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The latest drug shown to benefit patients with heart failure with reduced ejection fraction, the SGLT2 inhibitor empagliflozin, works just as well when added on top of a second major agent used to treat these patients, the renin-angiotensin system–inhibiting combination of sacubitril/valsartan, based on a post-hoc analysis of data from the EMPEROR-Reduced trial.

“When there are two very effective treatments, it’s common for people to ask: Which should I use?’ The goal of my presentation was to emphasize that the answer is both. We shouldn’t choose between neprilysin inhibition [sacubitril inhibits the enzyme neprilysin] and SGLT2 [sodium-glucose transporter 2] inhibition; we should use both,” said Milton Packer, MD at the virtual annual meeting of the Heart Failure Society of America.

EMPEROR-Reduced had the primary goal of testing the safety and efficacy of the SGLT2 inhibitor empagliflozin (Jardiance) in patients with heart failure with reduced ejection fraction (HFrEF). The results showed that adding this drug on top of standard treatments led to a 25% relative cut in the study’s primary efficacy endpoint, compared with placebo, and had this effect regardless of whether or not patients also had type 2 diabetes (N Engl J Med. 2020 Aug 29. doi: 10.1056/NEJMoa2022190).

Among the 3,730 patients enrolled in the trial, 727 (19%) were on sacubitril/valsartan (Entresto) at entry, which gave Dr. Packer the data to perform the analysis he reported. He presented the study’s three major endpoints as well as a quality of life analysis that compared the performance of empagliflozin in patients who were on sacubitril/valsartan at baseline with the other study patients, who were either on a different type of renin-angiotensin system (RAS) blocker (roughly 70% of study patients) or on no RAS inhibition (about 10% of patients).

The results showed no statistically significant indication of an interaction, suggesting that patients with sacubitril/valsartan on board had just as good response to empagliflozin as patients who were not on this combination. The landmark PARADIGM-HF trial proved several years ago that treatment of HFrEF patients with sacubitril/valsartan led to significantly better outcomes than did treatment with another form of RAS inhibition (N Engl J Med. 2014 Sep 11;371[11]:993-1004).

For example, EMPEROR-Reduced’s primary endpoint, the combined rate of cardiovascular death or hospitalization for heart failure, fell by 36% relative to placebo in patients who received empagliflozin on top of sacubitril/valsartan, and by 23% relative to placebo among the remaining patients who received empagliflozin on top of a different type of RAS inhibitor drug or no RAS inhibition.

“Background treatment with sacubitril/valsartan did not diminish, and may have enhanced the efficacy of empagliflozin,” concluded Dr. Packer. Further analyses also showed that concurrent sacubitril/valsartan had no statistically significant impact on empagliflozin’s ability to reduce the rate of total heart failure hospitalizations, or to slow progressive loss of renal function, compared with placebo. The fourth efficacy analysis Dr. Packer presented showed that empagliflozin was also as effective for improving a quality-of-life measure in patients compared with placebo regardless of the type of RAS inhibition used. For all four outcomes, the point-estimate of empagliflozin’s benefit was higher when used along with sacubitril/valsartan.

Brian L. Claggett, PhD, a biostatistician at Brigham and Women’s Hospital and Harvard Medical School in Boston, designated discussant for the report, disagreed with Dr. Packer’s suggestion that the efficacy of empagliflozin may have been greater when administered against a background of sacubitril/valsartan. From a statistical perspective, there is no basis to suggest that patients did better when they were on both drugs, he cautioned. But Dr. Claggett acknowledged that the new analyses suggested that empagliflozin’s benefit wasn’t compromised by concurrent sacubitril/valsartan use. He also highlighted the value of more fully documenting the safety and efficacy of a new drug when used as part of “comprehensive therapy” with the established drugs that a patient may concurrently receive.

Dr. Packer also presented several measures of treatment safety that all showed similar rates of adverse effects between the empagliflozin and placebo recipients regardless of background RAS inhibition. A notable finding was that the incidence of hypokalemia was 5.9% in patients on empagliflozin and sacubitril/valsartan and 7.5% among patients on empagliflozin and a different type of RAS inhibition.

EMPEROR-Reduced was funded by Boehringer Ingelheim and Eli Lilly, the companies that market empagliflozin. Dr. Packer has received personal fees from Boehringer Ingelheim and Eli Lilly and from several other companies. Dr. Claggett has been a consultant to Amgen, AO Biome, Biogen, Corvia, Myokardia, and Novartis.

[email protected]

The latest drug shown to benefit patients with heart failure with reduced ejection fraction, the SGLT2 inhibitor empagliflozin, works just as well when added on top of a second major agent used to treat these patients, the renin-angiotensin system–inhibiting combination of sacubitril/valsartan, based on a post-hoc analysis of data from the EMPEROR-Reduced trial.

“When there are two very effective treatments, it’s common for people to ask: Which should I use?’ The goal of my presentation was to emphasize that the answer is both. We shouldn’t choose between neprilysin inhibition [sacubitril inhibits the enzyme neprilysin] and SGLT2 [sodium-glucose transporter 2] inhibition; we should use both,” said Milton Packer, MD at the virtual annual meeting of the Heart Failure Society of America.

EMPEROR-Reduced had the primary goal of testing the safety and efficacy of the SGLT2 inhibitor empagliflozin (Jardiance) in patients with heart failure with reduced ejection fraction (HFrEF). The results showed that adding this drug on top of standard treatments led to a 25% relative cut in the study’s primary efficacy endpoint, compared with placebo, and had this effect regardless of whether or not patients also had type 2 diabetes (N Engl J Med. 2020 Aug 29. doi: 10.1056/NEJMoa2022190).

Among the 3,730 patients enrolled in the trial, 727 (19%) were on sacubitril/valsartan (Entresto) at entry, which gave Dr. Packer the data to perform the analysis he reported. He presented the study’s three major endpoints as well as a quality of life analysis that compared the performance of empagliflozin in patients who were on sacubitril/valsartan at baseline with the other study patients, who were either on a different type of renin-angiotensin system (RAS) blocker (roughly 70% of study patients) or on no RAS inhibition (about 10% of patients).

The results showed no statistically significant indication of an interaction, suggesting that patients with sacubitril/valsartan on board had just as good response to empagliflozin as patients who were not on this combination. The landmark PARADIGM-HF trial proved several years ago that treatment of HFrEF patients with sacubitril/valsartan led to significantly better outcomes than did treatment with another form of RAS inhibition (N Engl J Med. 2014 Sep 11;371[11]:993-1004).

For example, EMPEROR-Reduced’s primary endpoint, the combined rate of cardiovascular death or hospitalization for heart failure, fell by 36% relative to placebo in patients who received empagliflozin on top of sacubitril/valsartan, and by 23% relative to placebo among the remaining patients who received empagliflozin on top of a different type of RAS inhibitor drug or no RAS inhibition.

“Background treatment with sacubitril/valsartan did not diminish, and may have enhanced the efficacy of empagliflozin,” concluded Dr. Packer. Further analyses also showed that concurrent sacubitril/valsartan had no statistically significant impact on empagliflozin’s ability to reduce the rate of total heart failure hospitalizations, or to slow progressive loss of renal function, compared with placebo. The fourth efficacy analysis Dr. Packer presented showed that empagliflozin was also as effective for improving a quality-of-life measure in patients compared with placebo regardless of the type of RAS inhibition used. For all four outcomes, the point-estimate of empagliflozin’s benefit was higher when used along with sacubitril/valsartan.

Brian L. Claggett, PhD, a biostatistician at Brigham and Women’s Hospital and Harvard Medical School in Boston, designated discussant for the report, disagreed with Dr. Packer’s suggestion that the efficacy of empagliflozin may have been greater when administered against a background of sacubitril/valsartan. From a statistical perspective, there is no basis to suggest that patients did better when they were on both drugs, he cautioned. But Dr. Claggett acknowledged that the new analyses suggested that empagliflozin’s benefit wasn’t compromised by concurrent sacubitril/valsartan use. He also highlighted the value of more fully documenting the safety and efficacy of a new drug when used as part of “comprehensive therapy” with the established drugs that a patient may concurrently receive.

