COVID-19: What's new in heme/onc

Non-Hispanic black patients with cancer and patients with hematologic malignancies have a significantly increased risk of death if they develop COVID-19, according to the latest data from the COVID-19 and Cancer Consortium (CCC19) registry.

Initial results from the CCC19 registry were reported as part of the American Society of Clinical Oncology (ASCO) virtual scientific program and published in The Lancet (Lancet. 2020 Jun 20;395[10241]:1907-18).

The latest data were presented at the AACR virtual meeting: COVID-19 and Cancer by Brian I. Rini, MD, of Vanderbilt University, Nashville, Tenn. They were simultaneously published in Cancer Discovery (Cancer Discov. 2020 Jul 22;CD-20-0941).

The CCC19 registry was launched in March by a few institutions as part of “a grassroots idea ... to collect granular data regarding cancer patients and their outcomes with COVID,” Dr. Rini said.

Within a few months of its inception, the registry had partnered with more than 100 institutions worldwide and accrued data from more than 2,000 patients.

The reports in The Lancet and at ASCO included outcomes for the first 928 patients and showed a 13% mortality rate as well as a fivefold increase in the risk of 30-day mortality among patients with COVID-19 and progressing cancer.

The data also showed an increased mortality risk among older patients, men, former smokers, those with poor performance status, those with multiple comorbidities, and those treated with hydroxychloroquine and azithromycin.

The latest data

The CCC19 registry has grown to include 114 sites worldwide, including major comprehensive cancer centers and community sites. As of June 26, there were 2,749 patients enrolled.

Since the last data were reported, the mortality rate increased from 13% to 16% (versus 5% globally). In addition, the increased mortality risk among non-Hispanic black patients and patients with hematologic malignancies reached statistical significance, Dr. Rini said. He noted that the increase in mortality rate was largely attributable to improved follow-up.

Mechanical ventilation was required in 12% of patients, ICU admission was required in 16%, oxygen was required in 45%, and hospitalization was required in 60%. The composite outcome of death, severe illness requiring hospitalization, ICU admission, or mechanical ventilation was reached in 29% of patients, Dr. Rini said.

Mortality rates across cancer types ranged from 3% to 26%, with thyroid and breast cancer patients having the lowest rates (3% and 8%, respectively), and with lymphoma and lung cancer patients having the highest (22% and 26%, respectively), Dr. Rini said.

He noted that the TERAVOLT registry, a COVID-19 registry for patients with thoracic cancers, also showed a very high mortality rate in this subgroup of patients.

Results from TERAVOLT were reported at the AACR virtual meeting I, presented at ASCO, and published in The Lancet (Lancet Oncol. 2020 Jul;21[7]:914-22). The most recent results showed a mortality rate of nearly 36% and reinforce the high mortality rate seen in lung cancer patients in CCC19, Dr. Rini said.
 

Increased mortality risk

After adjustment for several demographic and disease characteristics, the updated CCC19 data showed a significantly increased risk of mortality among:

• Older patients (adjusted odds ratio [aOR] per decade of age, 1.52).
• Men (aOR, 1.43).
• Current or former smokers vs. never smokers (aOR, 1.28).
• Patients with Eastern Cooperative Oncology Group performance scores of 1 vs. 0 (aOR of 1.80) or 2 vs. 0 (aOR, 4.22).
• Stable cancer vs. remission (aOR, 1.47).
• Progressive cancer vs. remission (aOR, 2.96).
• Non-Hispanic Black vs. White patients (aOR, 1.56).
• Hematologic malignancies vs. solid tumors (aOR, 1.80).

“Importantly, there were some factors that did not reach statistical significance,” Dr. Rini said. These include obesity (aOR, 1.23), recent surgery (aOR, 1.05), receipt of cytotoxic chemotherapy vs. no chemotherapy (aOR, 1.14), and receipt of noncytotoxic chemotherapy vs. no chemotherapy (aOR, 0.75).

“I think this provides some reassurance that cancer care can and should continue for these patients,” Dr. Rini said.

He noted, however, that in TERAVOLT, chemotherapy with or without other treatment was a risk factor for mortality in lung cancer patients when compared with no chemotherapy (OR, 1.71) and when compared with immunotherapy or targeted therapy (OR, 1.64).
 

NCCAPS and other registries

Dr. Rini discussed a number of registries looking at outcomes in COVID-19 patients with cancer, and he said the findings to date appear to confirm a higher mortality rate among cancer patients, particularly those with lung cancer.

Several factors are emerging that appear to be related to risk, including both cancer-related and non–cancer-related factors, he added.

The ongoing prospective National Cancer Institute COVID-19 in Cancer Patients Study (NCCAPS) “will provide much needed longitudinal data and, importantly, biospecimen collection in a large cohort of patients who have active cancer and are receiving treatment, said Dr. Rini, who is the study’s protocol chair. NCCAPS is a natural history study in that population, he said.

The planned accrual is about 2,000 patients who will be followed for up to 2 years for data collection, imaging scans, and research specimens.

The use of specimens is “a unique and special part of this study,” Dr. Rini said, explaining that the specimens will be used to look for development of antibodies over time, to describe the trajectory of cytokine abnormalities – especially in patients with more acute inpatient courses – to perform DNA-based genome-wide association studies, and to assess coagulation parameters.

NCCAPS is activated at 546 sties, 10 patients were enrolled as of June 21, and rapid accrual is expected over the next several months, he said.

Gypsyamber D’Souza, PhD, session moderator and an infectious disease epidemiologist at Johns Hopkins University in Baltimore, acknowledged the challenge that registry administrators face when trying to balance the need to get data out against the desire to ask the right questions and to have the right comparison groups, stratification, and analyses, especially amid a crisis like the COVID-19 pandemic.

Dr. Rini said it has indeed been a bit of a struggle with CCC19 to determine what information should be published and when, and what constitutes an important update.

“It’s been a learning experience, and frankly, I think we’re still learning,” he said. “This has been such a unique time in terms of a rush to get data out, balanced against making sure that there’s quality data and that you’re actually answering important questions.”

In fact, a number of ongoing registries “should start to produce great data [that will be presented] at upcoming big conferences,” Dr. Rini said. He added that those data “will help piece together different important aspects of this and different hypotheses, and hopefully complement the clinical data that’s starting to come out.”

The CCC19 registry is sponsored by Vanderbilt-Ingram Cancer Center. Dr. Rini disclosed relationships with Pfizer, Merck, Genentech/Roche, Aveo, AstraZeneca, Bristol Myers Squibb, Exelixis, Synthorx, Peloton, Compugen, Corvus, Surface Oncology, 3DMedicines, Aravive, Alkermes, Arrowhead, and PTC Therapeutics. Dr. D’Souza did not disclose any conflicts.

sworcester@mdedge.com

SOURCE: Rini BI. AACR: COVID-19 and Cancer. Abstract IA26.

Non-Hispanic black patients with cancer and patients with hematologic malignancies have a significantly increased risk of death if they develop COVID-19, according to the latest data from the COVID-19 and Cancer Consortium (CCC19) registry.

Initial results from the CCC19 registry were reported as part of the American Society of Clinical Oncology (ASCO) virtual scientific program and published in The Lancet (Lancet. 2020 Jun 20;395[10241]:1907-18).

The latest data were presented at the AACR virtual meeting: COVID-19 and Cancer by Brian I. Rini, MD, of Vanderbilt University, Nashville, Tenn. They were simultaneously published in Cancer Discovery (Cancer Discov. 2020 Jul 22;CD-20-0941).

The CCC19 registry was launched in March by a few institutions as part of “a grassroots idea ... to collect granular data regarding cancer patients and their outcomes with COVID,” Dr. Rini said.

Within a few months of its inception, the registry had partnered with more than 100 institutions worldwide and accrued data from more than 2,000 patients.

The reports in The Lancet and at ASCO included outcomes for the first 928 patients and showed a 13% mortality rate as well as a fivefold increase in the risk of 30-day mortality among patients with COVID-19 and progressing cancer.

The data also showed an increased mortality risk among older patients, men, former smokers, those with poor performance status, those with multiple comorbidities, and those treated with hydroxychloroquine and azithromycin.

The latest data

The CCC19 registry has grown to include 114 sites worldwide, including major comprehensive cancer centers and community sites. As of June 26, there were 2,749 patients enrolled.

Since the last data were reported, the mortality rate increased from 13% to 16% (versus 5% globally). In addition, the increased mortality risk among non-Hispanic black patients and patients with hematologic malignancies reached statistical significance, Dr. Rini said. He noted that the increase in mortality rate was largely attributable to improved follow-up.

Mechanical ventilation was required in 12% of patients, ICU admission was required in 16%, oxygen was required in 45%, and hospitalization was required in 60%. The composite outcome of death, severe illness requiring hospitalization, ICU admission, or mechanical ventilation was reached in 29% of patients, Dr. Rini said.

Mortality rates across cancer types ranged from 3% to 26%, with thyroid and breast cancer patients having the lowest rates (3% and 8%, respectively), and with lymphoma and lung cancer patients having the highest (22% and 26%, respectively), Dr. Rini said.

He noted that the TERAVOLT registry, a COVID-19 registry for patients with thoracic cancers, also showed a very high mortality rate in this subgroup of patients.

Results from TERAVOLT were reported at the AACR virtual meeting I, presented at ASCO, and published in The Lancet (Lancet Oncol. 2020 Jul;21[7]:914-22). The most recent results showed a mortality rate of nearly 36% and reinforce the high mortality rate seen in lung cancer patients in CCC19, Dr. Rini said.
 

Increased mortality risk

After adjustment for several demographic and disease characteristics, the updated CCC19 data showed a significantly increased risk of mortality among:

• Older patients (adjusted odds ratio [aOR] per decade of age, 1.52).
• Men (aOR, 1.43).
• Current or former smokers vs. never smokers (aOR, 1.28).
• Patients with Eastern Cooperative Oncology Group performance scores of 1 vs. 0 (aOR of 1.80) or 2 vs. 0 (aOR, 4.22).
• Stable cancer vs. remission (aOR, 1.47).
• Progressive cancer vs. remission (aOR, 2.96).
• Non-Hispanic Black vs. White patients (aOR, 1.56).
• Hematologic malignancies vs. solid tumors (aOR, 1.80).

“Importantly, there were some factors that did not reach statistical significance,” Dr. Rini said. These include obesity (aOR, 1.23), recent surgery (aOR, 1.05), receipt of cytotoxic chemotherapy vs. no chemotherapy (aOR, 1.14), and receipt of noncytotoxic chemotherapy vs. no chemotherapy (aOR, 0.75).

“I think this provides some reassurance that cancer care can and should continue for these patients,” Dr. Rini said.

He noted, however, that in TERAVOLT, chemotherapy with or without other treatment was a risk factor for mortality in lung cancer patients when compared with no chemotherapy (OR, 1.71) and when compared with immunotherapy or targeted therapy (OR, 1.64).
 

NCCAPS and other registries

Dr. Rini discussed a number of registries looking at outcomes in COVID-19 patients with cancer, and he said the findings to date appear to confirm a higher mortality rate among cancer patients, particularly those with lung cancer.

Several factors are emerging that appear to be related to risk, including both cancer-related and non–cancer-related factors, he added.

The ongoing prospective National Cancer Institute COVID-19 in Cancer Patients Study (NCCAPS) “will provide much needed longitudinal data and, importantly, biospecimen collection in a large cohort of patients who have active cancer and are receiving treatment, said Dr. Rini, who is the study’s protocol chair. NCCAPS is a natural history study in that population, he said.

The planned accrual is about 2,000 patients who will be followed for up to 2 years for data collection, imaging scans, and research specimens.

The use of specimens is “a unique and special part of this study,” Dr. Rini said, explaining that the specimens will be used to look for development of antibodies over time, to describe the trajectory of cytokine abnormalities – especially in patients with more acute inpatient courses – to perform DNA-based genome-wide association studies, and to assess coagulation parameters.

NCCAPS is activated at 546 sties, 10 patients were enrolled as of June 21, and rapid accrual is expected over the next several months, he said.

Gypsyamber D’Souza, PhD, session moderator and an infectious disease epidemiologist at Johns Hopkins University in Baltimore, acknowledged the challenge that registry administrators face when trying to balance the need to get data out against the desire to ask the right questions and to have the right comparison groups, stratification, and analyses, especially amid a crisis like the COVID-19 pandemic.

Dr. Rini said it has indeed been a bit of a struggle with CCC19 to determine what information should be published and when, and what constitutes an important update.

“It’s been a learning experience, and frankly, I think we’re still learning,” he said. “This has been such a unique time in terms of a rush to get data out, balanced against making sure that there’s quality data and that you’re actually answering important questions.”

In fact, a number of ongoing registries “should start to produce great data [that will be presented] at upcoming big conferences,” Dr. Rini said. He added that those data “will help piece together different important aspects of this and different hypotheses, and hopefully complement the clinical data that’s starting to come out.”

The CCC19 registry is sponsored by Vanderbilt-Ingram Cancer Center. Dr. Rini disclosed relationships with Pfizer, Merck, Genentech/Roche, Aveo, AstraZeneca, Bristol Myers Squibb, Exelixis, Synthorx, Peloton, Compugen, Corvus, Surface Oncology, 3DMedicines, Aravive, Alkermes, Arrowhead, and PTC Therapeutics. Dr. D’Souza did not disclose any conflicts.

sworcester@mdedge.com

SOURCE: Rini BI. AACR: COVID-19 and Cancer. Abstract IA26.

Non-Hispanic black patients with cancer and patients with hematologic malignancies have a significantly increased risk of death if they develop COVID-19, according to the latest data from the COVID-19 and Cancer Consortium (CCC19) registry.

Initial results from the CCC19 registry were reported as part of the American Society of Clinical Oncology (ASCO) virtual scientific program and published in The Lancet (Lancet. 2020 Jun 20;395[10241]:1907-18).

The latest data were presented at the AACR virtual meeting: COVID-19 and Cancer by Brian I. Rini, MD, of Vanderbilt University, Nashville, Tenn. They were simultaneously published in Cancer Discovery (Cancer Discov. 2020 Jul 22;CD-20-0941).

The CCC19 registry was launched in March by a few institutions as part of “a grassroots idea ... to collect granular data regarding cancer patients and their outcomes with COVID,” Dr. Rini said.

Within a few months of its inception, the registry had partnered with more than 100 institutions worldwide and accrued data from more than 2,000 patients.

The reports in The Lancet and at ASCO included outcomes for the first 928 patients and showed a 13% mortality rate as well as a fivefold increase in the risk of 30-day mortality among patients with COVID-19 and progressing cancer.

The data also showed an increased mortality risk among older patients, men, former smokers, those with poor performance status, those with multiple comorbidities, and those treated with hydroxychloroquine and azithromycin.

The latest data

The CCC19 registry has grown to include 114 sites worldwide, including major comprehensive cancer centers and community sites. As of June 26, there were 2,749 patients enrolled.

Since the last data were reported, the mortality rate increased from 13% to 16% (versus 5% globally). In addition, the increased mortality risk among non-Hispanic black patients and patients with hematologic malignancies reached statistical significance, Dr. Rini said. He noted that the increase in mortality rate was largely attributable to improved follow-up.

Mechanical ventilation was required in 12% of patients, ICU admission was required in 16%, oxygen was required in 45%, and hospitalization was required in 60%. The composite outcome of death, severe illness requiring hospitalization, ICU admission, or mechanical ventilation was reached in 29% of patients, Dr. Rini said.

Mortality rates across cancer types ranged from 3% to 26%, with thyroid and breast cancer patients having the lowest rates (3% and 8%, respectively), and with lymphoma and lung cancer patients having the highest (22% and 26%, respectively), Dr. Rini said.

He noted that the TERAVOLT registry, a COVID-19 registry for patients with thoracic cancers, also showed a very high mortality rate in this subgroup of patients.

Results from TERAVOLT were reported at the AACR virtual meeting I, presented at ASCO, and published in The Lancet (Lancet Oncol. 2020 Jul;21[7]:914-22). The most recent results showed a mortality rate of nearly 36% and reinforce the high mortality rate seen in lung cancer patients in CCC19, Dr. Rini said.
 

Increased mortality risk

After adjustment for several demographic and disease characteristics, the updated CCC19 data showed a significantly increased risk of mortality among:

• Older patients (adjusted odds ratio [aOR] per decade of age, 1.52).
• Men (aOR, 1.43).
• Current or former smokers vs. never smokers (aOR, 1.28).
• Patients with Eastern Cooperative Oncology Group performance scores of 1 vs. 0 (aOR of 1.80) or 2 vs. 0 (aOR, 4.22).
• Stable cancer vs. remission (aOR, 1.47).
• Progressive cancer vs. remission (aOR, 2.96).
• Non-Hispanic Black vs. White patients (aOR, 1.56).
• Hematologic malignancies vs. solid tumors (aOR, 1.80).

“Importantly, there were some factors that did not reach statistical significance,” Dr. Rini said. These include obesity (aOR, 1.23), recent surgery (aOR, 1.05), receipt of cytotoxic chemotherapy vs. no chemotherapy (aOR, 1.14), and receipt of noncytotoxic chemotherapy vs. no chemotherapy (aOR, 0.75).

“I think this provides some reassurance that cancer care can and should continue for these patients,” Dr. Rini said.

He noted, however, that in TERAVOLT, chemotherapy with or without other treatment was a risk factor for mortality in lung cancer patients when compared with no chemotherapy (OR, 1.71) and when compared with immunotherapy or targeted therapy (OR, 1.64).
 

NCCAPS and other registries

Dr. Rini discussed a number of registries looking at outcomes in COVID-19 patients with cancer, and he said the findings to date appear to confirm a higher mortality rate among cancer patients, particularly those with lung cancer.

Several factors are emerging that appear to be related to risk, including both cancer-related and non–cancer-related factors, he added.

The ongoing prospective National Cancer Institute COVID-19 in Cancer Patients Study (NCCAPS) “will provide much needed longitudinal data and, importantly, biospecimen collection in a large cohort of patients who have active cancer and are receiving treatment, said Dr. Rini, who is the study’s protocol chair. NCCAPS is a natural history study in that population, he said.

The planned accrual is about 2,000 patients who will be followed for up to 2 years for data collection, imaging scans, and research specimens.

The use of specimens is “a unique and special part of this study,” Dr. Rini said, explaining that the specimens will be used to look for development of antibodies over time, to describe the trajectory of cytokine abnormalities – especially in patients with more acute inpatient courses – to perform DNA-based genome-wide association studies, and to assess coagulation parameters.

NCCAPS is activated at 546 sties, 10 patients were enrolled as of June 21, and rapid accrual is expected over the next several months, he said.

Gypsyamber D’Souza, PhD, session moderator and an infectious disease epidemiologist at Johns Hopkins University in Baltimore, acknowledged the challenge that registry administrators face when trying to balance the need to get data out against the desire to ask the right questions and to have the right comparison groups, stratification, and analyses, especially amid a crisis like the COVID-19 pandemic.

Dr. Rini said it has indeed been a bit of a struggle with CCC19 to determine what information should be published and when, and what constitutes an important update.

“It’s been a learning experience, and frankly, I think we’re still learning,” he said. “This has been such a unique time in terms of a rush to get data out, balanced against making sure that there’s quality data and that you’re actually answering important questions.”

In fact, a number of ongoing registries “should start to produce great data [that will be presented] at upcoming big conferences,” Dr. Rini said. He added that those data “will help piece together different important aspects of this and different hypotheses, and hopefully complement the clinical data that’s starting to come out.”

The CCC19 registry is sponsored by Vanderbilt-Ingram Cancer Center. Dr. Rini disclosed relationships with Pfizer, Merck, Genentech/Roche, Aveo, AstraZeneca, Bristol Myers Squibb, Exelixis, Synthorx, Peloton, Compugen, Corvus, Surface Oncology, 3DMedicines, Aravive, Alkermes, Arrowhead, and PTC Therapeutics. Dr. D’Souza did not disclose any conflicts.

sworcester@mdedge.com

SOURCE: Rini BI. AACR: COVID-19 and Cancer. Abstract IA26.

Delays in cancer referrals caused by the COVID-19 pandemic and the ensuing shutdown in cancer services will lead to thousands of additional deaths and tens of thousands of life-years lost, suggest two new modeling studies from the United Kingdom.

Clearing the backlog in cancer diagnoses will require a coordinated effort from the government and the National Health Service (NHS), say the authors, inasmuch as services were already running at “full capacity” before the pandemic.

Both studies were published in The Lancet Oncology on July 20.

When the UK-wide lockdown to combat the COVID-19 pandemic was implemented on March 23, cancer screening and routine outpatient referrals in the NHS were suspended, and treatment of cancer patients either halted or slowed down.

Moreover, because of physical distancing measures, which are expected to continue for up to a year, urgent 3-week referrals for suspected cancer cases have fallen by as much as 80%.

To estimate the potential impact on cancer deaths, Ajay Aggarwal, MD, from the London School of Hygiene and Tropical Medicine, United Kingdom, and colleagues conducted a population-based modeling study.

They collected data on 32,583 patients with breast cancer, 24,975 with colorectal cancer, 6744 with esophageal cancer, and 29,305 with lung cancer. Patients were diagnosed between 2010 and 2012 and were followed to 2015.

The investigators used that data to estimate the impact of diagnostic delays resulting from 12 months of physical distancing.

For breast cancer, this would lead to a 7.9%-9.6% increase in the number of cancer deaths within 5 years after diagnosis, or to 281-344 additional deaths.

For colorectal cancer, there would be a 15.3%-16.7% increase in mortality over 5 years, or an additional 1,445-1,563 deaths.

For lung cancer, there would a 4.8%-5.3% increase in mortality, or an additional 1235-1372 deaths.

For esophageal cancer, the mortality increase over 5 years would be 5.8%-6.0%, leading to 330-342 additional deaths.

Across the four tumor types, 59,204-63,229 life-years would be lost because of physical distancing compared to the prepandemic era.
 

Resources need to be increased

These additional deaths are not inevitable, the researchers suggest.

To prevent the increase in colorectal cancer deaths, for example, Aggarwal said, “It is vital that more resources are made urgently available for endoscopy and colonoscopy services, which are managing significant backlogs currently.

“Whilst currently attention is being focused on diagnostic pathways where cancer is suspected, the issue is that a significant number of cancers are diagnosed in patients awaiting investigation for symptoms not considered related to be cancer,” he added in a statement.

“Therefore we need a whole system approach to avoid the predicted excess deaths.”

Coauthor Bernard Rachet, PhD, also from the London School of Hygiene and Tropical Medicine, added that “to absorb the cancer patient backlog, the healthcare community also needs to establish clear criteria to prioritise patients on clinical grounds, in order to maintain equitability in care delivery.”

It will not be easy “to pin down the exact number of additional cancer deaths we expect to see over the coming years, but studies like this help us to understand the devastating long-term effect a pandemic like COVID-19 will have on the lives of thousands of cancer patients,” commented Michelle Mitchell, chief executive of Cancer Research UK.

Underlining the “enormous backlog” of cancer care that has built up during the pandemic, she said: “Diagnosing and treating people swiftly is vital to give people with cancer the greatest chances of survival.

“The government must work closely with the NHS to ensure it has sufficient staff and equipment to clear the backlog while giving patients the care that they need, quickly and safely,” Mitchell added.

Increasing resources will not be easy. In an accompanying editorial, William Hamilton, MD, PhD, University of Exeter, United Kingdom, warns that many NHS imaging departments, for example, were “working at full capacity before the COVID-19 pandemic.”

