalities in cancer research.

Eliminating disparities would save money, argued John D. Carpten, PhD, from the University of Southern California, Los Angeles, who chaired the steering committee that developed the AACR Cancer Disparities Progress Report.

Carpten noted research showing that eliminating disparities for racial and ethnic minorities between 2003 and 2006 would have reduced health care costs by more than $1 trillion in the United States. This underscores the potentially far-reaching impact of efforts to eliminate disparities, he said.

“Without a doubt, socioeconomics and inequities in access to quality care represent major factors influencing cancer health disparities, and these disparities will persist until we address these issues” he said.

Both progress reports culminate in a call to action, largely focused on the need for “unwavering, bipartisan support from Congress, in the form of robust and sustained annual increases in funding for the NIH, NCI [National Cancer Institute], and FDA,” which is vital for accelerating the pace of progress.

The challenge is now compounded by the ongoing COVID-19 pandemic: Both progress reports note that racial and ethnic minorities, including African Americans, are not only affected disproportionately by cancer, but also by COVID-19, further highlighting the “stark inequities in health care.”

Ribas further called for action from national leadership and the scientific community.

“During this unprecedented time in our nation’s history, there is also a need for our nation’s leaders to take on a much bigger role in confronting and combating the structural and systemic racism that contributes to health disparities,” he said. The “pervasive racism and social injustices” that have contributed to disparities in both COVID-19 and cancer underscore the need for “the scientific community to step up and partner with Congress to assess and address this issue within the research community.”

This article first appeared on Medscape.com.

Good news about cancer – with new data showing falling mortality rates and improved survival rates – is tempered somewhat by a “grim reality,” says the American Association for Cancer Research (AACR).

“The burden of cancer is not shouldered equally by all segments of the U.S. population,” the AACR adds. “The adverse differences in cancer burden that exist among certain population groups are one of the most pressing public health challenges that we face in the United States.” 

AACR president Antoni Ribas, MD, PhD, gave some examples of these disparities at a September 16 Congressional briefing that focused on the inaugural AACR Cancer Disparities Progress Report 2020.

He noted that:

• Black men have more than double the rate of death from prostate cancer compared with men of other racial and ethnic groups.
• Hispanic children are 24% more likely to develop leukemia than non-Hispanic children.
• Non-Hispanic Black children and adolescents with cancer are more than 50% more likely to die from the cancer than non-Hispanic white children and adolescents with cancer.
• Women of low socioeconomic status with early stage ovarian cancer are 50% less likely to receive recommended care than are women of high socioeconomic status.
• In addition to racial and ethnic minority groups, other populations that bear a disproportionate burden when it comes to cancer include individuals lacking adequate health insurance coverage, immigrants, those with disabilities, residents in rural areas, and members of the lesbian, gay, bisexual, and transgender communities.

“It is absolutely unacceptable that advances in cancer care and treatment are not benefiting everyone equally,” Ribas commented.
 

Making progress against cancer

Progress being made against cancer was highlighted in another publication, the annual AACR Cancer Progress Report 2020.

U.S. cancer deaths declined by 29% between 1991 and 2017, translating to nearly 3 million cancer deaths avoided, the report notes. In addition, 5-year survival rates for all cancers combined increased from 49% in the mid-1970s to 70% for patients diagnosed from 2010-2016.

Between August 2019 and July 31 of this year, the U.S. Food and Drug Administration approved 20 new anticancer drugs for various cancer types and 15 new indications for previously approved cancer drugs, marking the highest number of approvals in one 12-month period since AACR started producing these reports 10 years ago.

A continuing reduction in the cigarette smoking rate among US adults, which is now below 14%, is contributing greatly to declines in lung cancer rates, which have largely driven the improvements in cancer survival, the AACR noted.

This report also notes that progress has been made toward reducing cancer disparities. Overall disparities in cancer death rates among racial and ethnic groups are less pronounced now than they have been in the past two decades. For example, the overall cancer death rate for African American patients was 33% higher than for White patients in 1990 but just 14% higher in 2016.

However, both reports agree that more must be done to reduce cancer disparities even further. 

They highlight initiatives that are underway, including:

• The draft guidance issued by the FDA to promote diversification of clinical trial populations.
• The National Institutes of Health’s (NIH’s) Continuing Umbrella of Research Experiences (CURE) program supporting underrepresented students and scientists along their academic and research career pathway.
• The Centers for Disease Control and Prevention’s Racial and Ethnic Approaches to Community Health (REACH) program, a grant-making program focused on encouraging preventive behaviors in underserved communities.
• The NIH’s All of Us program, which is gathering information from the genomes of 1 million healthy individuals with a focus on recruitment from historically underrepresented populations.

Ribas also announced that AACR has established a task force to focus on racial inequalities in cancer research.

Eliminating disparities would save money, argued John D. Carpten, PhD, from the University of Southern California, Los Angeles, who chaired the steering committee that developed the AACR Cancer Disparities Progress Report.

Carpten noted research showing that eliminating disparities for racial and ethnic minorities between 2003 and 2006 would have reduced health care costs by more than $1 trillion in the United States. This underscores the potentially far-reaching impact of efforts to eliminate disparities, he said.

“Without a doubt, socioeconomics and inequities in access to quality care represent major factors influencing cancer health disparities, and these disparities will persist until we address these issues” he said.

Both progress reports culminate in a call to action, largely focused on the need for “unwavering, bipartisan support from Congress, in the form of robust and sustained annual increases in funding for the NIH, NCI [National Cancer Institute], and FDA,” which is vital for accelerating the pace of progress.

The challenge is now compounded by the ongoing COVID-19 pandemic: Both progress reports note that racial and ethnic minorities, including African Americans, are not only affected disproportionately by cancer, but also by COVID-19, further highlighting the “stark inequities in health care.”

Ribas further called for action from national leadership and the scientific community.

“During this unprecedented time in our nation’s history, there is also a need for our nation’s leaders to take on a much bigger role in confronting and combating the structural and systemic racism that contributes to health disparities,” he said. The “pervasive racism and social injustices” that have contributed to disparities in both COVID-19 and cancer underscore the need for “the scientific community to step up and partner with Congress to assess and address this issue within the research community.”

This article first appeared on Medscape.com.