Dr. Packer also presented several measures of treatment safety that all showed similar rates of adverse effects between the empagliflozin and placebo recipients regardless of background RAS inhibition. A notable finding was that the incidence of hypokalemia was 5.9% in patients on empagliflozin and sacubitril/valsartan and 7.5% among patients on empagliflozin and a different type of RAS inhibition.

EMPEROR-Reduced was funded by Boehringer Ingelheim and Eli Lilly, the companies that market empagliflozin. Dr. Packer has received personal fees from Boehringer Ingelheim and Eli Lilly and from several other companies. Dr. Claggett has been a consultant to Amgen, AO Biome, Biogen, Corvia, Myokardia, and Novartis.

[email protected]

The latest drug shown to benefit patients with heart failure with reduced ejection fraction, the SGLT2 inhibitor empagliflozin, works just as well when added on top of a second major agent used to treat these patients, the renin-angiotensin system–inhibiting combination of sacubitril/valsartan, based on a post-hoc analysis of data from the EMPEROR-Reduced trial.

“When there are two very effective treatments, it’s common for people to ask: Which should I use?’ The goal of my presentation was to emphasize that the answer is both. We shouldn’t choose between neprilysin inhibition [sacubitril inhibits the enzyme neprilysin] and SGLT2 [sodium-glucose transporter 2] inhibition; we should use both,” said Milton Packer, MD at the virtual annual meeting of the Heart Failure Society of America.

EMPEROR-Reduced had the primary goal of testing the safety and efficacy of the SGLT2 inhibitor empagliflozin (Jardiance) in patients with heart failure with reduced ejection fraction (HFrEF). The results showed that adding this drug on top of standard treatments led to a 25% relative cut in the study’s primary efficacy endpoint, compared with placebo, and had this effect regardless of whether or not patients also had type 2 diabetes (N Engl J Med. 2020 Aug 29. doi: 10.1056/NEJMoa2022190).

Among the 3,730 patients enrolled in the trial, 727 (19%) were on sacubitril/valsartan (Entresto) at entry, which gave Dr. Packer the data to perform the analysis he reported. He presented the study’s three major endpoints as well as a quality of life analysis that compared the performance of empagliflozin in patients who were on sacubitril/valsartan at baseline with the other study patients, who were either on a different type of renin-angiotensin system (RAS) blocker (roughly 70% of study patients) or on no RAS inhibition (about 10% of patients).

The results showed no statistically significant indication of an interaction, suggesting that patients with sacubitril/valsartan on board had just as good response to empagliflozin as patients who were not on this combination. The landmark PARADIGM-HF trial proved several years ago that treatment of HFrEF patients with sacubitril/valsartan led to significantly better outcomes than did treatment with another form of RAS inhibition (N Engl J Med. 2014 Sep 11;371[11]:993-1004).

For example, EMPEROR-Reduced’s primary endpoint, the combined rate of cardiovascular death or hospitalization for heart failure, fell by 36% relative to placebo in patients who received empagliflozin on top of sacubitril/valsartan, and by 23% relative to placebo among the remaining patients who received empagliflozin on top of a different type of RAS inhibitor drug or no RAS inhibition.

“Background treatment with sacubitril/valsartan did not diminish, and may have enhanced the efficacy of empagliflozin,” concluded Dr. Packer. Further analyses also showed that concurrent sacubitril/valsartan had no statistically significant impact on empagliflozin’s ability to reduce the rate of total heart failure hospitalizations, or to slow progressive loss of renal function, compared with placebo. The fourth efficacy analysis Dr. Packer presented showed that empagliflozin was also as effective for improving a quality-of-life measure in patients compared with placebo regardless of the type of RAS inhibition used. For all four outcomes, the point-estimate of empagliflozin’s benefit was higher when used along with sacubitril/valsartan.

Brian L. Claggett, PhD, a biostatistician at Brigham and Women’s Hospital and Harvard Medical School in Boston, designated discussant for the report, disagreed with Dr. Packer’s suggestion that the efficacy of empagliflozin may have been greater when administered against a background of sacubitril/valsartan. From a statistical perspective, there is no basis to suggest that patients did better when they were on both drugs, he cautioned. But Dr. Claggett acknowledged that the new analyses suggested that empagliflozin’s benefit wasn’t compromised by concurrent sacubitril/valsartan use. He also highlighted the value of more fully documenting the safety and efficacy of a new drug when used as part of “comprehensive therapy” with the established drugs that a patient may concurrently receive.

Dr. Packer also presented several measures of treatment safety that all showed similar rates of adverse effects between the empagliflozin and placebo recipients regardless of background RAS inhibition. A notable finding was that the incidence of hypokalemia was 5.9% in patients on empagliflozin and sacubitril/valsartan and 7.5% among patients on empagliflozin and a different type of RAS inhibition.

EMPEROR-Reduced was funded by Boehringer Ingelheim and Eli Lilly, the companies that market empagliflozin. Dr. Packer has received personal fees from Boehringer Ingelheim and Eli Lilly and from several other companies. Dr. Claggett has been a consultant to Amgen, AO Biome, Biogen, Corvia, Myokardia, and Novartis.

[email protected]

The HM20 Virtual conference in August was filled with excellent content that can be applied by all hospitalists. This article summarizes key concepts and takeaways for the pediatric hospitalist.

Racism and bias in medicine

HM20 Virtual session: Structural Racism and Bias in Hospital Medicine During Two Pandemics

Presenters: Nathan Chomilo, MD, FAAP, and Benji K. Mathews, MD, SFHM

Dr. Nathan Chomilo, of HealthPartners in Minneapolis, opened the session sharing how racial disparities were a symptom of racism. The presenters explained how structural racism has been propagated in medicine with the Hospital Survey and Construction Act of 1964 that allowed segregated hospitals, as well as the racism that exists within the “hidden curriculum.”

Dr. Chomilo discussed how personal experiences of racism can lead to worse health outcomes, including depression, obesity, and overall poor health. Dr. Mathews, also of HealthPartners, discussed how implicit biases can be addressed at the individual level, the organizational level, and simultaneously at both levels to create an antiracist culture. He presented strategies to mitigate individual biases; recognizing when biases may be triggered, checking biases at the door, connecting with others from different backgrounds as equals, and practicing antiracism by being an active bystander. Dr. Chomilo concluded the session by sharing that we can all grow by addressing racism at “our houses” (health care systems, medical schools, payer systems) with the goal to create an antiracist system.
 

Key takeaways

• Racial disparities are a symptom of structural racism that has been propagated in medicine for centuries.
• Addressing implicit biases at the individual level, organization level, and simultaneously at both levels can help leaders model and promote an antiracism culture.

HM20 Virtual session: When Grief and Crises Intersect: Perspectives of a Black Physician in the Time of Two Pandemics

Presenter: Kimberly Manning, MD, FACP, FAAP

Dr. Kimberly Manning, of Emory University in Atlanta, discussed the dual pandemics of COVID-19 and the racism that we are currently experiencing and tried to describe the unique perspective of Black Americans. Though it is easy to see that COVID-19 is a pandemic, racism is not always seen in this way. Dr. Manning demonstrated that, when a pandemic is defined as “that which occurs over a wide geographic area and affects a high proportion of the population,” racism is absolutely a pandemic. Black Americans have been disproportionately affected by COVID-19. Dr. Manning said we often hear that we are in unprecedented times but as far as racism is concerned, there is nothing new about this. She shared stories of personal milestones and how each of these instances, though marked by something beautiful, was also marked by something truly awful. Each time she had a reason to smile, there was something awful going on in the country that showed how racism was still present. Dr. Manning described that, though these were her stories, all Black Americans can recount the same stories, emotions, and feelings of grief.

Dr. Manning concluded by sharing how we can “Do The Work” to combat the pandemic of racism: broaden our funds of knowledge, remember that people are grieving, explore our implicit biases, be brave bystanders, and avoid performative allyship
 

Key takeaways

• Though the COVID19 pandemic is unprecedented, the pandemic of racism is not.
• We must “Do The Work” to combat everyday racism and to be cognizant of what our Black colleagues are going through every day.