Consequently, they “might not be able to meet the increase in demand” resulting from the backlog in patients, especially as “the need to keep patients separate and to clean equipment has reduced their efficiency.

“The UK has had a long-term shortage of diagnostic capacity, although this shortage is not simply of equipment, but also of personnel, which is not so easily improved,” he cautions.
 

Another study, similar estimates

For the second study, Clare Turnbull, PhD, Institute of Cancer Research, London, and colleagues obtained age- and stage-stratified 10-year cancer survival estimates for patients in England diagnosed with 20 common tumor types between 2008 and 2017.

They also gathered data on cancer diagnoses made via urgent 2-week referrals between 2013 and 2016. They estimate that 6,281 patients were diagnosed with cancer of stages I-III per month.

Of those, 1,691 (27%) would die within 10 years of their diagnosis, they found.

They then calculated that delays in 2-week referrals during a 3-month lockdown would lead to an average delay in presentation of 2 months per patient.

A resulting 25% backlog in referrals would lead to 181 additional lives and 3,316 life-years lost. With a 75% backlog in referrals, an additional 276 lives and 5,075 life-years would be lost.

The team says that additional diagnostic delays spread over 3-8 months after the lockdown could increase the impact of a 25% backlog in referrals to 401 additional lives and 14,873 life-years lost.

For a 75% backlog in referrals, the additional lives lost would rise to 1,231, and the number of life-years lost would reach 22,635.

“Substantial additional deaths from diagnostic delays on top of those expected from delays in presentation – because many people are simply too afraid to visit their GP or hospital – are likely, especially if rapid provision of additional capacity, including technical provision and increased staffing, is not forthcoming,” Turnbull commented in a statement.

The study by Aggarwal and colleagues was funded by the U.K. Research and Innovation Economic and Social Research Council. Several of the researchers were supported by Cancer Research UK and Breast Cancer Now. Turnbull reports receiving support from the Movember Foundation.

This article first appeared on Medscape.com.

Delays in cancer referrals caused by the COVID-19 pandemic and the ensuing shutdown in cancer services will lead to thousands of additional deaths and tens of thousands of life-years lost, suggest two new modeling studies from the United Kingdom.

Clearing the backlog in cancer diagnoses will require a coordinated effort from the government and the National Health Service (NHS), say the authors, inasmuch as services were already running at “full capacity” before the pandemic.

Both studies were published in The Lancet Oncology on July 20.

When the UK-wide lockdown to combat the COVID-19 pandemic was implemented on March 23, cancer screening and routine outpatient referrals in the NHS were suspended, and treatment of cancer patients either halted or slowed down.

Moreover, because of physical distancing measures, which are expected to continue for up to a year, urgent 3-week referrals for suspected cancer cases have fallen by as much as 80%.

To estimate the potential impact on cancer deaths, Ajay Aggarwal, MD, from the London School of Hygiene and Tropical Medicine, United Kingdom, and colleagues conducted a population-based modeling study.

They collected data on 32,583 patients with breast cancer, 24,975 with colorectal cancer, 6744 with esophageal cancer, and 29,305 with lung cancer. Patients were diagnosed between 2010 and 2012 and were followed to 2015.

The investigators used that data to estimate the impact of diagnostic delays resulting from 12 months of physical distancing.

For breast cancer, this would lead to a 7.9%-9.6% increase in the number of cancer deaths within 5 years after diagnosis, or to 281-344 additional deaths.

For colorectal cancer, there would be a 15.3%-16.7% increase in mortality over 5 years, or an additional 1,445-1,563 deaths.

For lung cancer, there would a 4.8%-5.3% increase in mortality, or an additional 1235-1372 deaths.

For esophageal cancer, the mortality increase over 5 years would be 5.8%-6.0%, leading to 330-342 additional deaths.

Across the four tumor types, 59,204-63,229 life-years would be lost because of physical distancing compared to the prepandemic era.
 

Resources need to be increased

These additional deaths are not inevitable, the researchers suggest.

To prevent the increase in colorectal cancer deaths, for example, Aggarwal said, “It is vital that more resources are made urgently available for endoscopy and colonoscopy services, which are managing significant backlogs currently.

“Whilst currently attention is being focused on diagnostic pathways where cancer is suspected, the issue is that a significant number of cancers are diagnosed in patients awaiting investigation for symptoms not considered related to be cancer,” he added in a statement.

“Therefore we need a whole system approach to avoid the predicted excess deaths.”

Coauthor Bernard Rachet, PhD, also from the London School of Hygiene and Tropical Medicine, added that “to absorb the cancer patient backlog, the healthcare community also needs to establish clear criteria to prioritise patients on clinical grounds, in order to maintain equitability in care delivery.”

It will not be easy “to pin down the exact number of additional cancer deaths we expect to see over the coming years, but studies like this help us to understand the devastating long-term effect a pandemic like COVID-19 will have on the lives of thousands of cancer patients,” commented Michelle Mitchell, chief executive of Cancer Research UK.

Underlining the “enormous backlog” of cancer care that has built up during the pandemic, she said: “Diagnosing and treating people swiftly is vital to give people with cancer the greatest chances of survival.

“The government must work closely with the NHS to ensure it has sufficient staff and equipment to clear the backlog while giving patients the care that they need, quickly and safely,” Mitchell added.

Increasing resources will not be easy. In an accompanying editorial, William Hamilton, MD, PhD, University of Exeter, United Kingdom, warns that many NHS imaging departments, for example, were “working at full capacity before the COVID-19 pandemic.”

Consequently, they “might not be able to meet the increase in demand” resulting from the backlog in patients, especially as “the need to keep patients separate and to clean equipment has reduced their efficiency.

“The UK has had a long-term shortage of diagnostic capacity, although this shortage is not simply of equipment, but also of personnel, which is not so easily improved,” he cautions.
 

Another study, similar estimates

For the second study, Clare Turnbull, PhD, Institute of Cancer Research, London, and colleagues obtained age- and stage-stratified 10-year cancer survival estimates for patients in England diagnosed with 20 common tumor types between 2008 and 2017.

They also gathered data on cancer diagnoses made via urgent 2-week referrals between 2013 and 2016. They estimate that 6,281 patients were diagnosed with cancer of stages I-III per month.

Of those, 1,691 (27%) would die within 10 years of their diagnosis, they found.

They then calculated that delays in 2-week referrals during a 3-month lockdown would lead to an average delay in presentation of 2 months per patient.

A resulting 25% backlog in referrals would lead to 181 additional lives and 3,316 life-years lost. With a 75% backlog in referrals, an additional 276 lives and 5,075 life-years would be lost.

The team says that additional diagnostic delays spread over 3-8 months after the lockdown could increase the impact of a 25% backlog in referrals to 401 additional lives and 14,873 life-years lost.

For a 75% backlog in referrals, the additional lives lost would rise to 1,231, and the number of life-years lost would reach 22,635.

“Substantial additional deaths from diagnostic delays on top of those expected from delays in presentation – because many people are simply too afraid to visit their GP or hospital – are likely, especially if rapid provision of additional capacity, including technical provision and increased staffing, is not forthcoming,” Turnbull commented in a statement.

The study by Aggarwal and colleagues was funded by the U.K. Research and Innovation Economic and Social Research Council. Several of the researchers were supported by Cancer Research UK and Breast Cancer Now. Turnbull reports receiving support from the Movember Foundation.

This article first appeared on Medscape.com.

Delays in cancer referrals caused by the COVID-19 pandemic and the ensuing shutdown in cancer services will lead to thousands of additional deaths and tens of thousands of life-years lost, suggest two new modeling studies from the United Kingdom.

Clearing the backlog in cancer diagnoses will require a coordinated effort from the government and the National Health Service (NHS), say the authors, inasmuch as services were already running at “full capacity” before the pandemic.

Both studies were published in The Lancet Oncology on July 20.

When the UK-wide lockdown to combat the COVID-19 pandemic was implemented on March 23, cancer screening and routine outpatient referrals in the NHS were suspended, and treatment of cancer patients either halted or slowed down.

Moreover, because of physical distancing measures, which are expected to continue for up to a year, urgent 3-week referrals for suspected cancer cases have fallen by as much as 80%.

To estimate the potential impact on cancer deaths, Ajay Aggarwal, MD, from the London School of Hygiene and Tropical Medicine, United Kingdom, and colleagues conducted a population-based modeling study.

They collected data on 32,583 patients with breast cancer, 24,975 with colorectal cancer, 6744 with esophageal cancer, and 29,305 with lung cancer. Patients were diagnosed between 2010 and 2012 and were followed to 2015.

The investigators used that data to estimate the impact of diagnostic delays resulting from 12 months of physical distancing.

For breast cancer, this would lead to a 7.9%-9.6% increase in the number of cancer deaths within 5 years after diagnosis, or to 281-344 additional deaths.

For colorectal cancer, there would be a 15.3%-16.7% increase in mortality over 5 years, or an additional 1,445-1,563 deaths.

For lung cancer, there would a 4.8%-5.3% increase in mortality, or an additional 1235-1372 deaths.

For esophageal cancer, the mortality increase over 5 years would be 5.8%-6.0%, leading to 330-342 additional deaths.

Across the four tumor types, 59,204-63,229 life-years would be lost because of physical distancing compared to the prepandemic era.
 

Resources need to be increased

These additional deaths are not inevitable, the researchers suggest.

To prevent the increase in colorectal cancer deaths, for example, Aggarwal said, “It is vital that more resources are made urgently available for endoscopy and colonoscopy services, which are managing significant backlogs currently.

“Whilst currently attention is being focused on diagnostic pathways where cancer is suspected, the issue is that a significant number of cancers are diagnosed in patients awaiting investigation for symptoms not considered related to be cancer,” he added in a statement.

“Therefore we need a whole system approach to avoid the predicted excess deaths.”

Coauthor Bernard Rachet, PhD, also from the London School of Hygiene and Tropical Medicine, added that “to absorb the cancer patient backlog, the healthcare community also needs to establish clear criteria to prioritise patients on clinical grounds, in order to maintain equitability in care delivery.”

It will not be easy “to pin down the exact number of additional cancer deaths we expect to see over the coming years, but studies like this help us to understand the devastating long-term effect a pandemic like COVID-19 will have on the lives of thousands of cancer patients,” commented Michelle Mitchell, chief executive of Cancer Research UK.

Underlining the “enormous backlog” of cancer care that has built up during the pandemic, she said: “Diagnosing and treating people swiftly is vital to give people with cancer the greatest chances of survival.

“The government must work closely with the NHS to ensure it has sufficient staff and equipment to clear the backlog while giving patients the care that they need, quickly and safely,” Mitchell added.

Increasing resources will not be easy. In an accompanying editorial, William Hamilton, MD, PhD, University of Exeter, United Kingdom, warns that many NHS imaging departments, for example, were “working at full capacity before the COVID-19 pandemic.”

Consequently, they “might not be able to meet the increase in demand” resulting from the backlog in patients, especially as “the need to keep patients separate and to clean equipment has reduced their efficiency.

“The UK has had a long-term shortage of diagnostic capacity, although this shortage is not simply of equipment, but also of personnel, which is not so easily improved,” he cautions.
 

Another study, similar estimates

For the second study, Clare Turnbull, PhD, Institute of Cancer Research, London, and colleagues obtained age- and stage-stratified 10-year cancer survival estimates for patients in England diagnosed with 20 common tumor types between 2008 and 2017.

They also gathered data on cancer diagnoses made via urgent 2-week referrals between 2013 and 2016. They estimate that 6,281 patients were diagnosed with cancer of stages I-III per month.

Of those, 1,691 (27%) would die within 10 years of their diagnosis, they found.

They then calculated that delays in 2-week referrals during a 3-month lockdown would lead to an average delay in presentation of 2 months per patient.

A resulting 25% backlog in referrals would lead to 181 additional lives and 3,316 life-years lost. With a 75% backlog in referrals, an additional 276 lives and 5,075 life-years would be lost.

The team says that additional diagnostic delays spread over 3-8 months after the lockdown could increase the impact of a 25% backlog in referrals to 401 additional lives and 14,873 life-years lost.

For a 75% backlog in referrals, the additional lives lost would rise to 1,231, and the number of life-years lost would reach 22,635.

“Substantial additional deaths from diagnostic delays on top of those expected from delays in presentation – because many people are simply too afraid to visit their GP or hospital – are likely, especially if rapid provision of additional capacity, including technical provision and increased staffing, is not forthcoming,” Turnbull commented in a statement.

The study by Aggarwal and colleagues was funded by the U.K. Research and Innovation Economic and Social Research Council. Several of the researchers were supported by Cancer Research UK and Breast Cancer Now. Turnbull reports receiving support from the Movember Foundation.

This article first appeared on Medscape.com.

The COVID-19 pandemic has disrupted every aspect of cancer care, from diagnosis, treatment, and follow-up to participation in clinical trials, according to a new report that collected responses from cancer patient organizations around the world.

The report includes responses from 157 organizations in 56 countries, representing some 350,000 patients with cancer.

“The COVID-19 global pandemic has quite literally wreaked havoc with all of our lives but especially for cancer patients,” said the report’s author, Frances Reid, MBA, program director, World Ovarian Cancer Coalition.

“To those who have the power or influence to ensure that cancer treatment and services are not set back several years, please listen to those organizations who can articulate clearly the impact on patients, work with them, and act on it as soon as you can,” she added.

The new report, entitled “The Impact of COVID-19 on Cancer Patient Organisations,” was released on June 12. The organizations were surveyed from May 11 to May 25.
 

Cancer diagnosis

Two-thirds of the organizations surveyed said cancer screening programs had been canceled in their country, and 59% indicated they had seen a drop in urgent referrals for suspected cancer.

Some 44% said that access to pathology services had been reduced. One group in Australia reported that “results of pathology tests are taking longer to be returned. Generally a result would be returned within 48 hours. Since COVID-19, results are taking up to 7 days to be returned.”

As for treatment, 68% of organizations reported delays or cancellations of surgery or other treatments; 58% reported there had been a need to modify treatment protocols; and 48% indicated there had been a drop in participation in clinical trials.

Respondents were also concerned about reported increases in stress, anxiety, and isolation among many cancer patients. “Often at increased risk of infection and serious illness themselves ... many have been required to ‘shield’ from others, totally withdrawing from life outside their homes, thus increasing the already high levels of isolation they feel because of their life-limiting conditions,” the report notes.

In addition, some 60% of the organizations said that the pandemic had increased financial hardship among cancer patients. One US group commented: “Unemployment levels in the States similar to depression era. This has been a real challenge as many have lost insurance as well as jobs.”

Only a minority of respondents reported that cancer care was being offered in hospitals with no special arrangements in place to treat concomitant COVID-19 patients.

On the other hand, only 15% of respondents indicated that patients were being treated in a hospital that was not also caring for COVID-19 patients.

“Cancer will not wait for COVID-19 to pass, if it ever will, and the patient organizations are the key to minimizing the devastating impact [COVID-19 is having] on people with cancer,” Reid emphasized.

“More than ever, the patient/support services should be strengthened,” commented a group from France.
 

Patient services affected

“Almost all organisations (89%) have had to alter their services for people with cancer,” the report notes.

Two thirds of organizations involved in professional educational activities have had to change their services in some way, either by moving them online or stopping programs altogether, at least temporarily. “Some found that doctors and nurses are too busy with the pandemic to participate, and that their appetite for such activity is also diminished,” the report notes.

The volume of phone calls and emails increased in almost 6 of 10 organizations that provide support services for patients. Compared to prepandemic levels, volume increased by an average of 44%.

The most common queries raised by people with cancer (accounting for 85% of all queries) were questions about the risks of contracting COVID-19 and cancer treatments during the pandemic.

Some of the organizations also commented about how they had been affected. One group from Uganda said: “We had a sudden lockdown and we could not access office to give face to face counselling. We stopped research due to national guidelines on research. We continued giving information via phone and social media especially WhatsApp. We created groups for patients and counsellors to continue interacting.”

A group in Costa Rica reported: “We developed a new program of transfers from their homes to the hospital for cancer patients in chemotherapy and radiotherapy. 200 monthly transfers. We created a virtual community instead of our face-to-face support group, we started in April and we have 108 members, virtual sessions are held every two weeks.”

An organization based in the United States reported that it was “totally revamping our educational programs to be delivered in new ways in an online format ― not just replicating the in-person formats, but reaching out to our community and asking them what they would find the most valuable.”
 

Impact on fundraising

Almost 9 in 10 organizations raise funds to support their activities, the report notes. “A shocking 79% of organisations say they predict a fall in income over the next 12 months, with a further 16% not sure, leaving only 5% confident of their financial stability.”

Every type of fund-raising has been affected by COVID-19, from grants and major donors to community fund-raising events. Sixty percent of organisations said they were trying to find new ways to raise funds.

However, as one organization in Japan noted: “At the moment we can survive and feel it is unethical to ask the public for money when many are facing dire financial personal circumstances.”

A group from Australia commented: “Fundraising has been extremely difficult due to COVID-19 with distancing laws and no group gatherings as well as the economic downturn. Crisis appeals have been unsuccessful and all outdoor events and major events have been cancelled. In Australia we have had to contend with also the fires earlier in the year where a lot of money was donated to leaving other foundations struggling to get donor support.”

A little more than half (55%) of the organizations surveyed have had to cut costs.

Staffing cuts have been made in 1 in 10 of the organizations surveyed. A similar proportion of organizations have furloughed staff. Many if not all staff from numerous organizations are working from home.

A little more than half of those surveyed either provide funding for research or conduct research themselves, but only one quarter of them indicated there had been no change in their research projects. The others have indicated that they had to either reduce the scope of their research, put it on pause, or stop it altogether.

Three quarters of survey respondents noted that they had engaged in advocacy activities prior to the pandemic, and almost two thirds of them said they had to delay these activities.

Several of the organizations expressed thanks to the survey authors.

“COVID-19 is a global pandemic and cancer patients all around the world have similar worries, concerns and questions ― we are a small/medium organisation working in one country but believe in the power of community and coalitions and so this survey is a very welcome part of looking at this from a greater perspective,” commented one British group.

Reid has disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

The COVID-19 pandemic has disrupted every aspect of cancer care, from diagnosis, treatment, and follow-up to participation in clinical trials, according to a new report that collected responses from cancer patient organizations around the world.

The report includes responses from 157 organizations in 56 countries, representing some 350,000 patients with cancer.

“The COVID-19 global pandemic has quite literally wreaked havoc with all of our lives but especially for cancer patients,” said the report’s author, Frances Reid, MBA, program director, World Ovarian Cancer Coalition.

“To those who have the power or influence to ensure that cancer treatment and services are not set back several years, please listen to those organizations who can articulate clearly the impact on patients, work with them, and act on it as soon as you can,” she added.

The new report, entitled “The Impact of COVID-19 on Cancer Patient Organisations,” was released on June 12. The organizations were surveyed from May 11 to May 25.
 

Cancer diagnosis

Two-thirds of the organizations surveyed said cancer screening programs had been canceled in their country, and 59% indicated they had seen a drop in urgent referrals for suspected cancer.

Some 44% said that access to pathology services had been reduced. One group in Australia reported that “results of pathology tests are taking longer to be returned. Generally a result would be returned within 48 hours. Since COVID-19, results are taking up to 7 days to be returned.”

As for treatment, 68% of organizations reported delays or cancellations of surgery or other treatments; 58% reported there had been a need to modify treatment protocols; and 48% indicated there had been a drop in participation in clinical trials.

Respondents were also concerned about reported increases in stress, anxiety, and isolation among many cancer patients. “Often at increased risk of infection and serious illness themselves ... many have been required to ‘shield’ from others, totally withdrawing from life outside their homes, thus increasing the already high levels of isolation they feel because of their life-limiting conditions,” the report notes.

In addition, some 60% of the organizations said that the pandemic had increased financial hardship among cancer patients. One US group commented: “Unemployment levels in the States similar to depression era. This has been a real challenge as many have lost insurance as well as jobs.”

Only a minority of respondents reported that cancer care was being offered in hospitals with no special arrangements in place to treat concomitant COVID-19 patients.

On the other hand, only 15% of respondents indicated that patients were being treated in a hospital that was not also caring for COVID-19 patients.

“Cancer will not wait for COVID-19 to pass, if it ever will, and the patient organizations are the key to minimizing the devastating impact [COVID-19 is having] on people with cancer,” Reid emphasized.

“More than ever, the patient/support services should be strengthened,” commented a group from France.
 

Patient services affected

“Almost all organisations (89%) have had to alter their services for people with cancer,” the report notes.

Two thirds of organizations involved in professional educational activities have had to change their services in some way, either by moving them online or stopping programs altogether, at least temporarily. “Some found that doctors and nurses are too busy with the pandemic to participate, and that their appetite for such activity is also diminished,” the report notes.

The volume of phone calls and emails increased in almost 6 of 10 organizations that provide support services for patients. Compared to prepandemic levels, volume increased by an average of 44%.

The most common queries raised by people with cancer (accounting for 85% of all queries) were questions about the risks of contracting COVID-19 and cancer treatments during the pandemic.

Some of the organizations also commented about how they had been affected. One group from Uganda said: “We had a sudden lockdown and we could not access office to give face to face counselling. We stopped research due to national guidelines on research. We continued giving information via phone and social media especially WhatsApp. We created groups for patients and counsellors to continue interacting.”

A group in Costa Rica reported: “We developed a new program of transfers from their homes to the hospital for cancer patients in chemotherapy and radiotherapy. 200 monthly transfers. We created a virtual community instead of our face-to-face support group, we started in April and we have 108 members, virtual sessions are held every two weeks.”

An organization based in the United States reported that it was “totally revamping our educational programs to be delivered in new ways in an online format ― not just replicating the in-person formats, but reaching out to our community and asking them what they would find the most valuable.”
 

Impact on fundraising

Almost 9 in 10 organizations raise funds to support their activities, the report notes. “A shocking 79% of organisations say they predict a fall in income over the next 12 months, with a further 16% not sure, leaving only 5% confident of their financial stability.”

Every type of fund-raising has been affected by COVID-19, from grants and major donors to community fund-raising events. Sixty percent of organisations said they were trying to find new ways to raise funds.

However, as one organization in Japan noted: “At the moment we can survive and feel it is unethical to ask the public for money when many are facing dire financial personal circumstances.”

A group from Australia commented: “Fundraising has been extremely difficult due to COVID-19 with distancing laws and no group gatherings as well as the economic downturn. Crisis appeals have been unsuccessful and all outdoor events and major events have been cancelled. In Australia we have had to contend with also the fires earlier in the year where a lot of money was donated to leaving other foundations struggling to get donor support.”

A little more than half (55%) of the organizations surveyed have had to cut costs.

Staffing cuts have been made in 1 in 10 of the organizations surveyed. A similar proportion of organizations have furloughed staff. Many if not all staff from numerous organizations are working from home.

A little more than half of those surveyed either provide funding for research or conduct research themselves, but only one quarter of them indicated there had been no change in their research projects. The others have indicated that they had to either reduce the scope of their research, put it on pause, or stop it altogether.

Three quarters of survey respondents noted that they had engaged in advocacy activities prior to the pandemic, and almost two thirds of them said they had to delay these activities.

Several of the organizations expressed thanks to the survey authors.

“COVID-19 is a global pandemic and cancer patients all around the world have similar worries, concerns and questions ― we are a small/medium organisation working in one country but believe in the power of community and coalitions and so this survey is a very welcome part of looking at this from a greater perspective,” commented one British group.