Immigrant hospitalist challenges

HM20 Virtual session: The Immigrant Hospitalist: Navigating the Uncertain Terrain During COVID-19

Presenters: Manpreet S. Malik, MD, FHM, and Benji K. Mathews, MD, SFHM

Dr. Malik of Emory University in Atlanta, and Dr. Mathews of HealthPartners, opened this session by sharing their personal stories as immigrant physicians in the United States. Dr. Malik noted that physicians born outside the United States make up 29% of U.S. physicians, and 32% of hospitalists are international medical graduates.

The presenters revealed the structural hurdles immigrant physicians face, including lack of empowerment until achieving permanent residency status; limited leadership, administrative, and academic roles; concerns for job security and financial stability; and experiencing micro- and macroaggressions at work. The presenters shared a framework for a developmental orientation inclined toward cultural competency beginning with denial, followed by polarization, progressing to minimization, advancing to acceptance, and culminating in adaptation.

They concluded the session by stressing the importance of advocacy for immigrant physicians and encouraged colleagues to become engaged in efforts within their professional organizations.
 

Key takeaway

• Immigrant physicians experience structural challenges to their professional advancement because of their residency status.

Learner supervision

HM20 Virtual session: Call Me Maybe: Balancing Resident Autonomy With Sensible Supervision

Presenter: Daniel Steinberg, MD, SFHM, FACP

Dr. Steinberg, based at Mount Sinai in New York, explained that resident supervision is driven by three factors: what residents need, what residents want, and what the supervisor can provide. Although data is mixed as to whether supervision improves patient outcomes, supervision is essential for patient care and resident education. Dr. Steinberg showcased several relevant medical education studies related to supervision and focused on a key question: Do you trust the resident? The review of medical education literature discussed the meaning and development of trust, oral case presentations to determine trust, and the influence of supervisor experience.

Key takeaways

• Resident supervision is driven by what residents need, what residents want, and what the supervisor can provide.
• Trust can be determined from direct supervision, oral presentations, and remote access of electronic medical records, but is also influenced by attending experience and style.

Balancing personal and professional life

HM20 Virtual session: Being a Hospitalist and a Parent: Balancing Roles With Grace

Presenters: Heather E. Nye, MD, PhD, SFHM, and David Alfandre, MD, MSPH

Dr. Nye of the University of California, San Francisco, and Dr. Alfandre of New York University shared their challenges as hospitalists, parents, and partners before and during the COVID-19 pandemic. They described their feelings of guilt during the pandemic related to increasing their families’ infection risks, as well as the gratitude they felt for having stable jobs during the crisis. They shared solutions that worked for their families, including cooperating with their partners, expressing their scheduling needs, and negotiating to meet those needs with their employers.

Dr. Nye and Dr. Alfandre recommended staying connected with others for help, including partners, institutions, neighbors, and colleagues. They also recommended supporting, sharing, collaborating, and connecting with their partners and colleagues to maintain a balanced professional and personal life.
 

Key takeaway:

• Stay connected and support, collaborate, and share with your colleagues and partner at home.

Dr. Kumar is the pediatric editor of The Hospitalist. She is clinical assistant professor of pediatrics at the Cleveland Clinic Lerner College of Medicine at Case Western Reserve University and a pediatric hospitalist at Cleveland Clinic Children’s. Dr. Doraiswamy is an assistant professor of medicine and pediatrics and a med-peds hospitalist at The Ohio State University and Nationwide Children’s Hospital, both in Columbus. Dr. Tantoco is an academic med-peds hospitalist practicing in Northwestern Memorial Hospital, Chicago, and Ann & Robert H. Lurie Children’s Hospital of Chicago.

The HM20 Virtual conference in August was filled with excellent content that can be applied by all hospitalists. This article summarizes key concepts and takeaways for the pediatric hospitalist.

Racism and bias in medicine

HM20 Virtual session: Structural Racism and Bias in Hospital Medicine During Two Pandemics

Presenters: Nathan Chomilo, MD, FAAP, and Benji K. Mathews, MD, SFHM

Dr. Nathan Chomilo, of HealthPartners in Minneapolis, opened the session sharing how racial disparities were a symptom of racism. The presenters explained how structural racism has been propagated in medicine with the Hospital Survey and Construction Act of 1964 that allowed segregated hospitals, as well as the racism that exists within the “hidden curriculum.”

Dr. Chomilo discussed how personal experiences of racism can lead to worse health outcomes, including depression, obesity, and overall poor health. Dr. Mathews, also of HealthPartners, discussed how implicit biases can be addressed at the individual level, the organizational level, and simultaneously at both levels to create an antiracist culture. He presented strategies to mitigate individual biases; recognizing when biases may be triggered, checking biases at the door, connecting with others from different backgrounds as equals, and practicing antiracism by being an active bystander. Dr. Chomilo concluded the session by sharing that we can all grow by addressing racism at “our houses” (health care systems, medical schools, payer systems) with the goal to create an antiracist system.
 

Key takeaways

• Racial disparities are a symptom of structural racism that has been propagated in medicine for centuries.
• Addressing implicit biases at the individual level, organization level, and simultaneously at both levels can help leaders model and promote an antiracism culture.

HM20 Virtual session: When Grief and Crises Intersect: Perspectives of a Black Physician in the Time of Two Pandemics

Presenter: Kimberly Manning, MD, FACP, FAAP

Dr. Kimberly Manning, of Emory University in Atlanta, discussed the dual pandemics of COVID-19 and the racism that we are currently experiencing and tried to describe the unique perspective of Black Americans. Though it is easy to see that COVID-19 is a pandemic, racism is not always seen in this way. Dr. Manning demonstrated that, when a pandemic is defined as “that which occurs over a wide geographic area and affects a high proportion of the population,” racism is absolutely a pandemic. Black Americans have been disproportionately affected by COVID-19. Dr. Manning said we often hear that we are in unprecedented times but as far as racism is concerned, there is nothing new about this. She shared stories of personal milestones and how each of these instances, though marked by something beautiful, was also marked by something truly awful. Each time she had a reason to smile, there was something awful going on in the country that showed how racism was still present. Dr. Manning described that, though these were her stories, all Black Americans can recount the same stories, emotions, and feelings of grief.

Dr. Manning concluded by sharing how we can “Do The Work” to combat the pandemic of racism: broaden our funds of knowledge, remember that people are grieving, explore our implicit biases, be brave bystanders, and avoid performative allyship
 

Key takeaways

• Though the COVID19 pandemic is unprecedented, the pandemic of racism is not.
• We must “Do The Work” to combat everyday racism and to be cognizant of what our Black colleagues are going through every day.

Immigrant hospitalist challenges

HM20 Virtual session: The Immigrant Hospitalist: Navigating the Uncertain Terrain During COVID-19

Presenters: Manpreet S. Malik, MD, FHM, and Benji K. Mathews, MD, SFHM

Dr. Malik of Emory University in Atlanta, and Dr. Mathews of HealthPartners, opened this session by sharing their personal stories as immigrant physicians in the United States. Dr. Malik noted that physicians born outside the United States make up 29% of U.S. physicians, and 32% of hospitalists are international medical graduates.

The presenters revealed the structural hurdles immigrant physicians face, including lack of empowerment until achieving permanent residency status; limited leadership, administrative, and academic roles; concerns for job security and financial stability; and experiencing micro- and macroaggressions at work. The presenters shared a framework for a developmental orientation inclined toward cultural competency beginning with denial, followed by polarization, progressing to minimization, advancing to acceptance, and culminating in adaptation.

They concluded the session by stressing the importance of advocacy for immigrant physicians and encouraged colleagues to become engaged in efforts within their professional organizations.
 

Key takeaway

• Immigrant physicians experience structural challenges to their professional advancement because of their residency status.

Learner supervision

HM20 Virtual session: Call Me Maybe: Balancing Resident Autonomy With Sensible Supervision

Presenter: Daniel Steinberg, MD, SFHM, FACP

Dr. Steinberg, based at Mount Sinai in New York, explained that resident supervision is driven by three factors: what residents need, what residents want, and what the supervisor can provide. Although data is mixed as to whether supervision improves patient outcomes, supervision is essential for patient care and resident education. Dr. Steinberg showcased several relevant medical education studies related to supervision and focused on a key question: Do you trust the resident? The review of medical education literature discussed the meaning and development of trust, oral case presentations to determine trust, and the influence of supervisor experience.