Reid has disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

The COVID-19 pandemic has disrupted every aspect of cancer care, from diagnosis, treatment, and follow-up to participation in clinical trials, according to a new report that collected responses from cancer patient organizations around the world.

The report includes responses from 157 organizations in 56 countries, representing some 350,000 patients with cancer.

“The COVID-19 global pandemic has quite literally wreaked havoc with all of our lives but especially for cancer patients,” said the report’s author, Frances Reid, MBA, program director, World Ovarian Cancer Coalition.

“To those who have the power or influence to ensure that cancer treatment and services are not set back several years, please listen to those organizations who can articulate clearly the impact on patients, work with them, and act on it as soon as you can,” she added.

The new report, entitled “The Impact of COVID-19 on Cancer Patient Organisations,” was released on June 12. The organizations were surveyed from May 11 to May 25.
 

Cancer diagnosis

Two-thirds of the organizations surveyed said cancer screening programs had been canceled in their country, and 59% indicated they had seen a drop in urgent referrals for suspected cancer.

Some 44% said that access to pathology services had been reduced. One group in Australia reported that “results of pathology tests are taking longer to be returned. Generally a result would be returned within 48 hours. Since COVID-19, results are taking up to 7 days to be returned.”

As for treatment, 68% of organizations reported delays or cancellations of surgery or other treatments; 58% reported there had been a need to modify treatment protocols; and 48% indicated there had been a drop in participation in clinical trials.

Respondents were also concerned about reported increases in stress, anxiety, and isolation among many cancer patients. “Often at increased risk of infection and serious illness themselves ... many have been required to ‘shield’ from others, totally withdrawing from life outside their homes, thus increasing the already high levels of isolation they feel because of their life-limiting conditions,” the report notes.

In addition, some 60% of the organizations said that the pandemic had increased financial hardship among cancer patients. One US group commented: “Unemployment levels in the States similar to depression era. This has been a real challenge as many have lost insurance as well as jobs.”

Only a minority of respondents reported that cancer care was being offered in hospitals with no special arrangements in place to treat concomitant COVID-19 patients.

On the other hand, only 15% of respondents indicated that patients were being treated in a hospital that was not also caring for COVID-19 patients.

“Cancer will not wait for COVID-19 to pass, if it ever will, and the patient organizations are the key to minimizing the devastating impact [COVID-19 is having] on people with cancer,” Reid emphasized.

“More than ever, the patient/support services should be strengthened,” commented a group from France.
 

Patient services affected

“Almost all organisations (89%) have had to alter their services for people with cancer,” the report notes.

Two thirds of organizations involved in professional educational activities have had to change their services in some way, either by moving them online or stopping programs altogether, at least temporarily. “Some found that doctors and nurses are too busy with the pandemic to participate, and that their appetite for such activity is also diminished,” the report notes.

The volume of phone calls and emails increased in almost 6 of 10 organizations that provide support services for patients. Compared to prepandemic levels, volume increased by an average of 44%.

The most common queries raised by people with cancer (accounting for 85% of all queries) were questions about the risks of contracting COVID-19 and cancer treatments during the pandemic.

Some of the organizations also commented about how they had been affected. One group from Uganda said: “We had a sudden lockdown and we could not access office to give face to face counselling. We stopped research due to national guidelines on research. We continued giving information via phone and social media especially WhatsApp. We created groups for patients and counsellors to continue interacting.”

A group in Costa Rica reported: “We developed a new program of transfers from their homes to the hospital for cancer patients in chemotherapy and radiotherapy. 200 monthly transfers. We created a virtual community instead of our face-to-face support group, we started in April and we have 108 members, virtual sessions are held every two weeks.”

An organization based in the United States reported that it was “totally revamping our educational programs to be delivered in new ways in an online format ― not just replicating the in-person formats, but reaching out to our community and asking them what they would find the most valuable.”
 

Impact on fundraising

Almost 9 in 10 organizations raise funds to support their activities, the report notes. “A shocking 79% of organisations say they predict a fall in income over the next 12 months, with a further 16% not sure, leaving only 5% confident of their financial stability.”

Every type of fund-raising has been affected by COVID-19, from grants and major donors to community fund-raising events. Sixty percent of organisations said they were trying to find new ways to raise funds.

However, as one organization in Japan noted: “At the moment we can survive and feel it is unethical to ask the public for money when many are facing dire financial personal circumstances.”

A group from Australia commented: “Fundraising has been extremely difficult due to COVID-19 with distancing laws and no group gatherings as well as the economic downturn. Crisis appeals have been unsuccessful and all outdoor events and major events have been cancelled. In Australia we have had to contend with also the fires earlier in the year where a lot of money was donated to leaving other foundations struggling to get donor support.”

A little more than half (55%) of the organizations surveyed have had to cut costs.

Staffing cuts have been made in 1 in 10 of the organizations surveyed. A similar proportion of organizations have furloughed staff. Many if not all staff from numerous organizations are working from home.

A little more than half of those surveyed either provide funding for research or conduct research themselves, but only one quarter of them indicated there had been no change in their research projects. The others have indicated that they had to either reduce the scope of their research, put it on pause, or stop it altogether.

Three quarters of survey respondents noted that they had engaged in advocacy activities prior to the pandemic, and almost two thirds of them said they had to delay these activities.

Several of the organizations expressed thanks to the survey authors.

“COVID-19 is a global pandemic and cancer patients all around the world have similar worries, concerns and questions ― we are a small/medium organisation working in one country but believe in the power of community and coalitions and so this survey is a very welcome part of looking at this from a greater perspective,” commented one British group.

Reid has disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

A striking clinical feature of illness from SARS-CoV-2 is a marked increase in thrombotic and microvascular complications, or COVID-19–associated coagulopathy (CAC).

A new study suggests endothelial cell injury plays a major role in the pathogenesis of CAC, and blood levels of soluble thrombomodulin correlate with mortality.

George Goshua, MD, of Yale University, New Haven, Conn., presented this study as a late-breaking abstract at the virtual annual congress of the European Hematology Association.

Dr. Goshua cited past research showing CAC to be highly prevalent among hospitalized patients. Venous thromboembolism was found in 17% to 69% of patients, despite thromboprophylaxis.^1-4 Arterial thrombosis has been seen in 3.6% to 4.0% of patients,^1-3 and autopsy findings have shown microvascular thrombosis in as many as 87% of patients.^5-7

For their study, Dr. Goshua and colleagues assessed endothelial cell damage, platelet activation, and hemostatic and fibrinolytic cascade effects of CAC.

The investigators measured markers of endothelial cell injury and platelet activation, plasminogen activation inhibitor 1 (PAI-1), and coagulation factors in stable and critically ill patients hospitalized with COVID-19. In addition, the team sought to identify biomarkers of mortality in hospitalized patients.

Dr. Goshua and colleagues studied 68 adults hospitalized for suspected COVID-19 – 48 in the ICU and 20 outside the ICU. Patients in the ICU received mechanical ventilation, while the non-ICU patients required supplemental oxygen (≤3 L/min per nasal cannula).

There were more men than women (69% vs. 31%) in the ICU population but not in the non-ICU population (40% vs. 60%). There were no statistically significant differences in age or comorbid conditions between the ICU and non-ICU patients.
 

Results and interpretation

Consistent with augmentation of the coagulation cascade – and as expected – D-dimer and thrombin-antithrombin levels were high in both the ICU and non-ICU populations, but levels were significantly higher (P < .001) among the ICU patients.

Endogenous anticoagulants (antithrombin and proteins C and S) and fibrinolytic enzymes (alpha 2-antiplasmin) were preserved, verifying that CAC is distinct from disseminated intravascular coagulation. Classic fibrinolysis did not occur, as PAI-1 was high in ICU and non-ICU patients, and lysis-30 was normal in nearly all ICU patients (96%).

Von Willebrand factor antigen and activity levels and factor VIII levels were markedly elevated in non-ICU and ICU patients, but they were significantly higher (P < .001) in the ICU cohort. This supports the hypothesis that endothelial cell damage and platelet activation play major roles in CAC.

Similarly, soluble P-selectin, which is shed from endothelial cells and platelets, was dramatically elevated in ICU patients in comparison with controls and non-ICU patients (P < .001 for both comparisons).

Levels of soluble thrombomodulin, which is released from endothelial cells, were not significantly different in ICU patients and controls. However, given thrombomodulin’s significant role in the coagulation cascade, Dr. Goshua and colleagues plotted receiver operating curves to see if soluble thrombomodulin levels were predictive of mortality.

The results showed that soluble thrombomodulin correlated with the probability of survival, both overall and in ICU patients. Soluble thrombomodulin levels greater than 3.26 ng/mL were associated with significantly worse survival in all patients (P = .0087) and ICU patients (P = .0309).
 

Influence on therapy

Laboratory perturbations were detected in both ICU and non-ICU patients, and otherwise healthy outpatients have exhibited potentially life-threatening CAC, according to Dr. Goshua.

These findings suggest the prothrombotic state occurs early in the pathogenesis of SARS-CoV-2 infection, is driven by platelet activation and endotheliopathy, and becomes more pronounced with worsening severity of infection.

The results of this study prompted a change in how Yale–New Haven Hospital manages COVID-19 patients. Patients without a clinical contraindication now receive aspirin at 81 mg daily in addition to the anticoagulation regimen typically used for all hospitalized COVID-19 patients.

Investigations regarding other medications that can influence platelet-endothelial cell interactions and modulate endothelial cell damage in CAC – such as dipyridamole, defibrotide, and eculizumab – are planned.
 

Challenges and unanswered questions

Virchow’s triad was described by the eminent German physician, Rudolf Virchow, MD, in the 19th century. It refers to the three broad categories of factors that can predispose patients to thrombosis — circulatory stasis, hypercoagulability, and endothelial injury.

Although all of these elements could be operative in CAC, the current study suggests platelet activation and endothelial cell injury in CAC may be of primary importance.

Because of the limited ability to test critically ill patients and concerns regarding exposure of additional hospital personnel to COVID-19 patients, the current report lacked clarity about the relationship of the detected laboratory abnormalities to confirmed thrombotic events.

It is unknown whether endothelial cells in different organs are damaged uniformly. It is also unclear if the laboratory abnormalities identified in this analysis can be used to monitor response to therapy, to guide follow-up management of discharged patients with CAC, or to identify infected outpatients who should receive prophylactic anticoagulation.

The mechanism by which SARS-CoV-2 injures endothelial cells is not explained by these data. Neutrophil defensins and other prothrombotic peptides or markers of inflammation could play key roles in pathogenesis, assessment of disease severity, or monitoring for therapeutic efficacy.

Today, we have more sophisticated diagnostic tools than Dr. Virchow had. We also have the ability to record and rapidly disseminate information globally. Still, with regard to the COVID-19 pandemic, clinicians face many of the same challenges that confronted Dr. Virchow in his era.

The analysis conducted by Dr. Goshua and colleagues goes a long way toward elucidating some of the mechanisms and therapeutic targets to meet these challenges.

Dr. Goshua disclosed no conflicts of interest.

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: Goshua G et al. EHA Congress. Abstract LB2605.

References

1. Klok FA et al. Confirmation of the high cumulative incidence of thrombotic complications in critically ill ICU patients with COVID-19: An updated analysis. Thromb Res. 2020;191:148-50. doi: 10.1016/j.thromres.2020.04.041.

2. Thomas W et al. Thrombotic complications of patients admitted to intensive care with COVID-19 at a teaching hospital in the United Kingdom. Thromb Res. 2020;191:76-7. doi: 10.1016/j.thromres.2020.04.028

3. Lodigiani C et al. Venous and arterial thromboembolic complications in COVID-19 patients admitted to an academic hospital in Milan, Italy. Thromb Res. 2020;191:9-14. doi: 10.1016/j.thromres.2020.04.024

4. Llitjos JF et al. High incidence of venous thromboembolic events in anticoagulated severe COVID-19 patients [published online ahead of print, 2020 Apr 22]. J Thromb Haemost. 2020;10.1111/jth.14869. doi: 10.1111/jth.14869

5. Carsana L et al. Pulmonary post-mortem findings in a large series of COVID-19 cases from Northern Italy. medRxiv 2020.04.19.20054262; doi: 10.1101/2020.04.19.20054262v1.

6. Menter T et al. Post-mortem examination of COVID19 patients reveals diffuse alveolar damage with severe capillary congestion and variegated findings of lungs and other organs suggesting vascular dysfunction [published online ahead of print, 2020 May 4]. Histopathology. 2020;10.1111/his.14134. doi: 10.1111/his.14134

7. Lax SF, et al. Pulmonary arterial thrombosis in COVID-19 with fatal outcome: Results from a prospective, single-center, clinicopathologic case series [published online ahead of print, 2020 May 14]. Ann Intern Med. 2020;M20-2566. doi: 10.7326/M20-2566.

A striking clinical feature of illness from SARS-CoV-2 is a marked increase in thrombotic and microvascular complications, or COVID-19–associated coagulopathy (CAC).

A new study suggests endothelial cell injury plays a major role in the pathogenesis of CAC, and blood levels of soluble thrombomodulin correlate with mortality.

George Goshua, MD, of Yale University, New Haven, Conn., presented this study as a late-breaking abstract at the virtual annual congress of the European Hematology Association.

Dr. Goshua cited past research showing CAC to be highly prevalent among hospitalized patients. Venous thromboembolism was found in 17% to 69% of patients, despite thromboprophylaxis.^1-4 Arterial thrombosis has been seen in 3.6% to 4.0% of patients,^1-3 and autopsy findings have shown microvascular thrombosis in as many as 87% of patients.^5-7

For their study, Dr. Goshua and colleagues assessed endothelial cell damage, platelet activation, and hemostatic and fibrinolytic cascade effects of CAC.

The investigators measured markers of endothelial cell injury and platelet activation, plasminogen activation inhibitor 1 (PAI-1), and coagulation factors in stable and critically ill patients hospitalized with COVID-19. In addition, the team sought to identify biomarkers of mortality in hospitalized patients.

Dr. Goshua and colleagues studied 68 adults hospitalized for suspected COVID-19 – 48 in the ICU and 20 outside the ICU. Patients in the ICU received mechanical ventilation, while the non-ICU patients required supplemental oxygen (≤3 L/min per nasal cannula).

There were more men than women (69% vs. 31%) in the ICU population but not in the non-ICU population (40% vs. 60%). There were no statistically significant differences in age or comorbid conditions between the ICU and non-ICU patients.
 

Results and interpretation

Consistent with augmentation of the coagulation cascade – and as expected – D-dimer and thrombin-antithrombin levels were high in both the ICU and non-ICU populations, but levels were significantly higher (P < .001) among the ICU patients.

Endogenous anticoagulants (antithrombin and proteins C and S) and fibrinolytic enzymes (alpha 2-antiplasmin) were preserved, verifying that CAC is distinct from disseminated intravascular coagulation. Classic fibrinolysis did not occur, as PAI-1 was high in ICU and non-ICU patients, and lysis-30 was normal in nearly all ICU patients (96%).

Von Willebrand factor antigen and activity levels and factor VIII levels were markedly elevated in non-ICU and ICU patients, but they were significantly higher (P < .001) in the ICU cohort. This supports the hypothesis that endothelial cell damage and platelet activation play major roles in CAC.

Similarly, soluble P-selectin, which is shed from endothelial cells and platelets, was dramatically elevated in ICU patients in comparison with controls and non-ICU patients (P < .001 for both comparisons).

Levels of soluble thrombomodulin, which is released from endothelial cells, were not significantly different in ICU patients and controls. However, given thrombomodulin’s significant role in the coagulation cascade, Dr. Goshua and colleagues plotted receiver operating curves to see if soluble thrombomodulin levels were predictive of mortality.

The results showed that soluble thrombomodulin correlated with the probability of survival, both overall and in ICU patients. Soluble thrombomodulin levels greater than 3.26 ng/mL were associated with significantly worse survival in all patients (P = .0087) and ICU patients (P = .0309).
 

Influence on therapy

Laboratory perturbations were detected in both ICU and non-ICU patients, and otherwise healthy outpatients have exhibited potentially life-threatening CAC, according to Dr. Goshua.

These findings suggest the prothrombotic state occurs early in the pathogenesis of SARS-CoV-2 infection, is driven by platelet activation and endotheliopathy, and becomes more pronounced with worsening severity of infection.

The results of this study prompted a change in how Yale–New Haven Hospital manages COVID-19 patients. Patients without a clinical contraindication now receive aspirin at 81 mg daily in addition to the anticoagulation regimen typically used for all hospitalized COVID-19 patients.

Investigations regarding other medications that can influence platelet-endothelial cell interactions and modulate endothelial cell damage in CAC – such as dipyridamole, defibrotide, and eculizumab – are planned.
 

Challenges and unanswered questions

Virchow’s triad was described by the eminent German physician, Rudolf Virchow, MD, in the 19th century. It refers to the three broad categories of factors that can predispose patients to thrombosis — circulatory stasis, hypercoagulability, and endothelial injury.

Although all of these elements could be operative in CAC, the current study suggests platelet activation and endothelial cell injury in CAC may be of primary importance.

Because of the limited ability to test critically ill patients and concerns regarding exposure of additional hospital personnel to COVID-19 patients, the current report lacked clarity about the relationship of the detected laboratory abnormalities to confirmed thrombotic events.

It is unknown whether endothelial cells in different organs are damaged uniformly. It is also unclear if the laboratory abnormalities identified in this analysis can be used to monitor response to therapy, to guide follow-up management of discharged patients with CAC, or to identify infected outpatients who should receive prophylactic anticoagulation.

The mechanism by which SARS-CoV-2 injures endothelial cells is not explained by these data. Neutrophil defensins and other prothrombotic peptides or markers of inflammation could play key roles in pathogenesis, assessment of disease severity, or monitoring for therapeutic efficacy.

Today, we have more sophisticated diagnostic tools than Dr. Virchow had. We also have the ability to record and rapidly disseminate information globally. Still, with regard to the COVID-19 pandemic, clinicians face many of the same challenges that confronted Dr. Virchow in his era.

The analysis conducted by Dr. Goshua and colleagues goes a long way toward elucidating some of the mechanisms and therapeutic targets to meet these challenges.

Dr. Goshua disclosed no conflicts of interest.

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: Goshua G et al. EHA Congress. Abstract LB2605.

References

1. Klok FA et al. Confirmation of the high cumulative incidence of thrombotic complications in critically ill ICU patients with COVID-19: An updated analysis. Thromb Res. 2020;191:148-50. doi: 10.1016/j.thromres.2020.04.041.

2. Thomas W et al. Thrombotic complications of patients admitted to intensive care with COVID-19 at a teaching hospital in the United Kingdom. Thromb Res. 2020;191:76-7. doi: 10.1016/j.thromres.2020.04.028

3. Lodigiani C et al. Venous and arterial thromboembolic complications in COVID-19 patients admitted to an academic hospital in Milan, Italy. Thromb Res. 2020;191:9-14. doi: 10.1016/j.thromres.2020.04.024

4. Llitjos JF et al. High incidence of venous thromboembolic events in anticoagulated severe COVID-19 patients [published online ahead of print, 2020 Apr 22]. J Thromb Haemost. 2020;10.1111/jth.14869. doi: 10.1111/jth.14869

5. Carsana L et al. Pulmonary post-mortem findings in a large series of COVID-19 cases from Northern Italy. medRxiv 2020.04.19.20054262; doi: 10.1101/2020.04.19.20054262v1.

6. Menter T et al. Post-mortem examination of COVID19 patients reveals diffuse alveolar damage with severe capillary congestion and variegated findings of lungs and other organs suggesting vascular dysfunction [published online ahead of print, 2020 May 4]. Histopathology. 2020;10.1111/his.14134. doi: 10.1111/his.14134

7. Lax SF, et al. Pulmonary arterial thrombosis in COVID-19 with fatal outcome: Results from a prospective, single-center, clinicopathologic case series [published online ahead of print, 2020 May 14]. Ann Intern Med. 2020;M20-2566. doi: 10.7326/M20-2566.

A striking clinical feature of illness from SARS-CoV-2 is a marked increase in thrombotic and microvascular complications, or COVID-19–associated coagulopathy (CAC).

A new study suggests endothelial cell injury plays a major role in the pathogenesis of CAC, and blood levels of soluble thrombomodulin correlate with mortality.

George Goshua, MD, of Yale University, New Haven, Conn., presented this study as a late-breaking abstract at the virtual annual congress of the European Hematology Association.

Dr. Goshua cited past research showing CAC to be highly prevalent among hospitalized patients. Venous thromboembolism was found in 17% to 69% of patients, despite thromboprophylaxis.^1-4 Arterial thrombosis has been seen in 3.6% to 4.0% of patients,^1-3 and autopsy findings have shown microvascular thrombosis in as many as 87% of patients.^5-7

For their study, Dr. Goshua and colleagues assessed endothelial cell damage, platelet activation, and hemostatic and fibrinolytic cascade effects of CAC.

The investigators measured markers of endothelial cell injury and platelet activation, plasminogen activation inhibitor 1 (PAI-1), and coagulation factors in stable and critically ill patients hospitalized with COVID-19. In addition, the team sought to identify biomarkers of mortality in hospitalized patients.

Dr. Goshua and colleagues studied 68 adults hospitalized for suspected COVID-19 – 48 in the ICU and 20 outside the ICU. Patients in the ICU received mechanical ventilation, while the non-ICU patients required supplemental oxygen (≤3 L/min per nasal cannula).

There were more men than women (69% vs. 31%) in the ICU population but not in the non-ICU population (40% vs. 60%). There were no statistically significant differences in age or comorbid conditions between the ICU and non-ICU patients.
 

Results and interpretation

Consistent with augmentation of the coagulation cascade – and as expected – D-dimer and thrombin-antithrombin levels were high in both the ICU and non-ICU populations, but levels were significantly higher (P < .001) among the ICU patients.

Endogenous anticoagulants (antithrombin and proteins C and S) and fibrinolytic enzymes (alpha 2-antiplasmin) were preserved, verifying that CAC is distinct from disseminated intravascular coagulation. Classic fibrinolysis did not occur, as PAI-1 was high in ICU and non-ICU patients, and lysis-30 was normal in nearly all ICU patients (96%).

Von Willebrand factor antigen and activity levels and factor VIII levels were markedly elevated in non-ICU and ICU patients, but they were significantly higher (P < .001) in the ICU cohort. This supports the hypothesis that endothelial cell damage and platelet activation play major roles in CAC.

Similarly, soluble P-selectin, which is shed from endothelial cells and platelets, was dramatically elevated in ICU patients in comparison with controls and non-ICU patients (P < .001 for both comparisons).

Levels of soluble thrombomodulin, which is released from endothelial cells, were not significantly different in ICU patients and controls. However, given thrombomodulin’s significant role in the coagulation cascade, Dr. Goshua and colleagues plotted receiver operating curves to see if soluble thrombomodulin levels were predictive of mortality.

The results showed that soluble thrombomodulin correlated with the probability of survival, both overall and in ICU patients. Soluble thrombomodulin levels greater than 3.26 ng/mL were associated with significantly worse survival in all patients (P = .0087) and ICU patients (P = .0309).
 

Influence on therapy

Laboratory perturbations were detected in both ICU and non-ICU patients, and otherwise healthy outpatients have exhibited potentially life-threatening CAC, according to Dr. Goshua.

These findings suggest the prothrombotic state occurs early in the pathogenesis of SARS-CoV-2 infection, is driven by platelet activation and endotheliopathy, and becomes more pronounced with worsening severity of infection.