Key takeaways

• Resident supervision is driven by what residents need, what residents want, and what the supervisor can provide.
• Trust can be determined from direct supervision, oral presentations, and remote access of electronic medical records, but is also influenced by attending experience and style.

Balancing personal and professional life

HM20 Virtual session: Being a Hospitalist and a Parent: Balancing Roles With Grace

Presenters: Heather E. Nye, MD, PhD, SFHM, and David Alfandre, MD, MSPH

Dr. Nye of the University of California, San Francisco, and Dr. Alfandre of New York University shared their challenges as hospitalists, parents, and partners before and during the COVID-19 pandemic. They described their feelings of guilt during the pandemic related to increasing their families’ infection risks, as well as the gratitude they felt for having stable jobs during the crisis. They shared solutions that worked for their families, including cooperating with their partners, expressing their scheduling needs, and negotiating to meet those needs with their employers.

Dr. Nye and Dr. Alfandre recommended staying connected with others for help, including partners, institutions, neighbors, and colleagues. They also recommended supporting, sharing, collaborating, and connecting with their partners and colleagues to maintain a balanced professional and personal life.
 

Key takeaway:

• Stay connected and support, collaborate, and share with your colleagues and partner at home.

Dr. Kumar is the pediatric editor of The Hospitalist. She is clinical assistant professor of pediatrics at the Cleveland Clinic Lerner College of Medicine at Case Western Reserve University and a pediatric hospitalist at Cleveland Clinic Children’s. Dr. Doraiswamy is an assistant professor of medicine and pediatrics and a med-peds hospitalist at The Ohio State University and Nationwide Children’s Hospital, both in Columbus. Dr. Tantoco is an academic med-peds hospitalist practicing in Northwestern Memorial Hospital, Chicago, and Ann & Robert H. Lurie Children’s Hospital of Chicago.

The HM20 Virtual conference in August was filled with excellent content that can be applied by all hospitalists. This article summarizes key concepts and takeaways for the pediatric hospitalist.

Racism and bias in medicine

HM20 Virtual session: Structural Racism and Bias in Hospital Medicine During Two Pandemics

Presenters: Nathan Chomilo, MD, FAAP, and Benji K. Mathews, MD, SFHM

Dr. Nathan Chomilo, of HealthPartners in Minneapolis, opened the session sharing how racial disparities were a symptom of racism. The presenters explained how structural racism has been propagated in medicine with the Hospital Survey and Construction Act of 1964 that allowed segregated hospitals, as well as the racism that exists within the “hidden curriculum.”

Dr. Chomilo discussed how personal experiences of racism can lead to worse health outcomes, including depression, obesity, and overall poor health. Dr. Mathews, also of HealthPartners, discussed how implicit biases can be addressed at the individual level, the organizational level, and simultaneously at both levels to create an antiracist culture. He presented strategies to mitigate individual biases; recognizing when biases may be triggered, checking biases at the door, connecting with others from different backgrounds as equals, and practicing antiracism by being an active bystander. Dr. Chomilo concluded the session by sharing that we can all grow by addressing racism at “our houses” (health care systems, medical schools, payer systems) with the goal to create an antiracist system.
 

Key takeaways

• Racial disparities are a symptom of structural racism that has been propagated in medicine for centuries.
• Addressing implicit biases at the individual level, organization level, and simultaneously at both levels can help leaders model and promote an antiracism culture.

HM20 Virtual session: When Grief and Crises Intersect: Perspectives of a Black Physician in the Time of Two Pandemics

Presenter: Kimberly Manning, MD, FACP, FAAP

Dr. Kimberly Manning, of Emory University in Atlanta, discussed the dual pandemics of COVID-19 and the racism that we are currently experiencing and tried to describe the unique perspective of Black Americans. Though it is easy to see that COVID-19 is a pandemic, racism is not always seen in this way. Dr. Manning demonstrated that, when a pandemic is defined as “that which occurs over a wide geographic area and affects a high proportion of the population,” racism is absolutely a pandemic. Black Americans have been disproportionately affected by COVID-19. Dr. Manning said we often hear that we are in unprecedented times but as far as racism is concerned, there is nothing new about this. She shared stories of personal milestones and how each of these instances, though marked by something beautiful, was also marked by something truly awful. Each time she had a reason to smile, there was something awful going on in the country that showed how racism was still present. Dr. Manning described that, though these were her stories, all Black Americans can recount the same stories, emotions, and feelings of grief.

Dr. Manning concluded by sharing how we can “Do The Work” to combat the pandemic of racism: broaden our funds of knowledge, remember that people are grieving, explore our implicit biases, be brave bystanders, and avoid performative allyship
 

Key takeaways

• Though the COVID19 pandemic is unprecedented, the pandemic of racism is not.
• We must “Do The Work” to combat everyday racism and to be cognizant of what our Black colleagues are going through every day.

Immigrant hospitalist challenges

HM20 Virtual session: The Immigrant Hospitalist: Navigating the Uncertain Terrain During COVID-19

Presenters: Manpreet S. Malik, MD, FHM, and Benji K. Mathews, MD, SFHM

Dr. Malik of Emory University in Atlanta, and Dr. Mathews of HealthPartners, opened this session by sharing their personal stories as immigrant physicians in the United States. Dr. Malik noted that physicians born outside the United States make up 29% of U.S. physicians, and 32% of hospitalists are international medical graduates.

The presenters revealed the structural hurdles immigrant physicians face, including lack of empowerment until achieving permanent residency status; limited leadership, administrative, and academic roles; concerns for job security and financial stability; and experiencing micro- and macroaggressions at work. The presenters shared a framework for a developmental orientation inclined toward cultural competency beginning with denial, followed by polarization, progressing to minimization, advancing to acceptance, and culminating in adaptation.

They concluded the session by stressing the importance of advocacy for immigrant physicians and encouraged colleagues to become engaged in efforts within their professional organizations.
 

Key takeaway

• Immigrant physicians experience structural challenges to their professional advancement because of their residency status.

Learner supervision

HM20 Virtual session: Call Me Maybe: Balancing Resident Autonomy With Sensible Supervision

Presenter: Daniel Steinberg, MD, SFHM, FACP

Dr. Steinberg, based at Mount Sinai in New York, explained that resident supervision is driven by three factors: what residents need, what residents want, and what the supervisor can provide. Although data is mixed as to whether supervision improves patient outcomes, supervision is essential for patient care and resident education. Dr. Steinberg showcased several relevant medical education studies related to supervision and focused on a key question: Do you trust the resident? The review of medical education literature discussed the meaning and development of trust, oral case presentations to determine trust, and the influence of supervisor experience.

Key takeaways

• Resident supervision is driven by what residents need, what residents want, and what the supervisor can provide.
• Trust can be determined from direct supervision, oral presentations, and remote access of electronic medical records, but is also influenced by attending experience and style.

Balancing personal and professional life

HM20 Virtual session: Being a Hospitalist and a Parent: Balancing Roles With Grace

Presenters: Heather E. Nye, MD, PhD, SFHM, and David Alfandre, MD, MSPH

Dr. Nye of the University of California, San Francisco, and Dr. Alfandre of New York University shared their challenges as hospitalists, parents, and partners before and during the COVID-19 pandemic. They described their feelings of guilt during the pandemic related to increasing their families’ infection risks, as well as the gratitude they felt for having stable jobs during the crisis. They shared solutions that worked for their families, including cooperating with their partners, expressing their scheduling needs, and negotiating to meet those needs with their employers.

Dr. Nye and Dr. Alfandre recommended staying connected with others for help, including partners, institutions, neighbors, and colleagues. They also recommended supporting, sharing, collaborating, and connecting with their partners and colleagues to maintain a balanced professional and personal life.
 

Key takeaway:

• Stay connected and support, collaborate, and share with your colleagues and partner at home.

Dr. Kumar is the pediatric editor of The Hospitalist. She is clinical assistant professor of pediatrics at the Cleveland Clinic Lerner College of Medicine at Case Western Reserve University and a pediatric hospitalist at Cleveland Clinic Children’s. Dr. Doraiswamy is an assistant professor of medicine and pediatrics and a med-peds hospitalist at The Ohio State University and Nationwide Children’s Hospital, both in Columbus. Dr. Tantoco is an academic med-peds hospitalist practicing in Northwestern Memorial Hospital, Chicago, and Ann & Robert H. Lurie Children’s Hospital of Chicago.

Stroke may be the first presenting symptom of COVID-19 in younger patients, new research suggests. Investigators carried out a meta-analysis of data, including 160 patients with COVID-19 and stroke, and found that nearly half of patients under the age of 50 were asymptomatic at the time of stroke onset.

Although younger patients had the highest risk of stroke, the highest risk of death was in patients who were older, had other chronic conditions, and had more severe COVID-19–associated respiratory symptoms.

“One of the most eye-opening findings of this study is that, for patients under 50 years old, many were totally asymptomatic when they had a stroke related to COVID-19, [which] means that, for these patients, the stroke was their first symptom of the disease,” lead author Luciano Sposato, MD, MBA, associate professor and chair in stroke research at Western University, London, Ont.

The study was published online Sept. 15 in Neurology.
 

Anecdotal reports

“In early April of 2020, we realized that COVID-19 was a highly thrombogenic disease,” said Dr. Sposato. “Almost in parallel, I started to see anecdotal reports in social media of strokes occurring in patients with COVID-19, and there were also very few case reports.”

The investigators “thought it would be a good idea to put all the data together in one paper,” he said, and began by conducting a systematic review of 10 published studies of COVID-19 and stroke (n = 125 patients), which were then pooled with 35 unpublished cases from Canada, the United States, and Iran for a total of 160 cases.

The analysis examined in-hospital mortality rates of patients with stroke and COVID-19.

In addition, the researchers conducted a second review of 150 papers, encompassing a final cohort of 3,306 COVID-19 patients with stroke of any type and 5,322 with ischemic stroke.

“Some studies reported data for only ischemic stroke, and some reported data for all strokes considered together, which resulted in a different number of patients on each meta-analysis, with a lower number of ‘any stroke’ cases,” Dr. Sposato explained. “This review looked at the number of patients who developed a stroke during admission and included thousands of patients.”

Dr. Sposato noted that the first review was conducted on single case reports and small case series “to understand the clinical characteristics of strokes in patients with COVID-19 on an individual patient level,” since “large studies, including hundreds of thousands of patients, usually do not provide the level of detail for a descriptive analysis of the clinical characteristics of a disease.”

Cluster analyses were used to “identify specific clinical phenotypes and their relationship with death.” Patients were stratified into three age groups: <50, 50-70, and >70 years (“young,” “middle aged,” and “older,” respectively). The median age was 65 years and 43% were female.
 

Mortality ‘remarkably high’

The review showed that 1.8% (95% confidence interval, 0.9%-3.7%) of patients experienced a new stroke, while 1.5% (95% CI, 0.8%-2.8%) of these experienced an ischemic stroke. “These numbers are higher than historical data for other infectious diseases – for example, 0.75% in SARS-CoV-1, 0.78% in sepsis, and 0.2% in influenza,” Dr. Sposato commented.

Moreover, “this number may be an underestimate, given that many patients die without a confirmed diagnosis and that some patients did not come to the emergency department when experiencing mild symptoms during the first months of the pandemic,” he added.

Focusing on the review of 160 patients, the researchers described in-hospital mortality for strokes of all types and for ischemic strokes alone as “remarkably high” (34.4% [95% CI, 27.2%-42.4%] and 35.7% [95% CI, 27.5%-44.8%], respectively), with most deaths occurring among ischemic stroke patients.

“This high mortality rate is higher than the [roughly] 15% to 30% reported for stroke patients without COVID-19 admitted to intensive care units,” Dr. Sposato said.
 

High-risk phenotype

Many “young” COVID-19 patients (under age 50) who had a stroke (42.9%) had no previous risk factors or comorbidities. Moreover, in almost half of these patients (48.3%), stroke was more likely to occur before the onset of any COVID-19 respiratory symptoms.

Additionally, younger patients showed the highest frequency of elevated cardiac troponin compared with middle-aged and older patients (71.4% vs. 48.4% and 27.8%, respectively). On the other hand, mortality was 67% lower in younger versus older patients (odds ratio, 0.33; 95% CI, 0.12-0.94; P = .039).

Dr. Sposato noted that the proportion of ischemic stroke patients with large-vessel occlusion was “higher than previously reported” for patients with stroke without COVID-19 (47% compared with 29%, respectively).

“We should consider COVID-19 as a new cause or risk factor for stroke. At least, patients with stroke should probably be tested for SARS-CoV-2 infection if they are young and present with a large-vessel occlusion, even in the absence of typical COVID-19 respiratory symptoms,” he suggested.

The researchers identified a “high-risk phenotype” for death for all types of stroke considered together: older age, a higher burden of comorbidities, and severe COVID-19 respiratory symptoms. Patients with all three characteristics had the highest in-hospital mortality rate (58.6%) and a threefold risk of death, compared with the rest of the cohort (OR, 3.52; 95% CI, 1.53-8.09; P = .003).

“Several potential mechanisms can explain the increased risk of stroke among COVID-19 patients, but perhaps the most important one is increased thrombogenesis secondary to an exaggerated inflammatory response,” Dr. Sposato said.
 

Not just elders

Commenting on the study, Jodi Edwards, PhD, director of the Brain and Heart Nexus Research Program at the University of Ottawa Heart Institute, said the findings are “consistent with and underscore public health messaging emphasizing that COVID-19 does not only affect the elderly and those with underlying health conditions, but can have serious and even fatal consequences at any age.”

Dr. Edwards, who was not involved with the study, emphasized that “adherence to public health recommendations is critical to begin to reduce the rising incidence in younger adults.”

Dr. Sposato acknowledged that the study was small and that there “can be problems associated with a systematic review of case reports, such as publication bias, lack of completeness of data, etc, so more research is needed.”

Dr. Sposato is supported by the Kathleen & Dr. Henry Barnett Research Chair in Stroke Research at Western University, the Edward and Alma Saraydar Neurosciences Fund of the London Health Sciences Foundation, and the Opportunities Fund of the Academic Health Sciences Centre Alternative Funding Plan of the Academic Medical Organization of Southwestern Ontario. Dr. Sposato reported speaker honoraria from Boehringer Ingelheim, Pfizer, Gore, and Bayer and research/quality improvement grants from Boehringer Ingelheim and Bayer. The other authors’ disclosures are listed on the original article. Dr. Edwards has disclosed no relevant financial relationships.

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

Stroke may be the first presenting symptom of COVID-19 in younger patients, new research suggests. Investigators carried out a meta-analysis of data, including 160 patients with COVID-19 and stroke, and found that nearly half of patients under the age of 50 were asymptomatic at the time of stroke onset.

Although younger patients had the highest risk of stroke, the highest risk of death was in patients who were older, had other chronic conditions, and had more severe COVID-19–associated respiratory symptoms.

“One of the most eye-opening findings of this study is that, for patients under 50 years old, many were totally asymptomatic when they had a stroke related to COVID-19, [which] means that, for these patients, the stroke was their first symptom of the disease,” lead author Luciano Sposato, MD, MBA, associate professor and chair in stroke research at Western University, London, Ont.

The study was published online Sept. 15 in Neurology.
 

Anecdotal reports

“In early April of 2020, we realized that COVID-19 was a highly thrombogenic disease,” said Dr. Sposato. “Almost in parallel, I started to see anecdotal reports in social media of strokes occurring in patients with COVID-19, and there were also very few case reports.”

The investigators “thought it would be a good idea to put all the data together in one paper,” he said, and began by conducting a systematic review of 10 published studies of COVID-19 and stroke (n = 125 patients), which were then pooled with 35 unpublished cases from Canada, the United States, and Iran for a total of 160 cases.

The analysis examined in-hospital mortality rates of patients with stroke and COVID-19.