The results of this study prompted a change in how Yale–New Haven Hospital manages COVID-19 patients. Patients without a clinical contraindication now receive aspirin at 81 mg daily in addition to the anticoagulation regimen typically used for all hospitalized COVID-19 patients.

Investigations regarding other medications that can influence platelet-endothelial cell interactions and modulate endothelial cell damage in CAC – such as dipyridamole, defibrotide, and eculizumab – are planned.
 

Challenges and unanswered questions

Virchow’s triad was described by the eminent German physician, Rudolf Virchow, MD, in the 19th century. It refers to the three broad categories of factors that can predispose patients to thrombosis — circulatory stasis, hypercoagulability, and endothelial injury.

Although all of these elements could be operative in CAC, the current study suggests platelet activation and endothelial cell injury in CAC may be of primary importance.

Because of the limited ability to test critically ill patients and concerns regarding exposure of additional hospital personnel to COVID-19 patients, the current report lacked clarity about the relationship of the detected laboratory abnormalities to confirmed thrombotic events.

It is unknown whether endothelial cells in different organs are damaged uniformly. It is also unclear if the laboratory abnormalities identified in this analysis can be used to monitor response to therapy, to guide follow-up management of discharged patients with CAC, or to identify infected outpatients who should receive prophylactic anticoagulation.

The mechanism by which SARS-CoV-2 injures endothelial cells is not explained by these data. Neutrophil defensins and other prothrombotic peptides or markers of inflammation could play key roles in pathogenesis, assessment of disease severity, or monitoring for therapeutic efficacy.

Today, we have more sophisticated diagnostic tools than Dr. Virchow had. We also have the ability to record and rapidly disseminate information globally. Still, with regard to the COVID-19 pandemic, clinicians face many of the same challenges that confronted Dr. Virchow in his era.

The analysis conducted by Dr. Goshua and colleagues goes a long way toward elucidating some of the mechanisms and therapeutic targets to meet these challenges.

Dr. Goshua disclosed no conflicts of interest.

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: Goshua G et al. EHA Congress. Abstract LB2605.

References

1. Klok FA et al. Confirmation of the high cumulative incidence of thrombotic complications in critically ill ICU patients with COVID-19: An updated analysis. Thromb Res. 2020;191:148-50. doi: 10.1016/j.thromres.2020.04.041.

2. Thomas W et al. Thrombotic complications of patients admitted to intensive care with COVID-19 at a teaching hospital in the United Kingdom. Thromb Res. 2020;191:76-7. doi: 10.1016/j.thromres.2020.04.028

3. Lodigiani C et al. Venous and arterial thromboembolic complications in COVID-19 patients admitted to an academic hospital in Milan, Italy. Thromb Res. 2020;191:9-14. doi: 10.1016/j.thromres.2020.04.024

4. Llitjos JF et al. High incidence of venous thromboembolic events in anticoagulated severe COVID-19 patients [published online ahead of print, 2020 Apr 22]. J Thromb Haemost. 2020;10.1111/jth.14869. doi: 10.1111/jth.14869

5. Carsana L et al. Pulmonary post-mortem findings in a large series of COVID-19 cases from Northern Italy. medRxiv 2020.04.19.20054262; doi: 10.1101/2020.04.19.20054262v1.

6. Menter T et al. Post-mortem examination of COVID19 patients reveals diffuse alveolar damage with severe capillary congestion and variegated findings of lungs and other organs suggesting vascular dysfunction [published online ahead of print, 2020 May 4]. Histopathology. 2020;10.1111/his.14134. doi: 10.1111/his.14134

7. Lax SF, et al. Pulmonary arterial thrombosis in COVID-19 with fatal outcome: Results from a prospective, single-center, clinicopathologic case series [published online ahead of print, 2020 May 14]. Ann Intern Med. 2020;M20-2566. doi: 10.7326/M20-2566.

Past treatment may affect the risk of death among patients with thoracic malignancies who develop COVID-19, according to data from the TERAVOLT registry.

Prior treatment with steroids, anticoagulants, chemotherapy alone, or chemotherapy plus immunotherapy were all associated with an increased risk of death, but prior treatment with tyrosine kinase inhibitors or immunotherapy alone were not.

At the same time, there were no COVID-19–directed treatments that seemed to affect the risk of death.

“When we look at therapies administered to treat COVID-19 … including anticoagulation, antibiotics, antivirals, hydroxychloroquine, we found that no particular therapy was associated with increased chance of recovery from COVID-19,” said Leora Horn, MD, of Vanderbilt-Ingram Cancer Center in Nashville, Tenn.

Dr. Horn presented these findings as part of the American Society of Clinical Oncology virtual scientific program.
 

About TERAVOLT

The TERAVOLT registry is the brainchild of Marina Garassino, MD, of the National Cancer Institute of Milan. On March 15, Dr. Garassino emailed colleagues around the world with the idea of starting the registry. Within 5 days, the final protocol was approved, and the first patient was entered onto TERAVOLT.

In creating a registry, Dr. Garassino and colleagues wanted to “determine the demographic factors, comorbidities, cancer characteristics, and therapies that place patients with thoracic malignancies who develop COVID-19 most at risk for hospitalization and death,” Dr. Horn said.

Other goals of the registry are “to understand the clinical course of patients with thoracic malignancies who are infected by SARS-CoV-2, to provide practitioners with real-time data on therapeutic strategies that may impact survival, [and] to evaluate the long-term impact on cancer outcomes related to care adjustments and delays in patients with thoracic malignancies,” she added.

Dr. Garassino presented the first analysis of TERAVOLT data at the AACR virtual meeting I in April. Results were recently published in The Lancet Oncology as well. That analysis included 200 patients, 98% of whom were from Europe, and the median follow-up was 15 days.

Baseline characteristics and outcomes

Dr. Horn’s updated analysis included 400 patients with a median follow-up of 33 days from COVID-19 diagnosis. The data encompassed patients from North and South America, Europe, Africa, Asia, and Australia.

Of the 400 patients, 169 had recovered, 141 had died, and 118 were still in the hospital at the time of analysis. In all, 334 patients (78.3%) required a hospital admission, and 33 (8.3%) were admitted to the ICU. The median length of hospitalization was 10 days.

Across the three outcome groups (recovered, died, ongoing), the median age was 67-70 years. Most patients had non–small cell lung cancer (74.5%-81.9%), and most had stage IV disease (61.4%-76.8%).

A majority of patients were male (63.3%-70.2%), and most were current or former smokers (77.5%-86.9%). The median body mass index was 24-25 kg/m², and 35%-46.4% of patients had an Eastern Cooperative Oncology Group (ECOG) performance status of 0.

Most patients (82.2%-90.7%) had COVID-19 diagnosed via real-time polymerase chain reaction, although some patients were diagnosed via clinical findings alone (3.1%-5%).

“[R]egardless of outcome, the most common presenting symptom was fever, cough, or dyspnea,” Dr. Horn noted.

As for complications of COVID-19, 71% of patients who died had pneumonitis/pneumonia, 49.6% had acute respiratory distress syndrome, 14.9% had multiorgan failure, 12.1% had sepsis, and 5.7% had coagulopathy.

Among recovered patients, 59% had pneumonitis/pneumonia, 4.1% had acute respiratory distress syndrome, 3% had coagulopathy, 0.6% had sepsis, and none had multiorgan failure.

Patients who recovered were more likely to have no comorbidities at baseline, and 31.2% of patients who died had at least one comorbidity. The most frequent comorbidities were hypertension, chronic obstructive pulmonary disease, vascular disease, diabetes, and renal insufficiencies.
 

Prior treatments and COVID therapy

Among patients who died, 33.4% were on ACE inhibitors or angiotensin II receptor blockers, 27% were on anticoagulants, and 23.4% were on steroids (the equivalent of at least 10 mg of prednisone per day) at the time of COVID-19 diagnosis.

Among recovered patients, 20.7% were on ACE inhibitors or angiotensin II receptor blockers, 18.3% were on anticoagulants, and 14.2% were on steroids at the time of COVID-19 diagnosis.

“When we look at cancer therapy in the last 3 months, we can see that, regardless of outcome, the majority of patients had either not been treated or were on first-line therapy at the time of their COVID-19 diagnosis,” Dr. Horn noted.

Among patients who died, 46.8% had received chemotherapy, 22% had received immunotherapy, 12.8% had received targeted therapy, and 9.2% had received radiotherapy.

Among recovered patients, 33.7% had received chemotherapy, 26.6% had received immunotherapy, 19.5% had received targeted therapy, and 14.2% had received radiotherapy.

COVID-19–directed treatments included anticoagulation, antibiotics, antivirals, antifungals, steroids, interleukin-6 inhibitors, and hydroxychloroquine. Use of these therapies was similar among patients who recovered and patients who died.
 

Factors associated with death

In all, 79.4% of deaths were attributed to COVID-19, 10.6% were attributed to cancer, 8.5% were attributed to cancer and COVID-19, and 1.4% of deaths had an unknown cause.

In a univariate analysis, baseline characteristics associated with an increased risk of death were age of 65 years or older (P = .0033), one or more comorbidity (P = .0351), and ECOG performance status of 1 (P < .0001). Therapies associated with an increased risk of death in a univariate analysis included steroids (P = .0186), anticoagulation (P = .0562), and either chemotherapy alone or chemotherapy plus immunotherapy (P = .0256).

In a multivariate analysis, age over 65 years (P = .018), ECOG performance status of 1 (P < .001), prior use of steroids (P = .052), and receipt of chemotherapy alone or in combination with immunotherapy (P = .025) were all associated with an increased risk of death.

“There is no impact of gender [sex], body mass index, smoking status, stage, or type of cancer on risk of death,” Dr. Horn said. “Therapy administered to treat COVID-19 is not significantly associated with outcome.”

“The impact of COVID-19 infection on cancer management and outcomes must be evaluated,” she added. “Data collection is ongoing, with additional analysis and studies planned to look at patient and provider perception of COVID-19 and the impact it has had on cancer care.”

Strengths and limitations

There are several limitations to findings from the TERAVOLT registry, according to invited discussant Giuseppe Curigliano, MD, PhD, of the University of Milan.

He said the results are limited by the differences in triage decisions between European and other centers, the fact that most patients in TERAVOLT were hospitalized, the high proportion of patients with stage IV non–small cell lung cancer, and methods of data collection and analysis.

“There is no real-time data capture, no auditing, no standardized outcome definitions, and CRFs [case report forms] had a lot of limitations,” Dr. Curigliano said. “We have multiple biases, including selection bias, recall bias, confounding by indication, and changes in practice or disease evolution.”

Dr. Curigliano noted, however, that TERAVOLT is the largest real-world dataset of patients with COVID-19 and thoracic malignancies.

Furthermore, results from TERAVOLT correspond to results from the CCC-19 registry. Data from both registries suggest that older age, the presence of comorbidities, higher ECOG performances status, and chemotherapy alone or in combination with other therapies are associated with increased mortality among patients with cancer and COVID-19.

The TERAVOLT registry is funded, in part, by the International Association for the Study of Lung Cancer. Dr. Horn disclosed relationships with Amgen, AstraZeneca, Bayer, Boehringer Ingelheim, and other pharmaceutical companies. Dr. Curigliano disclosed relationships with AstraZeneca, Boehringer Ingelheim, Ellipses Pharma, and other pharmaceutical companies.
 

jensmith@mdedge.com

SOURCE: Horn L et al. ASCO 2020, Abstract LBA111.

Past treatment may affect the risk of death among patients with thoracic malignancies who develop COVID-19, according to data from the TERAVOLT registry.

Prior treatment with steroids, anticoagulants, chemotherapy alone, or chemotherapy plus immunotherapy were all associated with an increased risk of death, but prior treatment with tyrosine kinase inhibitors or immunotherapy alone were not.

At the same time, there were no COVID-19–directed treatments that seemed to affect the risk of death.

“When we look at therapies administered to treat COVID-19 … including anticoagulation, antibiotics, antivirals, hydroxychloroquine, we found that no particular therapy was associated with increased chance of recovery from COVID-19,” said Leora Horn, MD, of Vanderbilt-Ingram Cancer Center in Nashville, Tenn.

Dr. Horn presented these findings as part of the American Society of Clinical Oncology virtual scientific program.
 

About TERAVOLT

The TERAVOLT registry is the brainchild of Marina Garassino, MD, of the National Cancer Institute of Milan. On March 15, Dr. Garassino emailed colleagues around the world with the idea of starting the registry. Within 5 days, the final protocol was approved, and the first patient was entered onto TERAVOLT.

In creating a registry, Dr. Garassino and colleagues wanted to “determine the demographic factors, comorbidities, cancer characteristics, and therapies that place patients with thoracic malignancies who develop COVID-19 most at risk for hospitalization and death,” Dr. Horn said.

Other goals of the registry are “to understand the clinical course of patients with thoracic malignancies who are infected by SARS-CoV-2, to provide practitioners with real-time data on therapeutic strategies that may impact survival, [and] to evaluate the long-term impact on cancer outcomes related to care adjustments and delays in patients with thoracic malignancies,” she added.

Dr. Garassino presented the first analysis of TERAVOLT data at the AACR virtual meeting I in April. Results were recently published in The Lancet Oncology as well. That analysis included 200 patients, 98% of whom were from Europe, and the median follow-up was 15 days.

Baseline characteristics and outcomes

Dr. Horn’s updated analysis included 400 patients with a median follow-up of 33 days from COVID-19 diagnosis. The data encompassed patients from North and South America, Europe, Africa, Asia, and Australia.

Of the 400 patients, 169 had recovered, 141 had died, and 118 were still in the hospital at the time of analysis. In all, 334 patients (78.3%) required a hospital admission, and 33 (8.3%) were admitted to the ICU. The median length of hospitalization was 10 days.

Across the three outcome groups (recovered, died, ongoing), the median age was 67-70 years. Most patients had non–small cell lung cancer (74.5%-81.9%), and most had stage IV disease (61.4%-76.8%).

A majority of patients were male (63.3%-70.2%), and most were current or former smokers (77.5%-86.9%). The median body mass index was 24-25 kg/m², and 35%-46.4% of patients had an Eastern Cooperative Oncology Group (ECOG) performance status of 0.

Most patients (82.2%-90.7%) had COVID-19 diagnosed via real-time polymerase chain reaction, although some patients were diagnosed via clinical findings alone (3.1%-5%).

“[R]egardless of outcome, the most common presenting symptom was fever, cough, or dyspnea,” Dr. Horn noted.

As for complications of COVID-19, 71% of patients who died had pneumonitis/pneumonia, 49.6% had acute respiratory distress syndrome, 14.9% had multiorgan failure, 12.1% had sepsis, and 5.7% had coagulopathy.

Among recovered patients, 59% had pneumonitis/pneumonia, 4.1% had acute respiratory distress syndrome, 3% had coagulopathy, 0.6% had sepsis, and none had multiorgan failure.

Patients who recovered were more likely to have no comorbidities at baseline, and 31.2% of patients who died had at least one comorbidity. The most frequent comorbidities were hypertension, chronic obstructive pulmonary disease, vascular disease, diabetes, and renal insufficiencies.
 

Prior treatments and COVID therapy

Among patients who died, 33.4% were on ACE inhibitors or angiotensin II receptor blockers, 27% were on anticoagulants, and 23.4% were on steroids (the equivalent of at least 10 mg of prednisone per day) at the time of COVID-19 diagnosis.

Among recovered patients, 20.7% were on ACE inhibitors or angiotensin II receptor blockers, 18.3% were on anticoagulants, and 14.2% were on steroids at the time of COVID-19 diagnosis.

“When we look at cancer therapy in the last 3 months, we can see that, regardless of outcome, the majority of patients had either not been treated or were on first-line therapy at the time of their COVID-19 diagnosis,” Dr. Horn noted.

Among patients who died, 46.8% had received chemotherapy, 22% had received immunotherapy, 12.8% had received targeted therapy, and 9.2% had received radiotherapy.

Among recovered patients, 33.7% had received chemotherapy, 26.6% had received immunotherapy, 19.5% had received targeted therapy, and 14.2% had received radiotherapy.

COVID-19–directed treatments included anticoagulation, antibiotics, antivirals, antifungals, steroids, interleukin-6 inhibitors, and hydroxychloroquine. Use of these therapies was similar among patients who recovered and patients who died.
 

Factors associated with death

In all, 79.4% of deaths were attributed to COVID-19, 10.6% were attributed to cancer, 8.5% were attributed to cancer and COVID-19, and 1.4% of deaths had an unknown cause.

In a univariate analysis, baseline characteristics associated with an increased risk of death were age of 65 years or older (P = .0033), one or more comorbidity (P = .0351), and ECOG performance status of 1 (P < .0001). Therapies associated with an increased risk of death in a univariate analysis included steroids (P = .0186), anticoagulation (P = .0562), and either chemotherapy alone or chemotherapy plus immunotherapy (P = .0256).

In a multivariate analysis, age over 65 years (P = .018), ECOG performance status of 1 (P < .001), prior use of steroids (P = .052), and receipt of chemotherapy alone or in combination with immunotherapy (P = .025) were all associated with an increased risk of death.

“There is no impact of gender [sex], body mass index, smoking status, stage, or type of cancer on risk of death,” Dr. Horn said. “Therapy administered to treat COVID-19 is not significantly associated with outcome.”

“The impact of COVID-19 infection on cancer management and outcomes must be evaluated,” she added. “Data collection is ongoing, with additional analysis and studies planned to look at patient and provider perception of COVID-19 and the impact it has had on cancer care.”

Strengths and limitations

There are several limitations to findings from the TERAVOLT registry, according to invited discussant Giuseppe Curigliano, MD, PhD, of the University of Milan.

He said the results are limited by the differences in triage decisions between European and other centers, the fact that most patients in TERAVOLT were hospitalized, the high proportion of patients with stage IV non–small cell lung cancer, and methods of data collection and analysis.

“There is no real-time data capture, no auditing, no standardized outcome definitions, and CRFs [case report forms] had a lot of limitations,” Dr. Curigliano said. “We have multiple biases, including selection bias, recall bias, confounding by indication, and changes in practice or disease evolution.”

Dr. Curigliano noted, however, that TERAVOLT is the largest real-world dataset of patients with COVID-19 and thoracic malignancies.

Furthermore, results from TERAVOLT correspond to results from the CCC-19 registry. Data from both registries suggest that older age, the presence of comorbidities, higher ECOG performances status, and chemotherapy alone or in combination with other therapies are associated with increased mortality among patients with cancer and COVID-19.

The TERAVOLT registry is funded, in part, by the International Association for the Study of Lung Cancer. Dr. Horn disclosed relationships with Amgen, AstraZeneca, Bayer, Boehringer Ingelheim, and other pharmaceutical companies. Dr. Curigliano disclosed relationships with AstraZeneca, Boehringer Ingelheim, Ellipses Pharma, and other pharmaceutical companies.
 

jensmith@mdedge.com

SOURCE: Horn L et al. ASCO 2020, Abstract LBA111.

Past treatment may affect the risk of death among patients with thoracic malignancies who develop COVID-19, according to data from the TERAVOLT registry.

Prior treatment with steroids, anticoagulants, chemotherapy alone, or chemotherapy plus immunotherapy were all associated with an increased risk of death, but prior treatment with tyrosine kinase inhibitors or immunotherapy alone were not.

At the same time, there were no COVID-19–directed treatments that seemed to affect the risk of death.

“When we look at therapies administered to treat COVID-19 … including anticoagulation, antibiotics, antivirals, hydroxychloroquine, we found that no particular therapy was associated with increased chance of recovery from COVID-19,” said Leora Horn, MD, of Vanderbilt-Ingram Cancer Center in Nashville, Tenn.

Dr. Horn presented these findings as part of the American Society of Clinical Oncology virtual scientific program.
 

About TERAVOLT

The TERAVOLT registry is the brainchild of Marina Garassino, MD, of the National Cancer Institute of Milan. On March 15, Dr. Garassino emailed colleagues around the world with the idea of starting the registry. Within 5 days, the final protocol was approved, and the first patient was entered onto TERAVOLT.

In creating a registry, Dr. Garassino and colleagues wanted to “determine the demographic factors, comorbidities, cancer characteristics, and therapies that place patients with thoracic malignancies who develop COVID-19 most at risk for hospitalization and death,” Dr. Horn said.

Other goals of the registry are “to understand the clinical course of patients with thoracic malignancies who are infected by SARS-CoV-2, to provide practitioners with real-time data on therapeutic strategies that may impact survival, [and] to evaluate the long-term impact on cancer outcomes related to care adjustments and delays in patients with thoracic malignancies,” she added.

Dr. Garassino presented the first analysis of TERAVOLT data at the AACR virtual meeting I in April. Results were recently published in The Lancet Oncology as well. That analysis included 200 patients, 98% of whom were from Europe, and the median follow-up was 15 days.

Baseline characteristics and outcomes

Dr. Horn’s updated analysis included 400 patients with a median follow-up of 33 days from COVID-19 diagnosis. The data encompassed patients from North and South America, Europe, Africa, Asia, and Australia.

Of the 400 patients, 169 had recovered, 141 had died, and 118 were still in the hospital at the time of analysis. In all, 334 patients (78.3%) required a hospital admission, and 33 (8.3%) were admitted to the ICU. The median length of hospitalization was 10 days.

Across the three outcome groups (recovered, died, ongoing), the median age was 67-70 years. Most patients had non–small cell lung cancer (74.5%-81.9%), and most had stage IV disease (61.4%-76.8%).

A majority of patients were male (63.3%-70.2%), and most were current or former smokers (77.5%-86.9%). The median body mass index was 24-25 kg/m², and 35%-46.4% of patients had an Eastern Cooperative Oncology Group (ECOG) performance status of 0.

Most patients (82.2%-90.7%) had COVID-19 diagnosed via real-time polymerase chain reaction, although some patients were diagnosed via clinical findings alone (3.1%-5%).

“[R]egardless of outcome, the most common presenting symptom was fever, cough, or dyspnea,” Dr. Horn noted.

As for complications of COVID-19, 71% of patients who died had pneumonitis/pneumonia, 49.6% had acute respiratory distress syndrome, 14.9% had multiorgan failure, 12.1% had sepsis, and 5.7% had coagulopathy.

Among recovered patients, 59% had pneumonitis/pneumonia, 4.1% had acute respiratory distress syndrome, 3% had coagulopathy, 0.6% had sepsis, and none had multiorgan failure.

Patients who recovered were more likely to have no comorbidities at baseline, and 31.2% of patients who died had at least one comorbidity. The most frequent comorbidities were hypertension, chronic obstructive pulmonary disease, vascular disease, diabetes, and renal insufficiencies.
 

Prior treatments and COVID therapy

Among patients who died, 33.4% were on ACE inhibitors or angiotensin II receptor blockers, 27% were on anticoagulants, and 23.4% were on steroids (the equivalent of at least 10 mg of prednisone per day) at the time of COVID-19 diagnosis.

Among recovered patients, 20.7% were on ACE inhibitors or angiotensin II receptor blockers, 18.3% were on anticoagulants, and 14.2% were on steroids at the time of COVID-19 diagnosis.

“When we look at cancer therapy in the last 3 months, we can see that, regardless of outcome, the majority of patients had either not been treated or were on first-line therapy at the time of their COVID-19 diagnosis,” Dr. Horn noted.

Among patients who died, 46.8% had received chemotherapy, 22% had received immunotherapy, 12.8% had received targeted therapy, and 9.2% had received radiotherapy.