In addition, the researchers conducted a second review of 150 papers, encompassing a final cohort of 3,306 COVID-19 patients with stroke of any type and 5,322 with ischemic stroke.

“Some studies reported data for only ischemic stroke, and some reported data for all strokes considered together, which resulted in a different number of patients on each meta-analysis, with a lower number of ‘any stroke’ cases,” Dr. Sposato explained. “This review looked at the number of patients who developed a stroke during admission and included thousands of patients.”

Dr. Sposato noted that the first review was conducted on single case reports and small case series “to understand the clinical characteristics of strokes in patients with COVID-19 on an individual patient level,” since “large studies, including hundreds of thousands of patients, usually do not provide the level of detail for a descriptive analysis of the clinical characteristics of a disease.”

Cluster analyses were used to “identify specific clinical phenotypes and their relationship with death.” Patients were stratified into three age groups: <50, 50-70, and >70 years (“young,” “middle aged,” and “older,” respectively). The median age was 65 years and 43% were female.
 

Mortality ‘remarkably high’

The review showed that 1.8% (95% confidence interval, 0.9%-3.7%) of patients experienced a new stroke, while 1.5% (95% CI, 0.8%-2.8%) of these experienced an ischemic stroke. “These numbers are higher than historical data for other infectious diseases – for example, 0.75% in SARS-CoV-1, 0.78% in sepsis, and 0.2% in influenza,” Dr. Sposato commented.

Moreover, “this number may be an underestimate, given that many patients die without a confirmed diagnosis and that some patients did not come to the emergency department when experiencing mild symptoms during the first months of the pandemic,” he added.

Focusing on the review of 160 patients, the researchers described in-hospital mortality for strokes of all types and for ischemic strokes alone as “remarkably high” (34.4% [95% CI, 27.2%-42.4%] and 35.7% [95% CI, 27.5%-44.8%], respectively), with most deaths occurring among ischemic stroke patients.

“This high mortality rate is higher than the [roughly] 15% to 30% reported for stroke patients without COVID-19 admitted to intensive care units,” Dr. Sposato said.
 

High-risk phenotype

Many “young” COVID-19 patients (under age 50) who had a stroke (42.9%) had no previous risk factors or comorbidities. Moreover, in almost half of these patients (48.3%), stroke was more likely to occur before the onset of any COVID-19 respiratory symptoms.

Additionally, younger patients showed the highest frequency of elevated cardiac troponin compared with middle-aged and older patients (71.4% vs. 48.4% and 27.8%, respectively). On the other hand, mortality was 67% lower in younger versus older patients (odds ratio, 0.33; 95% CI, 0.12-0.94; P = .039).

Dr. Sposato noted that the proportion of ischemic stroke patients with large-vessel occlusion was “higher than previously reported” for patients with stroke without COVID-19 (47% compared with 29%, respectively).

“We should consider COVID-19 as a new cause or risk factor for stroke. At least, patients with stroke should probably be tested for SARS-CoV-2 infection if they are young and present with a large-vessel occlusion, even in the absence of typical COVID-19 respiratory symptoms,” he suggested.

The researchers identified a “high-risk phenotype” for death for all types of stroke considered together: older age, a higher burden of comorbidities, and severe COVID-19 respiratory symptoms. Patients with all three characteristics had the highest in-hospital mortality rate (58.6%) and a threefold risk of death, compared with the rest of the cohort (OR, 3.52; 95% CI, 1.53-8.09; P = .003).

“Several potential mechanisms can explain the increased risk of stroke among COVID-19 patients, but perhaps the most important one is increased thrombogenesis secondary to an exaggerated inflammatory response,” Dr. Sposato said.
 

Not just elders

Commenting on the study, Jodi Edwards, PhD, director of the Brain and Heart Nexus Research Program at the University of Ottawa Heart Institute, said the findings are “consistent with and underscore public health messaging emphasizing that COVID-19 does not only affect the elderly and those with underlying health conditions, but can have serious and even fatal consequences at any age.”

Dr. Edwards, who was not involved with the study, emphasized that “adherence to public health recommendations is critical to begin to reduce the rising incidence in younger adults.”

Dr. Sposato acknowledged that the study was small and that there “can be problems associated with a systematic review of case reports, such as publication bias, lack of completeness of data, etc, so more research is needed.”

Dr. Sposato is supported by the Kathleen & Dr. Henry Barnett Research Chair in Stroke Research at Western University, the Edward and Alma Saraydar Neurosciences Fund of the London Health Sciences Foundation, and the Opportunities Fund of the Academic Health Sciences Centre Alternative Funding Plan of the Academic Medical Organization of Southwestern Ontario. Dr. Sposato reported speaker honoraria from Boehringer Ingelheim, Pfizer, Gore, and Bayer and research/quality improvement grants from Boehringer Ingelheim and Bayer. The other authors’ disclosures are listed on the original article. Dr. Edwards has disclosed no relevant financial relationships.

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

Stroke may be the first presenting symptom of COVID-19 in younger patients, new research suggests. Investigators carried out a meta-analysis of data, including 160 patients with COVID-19 and stroke, and found that nearly half of patients under the age of 50 were asymptomatic at the time of stroke onset.

Although younger patients had the highest risk of stroke, the highest risk of death was in patients who were older, had other chronic conditions, and had more severe COVID-19–associated respiratory symptoms.

“One of the most eye-opening findings of this study is that, for patients under 50 years old, many were totally asymptomatic when they had a stroke related to COVID-19, [which] means that, for these patients, the stroke was their first symptom of the disease,” lead author Luciano Sposato, MD, MBA, associate professor and chair in stroke research at Western University, London, Ont.

The study was published online Sept. 15 in Neurology.
 

Anecdotal reports

“In early April of 2020, we realized that COVID-19 was a highly thrombogenic disease,” said Dr. Sposato. “Almost in parallel, I started to see anecdotal reports in social media of strokes occurring in patients with COVID-19, and there were also very few case reports.”

The investigators “thought it would be a good idea to put all the data together in one paper,” he said, and began by conducting a systematic review of 10 published studies of COVID-19 and stroke (n = 125 patients), which were then pooled with 35 unpublished cases from Canada, the United States, and Iran for a total of 160 cases.

The analysis examined in-hospital mortality rates of patients with stroke and COVID-19.

In addition, the researchers conducted a second review of 150 papers, encompassing a final cohort of 3,306 COVID-19 patients with stroke of any type and 5,322 with ischemic stroke.

“Some studies reported data for only ischemic stroke, and some reported data for all strokes considered together, which resulted in a different number of patients on each meta-analysis, with a lower number of ‘any stroke’ cases,” Dr. Sposato explained. “This review looked at the number of patients who developed a stroke during admission and included thousands of patients.”

Dr. Sposato noted that the first review was conducted on single case reports and small case series “to understand the clinical characteristics of strokes in patients with COVID-19 on an individual patient level,” since “large studies, including hundreds of thousands of patients, usually do not provide the level of detail for a descriptive analysis of the clinical characteristics of a disease.”

Cluster analyses were used to “identify specific clinical phenotypes and their relationship with death.” Patients were stratified into three age groups: <50, 50-70, and >70 years (“young,” “middle aged,” and “older,” respectively). The median age was 65 years and 43% were female.
 

Mortality ‘remarkably high’

The review showed that 1.8% (95% confidence interval, 0.9%-3.7%) of patients experienced a new stroke, while 1.5% (95% CI, 0.8%-2.8%) of these experienced an ischemic stroke. “These numbers are higher than historical data for other infectious diseases – for example, 0.75% in SARS-CoV-1, 0.78% in sepsis, and 0.2% in influenza,” Dr. Sposato commented.

Moreover, “this number may be an underestimate, given that many patients die without a confirmed diagnosis and that some patients did not come to the emergency department when experiencing mild symptoms during the first months of the pandemic,” he added.

Focusing on the review of 160 patients, the researchers described in-hospital mortality for strokes of all types and for ischemic strokes alone as “remarkably high” (34.4% [95% CI, 27.2%-42.4%] and 35.7% [95% CI, 27.5%-44.8%], respectively), with most deaths occurring among ischemic stroke patients.