Among recovered patients, 33.7% had received chemotherapy, 26.6% had received immunotherapy, 19.5% had received targeted therapy, and 14.2% had received radiotherapy.

COVID-19–directed treatments included anticoagulation, antibiotics, antivirals, antifungals, steroids, interleukin-6 inhibitors, and hydroxychloroquine. Use of these therapies was similar among patients who recovered and patients who died.
 

Factors associated with death

In all, 79.4% of deaths were attributed to COVID-19, 10.6% were attributed to cancer, 8.5% were attributed to cancer and COVID-19, and 1.4% of deaths had an unknown cause.

In a univariate analysis, baseline characteristics associated with an increased risk of death were age of 65 years or older (P = .0033), one or more comorbidity (P = .0351), and ECOG performance status of 1 (P < .0001). Therapies associated with an increased risk of death in a univariate analysis included steroids (P = .0186), anticoagulation (P = .0562), and either chemotherapy alone or chemotherapy plus immunotherapy (P = .0256).

In a multivariate analysis, age over 65 years (P = .018), ECOG performance status of 1 (P < .001), prior use of steroids (P = .052), and receipt of chemotherapy alone or in combination with immunotherapy (P = .025) were all associated with an increased risk of death.

“There is no impact of gender [sex], body mass index, smoking status, stage, or type of cancer on risk of death,” Dr. Horn said. “Therapy administered to treat COVID-19 is not significantly associated with outcome.”

“The impact of COVID-19 infection on cancer management and outcomes must be evaluated,” she added. “Data collection is ongoing, with additional analysis and studies planned to look at patient and provider perception of COVID-19 and the impact it has had on cancer care.”

Strengths and limitations

There are several limitations to findings from the TERAVOLT registry, according to invited discussant Giuseppe Curigliano, MD, PhD, of the University of Milan.

He said the results are limited by the differences in triage decisions between European and other centers, the fact that most patients in TERAVOLT were hospitalized, the high proportion of patients with stage IV non–small cell lung cancer, and methods of data collection and analysis.

“There is no real-time data capture, no auditing, no standardized outcome definitions, and CRFs [case report forms] had a lot of limitations,” Dr. Curigliano said. “We have multiple biases, including selection bias, recall bias, confounding by indication, and changes in practice or disease evolution.”

Dr. Curigliano noted, however, that TERAVOLT is the largest real-world dataset of patients with COVID-19 and thoracic malignancies.

Furthermore, results from TERAVOLT correspond to results from the CCC-19 registry. Data from both registries suggest that older age, the presence of comorbidities, higher ECOG performances status, and chemotherapy alone or in combination with other therapies are associated with increased mortality among patients with cancer and COVID-19.

The TERAVOLT registry is funded, in part, by the International Association for the Study of Lung Cancer. Dr. Horn disclosed relationships with Amgen, AstraZeneca, Bayer, Boehringer Ingelheim, and other pharmaceutical companies. Dr. Curigliano disclosed relationships with AstraZeneca, Boehringer Ingelheim, Ellipses Pharma, and other pharmaceutical companies.
 

jensmith@mdedge.com

SOURCE: Horn L et al. ASCO 2020, Abstract LBA111.

Deciding which cancer patients need immediate treatment and who can safely wait is an uncomfortable assessment for cancer clinicians during the COVID-19 pandemic.

In early April, as the COVID-19 surge was bearing down on New York City, those treatment decisions were “a juggling act every single day,” Jonathan Yang, MD, PhD, a radiation oncologist from New York’s Memorial Sloan Kettering Cancer Center, told Medscape Medical News.

Eventually, a glut of guidelines, recommendations, and expert opinions aimed at helping oncologists emerged. The tools help navigate the complicated risk-benefit analysis of their patient’s risk of infection by SARS-CoV-2 and delaying therapy.

Now, a new tool, which appears to be the first of its kind, quantifies that risk-benefit analysis. But its presence immediately raises the question: can it help?
 

Three-Tier Systems Are Not Very Sophisticated

OncCOVID, a free tool that was launched May 26 by the University of Michigan, allows physicians to individualize risk estimates for delaying treatment of up to 25 early- to late-stage cancers. It includes more than 45 patient characteristics, such as age, location, cancer type, cancer stage, treatment plan, underlying medical conditions, and proposed length of delay in care.

Combining these personal details with data from the National Cancer Institute’s SEER (Surveillance, Epidemiology, and End Results) registry and the National Cancer Database, the Michigan app then estimates a patient’s 5- or 10-year survival with immediate vs delayed treatment and weighs that against their risk for COVID-19 using data from the Johns Hopkins Coronavirus Resource Center.

“We thought, isn’t it better to at least provide some evidence-based quantification, rather than a back-of-the-envelope three-tier system that is just sort of ‘made up’?“ explained one of the developers, Daniel Spratt, MD, associate professor of radiation oncology at Michigan Medicine.

Spratt explained that almost every organization, professional society, and government has created something like a three-tier system. Tier 1 represents urgent cases and patients who need immediate treatment. For tier 2, treatment can be delayed weeks or a month, and with tier 3, it can be delayed until the pandemic is over or it’s deemed safe.

“[This system] sounds good at first glance, but in cancer, we’re always talking about personalized medicine, and it’s mind-blowing that these tier systems are only based on urgency and prognosis,” he told Medscape Medical News.

Spratt offered an example. Consider a patient with a very aggressive brain tumor ― that patient is in tier 1 and should undergo treatment immediately. But will the treatment actually help? And how helpful would the procedure be if, say, the patient is 80 years old and, if infected, would have a 30% to 50% chance of dying from the coronavirus?

“If the model says this guy has a 5% harm and this one has 30% harm, you can use that to help prioritize,” summarized Spratt.

The app can generate risk estimates for patients living anywhere in the world and has already been accessed by people from 37 countries. However, Spratt cautions that it is primarily “designed and calibrated for the US.

“The estimates are based on very large US registries, and though it’s probably somewhat similar across much of the world, there’s probably certain cancer types that are more region specific ― especially something like stomach cancer or certain types of head and neck cancer in parts of Asia, for example,” he said.

Although the app’s COVID-19 data are specific to the county level in the United States, elsewhere in the world, it is only country specific.

“We’re using the best data we have for coronavirus, but everyone knows we still have large data gaps,” he acknowledged.
 

How Accurate?

Asked to comment on the app, Richard Bleicher, MD, leader of the Breast Cancer Program at Fox Chase Cancer Center, Philadelphia, praised the effort and the goal but had some concerns.

“Several questions arise, most important of which is, How accurate is this, and how has this been validated, if at all ― especially as it is too soon to see the outcomes of patients affected in this pandemic?” he told Medscape Medical News.

“We are imposing delays on a broad scale because of the coronavirus, and we are getting continuously changing data as we test more patients. But both situations are novel and may not be accurately represented by the data being pulled, because the datasets use patients from a few years ago, and confounders in these datasets may not apply to this situation,” Bleicher continued.

Although acknowledging the “value in delineating the risk of dying from cancer vs the risk of dying from the SARS-CoV-2 pandemic,” Bleicher urged caution in using the tool to make individual patient decisions.

“We need to remember that the best of modeling ... can be wildly inaccurate and needs to be validated using patients having the circumstances in question. ... This won’t be possible until long after the pandemic is completed, and so the model’s accuracy remains unknown.”

That sentiment was echoed by Giampaolo Bianchini, MD, head of the Breast Cancer Group, Department of Medical Oncology, Ospedale San Raffaele, in Milan, Italy.

“Arbitrarily postponing and modifying treatment strategies including surgery, radiation therapy, and medical therapy without properly balancing the risk/benefit ratio may lead to significantly worse cancer-related outcomes, which largely exceed the actual risks for COVID,” he wrote in an email.

“The OncCOVID app is a remarkable attempt to fill the gap between perception and estimation,” he said. The app provides side by side the COVID-19 risk estimation and the consequences of arbitrary deviation from the standard of care, observed Bianchini.

However, he pointed out weaknesses, including the fact that the “data generated in literature are not always of high quality and do not take into consideration relevant characteristics of the disease and treatment benefit. It should for sure be used, but then also interpreted with caution.”

Another Italian group responded more positively.

“In our opinion, it could be a useful tool for clinicians,” wrote colleagues Alessio Cortelinni and Giampiero Porzio, both medical oncologists at San Salvatore Hospital and the University of L’Aquila, in Italy. “This Web app might assist clinicians in balancing the risk/benefit ratio of being treated and/or access to the outpatient cancer center for each kind of patient (both early and advanced stages), in order to make a more tailored counseling,” they wrote in an email. “Importantly, the Web app might help those clinicians who work ‘alone,’ in peripheral centers, without resources, colleagues, and multidisciplinary tumor boards on whom they can rely.”

Bleicher, who was involved in the COVID-19 Breast Cancer Consortium’s recommendations for prioritizing breast cancer treatment, summarized that the app “may end up being close or accurate, but we won’t know except in hindsight.”
 

This article first appeared on Medscape.com.

Deciding which cancer patients need immediate treatment and who can safely wait is an uncomfortable assessment for cancer clinicians during the COVID-19 pandemic.

In early April, as the COVID-19 surge was bearing down on New York City, those treatment decisions were “a juggling act every single day,” Jonathan Yang, MD, PhD, a radiation oncologist from New York’s Memorial Sloan Kettering Cancer Center, told Medscape Medical News.

Eventually, a glut of guidelines, recommendations, and expert opinions aimed at helping oncologists emerged. The tools help navigate the complicated risk-benefit analysis of their patient’s risk of infection by SARS-CoV-2 and delaying therapy.

Now, a new tool, which appears to be the first of its kind, quantifies that risk-benefit analysis. But its presence immediately raises the question: can it help?
 

Three-Tier Systems Are Not Very Sophisticated

OncCOVID, a free tool that was launched May 26 by the University of Michigan, allows physicians to individualize risk estimates for delaying treatment of up to 25 early- to late-stage cancers. It includes more than 45 patient characteristics, such as age, location, cancer type, cancer stage, treatment plan, underlying medical conditions, and proposed length of delay in care.

Combining these personal details with data from the National Cancer Institute’s SEER (Surveillance, Epidemiology, and End Results) registry and the National Cancer Database, the Michigan app then estimates a patient’s 5- or 10-year survival with immediate vs delayed treatment and weighs that against their risk for COVID-19 using data from the Johns Hopkins Coronavirus Resource Center.

“We thought, isn’t it better to at least provide some evidence-based quantification, rather than a back-of-the-envelope three-tier system that is just sort of ‘made up’?“ explained one of the developers, Daniel Spratt, MD, associate professor of radiation oncology at Michigan Medicine.

Spratt explained that almost every organization, professional society, and government has created something like a three-tier system. Tier 1 represents urgent cases and patients who need immediate treatment. For tier 2, treatment can be delayed weeks or a month, and with tier 3, it can be delayed until the pandemic is over or it’s deemed safe.

“[This system] sounds good at first glance, but in cancer, we’re always talking about personalized medicine, and it’s mind-blowing that these tier systems are only based on urgency and prognosis,” he told Medscape Medical News.

Spratt offered an example. Consider a patient with a very aggressive brain tumor ― that patient is in tier 1 and should undergo treatment immediately. But will the treatment actually help? And how helpful would the procedure be if, say, the patient is 80 years old and, if infected, would have a 30% to 50% chance of dying from the coronavirus?

“If the model says this guy has a 5% harm and this one has 30% harm, you can use that to help prioritize,” summarized Spratt.

The app can generate risk estimates for patients living anywhere in the world and has already been accessed by people from 37 countries. However, Spratt cautions that it is primarily “designed and calibrated for the US.

“The estimates are based on very large US registries, and though it’s probably somewhat similar across much of the world, there’s probably certain cancer types that are more region specific ― especially something like stomach cancer or certain types of head and neck cancer in parts of Asia, for example,” he said.

Although the app’s COVID-19 data are specific to the county level in the United States, elsewhere in the world, it is only country specific.

“We’re using the best data we have for coronavirus, but everyone knows we still have large data gaps,” he acknowledged.
 

How Accurate?

Asked to comment on the app, Richard Bleicher, MD, leader of the Breast Cancer Program at Fox Chase Cancer Center, Philadelphia, praised the effort and the goal but had some concerns.

“Several questions arise, most important of which is, How accurate is this, and how has this been validated, if at all ― especially as it is too soon to see the outcomes of patients affected in this pandemic?” he told Medscape Medical News.

“We are imposing delays on a broad scale because of the coronavirus, and we are getting continuously changing data as we test more patients. But both situations are novel and may not be accurately represented by the data being pulled, because the datasets use patients from a few years ago, and confounders in these datasets may not apply to this situation,” Bleicher continued.

Although acknowledging the “value in delineating the risk of dying from cancer vs the risk of dying from the SARS-CoV-2 pandemic,” Bleicher urged caution in using the tool to make individual patient decisions.

“We need to remember that the best of modeling ... can be wildly inaccurate and needs to be validated using patients having the circumstances in question. ... This won’t be possible until long after the pandemic is completed, and so the model’s accuracy remains unknown.”

That sentiment was echoed by Giampaolo Bianchini, MD, head of the Breast Cancer Group, Department of Medical Oncology, Ospedale San Raffaele, in Milan, Italy.

“Arbitrarily postponing and modifying treatment strategies including surgery, radiation therapy, and medical therapy without properly balancing the risk/benefit ratio may lead to significantly worse cancer-related outcomes, which largely exceed the actual risks for COVID,” he wrote in an email.

“The OncCOVID app is a remarkable attempt to fill the gap between perception and estimation,” he said. The app provides side by side the COVID-19 risk estimation and the consequences of arbitrary deviation from the standard of care, observed Bianchini.

However, he pointed out weaknesses, including the fact that the “data generated in literature are not always of high quality and do not take into consideration relevant characteristics of the disease and treatment benefit. It should for sure be used, but then also interpreted with caution.”

Another Italian group responded more positively.

“In our opinion, it could be a useful tool for clinicians,” wrote colleagues Alessio Cortelinni and Giampiero Porzio, both medical oncologists at San Salvatore Hospital and the University of L’Aquila, in Italy. “This Web app might assist clinicians in balancing the risk/benefit ratio of being treated and/or access to the outpatient cancer center for each kind of patient (both early and advanced stages), in order to make a more tailored counseling,” they wrote in an email. “Importantly, the Web app might help those clinicians who work ‘alone,’ in peripheral centers, without resources, colleagues, and multidisciplinary tumor boards on whom they can rely.”

Bleicher, who was involved in the COVID-19 Breast Cancer Consortium’s recommendations for prioritizing breast cancer treatment, summarized that the app “may end up being close or accurate, but we won’t know except in hindsight.”
 

This article first appeared on Medscape.com.

Deciding which cancer patients need immediate treatment and who can safely wait is an uncomfortable assessment for cancer clinicians during the COVID-19 pandemic.

In early April, as the COVID-19 surge was bearing down on New York City, those treatment decisions were “a juggling act every single day,” Jonathan Yang, MD, PhD, a radiation oncologist from New York’s Memorial Sloan Kettering Cancer Center, told Medscape Medical News.

Eventually, a glut of guidelines, recommendations, and expert opinions aimed at helping oncologists emerged. The tools help navigate the complicated risk-benefit analysis of their patient’s risk of infection by SARS-CoV-2 and delaying therapy.

Now, a new tool, which appears to be the first of its kind, quantifies that risk-benefit analysis. But its presence immediately raises the question: can it help?
 

Three-Tier Systems Are Not Very Sophisticated

OncCOVID, a free tool that was launched May 26 by the University of Michigan, allows physicians to individualize risk estimates for delaying treatment of up to 25 early- to late-stage cancers. It includes more than 45 patient characteristics, such as age, location, cancer type, cancer stage, treatment plan, underlying medical conditions, and proposed length of delay in care.

Combining these personal details with data from the National Cancer Institute’s SEER (Surveillance, Epidemiology, and End Results) registry and the National Cancer Database, the Michigan app then estimates a patient’s 5- or 10-year survival with immediate vs delayed treatment and weighs that against their risk for COVID-19 using data from the Johns Hopkins Coronavirus Resource Center.

“We thought, isn’t it better to at least provide some evidence-based quantification, rather than a back-of-the-envelope three-tier system that is just sort of ‘made up’?“ explained one of the developers, Daniel Spratt, MD, associate professor of radiation oncology at Michigan Medicine.

Spratt explained that almost every organization, professional society, and government has created something like a three-tier system. Tier 1 represents urgent cases and patients who need immediate treatment. For tier 2, treatment can be delayed weeks or a month, and with tier 3, it can be delayed until the pandemic is over or it’s deemed safe.

“[This system] sounds good at first glance, but in cancer, we’re always talking about personalized medicine, and it’s mind-blowing that these tier systems are only based on urgency and prognosis,” he told Medscape Medical News.

Spratt offered an example. Consider a patient with a very aggressive brain tumor ― that patient is in tier 1 and should undergo treatment immediately. But will the treatment actually help? And how helpful would the procedure be if, say, the patient is 80 years old and, if infected, would have a 30% to 50% chance of dying from the coronavirus?

“If the model says this guy has a 5% harm and this one has 30% harm, you can use that to help prioritize,” summarized Spratt.

The app can generate risk estimates for patients living anywhere in the world and has already been accessed by people from 37 countries. However, Spratt cautions that it is primarily “designed and calibrated for the US.

“The estimates are based on very large US registries, and though it’s probably somewhat similar across much of the world, there’s probably certain cancer types that are more region specific ― especially something like stomach cancer or certain types of head and neck cancer in parts of Asia, for example,” he said.

Although the app’s COVID-19 data are specific to the county level in the United States, elsewhere in the world, it is only country specific.

“We’re using the best data we have for coronavirus, but everyone knows we still have large data gaps,” he acknowledged.
 

How Accurate?

Asked to comment on the app, Richard Bleicher, MD, leader of the Breast Cancer Program at Fox Chase Cancer Center, Philadelphia, praised the effort and the goal but had some concerns.

“Several questions arise, most important of which is, How accurate is this, and how has this been validated, if at all ― especially as it is too soon to see the outcomes of patients affected in this pandemic?” he told Medscape Medical News.

“We are imposing delays on a broad scale because of the coronavirus, and we are getting continuously changing data as we test more patients. But both situations are novel and may not be accurately represented by the data being pulled, because the datasets use patients from a few years ago, and confounders in these datasets may not apply to this situation,” Bleicher continued.

Although acknowledging the “value in delineating the risk of dying from cancer vs the risk of dying from the SARS-CoV-2 pandemic,” Bleicher urged caution in using the tool to make individual patient decisions.

“We need to remember that the best of modeling ... can be wildly inaccurate and needs to be validated using patients having the circumstances in question. ... This won’t be possible until long after the pandemic is completed, and so the model’s accuracy remains unknown.”

That sentiment was echoed by Giampaolo Bianchini, MD, head of the Breast Cancer Group, Department of Medical Oncology, Ospedale San Raffaele, in Milan, Italy.

“Arbitrarily postponing and modifying treatment strategies including surgery, radiation therapy, and medical therapy without properly balancing the risk/benefit ratio may lead to significantly worse cancer-related outcomes, which largely exceed the actual risks for COVID,” he wrote in an email.

“The OncCOVID app is a remarkable attempt to fill the gap between perception and estimation,” he said. The app provides side by side the COVID-19 risk estimation and the consequences of arbitrary deviation from the standard of care, observed Bianchini.

However, he pointed out weaknesses, including the fact that the “data generated in literature are not always of high quality and do not take into consideration relevant characteristics of the disease and treatment benefit. It should for sure be used, but then also interpreted with caution.”

Another Italian group responded more positively.

“In our opinion, it could be a useful tool for clinicians,” wrote colleagues Alessio Cortelinni and Giampiero Porzio, both medical oncologists at San Salvatore Hospital and the University of L’Aquila, in Italy. “This Web app might assist clinicians in balancing the risk/benefit ratio of being treated and/or access to the outpatient cancer center for each kind of patient (both early and advanced stages), in order to make a more tailored counseling,” they wrote in an email. “Importantly, the Web app might help those clinicians who work ‘alone,’ in peripheral centers, without resources, colleagues, and multidisciplinary tumor boards on whom they can rely.”

Bleicher, who was involved in the COVID-19 Breast Cancer Consortium’s recommendations for prioritizing breast cancer treatment, summarized that the app “may end up being close or accurate, but we won’t know except in hindsight.”
 

This article first appeared on Medscape.com.

Lillie Shockney, RN, MAS, a two-time breast cancer survivor and adjunct professor at Johns Hopkins School of Nursing in Baltimore, Maryland, mourns the many losses that her patients with advanced cancer now face in the midst of the COVID-19 pandemic. But in the void of the usual support networks and treatment plans, she sees the resurgence of something that has recently been crowded out: hospice.

The pandemic has forced patients and their physicians to reassess the risk/benefit balance of continuing or embarking on yet another cancer treatment.

“It’s one of the pearls that we will get out of this nightmare,” said Ms. Shockney, who recently retired as administrative director of the cancer survivorship programs at the Sidney Kimmel Comprehensive Cancer Center.

“Physicians have been taught to treat the disease – so as long as there’s a treatment they give another treatment,” she told Medscape Medical News during a Zoom call from her home. “But for some patients with advanced disease, those treatments were making them very sick, so they were trading longevity over quality of life.”

Of course, longevity has never been a guarantee with cancer treatment, and even less so now, with the risk of COVID-19.

“This is going to bring them to some hard discussions,” says Brenda Nevidjon, RN, MSN, chief executive officer at the Oncology Nursing Society.

“We’ve known for a long time that there are patients who are on third- and fourth-round treatment options that have very little evidence of prolonging life or quality of life,” she told Medscape Medical News. “Do we bring these people out of their home to a setting where there could be a fair number of COVID-positive patients? Do we expose them to that?”

Across the world, these dilemmas are pushing cancer specialists to initiate discussions of hospice sooner with patients who have advanced disease, and with more clarity than before.

One of the reasons such conversations have often been avoided is that the concept of hospice is generally misunderstood, said Ms. Shockney.

“Patients think ‘you’re giving up on me, you’ve abandoned me’, but hospice is all about preserving the remainder of their quality of life and letting them have time with family and time to fulfill those elements of experiencing a good and peaceful death,” she said.

Indeed, hospice is “a benefit meant for somebody with at least a 6-month horizon,” agrees Ms. Nevidjon. Yet the average length of hospice in the United States is just 5 days. “It’s at the very, very end, and yet for some of these patients the 6 months they could get in hospice might be a better quality of life than the 4 months on another whole plan of chemotherapy. I can’t imagine that on the backside of this pandemic we will not have learned and we won’t start to change practices around initiating more of these conversations.”
 

Silver lining of this pandemic?

It’s too early into the pandemic to have hard data on whether hospice uptake has increased, but “it’s encouraging to hear that hospice is being discussed and offered sooner as an alternative to that third- or fourth-round chemo,” said Lori Bishop, MHA, RN, vice president of palliative and advanced care at the National Hospice and Palliative Care Organization.

“I agree that improving informed-decision discussions and timely access to hospice is a silver lining of the pandemic,” she told Medscape Medical News.

But she points out that today’s hospice looks quite different than it did before the pandemic, with the immediate and very obvious difference being telehealth, which was not widely utilized previously.

In March, the Centers for Medicare & Medicaid Services expanded telehealth options for hospice providers, something that Ms. Bishop and other hospice providers hope will remain in place after the pandemic passes.

“Telehealth visits are offered to replace some in-home visits both to minimize risk of exposure to COVID-19 and reduce the drain on personal protective equipment,” Bishop explained.