“This high mortality rate is higher than the [roughly] 15% to 30% reported for stroke patients without COVID-19 admitted to intensive care units,” Dr. Sposato said.
 

High-risk phenotype

Many “young” COVID-19 patients (under age 50) who had a stroke (42.9%) had no previous risk factors or comorbidities. Moreover, in almost half of these patients (48.3%), stroke was more likely to occur before the onset of any COVID-19 respiratory symptoms.

Additionally, younger patients showed the highest frequency of elevated cardiac troponin compared with middle-aged and older patients (71.4% vs. 48.4% and 27.8%, respectively). On the other hand, mortality was 67% lower in younger versus older patients (odds ratio, 0.33; 95% CI, 0.12-0.94; P = .039).

Dr. Sposato noted that the proportion of ischemic stroke patients with large-vessel occlusion was “higher than previously reported” for patients with stroke without COVID-19 (47% compared with 29%, respectively).

“We should consider COVID-19 as a new cause or risk factor for stroke. At least, patients with stroke should probably be tested for SARS-CoV-2 infection if they are young and present with a large-vessel occlusion, even in the absence of typical COVID-19 respiratory symptoms,” he suggested.

The researchers identified a “high-risk phenotype” for death for all types of stroke considered together: older age, a higher burden of comorbidities, and severe COVID-19 respiratory symptoms. Patients with all three characteristics had the highest in-hospital mortality rate (58.6%) and a threefold risk of death, compared with the rest of the cohort (OR, 3.52; 95% CI, 1.53-8.09; P = .003).

“Several potential mechanisms can explain the increased risk of stroke among COVID-19 patients, but perhaps the most important one is increased thrombogenesis secondary to an exaggerated inflammatory response,” Dr. Sposato said.
 

Not just elders

Commenting on the study, Jodi Edwards, PhD, director of the Brain and Heart Nexus Research Program at the University of Ottawa Heart Institute, said the findings are “consistent with and underscore public health messaging emphasizing that COVID-19 does not only affect the elderly and those with underlying health conditions, but can have serious and even fatal consequences at any age.”

Dr. Edwards, who was not involved with the study, emphasized that “adherence to public health recommendations is critical to begin to reduce the rising incidence in younger adults.”

Dr. Sposato acknowledged that the study was small and that there “can be problems associated with a systematic review of case reports, such as publication bias, lack of completeness of data, etc, so more research is needed.”

Dr. Sposato is supported by the Kathleen & Dr. Henry Barnett Research Chair in Stroke Research at Western University, the Edward and Alma Saraydar Neurosciences Fund of the London Health Sciences Foundation, and the Opportunities Fund of the Academic Health Sciences Centre Alternative Funding Plan of the Academic Medical Organization of Southwestern Ontario. Dr. Sposato reported speaker honoraria from Boehringer Ingelheim, Pfizer, Gore, and Bayer and research/quality improvement grants from Boehringer Ingelheim and Bayer. The other authors’ disclosures are listed on the original article. Dr. Edwards has disclosed no relevant financial relationships.

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

The Centers for Disease Control and Prevention acknowledged Oct. 5 in updated guidance that COVID-19 can sometimes be spread through the air, especially in enclosed spaces with poor ventilation, when people are more than 6 feet apart.

The information reiterates, however, that “COVID-19 is thought to spread mainly through close contact from person to person, including between people who are physically near each other (within about 6 feet). People who are infected but do not show symptoms can also spread the virus to others.”

In a statement to the media, the CDC said, “Today’s update acknowledges the existence of some published reports showing limited, uncommon circumstances where people with COVID-19 infected others who were more than 6 feet away or shortly after the COVID-19–positive person left an area. In these instances, transmission occurred in poorly ventilated and enclosed spaces that often involved activities that caused heavier breathing, like singing or exercise. Such environments and activities may contribute to the buildup of virus-carrying particles.”

“This is HUGE and been long delayed. But glad it’s now CDC official,” tweeted Eric Feigl-Ding, MD, an epidemiologist and health economist at Harvard University, Boston on Oct. 5.

The CDC announcement follows an abrupt flip-flop on information last month surrounding the aerosol spread of the virus.
 

Information deleted from website last month

On September 18, the CDC had added to its existing guidance that the virus is spread “through respiratory droplets or small particles, such as those in aerosols, produced when an infected person coughs, sneezes, sings, talks, or breathes. These particles can be inhaled into the nose, mouth, airways, and lungs and cause infection.”

The CDC then deleted that guidance on Sept. 21, saying it was a draft update released in error.

A key element of the now-deleted guidance said, “this is thought to be the main way the virus spreads.”

The information updated today reverses the now-deleted guidance and says aerosol transmission is not the main way the virus spreads.

It states that people who are within 6 feet of a person with COVID-19 or have direct contact with that person have the greatest risk of infection.

The CDC reiterated in the statement to the media today, “People can protect themselves from the virus that causes COVID-19 by staying at least 6 feet away from others, wearing a mask that covers their nose and mouth, washing their hands frequently, cleaning touched surfaces often, and staying home when sick.”

Among the journals that have published evidence on aerosol spread is Clinical Infectious Diseases, which, on July 6, published the paper, “It Is Time to Address Airborne Transmission of Coronavirus Disease 2019,” which was supported by 239 scientists.

The authors wrote, “there is significant potential for inhalation exposure to viruses in microscopic respiratory droplets (microdroplets) at short to medium distances (up to several meters, or room scale).”

Aerosols and airborne transmission “are the only way to explain super-spreader events we are seeing,” said Kimberly Prather, PhD, an atmospheric chemist at the University of California at San Diego, in an interview Oct. 5 with the Washington Post.

Dr. Prather added that, once aerosolization is acknowledged, this becomes a “fixable” problem through proper ventilation.

“Wear masks at all times indoors when others are present,” Dr. Prather said. But when inside, she said, there’s no such thing as a completely safe social distance.

This article first appeared on Medscape.com.

The Centers for Disease Control and Prevention acknowledged Oct. 5 in updated guidance that COVID-19 can sometimes be spread through the air, especially in enclosed spaces with poor ventilation, when people are more than 6 feet apart.

The information reiterates, however, that “COVID-19 is thought to spread mainly through close contact from person to person, including between people who are physically near each other (within about 6 feet). People who are infected but do not show symptoms can also spread the virus to others.”

In a statement to the media, the CDC said, “Today’s update acknowledges the existence of some published reports showing limited, uncommon circumstances where people with COVID-19 infected others who were more than 6 feet away or shortly after the COVID-19–positive person left an area. In these instances, transmission occurred in poorly ventilated and enclosed spaces that often involved activities that caused heavier breathing, like singing or exercise. Such environments and activities may contribute to the buildup of virus-carrying particles.”

“This is HUGE and been long delayed. But glad it’s now CDC official,” tweeted Eric Feigl-Ding, MD, an epidemiologist and health economist at Harvard University, Boston on Oct. 5.

The CDC announcement follows an abrupt flip-flop on information last month surrounding the aerosol spread of the virus.
 

Information deleted from website last month

On September 18, the CDC had added to its existing guidance that the virus is spread “through respiratory droplets or small particles, such as those in aerosols, produced when an infected person coughs, sneezes, sings, talks, or breathes. These particles can be inhaled into the nose, mouth, airways, and lungs and cause infection.”

The CDC then deleted that guidance on Sept. 21, saying it was a draft update released in error.

A key element of the now-deleted guidance said, “this is thought to be the main way the virus spreads.”

The information updated today reverses the now-deleted guidance and says aerosol transmission is not the main way the virus spreads.

It states that people who are within 6 feet of a person with COVID-19 or have direct contact with that person have the greatest risk of infection.

The CDC reiterated in the statement to the media today, “People can protect themselves from the virus that causes COVID-19 by staying at least 6 feet away from others, wearing a mask that covers their nose and mouth, washing their hands frequently, cleaning touched surfaces often, and staying home when sick.”

Among the journals that have published evidence on aerosol spread is Clinical Infectious Diseases, which, on July 6, published the paper, “It Is Time to Address Airborne Transmission of Coronavirus Disease 2019,” which was supported by 239 scientists.