“In-patient hospice programs are also finding unique ways to provide support and connect patients to their loved ones: visitors are allowed but limited to one or two. Music and pet therapy are being provided through the window or virtually and devices such as iPads are being used to help patients connect with loved ones,” she said.

Telehealth links patients out of loneliness, but the one thing it cannot do is provide the comfort of touch – an important part of any hospice program.

“Hand-holding ... I miss that a lot,” says Ms. Shockney, her eyes filling with tears. “When you take somebody’s hand, you don’t even have to speak; that connection, and eye contact, is all you need to help that person emotionally heal.”

This article first appeared on Medscape.com.

Lillie Shockney, RN, MAS, a two-time breast cancer survivor and adjunct professor at Johns Hopkins School of Nursing in Baltimore, Maryland, mourns the many losses that her patients with advanced cancer now face in the midst of the COVID-19 pandemic. But in the void of the usual support networks and treatment plans, she sees the resurgence of something that has recently been crowded out: hospice.

The pandemic has forced patients and their physicians to reassess the risk/benefit balance of continuing or embarking on yet another cancer treatment.

“It’s one of the pearls that we will get out of this nightmare,” said Ms. Shockney, who recently retired as administrative director of the cancer survivorship programs at the Sidney Kimmel Comprehensive Cancer Center.

“Physicians have been taught to treat the disease – so as long as there’s a treatment they give another treatment,” she told Medscape Medical News during a Zoom call from her home. “But for some patients with advanced disease, those treatments were making them very sick, so they were trading longevity over quality of life.”

Of course, longevity has never been a guarantee with cancer treatment, and even less so now, with the risk of COVID-19.

“This is going to bring them to some hard discussions,” says Brenda Nevidjon, RN, MSN, chief executive officer at the Oncology Nursing Society.

“We’ve known for a long time that there are patients who are on third- and fourth-round treatment options that have very little evidence of prolonging life or quality of life,” she told Medscape Medical News. “Do we bring these people out of their home to a setting where there could be a fair number of COVID-positive patients? Do we expose them to that?”

Across the world, these dilemmas are pushing cancer specialists to initiate discussions of hospice sooner with patients who have advanced disease, and with more clarity than before.

One of the reasons such conversations have often been avoided is that the concept of hospice is generally misunderstood, said Ms. Shockney.

“Patients think ‘you’re giving up on me, you’ve abandoned me’, but hospice is all about preserving the remainder of their quality of life and letting them have time with family and time to fulfill those elements of experiencing a good and peaceful death,” she said.

Indeed, hospice is “a benefit meant for somebody with at least a 6-month horizon,” agrees Ms. Nevidjon. Yet the average length of hospice in the United States is just 5 days. “It’s at the very, very end, and yet for some of these patients the 6 months they could get in hospice might be a better quality of life than the 4 months on another whole plan of chemotherapy. I can’t imagine that on the backside of this pandemic we will not have learned and we won’t start to change practices around initiating more of these conversations.”
 

Silver lining of this pandemic?

It’s too early into the pandemic to have hard data on whether hospice uptake has increased, but “it’s encouraging to hear that hospice is being discussed and offered sooner as an alternative to that third- or fourth-round chemo,” said Lori Bishop, MHA, RN, vice president of palliative and advanced care at the National Hospice and Palliative Care Organization.

“I agree that improving informed-decision discussions and timely access to hospice is a silver lining of the pandemic,” she told Medscape Medical News.

But she points out that today’s hospice looks quite different than it did before the pandemic, with the immediate and very obvious difference being telehealth, which was not widely utilized previously.

In March, the Centers for Medicare & Medicaid Services expanded telehealth options for hospice providers, something that Ms. Bishop and other hospice providers hope will remain in place after the pandemic passes.

“Telehealth visits are offered to replace some in-home visits both to minimize risk of exposure to COVID-19 and reduce the drain on personal protective equipment,” Bishop explained.

“In-patient hospice programs are also finding unique ways to provide support and connect patients to their loved ones: visitors are allowed but limited to one or two. Music and pet therapy are being provided through the window or virtually and devices such as iPads are being used to help patients connect with loved ones,” she said.

Telehealth links patients out of loneliness, but the one thing it cannot do is provide the comfort of touch – an important part of any hospice program.

“Hand-holding ... I miss that a lot,” says Ms. Shockney, her eyes filling with tears. “When you take somebody’s hand, you don’t even have to speak; that connection, and eye contact, is all you need to help that person emotionally heal.”

This article first appeared on Medscape.com.

Lillie Shockney, RN, MAS, a two-time breast cancer survivor and adjunct professor at Johns Hopkins School of Nursing in Baltimore, Maryland, mourns the many losses that her patients with advanced cancer now face in the midst of the COVID-19 pandemic. But in the void of the usual support networks and treatment plans, she sees the resurgence of something that has recently been crowded out: hospice.

The pandemic has forced patients and their physicians to reassess the risk/benefit balance of continuing or embarking on yet another cancer treatment.

“It’s one of the pearls that we will get out of this nightmare,” said Ms. Shockney, who recently retired as administrative director of the cancer survivorship programs at the Sidney Kimmel Comprehensive Cancer Center.

“Physicians have been taught to treat the disease – so as long as there’s a treatment they give another treatment,” she told Medscape Medical News during a Zoom call from her home. “But for some patients with advanced disease, those treatments were making them very sick, so they were trading longevity over quality of life.”

Of course, longevity has never been a guarantee with cancer treatment, and even less so now, with the risk of COVID-19.

“This is going to bring them to some hard discussions,” says Brenda Nevidjon, RN, MSN, chief executive officer at the Oncology Nursing Society.

“We’ve known for a long time that there are patients who are on third- and fourth-round treatment options that have very little evidence of prolonging life or quality of life,” she told Medscape Medical News. “Do we bring these people out of their home to a setting where there could be a fair number of COVID-positive patients? Do we expose them to that?”

Across the world, these dilemmas are pushing cancer specialists to initiate discussions of hospice sooner with patients who have advanced disease, and with more clarity than before.

One of the reasons such conversations have often been avoided is that the concept of hospice is generally misunderstood, said Ms. Shockney.

“Patients think ‘you’re giving up on me, you’ve abandoned me’, but hospice is all about preserving the remainder of their quality of life and letting them have time with family and time to fulfill those elements of experiencing a good and peaceful death,” she said.

Indeed, hospice is “a benefit meant for somebody with at least a 6-month horizon,” agrees Ms. Nevidjon. Yet the average length of hospice in the United States is just 5 days. “It’s at the very, very end, and yet for some of these patients the 6 months they could get in hospice might be a better quality of life than the 4 months on another whole plan of chemotherapy. I can’t imagine that on the backside of this pandemic we will not have learned and we won’t start to change practices around initiating more of these conversations.”
 

Silver lining of this pandemic?

It’s too early into the pandemic to have hard data on whether hospice uptake has increased, but “it’s encouraging to hear that hospice is being discussed and offered sooner as an alternative to that third- or fourth-round chemo,” said Lori Bishop, MHA, RN, vice president of palliative and advanced care at the National Hospice and Palliative Care Organization.

“I agree that improving informed-decision discussions and timely access to hospice is a silver lining of the pandemic,” she told Medscape Medical News.

But she points out that today’s hospice looks quite different than it did before the pandemic, with the immediate and very obvious difference being telehealth, which was not widely utilized previously.

In March, the Centers for Medicare & Medicaid Services expanded telehealth options for hospice providers, something that Ms. Bishop and other hospice providers hope will remain in place after the pandemic passes.

“Telehealth visits are offered to replace some in-home visits both to minimize risk of exposure to COVID-19 and reduce the drain on personal protective equipment,” Bishop explained.

“In-patient hospice programs are also finding unique ways to provide support and connect patients to their loved ones: visitors are allowed but limited to one or two. Music and pet therapy are being provided through the window or virtually and devices such as iPads are being used to help patients connect with loved ones,” she said.

Telehealth links patients out of loneliness, but the one thing it cannot do is provide the comfort of touch – an important part of any hospice program.

“Hand-holding ... I miss that a lot,” says Ms. Shockney, her eyes filling with tears. “When you take somebody’s hand, you don’t even have to speak; that connection, and eye contact, is all you need to help that person emotionally heal.”

This article first appeared on Medscape.com.

Patients with COVID-19 and progressing cancer had a fivefold increase in the risk of 30-day mortality, compared with COVID-19–positive cancer patients who were in remission or had no evidence of cancer, according to data from the COVID-19 and Cancer Consortium (CCC19) registry.

Mongkolchon Akesin/Shutterstock

Other independent risk factors for death in patients with COVID-19 and cancer were older age, male sex, former smoking, number of comorbidities, Eastern Cooperative Oncology Group (ECOG) performance status of 2 or greater, and treatment with hydroxychloroquine plus azithromycin.

In fact, patients who received hydroxychloroquine and azithromycin had a nearly threefold higher risk of death than did patients who had not received the combination. However, this finding was of “uncertain validity due to a high risk of residual confounding; for example, patients receiving this combination were more likely to have severe disease or more likely to be hospitalized,” said Jeremy L. Warner, MD, of Vanderbilt University Medical Center in Nashville, Tennessee.

Dr. Warner presented these findings in an online press briefing. Additional findings from the CCC19 registry are set to be presented as part of the American Society of Clinical Oncology (ASCO) virtual scientific program. The findings were also published in The Lancet.

‘Severe impact’ in cancer patients

“For people with cancer, the impact of COVID-19 is especially severe, whether they have been exposed to the virus or not. Patients with cancer are typically older adults, often with other underlying conditions, and their immune systems may be suppressed by the cancer, or due to chemotherapy, radiation, or other treatment,” commented ASCO President Howard A. Burris III, MD, who moderated the press briefing but was not involved in the study of CCC19 registry data.

“ASCO members tell us that they have had to delay or modify treatment plans to reduce patients’ risk of infection, and we’re unclear what the impact of these changes will be. Delays in cancer screening and diagnosis are also a major concern,” Dr. Burris continued.

“This does confirm reports that have come out from other centers, including other parts of the world, where they have found that people who have cancer and COVID-19 have a worse outcome,” said Andrew T. Chan, MD, MPH, of Massachusetts General Hospital in Boston, who was not involved in the research.

Dr. Chan’s group has developed a COVID-19 symptom study app with the aim of defining whether people living with cancer are at increased risk for infections, in addition to whether cancer is an independent risk factor for COVID-19 severity or mortality.

“Using data from our app, we were able to show that people who reported living with cancer did have a higher risk of developing COVID and were more likely to be hospitalized related to COVID,” Dr. Chan said in an interview.
 

Study details

The CCC19 registry collects information from 104 participating institutions in the United States and Canada, as well as anonymous data from individuals in the United States, Argentina, Canada, the European Union, and the United Kingdom.

The sample of 928 patients Dr. Warner presented was evenly balanced by sex. The median age was 66 years, and 30% of patients were aged 75 years or older.

In all, 39% of patients were on active anticancer therapy, and 43% had measurable disease. Breast cancer was the most common diagnosis, followed by prostate cancer, gastrointestinal cancers, lymphomas, and thoracic cancers.

Two-thirds of the patients (68%) had an ECOG performance status of 0 or 1, 8% had a performance status of 2, and 5% a status of 3 or 4. The remaining patients had unknown performance status.

Slightly more than half of patients (52%) were never smokers, 37% were former smokers, and 5% were current smokers. The remaining 6% of patients had unknown smoking status.

At a median follow-up of 21 days, 121 patients (13%) had died. All deaths occurred within 30 days of COVID-19 diagnosis. Among patients who died, 78 were male, 64 were former smokers, 70 were aged 75 years or older, 41 had active stable or responding cancer, 25 had progressing cancer, and 42 had an ECOG performance status of 2 or higher.

In all, 466 patients were hospitalized, and 106 in this group (23%) died. Among the 132 patients admitted to an ICU, 50 (38%) died, including 27 patients aged 75 years or older, and 15 with an ECOG performance status of 2 or greater. Of the 116 patients who required intubation, 50 (43%) died, including 26 who were 75 years or older, and 11 who had a performance status of 2 or greater.

It’s early days yet, and a larger sample size with longer follow-up will be needed to get a more complete picture of how COVID-19 affects specific patient subsets over time, Dr. Warner said.

ASCO has established its own COVID-19 registry to collect both near-term and longitudinal data during the pandemic.

“We’ll be able to learn about both how the pandemic has impacted delivery of cancer care, as well as the longer-term effects of COVID-19 on cancer patients and understand what care approaches are working best,” said Richard L. Schilsky, MD, chief medical officer and executive vice president of ASCO, during the briefing.

The study of CCC19 registry data was supported in part by the National Institutes of Health and the American Cancer Society. Dr. Warner disclosed stock/ownership in HemOnc.org, consulting for IBM and Westat, and travel expenses from IBM. Dr. Burris, Dr. Schilsky, and Dr. Chan reported no disclosures relevant to the study.
 

SOURCE: Warner J L et al. ASCO 2020, Abstract LBA110.

Patients with COVID-19 and progressing cancer had a fivefold increase in the risk of 30-day mortality, compared with COVID-19–positive cancer patients who were in remission or had no evidence of cancer, according to data from the COVID-19 and Cancer Consortium (CCC19) registry.

Mongkolchon Akesin/Shutterstock

Other independent risk factors for death in patients with COVID-19 and cancer were older age, male sex, former smoking, number of comorbidities, Eastern Cooperative Oncology Group (ECOG) performance status of 2 or greater, and treatment with hydroxychloroquine plus azithromycin.

In fact, patients who received hydroxychloroquine and azithromycin had a nearly threefold higher risk of death than did patients who had not received the combination. However, this finding was of “uncertain validity due to a high risk of residual confounding; for example, patients receiving this combination were more likely to have severe disease or more likely to be hospitalized,” said Jeremy L. Warner, MD, of Vanderbilt University Medical Center in Nashville, Tennessee.

Dr. Warner presented these findings in an online press briefing. Additional findings from the CCC19 registry are set to be presented as part of the American Society of Clinical Oncology (ASCO) virtual scientific program. The findings were also published in The Lancet.

‘Severe impact’ in cancer patients

“For people with cancer, the impact of COVID-19 is especially severe, whether they have been exposed to the virus or not. Patients with cancer are typically older adults, often with other underlying conditions, and their immune systems may be suppressed by the cancer, or due to chemotherapy, radiation, or other treatment,” commented ASCO President Howard A. Burris III, MD, who moderated the press briefing but was not involved in the study of CCC19 registry data.

“ASCO members tell us that they have had to delay or modify treatment plans to reduce patients’ risk of infection, and we’re unclear what the impact of these changes will be. Delays in cancer screening and diagnosis are also a major concern,” Dr. Burris continued.

“This does confirm reports that have come out from other centers, including other parts of the world, where they have found that people who have cancer and COVID-19 have a worse outcome,” said Andrew T. Chan, MD, MPH, of Massachusetts General Hospital in Boston, who was not involved in the research.

Dr. Chan’s group has developed a COVID-19 symptom study app with the aim of defining whether people living with cancer are at increased risk for infections, in addition to whether cancer is an independent risk factor for COVID-19 severity or mortality.

“Using data from our app, we were able to show that people who reported living with cancer did have a higher risk of developing COVID and were more likely to be hospitalized related to COVID,” Dr. Chan said in an interview.
 

Study details

The CCC19 registry collects information from 104 participating institutions in the United States and Canada, as well as anonymous data from individuals in the United States, Argentina, Canada, the European Union, and the United Kingdom.

The sample of 928 patients Dr. Warner presented was evenly balanced by sex. The median age was 66 years, and 30% of patients were aged 75 years or older.

In all, 39% of patients were on active anticancer therapy, and 43% had measurable disease. Breast cancer was the most common diagnosis, followed by prostate cancer, gastrointestinal cancers, lymphomas, and thoracic cancers.

Two-thirds of the patients (68%) had an ECOG performance status of 0 or 1, 8% had a performance status of 2, and 5% a status of 3 or 4. The remaining patients had unknown performance status.

Slightly more than half of patients (52%) were never smokers, 37% were former smokers, and 5% were current smokers. The remaining 6% of patients had unknown smoking status.

At a median follow-up of 21 days, 121 patients (13%) had died. All deaths occurred within 30 days of COVID-19 diagnosis. Among patients who died, 78 were male, 64 were former smokers, 70 were aged 75 years or older, 41 had active stable or responding cancer, 25 had progressing cancer, and 42 had an ECOG performance status of 2 or higher.

In all, 466 patients were hospitalized, and 106 in this group (23%) died. Among the 132 patients admitted to an ICU, 50 (38%) died, including 27 patients aged 75 years or older, and 15 with an ECOG performance status of 2 or greater. Of the 116 patients who required intubation, 50 (43%) died, including 26 who were 75 years or older, and 11 who had a performance status of 2 or greater.

It’s early days yet, and a larger sample size with longer follow-up will be needed to get a more complete picture of how COVID-19 affects specific patient subsets over time, Dr. Warner said.

ASCO has established its own COVID-19 registry to collect both near-term and longitudinal data during the pandemic.

“We’ll be able to learn about both how the pandemic has impacted delivery of cancer care, as well as the longer-term effects of COVID-19 on cancer patients and understand what care approaches are working best,” said Richard L. Schilsky, MD, chief medical officer and executive vice president of ASCO, during the briefing.

The study of CCC19 registry data was supported in part by the National Institutes of Health and the American Cancer Society. Dr. Warner disclosed stock/ownership in HemOnc.org, consulting for IBM and Westat, and travel expenses from IBM. Dr. Burris, Dr. Schilsky, and Dr. Chan reported no disclosures relevant to the study.
 

SOURCE: Warner J L et al. ASCO 2020, Abstract LBA110.

Patients with COVID-19 and progressing cancer had a fivefold increase in the risk of 30-day mortality, compared with COVID-19–positive cancer patients who were in remission or had no evidence of cancer, according to data from the COVID-19 and Cancer Consortium (CCC19) registry.

Mongkolchon Akesin/Shutterstock

Other independent risk factors for death in patients with COVID-19 and cancer were older age, male sex, former smoking, number of comorbidities, Eastern Cooperative Oncology Group (ECOG) performance status of 2 or greater, and treatment with hydroxychloroquine plus azithromycin.

In fact, patients who received hydroxychloroquine and azithromycin had a nearly threefold higher risk of death than did patients who had not received the combination. However, this finding was of “uncertain validity due to a high risk of residual confounding; for example, patients receiving this combination were more likely to have severe disease or more likely to be hospitalized,” said Jeremy L. Warner, MD, of Vanderbilt University Medical Center in Nashville, Tennessee.

Dr. Warner presented these findings in an online press briefing. Additional findings from the CCC19 registry are set to be presented as part of the American Society of Clinical Oncology (ASCO) virtual scientific program. The findings were also published in The Lancet.

‘Severe impact’ in cancer patients

“For people with cancer, the impact of COVID-19 is especially severe, whether they have been exposed to the virus or not. Patients with cancer are typically older adults, often with other underlying conditions, and their immune systems may be suppressed by the cancer, or due to chemotherapy, radiation, or other treatment,” commented ASCO President Howard A. Burris III, MD, who moderated the press briefing but was not involved in the study of CCC19 registry data.

“ASCO members tell us that they have had to delay or modify treatment plans to reduce patients’ risk of infection, and we’re unclear what the impact of these changes will be. Delays in cancer screening and diagnosis are also a major concern,” Dr. Burris continued.

“This does confirm reports that have come out from other centers, including other parts of the world, where they have found that people who have cancer and COVID-19 have a worse outcome,” said Andrew T. Chan, MD, MPH, of Massachusetts General Hospital in Boston, who was not involved in the research.

Dr. Chan’s group has developed a COVID-19 symptom study app with the aim of defining whether people living with cancer are at increased risk for infections, in addition to whether cancer is an independent risk factor for COVID-19 severity or mortality.

“Using data from our app, we were able to show that people who reported living with cancer did have a higher risk of developing COVID and were more likely to be hospitalized related to COVID,” Dr. Chan said in an interview.
 

Study details

The CCC19 registry collects information from 104 participating institutions in the United States and Canada, as well as anonymous data from individuals in the United States, Argentina, Canada, the European Union, and the United Kingdom.

The sample of 928 patients Dr. Warner presented was evenly balanced by sex. The median age was 66 years, and 30% of patients were aged 75 years or older.

In all, 39% of patients were on active anticancer therapy, and 43% had measurable disease. Breast cancer was the most common diagnosis, followed by prostate cancer, gastrointestinal cancers, lymphomas, and thoracic cancers.

Two-thirds of the patients (68%) had an ECOG performance status of 0 or 1, 8% had a performance status of 2, and 5% a status of 3 or 4. The remaining patients had unknown performance status.

Slightly more than half of patients (52%) were never smokers, 37% were former smokers, and 5% were current smokers. The remaining 6% of patients had unknown smoking status.

At a median follow-up of 21 days, 121 patients (13%) had died. All deaths occurred within 30 days of COVID-19 diagnosis. Among patients who died, 78 were male, 64 were former smokers, 70 were aged 75 years or older, 41 had active stable or responding cancer, 25 had progressing cancer, and 42 had an ECOG performance status of 2 or higher.

In all, 466 patients were hospitalized, and 106 in this group (23%) died. Among the 132 patients admitted to an ICU, 50 (38%) died, including 27 patients aged 75 years or older, and 15 with an ECOG performance status of 2 or greater. Of the 116 patients who required intubation, 50 (43%) died, including 26 who were 75 years or older, and 11 who had a performance status of 2 or greater.

It’s early days yet, and a larger sample size with longer follow-up will be needed to get a more complete picture of how COVID-19 affects specific patient subsets over time, Dr. Warner said.

ASCO has established its own COVID-19 registry to collect both near-term and longitudinal data during the pandemic.

“We’ll be able to learn about both how the pandemic has impacted delivery of cancer care, as well as the longer-term effects of COVID-19 on cancer patients and understand what care approaches are working best,” said Richard L. Schilsky, MD, chief medical officer and executive vice president of ASCO, during the briefing.

The study of CCC19 registry data was supported in part by the National Institutes of Health and the American Cancer Society. Dr. Warner disclosed stock/ownership in HemOnc.org, consulting for IBM and Westat, and travel expenses from IBM. Dr. Burris, Dr. Schilsky, and Dr. Chan reported no disclosures relevant to the study.
 

SOURCE: Warner J L et al. ASCO 2020, Abstract LBA110.

On March 31, soon after the Food and Drug Administration authorized emergency use of antibody-packed plasma from recovered patients with COVID-19, Marisa Leuzzi became the first donor at an American Red Cross center. She hoped it could help her aunt, Renee Bannister, who was failing after 3 weeks on a ventilator at Virtua Hospital in Voorhees, N.J.

It may have worked; 11 days after receiving the plasma, Ms. Bannister was weaned off the ventilator and she is now awake and speaking, said Red Cross spokesperson Stephanie Rendon.

This kind of anecdote is fueling demand for the therapy, which can be provided through an expanded access program led by the Mayo Clinic, backed by the FDA, and the plasma paid for by the U.S. Department of Health & Human Services. But while this program is collecting safety and outcomes data, it’s not a randomized, controlled trial.

Others, however, are pursuing that data. At least a dozen researchers are investigating the potential of plasma – both as a treatment and whether it could act as a stand-in for a vaccine until one is developed.

“One of the things I don’t want this to be is the flavor of the month,” Shmuel Shoham, MD, associate professor of medicine at Johns Hopkins University, said in an interview.

Dr. Shoham, principal investigator for a study evaluating convalescent plasma to prevent the infection in high-risk individuals, said some clinicians, desperate for any treatment, have tried potential therapies such as hydroxychloroquine and remdesivir without evidence of safety or efficacy in COVID-19.

The National Institutes of Health recently said something similar for convalescent plasma, that “there are insufficient clinical data to recommend either for or against” its use for COVID-19.

But plasma has promise, according to a Johns Hopkins School of Medicine’s Bloomberg Distinguished Professor, Arturo Casadevall, MD, PhD, in Baltimore, and Liise-anne Pirofski, MD, a professor at Albert Einstein College of Medicine, New York. They lay out the case for convalescent plasma in an article published online March 13 in the Journal of Clinical Investigation. Passive antibody therapy, they wrote, has been used to stem polio, measles, mumps, and influenza, and more recently has shown some success against SARS-CoV-1 and Middle East respiratory syndrome (MERS).

“The special attraction of this modality of treatment is that, unlike vaccines or newly developed drugs, it could, in principle, be made available very rapidly,” said researchers with the National COVID-19 Convalescent Plasma Project, which includes physicians and scientists from 57 institutions in 46 states. But where principle veers from reality is in availability of the plasma itself, and donors are in short supply.
 

Aiming to prevent infection

So far, the FDA has approved 12 plasma trials – including Dr. Shoham’s – and the NIH’s clinicaltrials.gov lists more than two dozen convalescent plasma studies in the United States and elsewhere.

Most are single-arm trials to determine if one infusion can decrease the need for intubation or help those on a ventilator improve. Two others, one at Johns Hopkins and one at Stanford (Calif.) Hospital are investigating whether convalescent plasma might be used before severe disease sets in.

“A general principle of passive antibody therapy is that it is more effective when used for prophylaxis than for treatment of disease,” Dr. Casadevall and Dr. Pirofski wrote.

Stanford’s randomized, double-blind study will evaluate regular versus convalescent plasma in ED patients who are not sick enough to require hospitalization.

The Johns Hopkins trial, which aims to protect against infection in the first place, will begin at Johns Hopkins, Baltimore, and at Hopkins-affiliated hospitals throughout Maryland, Dr. Shoham said. He hopes it will expand nationwide eventually, and said that they expect to enroll the first patients soon.

To start, the prevention study will enroll only 150 patients, each of whom must have had close contact with someone who has COVID-19 within the previous 120 hours and be asymptomatic. The number of subjects is small, compared with the trial size of other potential therapies, and an issue, Shoham said, “that keeps me up at night.” But finding thousands of enrollees for plasma studies is hard, in part because it’s so difficult to recruit donors.

Participants will receive normal plasma (which will act as a placebo) or convalescent plasma.

The primary endpoint is cumulative incidence of COVID-19, defined as symptoms and a polymerase chain reaction–positive test; participants will be tracked for 90 days. Hospitals and health care workers could then decide if they want to use the therapy, he said.

The study will not answer whether participants will continue to have antibodies beyond the 90 days. Convalescent plasma is given as a rapid response to an emergent pathogen – a short-term boost of immunity rather than a long-term therapeutic.
 

What can we learn from expanded access?

Meanwhile, some 2,200 hospitals are participating in the expanded access program being led by the Mayo Clinic nationwide; more than 9,000 patients had received infusions at press time.

One participant is Northwell Health, a 23-hospital system that sprawls across the U.S. COVID epicenter: four of the five boroughs of New York City and Long Island.

Convalescent plasma is an in-demand therapy, said Christina Brennan, MD, vice president of clinical research at Northwell. “We get patients, family members, they say my family member is at X hospital – if it’s not being offered there, can you have them transferred?” she said in an interview.

When Northwell – through the New York Blood Bank – opened up donor registration, 800 people signed up in the first 24 hours, Dr. Brennan said. As of mid-May, 527 patients had received a transfusion.
 

Who’s the best donor and when should donation occur?

The Red Cross, hospitals, and independent blood banks are all soliciting donors, who can sign up at the Red Cross website. The FDA recommends that donors have a history of COVID-19 as confirmed by molecular or antibody testing, be symptom free for 14 days, have a negative follow-up molecular test, and be virus free at the time of collection. The FDA also suggests measuring a donor’s SARS-CoV-2 neutralizing antibody titers, if available, with a recommendation of at least 1:160.

But questions remain, such as whether there is a theoretical risk for antibody-dependent enhancement (ADE) of infection with SARS-CoV-2. “Antibodies to one type of coronavirus could enhance infection to another viral strain,” of coronavirus, Dr. Casadevall wrote. ADE has been observed in both severe acute respiratory syndrome (SARS) and MERS.

The other risk is that donors may still be shedding active virus. While the FDA suggests that donors are unlikely to still be infectious 14 days after infection, that is as of yet unproven. Both COVID-19 diagnostics and antibody tests have high rates of false negatives, which raises the specter that infection could be spread via the plasma donation.

Daniele Focosi, MD, PhD, from Pisa (Italy) University Hospital and colleagues raise that concern in a preprint review on convalescent plasma in COVID-19. “Although the recipient is already infected, theoretically transmission of more infectious particles could worsen clinical conditions,” they wrote, noting that “such a concern can be somewhat reduced by treatment with modern pathogen inactivation techniques.”

No evidence exists that SARS-CoV-2 can be transmitted through blood, but “we don’t know for sure,” Dr. Shoham said in an interview. A reassuring point: Even those with severe infection do not have viral RNA in their blood, he said, adding, “We don’t think there’s going to be viral transmission of this particular virus with transfusion.”

For another highly infectious pathogen, the Ebola virus, the World Health Organization recommended in 2014 that potential plasma donors wait at least 28 days after infection.

It’s also not known how long SARS-CoV-2 antibodies persist in the blood; longer viability could mean a longer donation window. Dr. Focosi noted that a previous Chinese study had shown that SARS-specific antibodies in people infected with the first SARS virus, SARS-CoV-1, persisted for 2 years.

Dr. Casadevall and Dr. Pirofski have disclosed no relevant financial relationships. Shoham has disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

On March 31, soon after the Food and Drug Administration authorized emergency use of antibody-packed plasma from recovered patients with COVID-19, Marisa Leuzzi became the first donor at an American Red Cross center. She hoped it could help her aunt, Renee Bannister, who was failing after 3 weeks on a ventilator at Virtua Hospital in Voorhees, N.J.

It may have worked; 11 days after receiving the plasma, Ms. Bannister was weaned off the ventilator and she is now awake and speaking, said Red Cross spokesperson Stephanie Rendon.

This kind of anecdote is fueling demand for the therapy, which can be provided through an expanded access program led by the Mayo Clinic, backed by the FDA, and the plasma paid for by the U.S. Department of Health & Human Services. But while this program is collecting safety and outcomes data, it’s not a randomized, controlled trial.

Others, however, are pursuing that data. At least a dozen researchers are investigating the potential of plasma – both as a treatment and whether it could act as a stand-in for a vaccine until one is developed.

“One of the things I don’t want this to be is the flavor of the month,” Shmuel Shoham, MD, associate professor of medicine at Johns Hopkins University, said in an interview.

Dr. Shoham, principal investigator for a study evaluating convalescent plasma to prevent the infection in high-risk individuals, said some clinicians, desperate for any treatment, have tried potential therapies such as hydroxychloroquine and remdesivir without evidence of safety or efficacy in COVID-19.

The National Institutes of Health recently said something similar for convalescent plasma, that “there are insufficient clinical data to recommend either for or against” its use for COVID-19.

But plasma has promise, according to a Johns Hopkins School of Medicine’s Bloomberg Distinguished Professor, Arturo Casadevall, MD, PhD, in Baltimore, and Liise-anne Pirofski, MD, a professor at Albert Einstein College of Medicine, New York. They lay out the case for convalescent plasma in an article published online March 13 in the Journal of Clinical Investigation. Passive antibody therapy, they wrote, has been used to stem polio, measles, mumps, and influenza, and more recently has shown some success against SARS-CoV-1 and Middle East respiratory syndrome (MERS).

“The special attraction of this modality of treatment is that, unlike vaccines or newly developed drugs, it could, in principle, be made available very rapidly,” said researchers with the National COVID-19 Convalescent Plasma Project, which includes physicians and scientists from 57 institutions in 46 states. But where principle veers from reality is in availability of the plasma itself, and donors are in short supply.
 

Aiming to prevent infection

So far, the FDA has approved 12 plasma trials – including Dr. Shoham’s – and the NIH’s clinicaltrials.gov lists more than two dozen convalescent plasma studies in the United States and elsewhere.

Most are single-arm trials to determine if one infusion can decrease the need for intubation or help those on a ventilator improve. Two others, one at Johns Hopkins and one at Stanford (Calif.) Hospital are investigating whether convalescent plasma might be used before severe disease sets in.

“A general principle of passive antibody therapy is that it is more effective when used for prophylaxis than for treatment of disease,” Dr. Casadevall and Dr. Pirofski wrote.

Stanford’s randomized, double-blind study will evaluate regular versus convalescent plasma in ED patients who are not sick enough to require hospitalization.

The Johns Hopkins trial, which aims to protect against infection in the first place, will begin at Johns Hopkins, Baltimore, and at Hopkins-affiliated hospitals throughout Maryland, Dr. Shoham said. He hopes it will expand nationwide eventually, and said that they expect to enroll the first patients soon.

To start, the prevention study will enroll only 150 patients, each of whom must have had close contact with someone who has COVID-19 within the previous 120 hours and be asymptomatic. The number of subjects is small, compared with the trial size of other potential therapies, and an issue, Shoham said, “that keeps me up at night.” But finding thousands of enrollees for plasma studies is hard, in part because it’s so difficult to recruit donors.

Participants will receive normal plasma (which will act as a placebo) or convalescent plasma.

The primary endpoint is cumulative incidence of COVID-19, defined as symptoms and a polymerase chain reaction–positive test; participants will be tracked for 90 days. Hospitals and health care workers could then decide if they want to use the therapy, he said.

The study will not answer whether participants will continue to have antibodies beyond the 90 days. Convalescent plasma is given as a rapid response to an emergent pathogen – a short-term boost of immunity rather than a long-term therapeutic.
 

What can we learn from expanded access?

Meanwhile, some 2,200 hospitals are participating in the expanded access program being led by the Mayo Clinic nationwide; more than 9,000 patients had received infusions at press time.

One participant is Northwell Health, a 23-hospital system that sprawls across the U.S. COVID epicenter: four of the five boroughs of New York City and Long Island.

Convalescent plasma is an in-demand therapy, said Christina Brennan, MD, vice president of clinical research at Northwell. “We get patients, family members, they say my family member is at X hospital – if it’s not being offered there, can you have them transferred?” she said in an interview.

When Northwell – through the New York Blood Bank – opened up donor registration, 800 people signed up in the first 24 hours, Dr. Brennan said. As of mid-May, 527 patients had received a transfusion.
 

Who’s the best donor and when should donation occur?

The Red Cross, hospitals, and independent blood banks are all soliciting donors, who can sign up at the Red Cross website. The FDA recommends that donors have a history of COVID-19 as confirmed by molecular or antibody testing, be symptom free for 14 days, have a negative follow-up molecular test, and be virus free at the time of collection. The FDA also suggests measuring a donor’s SARS-CoV-2 neutralizing antibody titers, if available, with a recommendation of at least 1:160.

But questions remain, such as whether there is a theoretical risk for antibody-dependent enhancement (ADE) of infection with SARS-CoV-2. “Antibodies to one type of coronavirus could enhance infection to another viral strain,” of coronavirus, Dr. Casadevall wrote. ADE has been observed in both severe acute respiratory syndrome (SARS) and MERS.

The other risk is that donors may still be shedding active virus. While the FDA suggests that donors are unlikely to still be infectious 14 days after infection, that is as of yet unproven. Both COVID-19 diagnostics and antibody tests have high rates of false negatives, which raises the specter that infection could be spread via the plasma donation.

Daniele Focosi, MD, PhD, from Pisa (Italy) University Hospital and colleagues raise that concern in a preprint review on convalescent plasma in COVID-19. “Although the recipient is already infected, theoretically transmission of more infectious particles could worsen clinical conditions,” they wrote, noting that “such a concern can be somewhat reduced by treatment with modern pathogen inactivation techniques.”

No evidence exists that SARS-CoV-2 can be transmitted through blood, but “we don’t know for sure,” Dr. Shoham said in an interview. A reassuring point: Even those with severe infection do not have viral RNA in their blood, he said, adding, “We don’t think there’s going to be viral transmission of this particular virus with transfusion.”

For another highly infectious pathogen, the Ebola virus, the World Health Organization recommended in 2014 that potential plasma donors wait at least 28 days after infection.

It’s also not known how long SARS-CoV-2 antibodies persist in the blood; longer viability could mean a longer donation window. Dr. Focosi noted that a previous Chinese study had shown that SARS-specific antibodies in people infected with the first SARS virus, SARS-CoV-1, persisted for 2 years.

Dr. Casadevall and Dr. Pirofski have disclosed no relevant financial relationships. Shoham has disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

On March 31, soon after the Food and Drug Administration authorized emergency use of antibody-packed plasma from recovered patients with COVID-19, Marisa Leuzzi became the first donor at an American Red Cross center. She hoped it could help her aunt, Renee Bannister, who was failing after 3 weeks on a ventilator at Virtua Hospital in Voorhees, N.J.

It may have worked; 11 days after receiving the plasma, Ms. Bannister was weaned off the ventilator and she is now awake and speaking, said Red Cross spokesperson Stephanie Rendon.

This kind of anecdote is fueling demand for the therapy, which can be provided through an expanded access program led by the Mayo Clinic, backed by the FDA, and the plasma paid for by the U.S. Department of Health & Human Services. But while this program is collecting safety and outcomes data, it’s not a randomized, controlled trial.

Others, however, are pursuing that data. At least a dozen researchers are investigating the potential of plasma – both as a treatment and whether it could act as a stand-in for a vaccine until one is developed.

“One of the things I don’t want this to be is the flavor of the month,” Shmuel Shoham, MD, associate professor of medicine at Johns Hopkins University, said in an interview.

Dr. Shoham, principal investigator for a study evaluating convalescent plasma to prevent the infection in high-risk individuals, said some clinicians, desperate for any treatment, have tried potential therapies such as hydroxychloroquine and remdesivir without evidence of safety or efficacy in COVID-19.

The National Institutes of Health recently said something similar for convalescent plasma, that “there are insufficient clinical data to recommend either for or against” its use for COVID-19.

But plasma has promise, according to a Johns Hopkins School of Medicine’s Bloomberg Distinguished Professor, Arturo Casadevall, MD, PhD, in Baltimore, and Liise-anne Pirofski, MD, a professor at Albert Einstein College of Medicine, New York. They lay out the case for convalescent plasma in an article published online March 13 in the Journal of Clinical Investigation. Passive antibody therapy, they wrote, has been used to stem polio, measles, mumps, and influenza, and more recently has shown some success against SARS-CoV-1 and Middle East respiratory syndrome (MERS).

“The special attraction of this modality of treatment is that, unlike vaccines or newly developed drugs, it could, in principle, be made available very rapidly,” said researchers with the National COVID-19 Convalescent Plasma Project, which includes physicians and scientists from 57 institutions in 46 states. But where principle veers from reality is in availability of the plasma itself, and donors are in short supply.
 

Aiming to prevent infection

So far, the FDA has approved 12 plasma trials – including Dr. Shoham’s – and the NIH’s clinicaltrials.gov lists more than two dozen convalescent plasma studies in the United States and elsewhere.

Most are single-arm trials to determine if one infusion can decrease the need for intubation or help those on a ventilator improve. Two others, one at Johns Hopkins and one at Stanford (Calif.) Hospital are investigating whether convalescent plasma might be used before severe disease sets in.

“A general principle of passive antibody therapy is that it is more effective when used for prophylaxis than for treatment of disease,” Dr. Casadevall and Dr. Pirofski wrote.

Stanford’s randomized, double-blind study will evaluate regular versus convalescent plasma in ED patients who are not sick enough to require hospitalization.

The Johns Hopkins trial, which aims to protect against infection in the first place, will begin at Johns Hopkins, Baltimore, and at Hopkins-affiliated hospitals throughout Maryland, Dr. Shoham said. He hopes it will expand nationwide eventually, and said that they expect to enroll the first patients soon.

To start, the prevention study will enroll only 150 patients, each of whom must have had close contact with someone who has COVID-19 within the previous 120 hours and be asymptomatic. The number of subjects is small, compared with the trial size of other potential therapies, and an issue, Shoham said, “that keeps me up at night.” But finding thousands of enrollees for plasma studies is hard, in part because it’s so difficult to recruit donors.

Participants will receive normal plasma (which will act as a placebo) or convalescent plasma.

The primary endpoint is cumulative incidence of COVID-19, defined as symptoms and a polymerase chain reaction–positive test; participants will be tracked for 90 days. Hospitals and health care workers could then decide if they want to use the therapy, he said.

The study will not answer whether participants will continue to have antibodies beyond the 90 days. Convalescent plasma is given as a rapid response to an emergent pathogen – a short-term boost of immunity rather than a long-term therapeutic.
 

What can we learn from expanded access?

Meanwhile, some 2,200 hospitals are participating in the expanded access program being led by the Mayo Clinic nationwide; more than 9,000 patients had received infusions at press time.

One participant is Northwell Health, a 23-hospital system that sprawls across the U.S. COVID epicenter: four of the five boroughs of New York City and Long Island.

Convalescent plasma is an in-demand therapy, said Christina Brennan, MD, vice president of clinical research at Northwell. “We get patients, family members, they say my family member is at X hospital – if it’s not being offered there, can you have them transferred?” she said in an interview.

When Northwell – through the New York Blood Bank – opened up donor registration, 800 people signed up in the first 24 hours, Dr. Brennan said. As of mid-May, 527 patients had received a transfusion.
 

Who’s the best donor and when should donation occur?

The Red Cross, hospitals, and independent blood banks are all soliciting donors, who can sign up at the Red Cross website. The FDA recommends that donors have a history of COVID-19 as confirmed by molecular or antibody testing, be symptom free for 14 days, have a negative follow-up molecular test, and be virus free at the time of collection. The FDA also suggests measuring a donor’s SARS-CoV-2 neutralizing antibody titers, if available, with a recommendation of at least 1:160.

But questions remain, such as whether there is a theoretical risk for antibody-dependent enhancement (ADE) of infection with SARS-CoV-2. “Antibodies to one type of coronavirus could enhance infection to another viral strain,” of coronavirus, Dr. Casadevall wrote. ADE has been observed in both severe acute respiratory syndrome (SARS) and MERS.

The other risk is that donors may still be shedding active virus. While the FDA suggests that donors are unlikely to still be infectious 14 days after infection, that is as of yet unproven. Both COVID-19 diagnostics and antibody tests have high rates of false negatives, which raises the specter that infection could be spread via the plasma donation.

Daniele Focosi, MD, PhD, from Pisa (Italy) University Hospital and colleagues raise that concern in a preprint review on convalescent plasma in COVID-19. “Although the recipient is already infected, theoretically transmission of more infectious particles could worsen clinical conditions,” they wrote, noting that “such a concern can be somewhat reduced by treatment with modern pathogen inactivation techniques.”

No evidence exists that SARS-CoV-2 can be transmitted through blood, but “we don’t know for sure,” Dr. Shoham said in an interview. A reassuring point: Even those with severe infection do not have viral RNA in their blood, he said, adding, “We don’t think there’s going to be viral transmission of this particular virus with transfusion.”

For another highly infectious pathogen, the Ebola virus, the World Health Organization recommended in 2014 that potential plasma donors wait at least 28 days after infection.

It’s also not known how long SARS-CoV-2 antibodies persist in the blood; longer viability could mean a longer donation window. Dr. Focosi noted that a previous Chinese study had shown that SARS-specific antibodies in people infected with the first SARS virus, SARS-CoV-1, persisted for 2 years.

Dr. Casadevall and Dr. Pirofski have disclosed no relevant financial relationships. Shoham has disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

Keeping hematologic oncology patients on their treatment regimens and caring for inpatients with hematologic malignancies remained “manageable” during the first 2 months of the COVID-19 pandemic at Levine Cancer Institute in Charlotte, N.C.

That level of manageability has partly been because a surge in cases so far hasn’t arrived at Levine or in most of the surrounding North Carolina and South Carolina communities it serves. As of May 15, 2020, the total number of confirmed and reported COVID-19 cases had reached about 19,000 in North Carolina, and just under 9,000 in South Carolina, out of a total population in the two states of close to 16 million. What’s happened instead at Levine Cancer Institute (LCI) has been a steady but low drumbeat of cases that, by mid-May 2020, totaled fewer than 10 patients with hematologic malignancies diagnosed with COVID-19.

“For a large system with multiple sites throughout North and South Carolina that saw 17,200 new patients in 2019 – including solid tumor, benign hematology, and malignant hematology patients – with 198,000 total patient visits, it is safe to say that we are off to a good start. However, we remain in the early throes of the pandemic and we will need to remain vigilant going forward,” said Peter Voorhees, MD, professor of medicine and director of Medical Operations and Outreach Services in LCI’s Department of Hematologic Oncology and Blood Disorders.

The limited effects to date of COVID-19 at LCI has been thanks to a regimen of great caution for preventing infections that’s been consistently conveyed to LCI patients from before the pandemic’s onset, liberal testing that started early, a proactive plan to defer and temporarily replace infusion care when medically appropriate, a novel staffing approach designed to minimize and contain potential staff outbreaks, and an early pivot to virtual patient contact when feasible.

COVID-19 has had limited penetration into the LCI case load because patients have, in general, “been very careful,” said Dr. Voorhees.

“My impression is that the incidence has been low partly because our patients, especially those with hematologic malignancies including those on active chemotherapy, were already getting warned to be cautious even before the coronavirus using distancing, masking, and meticulous hand hygiene,” he said in an interview that reviewed the steps LCI took starting in March to confront and manage the effects of the then-nascent pandemic. “Since we started screening asymptomatic patients in the inpatient and outpatient settings we have identified only one patient with COVID-19 infection, which supports the low rate of infection in our patient population thus far.”

Another key step was the launch of “robust” testing for the COVID-19 virus starting on March 9, using an in-house assay from LCI’s parent health system, Atrium Health, that delivered results within 24 hours. Testing became available at LCI “earlier than at many other health systems.” At first, testing was limited to patients or staff presenting with symptoms, but in the following weeks, it expanded to more patients, including those without symptoms who were scheduled for treatment at the apheresis center, cell donors and cell recipients, patients arriving for inpatient chemotherapy or cellular therapy, patients arriving from a skilled nursing facility or similar environments, and more recently, outpatient chemotherapy patients. “We’re now doing a lot of screening,” Dr. Voorhees said. “In general, screening has been well received because patients recognize that it’s for their own safety.”

Another piece of COVID-19 preparedness was a move toward technology as an alternative to face-to-face encounters between patients and staff. “We adopted virtual technology early.” When medically appropriate, they provided either video consultations with more tech-savvy patients or telephone-based virtual visits for patients who preferred a more familiar interface. As LCI starts the process of reentry for patients whose face-to-face encounters were deferred, virtual visits will remain an important facet of maintaining care while limiting exposure for appropriate patients and facilitating adequate space for social distancing in the clinics and infusion centers.

Atrium Health also launched a “virtual hospital” geared to intensified remote management of COVID-19 patients who aren’t sick enough for hospitalization. “People who test positive automatically enter the virtual hospital and have regular interactions with their team of providers,” with LCI providing additional support for their patients who get infected. Patients receive an equipment kit that lets them monitor and transmit their vital signs. The virtual hospital program also helps expedite personal needs like delivery of prescriptions and food. “It helps patients manage at home, and has been incredibly useful,” said Dr. Voorhees.

Perhaps the most challenging step LCI clinicians took to preclude a potential COVID-19 case surge was to review all patients receiving infusional therapy or planned cellular therapy and triage those who could potentially tolerate a temporary change to either an oral, at-home regimen or to a brief hold on their treatment. Some patients on maintenance, outpatient infusion-therapy regimens “expressed concern about coming to the clinic. We looked at the patients scheduled to come for infusions and decided which visits were essential and which were deferrable without disrupting care by briefly using a noninfusional approach,” said Dr. Voorhees. The number of patients who had their regimens modified or held was “relatively small,” and with the recent recognition that a surge of infections has not occurred, “we’re now rolling out cautious reentry of those patients back to their originally prescribed chemotherapy.”

In addition to concerns of exposure at infusion clinics, there are concerns about the heightened susceptibility of immunosuppressed hematologic oncology patients to COVID-19 and their risk for more severe infection. “Our view is that, if patients tested positive, continuing immunosuppressive treatment would likely be detrimental,” so when possible treatment is temporarily suspended and then resumed when the infection has cleared. “When patients test positive for a prolonged period, a decision to resume treatment must be in the best interests of the patient and weigh the benefits of resuming therapy against the risks of incurring a more severe infection by restarting potentially immunosuppressive therapy,” Dr. Voorhees said.

The enhanced risk that cancer patients face if they develop COVID-19 was documented in a recent review of 218 cancer patients hospitalized for COVID-19 during parts of March and April in a large New York health system. The results showed an overall mortality rate of 28%, including a 37% rate among 54 patients with hematologic malignancies and a 25% rate among 164 patients with solid tumors. The mortality rate “may not be quite as high as they reported because that depends on how many patients you test, but there is no question that patients with more comorbidities are at higher risk. Patients with active cancer on chemotherapy are a particularly vulnerable population, and many have expressed concerns about their vulnerability,” he observed.

For the few LCI patients who developed COVID-19 infection, the medical staff has had several therapeutic options they could match to each patient’s needs, with help from the Atrium Health infectious disease team. LCI and Atrium Health are participating in several COVID-19 clinical treatment trials, including an investigational convalescent plasma protocol spearheaded by the Mayo Clinic. They have also opened a randomized, phase 2 trial evaluating the safety and efficacy of selinexor (Xpovio), an oral drug that’s Food and Drug Administration approved for patients with multiple myeloma, for treatment of moderate or severe COVID-19 infection. Additional studies evaluating blockade of granulocyte-macrophage colony-stimulating factor, as well as inhaled antiviral therapy, have recently launched, and several additional studies are poised to open in the coming weeks.

The LCI and Atrium Health team also has a supply of the antiviral agent remdesivir as part of the FDA’s expanded access protocol and emergency use authorization. They also have a supply of and experience administering the interleukin-6 receptor inhibitor tocilizumab (Actemra), which showed some suggestion of efficacy in limited experience treating patients with severe or critical COVID-19 infections (Proc Natl Acad Sci. 2020 Apr 29; doi: 10.1073/pnas.2005615117). Clinicians at LCI have not used the investigational and unproven agents hydroxychloroquine, chloroquine, and azithromycin to either prevent or treat COVID-19.

LCI also instituted measures to try to minimize the risk that staff members could become infected and transmit the virus while asymptomatic. Following conversations held early on with COVID-19–experienced health authorities in China and Italy, the patient-facing LCI staff split into two teams starting on March 23 that alternated responsibility for direct patient interactions every 2 weeks. When one of these teams was off from direct patient contact they continued to care for patients remotely through virtual technologies. The concept was that, if a staffer became infected while remaining asymptomatic during their contact with patients, their status would either become diagnosable or resolve during their 2 weeks away from seeing any patients. Perhaps in part because of this approach infections among staff members “have not been a big issue. We’ve had an incredibly low infection rate among the LCI staff,” Dr. Voorhees noted.

By mid-May, with the imminent threat of a sudden CODIV-19 surge moderated, heme-onc operations at LCI began to cautiously revert to more normal operations. “We’re continuing patient screening for signs and symptoms of COVID-19 infection, testing for asymptomatic infections, and requiring masking and social distancing in the clinics and hospitals, but we’re starting to slowly restore the number of patients at our clinics [virtual and face to face[ and infusion centers,” and the staff’s division into two teams ended. “The idea was to get past a surge and make sure our system was not overwhelmed. We anticipated a local surge in late April, but then it kept getting pushed back. Current projections are for the infection rate among LCI patients to remain low provided that community spread remains stable or, ideally, decreases.” The LCI infectious disease staff is closely monitoring infection rates for early recognition of an outbreak, with plans to follow any new cases with contact tracing. So far, the COVID-19 pandemic at LCI “has been very manageable,” Dr. Voorhees concluded.

“We’re now better positioned to deal with a case surge if it were to happen. We could resume the two-team approach, hospital-wide plans are now in place for a future surge, and we are now up and running with robust testing and inpatient and outpatient virtual technology. The first time, we were all learning on the fly.”

The LCI biostatistics team has been prospectively collecting the Institutes’s COVID-19 patient data, with plans to report their findings.

Dr. Voorhees has had financial relationships with Bristol-Myers Squibb/Celgene, Janssen, Novartis, and Oncopeptides, none of which are relevant to this article.

mzoler@mdedge.com

Keeping hematologic oncology patients on their treatment regimens and caring for inpatients with hematologic malignancies remained “manageable” during the first 2 months of the COVID-19 pandemic at Levine Cancer Institute in Charlotte, N.C.

That level of manageability has partly been because a surge in cases so far hasn’t arrived at Levine or in most of the surrounding North Carolina and South Carolina communities it serves. As of May 15, 2020, the total number of confirmed and reported COVID-19 cases had reached about 19,000 in North Carolina, and just under 9,000 in South Carolina, out of a total population in the two states of close to 16 million. What’s happened instead at Levine Cancer Institute (LCI) has been a steady but low drumbeat of cases that, by mid-May 2020, totaled fewer than 10 patients with hematologic malignancies diagnosed with COVID-19.

“For a large system with multiple sites throughout North and South Carolina that saw 17,200 new patients in 2019 – including solid tumor, benign hematology, and malignant hematology patients – with 198,000 total patient visits, it is safe to say that we are off to a good start. However, we remain in the early throes of the pandemic and we will need to remain vigilant going forward,” said Peter Voorhees, MD, professor of medicine and director of Medical Operations and Outreach Services in LCI’s Department of Hematologic Oncology and Blood Disorders.

The limited effects to date of COVID-19 at LCI has been thanks to a regimen of great caution for preventing infections that’s been consistently conveyed to LCI patients from before the pandemic’s onset, liberal testing that started early, a proactive plan to defer and temporarily replace infusion care when medically appropriate, a novel staffing approach designed to minimize and contain potential staff outbreaks, and an early pivot to virtual patient contact when feasible.

COVID-19 has had limited penetration into the LCI case load because patients have, in general, “been very careful,” said Dr. Voorhees.

“My impression is that the incidence has been low partly because our patients, especially those with hematologic malignancies including those on active chemotherapy, were already getting warned to be cautious even before the coronavirus using distancing, masking, and meticulous hand hygiene,” he said in an interview that reviewed the steps LCI took starting in March to confront and manage the effects of the then-nascent pandemic. “Since we started screening asymptomatic patients in the inpatient and outpatient settings we have identified only one patient with COVID-19 infection, which supports the low rate of infection in our patient population thus far.”

Another key step was the launch of “robust” testing for the COVID-19 virus starting on March 9, using an in-house assay from LCI’s parent health system, Atrium Health, that delivered results within 24 hours. Testing became available at LCI “earlier than at many other health systems.” At first, testing was limited to patients or staff presenting with symptoms, but in the following weeks, it expanded to more patients, including those without symptoms who were scheduled for treatment at the apheresis center, cell donors and cell recipients, patients arriving for inpatient chemotherapy or cellular therapy, patients arriving from a skilled nursing facility or similar environments, and more recently, outpatient chemotherapy patients. “We’re now doing a lot of screening,” Dr. Voorhees said. “In general, screening has been well received because patients recognize that it’s for their own safety.”

Another piece of COVID-19 preparedness was a move toward technology as an alternative to face-to-face encounters between patients and staff. “We adopted virtual technology early.” When medically appropriate, they provided either video consultations with more tech-savvy patients or telephone-based virtual visits for patients who preferred a more familiar interface. As LCI starts the process of reentry for patients whose face-to-face encounters were deferred, virtual visits will remain an important facet of maintaining care while limiting exposure for appropriate patients and facilitating adequate space for social distancing in the clinics and infusion centers.

Atrium Health also launched a “virtual hospital” geared to intensified remote management of COVID-19 patients who aren’t sick enough for hospitalization. “People who test positive automatically enter the virtual hospital and have regular interactions with their team of providers,” with LCI providing additional support for their patients who get infected. Patients receive an equipment kit that lets them monitor and transmit their vital signs. The virtual hospital program also helps expedite personal needs like delivery of prescriptions and food. “It helps patients manage at home, and has been incredibly useful,” said Dr. Voorhees.

Perhaps the most challenging step LCI clinicians took to preclude a potential COVID-19 case surge was to review all patients receiving infusional therapy or planned cellular therapy and triage those who could potentially tolerate a temporary change to either an oral, at-home regimen or to a brief hold on their treatment. Some patients on maintenance, outpatient infusion-therapy regimens “expressed concern about coming to the clinic. We looked at the patients scheduled to come for infusions and decided which visits were essential and which were deferrable without disrupting care by briefly using a noninfusional approach,” said Dr. Voorhees. The number of patients who had their regimens modified or held was “relatively small,” and with the recent recognition that a surge of infections has not occurred, “we’re now rolling out cautious reentry of those patients back to their originally prescribed chemotherapy.”

In addition to concerns of exposure at infusion clinics, there are concerns about the heightened susceptibility of immunosuppressed hematologic oncology patients to COVID-19 and their risk for more severe infection. “Our view is that, if patients tested positive, continuing immunosuppressive treatment would likely be detrimental,” so when possible treatment is temporarily suspended and then resumed when the infection has cleared. “When patients test positive for a prolonged period, a decision to resume treatment must be in the best interests of the patient and weigh the benefits of resuming therapy against the risks of incurring a more severe infection by restarting potentially immunosuppressive therapy,” Dr. Voorhees said.

The enhanced risk that cancer patients face if they develop COVID-19 was documented in a recent review of 218 cancer patients hospitalized for COVID-19 during parts of March and April in a large New York health system. The results showed an overall mortality rate of 28%, including a 37% rate among 54 patients with hematologic malignancies and a 25% rate among 164 patients with solid tumors. The mortality rate “may not be quite as high as they reported because that depends on how many patients you test, but there is no question that patients with more comorbidities are at higher risk. Patients with active cancer on chemotherapy are a particularly vulnerable population, and many have expressed concerns about their vulnerability,” he observed.

For the few LCI patients who developed COVID-19 infection, the medical staff has had several therapeutic options they could match to each patient’s needs, with help from the Atrium Health infectious disease team. LCI and Atrium Health are participating in several COVID-19 clinical treatment trials, including an investigational convalescent plasma protocol spearheaded by the Mayo Clinic. They have also opened a randomized, phase 2 trial evaluating the safety and efficacy of selinexor (Xpovio), an oral drug that’s Food and Drug Administration approved for patients with multiple myeloma, for treatment of moderate or severe COVID-19 infection. Additional studies evaluating blockade of granulocyte-macrophage colony-stimulating factor, as well as inhaled antiviral therapy, have recently launched, and several additional studies are poised to open in the coming weeks.

The LCI and Atrium Health team also has a supply of the antiviral agent remdesivir as part of the FDA’s expanded access protocol and emergency use authorization. They also have a supply of and experience administering the interleukin-6 receptor inhibitor tocilizumab (Actemra), which showed some suggestion of efficacy in limited experience treating patients with severe or critical COVID-19 infections (Proc Natl Acad Sci. 2020 Apr 29; doi: 10.1073/pnas.2005615117). Clinicians at LCI have not used the investigational and unproven agents hydroxychloroquine, chloroquine, and azithromycin to either prevent or treat COVID-19.

LCI also instituted measures to try to minimize the risk that staff members could become infected and transmit the virus while asymptomatic. Following conversations held early on with COVID-19–experienced health authorities in China and Italy, the patient-facing LCI staff split into two teams starting on March 23 that alternated responsibility for direct patient interactions every 2 weeks. When one of these teams was off from direct patient contact they continued to care for patients remotely through virtual technologies. The concept was that, if a staffer became infected while remaining asymptomatic during their contact with patients, their status would either become diagnosable or resolve during their 2 weeks away from seeing any patients. Perhaps in part because of this approach infections among staff members “have not been a big issue. We’ve had an incredibly low infection rate among the LCI staff,” Dr. Voorhees noted.

By mid-May, with the imminent threat of a sudden CODIV-19 surge moderated, heme-onc operations at LCI began to cautiously revert to more normal operations. “We’re continuing patient screening for signs and symptoms of COVID-19 infection, testing for asymptomatic infections, and requiring masking and social distancing in the clinics and hospitals, but we’re starting to slowly restore the number of patients at our clinics [virtual and face to face[ and infusion centers,” and the staff’s division into two teams ended. “The idea was to get past a surge and make sure our system was not overwhelmed. We anticipated a local surge in late April, but then it kept getting pushed back. Current projections are for the infection rate among LCI patients to remain low provided that community spread remains stable or, ideally, decreases.” The LCI infectious disease staff is closely monitoring infection rates for early recognition of an outbreak, with plans to follow any new cases with contact tracing. So far, the COVID-19 pandemic at LCI “has been very manageable,” Dr. Voorhees concluded.

“We’re now better positioned to deal with a case surge if it were to happen. We could resume the two-team approach, hospital-wide plans are now in place for a future surge, and we are now up and running with robust testing and inpatient and outpatient virtual technology. The first time, we were all learning on the fly.”

The LCI biostatistics team has been prospectively collecting the Institutes’s COVID-19 patient data, with plans to report their findings.

Dr. Voorhees has had financial relationships with Bristol-Myers Squibb/Celgene, Janssen, Novartis, and Oncopeptides, none of which are relevant to this article.

mzoler@mdedge.com

Keeping hematologic oncology patients on their treatment regimens and caring for inpatients with hematologic malignancies remained “manageable” during the first 2 months of the COVID-19 pandemic at Levine Cancer Institute in Charlotte, N.C.

That level of manageability has partly been because a surge in cases so far hasn’t arrived at Levine or in most of the surrounding North Carolina and South Carolina communities it serves. As of May 15, 2020, the total number of confirmed and reported COVID-19 cases had reached about 19,000 in North Carolina, and just under 9,000 in South Carolina, out of a total population in the two states of close to 16 million. What’s happened instead at Levine Cancer Institute (LCI) has been a steady but low drumbeat of cases that, by mid-May 2020, totaled fewer than 10 patients with hematologic malignancies diagnosed with COVID-19.

“For a large system with multiple sites throughout North and South Carolina that saw 17,200 new patients in 2019 – including solid tumor, benign hematology, and malignant hematology patients – with 198,000 total patient visits, it is safe to say that we are off to a good start. However, we remain in the early throes of the pandemic and we will need to remain vigilant going forward,” said Peter Voorhees, MD, professor of medicine and director of Medical Operations and Outreach Services in LCI’s Department of Hematologic Oncology and Blood Disorders.

The limited effects to date of COVID-19 at LCI has been thanks to a regimen of great caution for preventing infections that’s been consistently conveyed to LCI patients from before the pandemic’s onset, liberal testing that started early, a proactive plan to defer and temporarily replace infusion care when medically appropriate, a novel staffing approach designed to minimize and contain potential staff outbreaks, and an early pivot to virtual patient contact when feasible.

COVID-19 has had limited penetration into the LCI case load because patients have, in general, “been very careful,” said Dr. Voorhees.

“My impression is that the incidence has been low partly because our patients, especially those with hematologic malignancies including those on active chemotherapy, were already getting warned to be cautious even before the coronavirus using distancing, masking, and meticulous hand hygiene,” he said in an interview that reviewed the steps LCI took starting in March to confront and manage the effects of the then-nascent pandemic. “Since we started screening asymptomatic patients in the inpatient and outpatient settings we have identified only one patient with COVID-19 infection, which supports the low rate of infection in our patient population thus far.”

Another key step was the launch of “robust” testing for the COVID-19 virus starting on March 9, using an in-house assay from LCI’s parent health system, Atrium Health, that delivered results within 24 hours. Testing became available at LCI “earlier than at many other health systems.” At first, testing was limited to patients or staff presenting with symptoms, but in the following weeks, it expanded to more patients, including those without symptoms who were scheduled for treatment at the apheresis center, cell donors and cell recipients, patients arriving for inpatient chemotherapy or cellular therapy, patients arriving from a skilled nursing facility or similar environments, and more recently, outpatient chemotherapy patients. “We’re now doing a lot of screening,” Dr. Voorhees said. “In general, screening has been well received because patients recognize that it’s for their own safety.”

Another piece of COVID-19 preparedness was a move toward technology as an alternative to face-to-face encounters between patients and staff. “We adopted virtual technology early.” When medically appropriate, they provided either video consultations with more tech-savvy patients or telephone-based virtual visits for patients who preferred a more familiar interface. As LCI starts the process of reentry for patients whose face-to-face encounters were deferred, virtual visits will remain an important facet of maintaining care while limiting exposure for appropriate patients and facilitating adequate space for social distancing in the clinics and infusion centers.

Atrium Health also launched a “virtual hospital” geared to intensified remote management of COVID-19 patients who aren’t sick enough for hospitalization. “People who test positive automatically enter the virtual hospital and have regular interactions with their team of providers,” with LCI providing additional support for their patients who get infected. Patients receive an equipment kit that lets them monitor and transmit their vital signs. The virtual hospital program also helps expedite personal needs like delivery of prescriptions and food. “It helps patients manage at home, and has been incredibly useful,” said Dr. Voorhees.

Perhaps the most challenging step LCI clinicians took to preclude a potential COVID-19 case surge was to review all patients receiving infusional therapy or planned cellular therapy and triage those who could potentially tolerate a temporary change to either an oral, at-home regimen or to a brief hold on their treatment. Some patients on maintenance, outpatient infusion-therapy regimens “expressed concern about coming to the clinic. We looked at the patients scheduled to come for infusions and decided which visits were essential and which were deferrable without disrupting care by briefly using a noninfusional approach,” said Dr. Voorhees. The number of patients who had their regimens modified or held was “relatively small,” and with the recent recognition that a surge of infections has not occurred, “we’re now rolling out cautious reentry of those patients back to their originally prescribed chemotherapy.”

In addition to concerns of exposure at infusion clinics, there are concerns about the heightened susceptibility of immunosuppressed hematologic oncology patients to COVID-19 and their risk for more severe infection. “Our view is that, if patients tested positive, continuing immunosuppressive treatment would likely be detrimental,” so when possible treatment is temporarily suspended and then resumed when the infection has cleared. “When patients test positive for a prolonged period, a decision to resume treatment must be in the best interests of the patient and weigh the benefits of resuming therapy against the risks of incurring a more severe infection by restarting potentially immunosuppressive therapy,” Dr. Voorhees said.

The enhanced risk that cancer patients face if they develop COVID-19 was documented in a recent review of 218 cancer patients hospitalized for COVID-19 during parts of March and April in a large New York health system. The results showed an overall mortality rate of 28%, including a 37% rate among 54 patients with hematologic malignancies and a 25% rate among 164 patients with solid tumors. The mortality rate “may not be quite as high as they reported because that depends on how many patients you test, but there is no question that patients with more comorbidities are at higher risk. Patients with active cancer on chemotherapy are a particularly vulnerable population, and many have expressed concerns about their vulnerability,” he observed.

For the few LCI patients who developed COVID-19 infection, the medical staff has had several therapeutic options they could match to each patient’s needs, with help from the Atrium Health infectious disease team. LCI and Atrium Health are participating in several COVID-19 clinical treatment trials, including an investigational convalescent plasma protocol spearheaded by the Mayo Clinic. They have also opened a randomized, phase 2 trial evaluating the safety and efficacy of selinexor (Xpovio), an oral drug that’s Food and Drug Administration approved for patients with multiple myeloma, for treatment of moderate or severe COVID-19 infection. Additional studies evaluating blockade of granulocyte-macrophage colony-stimulating factor, as well as inhaled antiviral therapy, have recently launched, and several additional studies are poised to open in the coming weeks.

The LCI and Atrium Health team also has a supply of the antiviral agent remdesivir as part of the FDA’s expanded access protocol and emergency use authorization. They also have a supply of and experience administering the interleukin-6 receptor inhibitor tocilizumab (Actemra), which showed some suggestion of efficacy in limited experience treating patients with severe or critical COVID-19 infections (Proc Natl Acad Sci. 2020 Apr 29; doi: 10.1073/pnas.2005615117). Clinicians at LCI have not used the investigational and unproven agents hydroxychloroquine, chloroquine, and azithromycin to either prevent or treat COVID-19.

LCI also instituted measures to try to minimize the risk that staff members could become infected and transmit the virus while asymptomatic. Following conversations held early on with COVID-19–experienced health authorities in China and Italy, the patient-facing LCI staff split into two teams starting on March 23 that alternated responsibility for direct patient interactions every 2 weeks. When one of these teams was off from direct patient contact they continued to care for patients remotely through virtual technologies. The concept was that, if a staffer became infected while remaining asymptomatic during their contact with patients, their status would either become diagnosable or resolve during their 2 weeks away from seeing any patients. Perhaps in part because of this approach infections among staff members “have not been a big issue. We’ve had an incredibly low infection rate among the LCI staff,” Dr. Voorhees noted.

By mid-May, with the imminent threat of a sudden CODIV-19 surge moderated, heme-onc operations at LCI began to cautiously revert to more normal operations. “We’re continuing patient screening for signs and symptoms of COVID-19 infection, testing for asymptomatic infections, and requiring masking and social distancing in the clinics and hospitals, but we’re starting to slowly restore the number of patients at our clinics [virtual and face to face[ and infusion centers,” and the staff’s division into two teams ended. “The idea was to get past a surge and make sure our system was not overwhelmed. We anticipated a local surge in late April, but then it kept getting pushed back. Current projections are for the infection rate among LCI patients to remain low provided that community spread remains stable or, ideally, decreases.” The LCI infectious disease staff is closely monitoring infection rates for early recognition of an outbreak, with plans to follow any new cases with contact tracing. So far, the COVID-19 pandemic at LCI “has been very manageable,” Dr. Voorhees concluded.

“We’re now better positioned to deal with a case surge if it were to happen. We could resume the two-team approach, hospital-wide plans are now in place for a future surge, and we are now up and running with robust testing and inpatient and outpatient virtual technology. The first time, we were all learning on the fly.”

The LCI biostatistics team has been prospectively collecting the Institutes’s COVID-19 patient data, with plans to report their findings.

Dr. Voorhees has had financial relationships with Bristol-Myers Squibb/Celgene, Janssen, Novartis, and Oncopeptides, none of which are relevant to this article.

mzoler@mdedge.com