The authors wrote, “there is significant potential for inhalation exposure to viruses in microscopic respiratory droplets (microdroplets) at short to medium distances (up to several meters, or room scale).”

Aerosols and airborne transmission “are the only way to explain super-spreader events we are seeing,” said Kimberly Prather, PhD, an atmospheric chemist at the University of California at San Diego, in an interview Oct. 5 with the Washington Post.

Dr. Prather added that, once aerosolization is acknowledged, this becomes a “fixable” problem through proper ventilation.

“Wear masks at all times indoors when others are present,” Dr. Prather said. But when inside, she said, there’s no such thing as a completely safe social distance.

This article first appeared on Medscape.com.

The Centers for Disease Control and Prevention acknowledged Oct. 5 in updated guidance that COVID-19 can sometimes be spread through the air, especially in enclosed spaces with poor ventilation, when people are more than 6 feet apart.

The information reiterates, however, that “COVID-19 is thought to spread mainly through close contact from person to person, including between people who are physically near each other (within about 6 feet). People who are infected but do not show symptoms can also spread the virus to others.”

In a statement to the media, the CDC said, “Today’s update acknowledges the existence of some published reports showing limited, uncommon circumstances where people with COVID-19 infected others who were more than 6 feet away or shortly after the COVID-19–positive person left an area. In these instances, transmission occurred in poorly ventilated and enclosed spaces that often involved activities that caused heavier breathing, like singing or exercise. Such environments and activities may contribute to the buildup of virus-carrying particles.”

“This is HUGE and been long delayed. But glad it’s now CDC official,” tweeted Eric Feigl-Ding, MD, an epidemiologist and health economist at Harvard University, Boston on Oct. 5.

The CDC announcement follows an abrupt flip-flop on information last month surrounding the aerosol spread of the virus.
 

Information deleted from website last month

On September 18, the CDC had added to its existing guidance that the virus is spread “through respiratory droplets or small particles, such as those in aerosols, produced when an infected person coughs, sneezes, sings, talks, or breathes. These particles can be inhaled into the nose, mouth, airways, and lungs and cause infection.”

The CDC then deleted that guidance on Sept. 21, saying it was a draft update released in error.

A key element of the now-deleted guidance said, “this is thought to be the main way the virus spreads.”

The information updated today reverses the now-deleted guidance and says aerosol transmission is not the main way the virus spreads.

It states that people who are within 6 feet of a person with COVID-19 or have direct contact with that person have the greatest risk of infection.

The CDC reiterated in the statement to the media today, “People can protect themselves from the virus that causes COVID-19 by staying at least 6 feet away from others, wearing a mask that covers their nose and mouth, washing their hands frequently, cleaning touched surfaces often, and staying home when sick.”

Among the journals that have published evidence on aerosol spread is Clinical Infectious Diseases, which, on July 6, published the paper, “It Is Time to Address Airborne Transmission of Coronavirus Disease 2019,” which was supported by 239 scientists.

The authors wrote, “there is significant potential for inhalation exposure to viruses in microscopic respiratory droplets (microdroplets) at short to medium distances (up to several meters, or room scale).”

Aerosols and airborne transmission “are the only way to explain super-spreader events we are seeing,” said Kimberly Prather, PhD, an atmospheric chemist at the University of California at San Diego, in an interview Oct. 5 with the Washington Post.

Dr. Prather added that, once aerosolization is acknowledged, this becomes a “fixable” problem through proper ventilation.

“Wear masks at all times indoors when others are present,” Dr. Prather said. But when inside, she said, there’s no such thing as a completely safe social distance.

This article first appeared on Medscape.com.

Substance use disorders (SUD), particularly opioid addiction and smoking, are tied to an increased risk for COVID-19 and serious adverse outcomes including hospitalization and death, new research suggests.

A study funded by the National Institutes of Health assessed electronic health records of more than 73 million patients in the United States. Although only 10.3% of the participants had an SUD, “they represented 15.6% of the COVID-19 cases,” the investigators reported.

In addition, those with a recent diagnosis of SUD were eight times more likely to develop COVID-19 versus those without such a diagnosis. For specific SUDs, the greatest risk was for those with an opioid addiction followed by those who were addicted to cigarettes.

Is nicotine protective?

Dr. Volkow, her fellow senior author Rong Xu, PhD, Case Western Reserve University, Cleveland, and their team conducted the study because data released before the pandemic showed a significant increase in opioid overdose in 2019. “We were in an opioid crisis where we again saw an increase in mortality associated with overdose – and then COVID comes along. So the question was how are people who are already struggling faring? And if they were getting infected [with the coronavirus], what happened to them?”

Patients with SUDs have multiple medical comorbidities that are known risk factors for COVID-19, Dr. Volkow noted.

However, the only specific SUD that has been previously studied in this context is tobacco use disorder, she said. A report from Chinese investigators released early in the pandemic showed that smokers were more likely to be infected by coronavirus and more likely to die from COVID-19.

Interestingly, a cross-sectional study published in April suggested that smoking may be protective against COVID, and Dr. Volkow noted that a clinical study currently being conducted in France is assessing whether wearing a nicotine patch has the potential to prevent the virus.

“That’s very different from looking at a chronic smoker,” she pointed out. “It’s a potential that nicotine as a chemical [could be] a preventive measure as opposed to saying smoking will prevent you from getting COVID.”

Patients with SUDs, said Dr. Volkow, “are likely to be at greater risk because of the effects of drugs in the metabolic system and the interfering with oxygenation in the pulmonary vessels.”

The retrospective case-control study included EHR data from 73.1 million patients. In the study population, 54% were women, 55% were White, 10% Black, 2% Asian, 1% Hispanic/Latino, and the others were classified as other or unknown.

EHRs were collected through June 15 at 360 hospitals in all 50 states and were deidentified to ensure privacy. SUDs included alcohol, tobacco, cannabis, opioid, and cocaine.
 

Racial disparities

Results showed that about 7.5 million participants had a previous SUD diagnosis; of these, 722,370 had been diagnosed within the past year.

Tobacco use disorder was the most common diagnosis (n = 6,414,580), followed by alcohol (1,264,990), cannabis (490,420), opioid (471,520), and cocaine (222,680).

In addition, 12,030 (60% women) were diagnosed with COVID-19 and 1,880 had both COVID-19 and an SUD.

Adjusted analyses revealed that those who had a recent diagnosis of SUD were at a significantly greater increased risk for COVID-19 than individuals without an SUD (adjusted odds ratio, 8.7; 95% confidence interval, 8.4-9.0; P < 10^–30).

This increased risk was greatest in participants with opioid use disorder (aOR, 10.2; 95% CI, 9.1-11.5; P < 10^–30), followed by those with tobacco use disorder (aOR, 8.2; 95% CI, 7.9 - 8.5; P < 10–30).

Alcohol, cocaine, and cannabis had aORs of 7.7, 6.5, and 5.3, respectively. The aOR for lifetime SUD and COVID-19 was 1.5.

Among all patients with COVID-19, hospitalization rates were significantly greater in those with an SUD (43.8%) versus those without (30.1%), as were death rates at 9.6% versus 6.6%, respectively.

Race was a significant risk factor. Black patients with a recent SUD diagnosis were twice as likely as White patients to develop COVID-19 (aOR, 2.2; P < 10^–30), and those specifically with opioid use disorder were four times more likely to develop the disease (aOR, 4.2  P < 10^–25).

Black patients with both COVID-19 and lifetime SUD also had greater hospitalization and death rates versus their White peers (50.7% vs. 35.2% and 13% vs. 8.6%, respectively).

“This surprised me,” Dr. Volkow noted. “You can see the emergence of the racial disparities even under these conditions of really negative outcomes.”
 

Vulnerable populations

Cancer; obesity; HIV; diabetes; cardiovascular disease; and chronic kidney, liver, and lung diseases, which are all risk factors for COVID-19, were more prevalent in the group of patients with a recent SUD diagnosis versus those without.

In addition, asthma, type 2 diabetes, hypertension, obesity, and chronic kidney disease were more prevalent in the Black patents with a recent SUD than in the White patients.

Overall, the findings “identify individuals with SUD as a vulnerable population, especially African Americans with SUDs, who are at significantly increased risk for COVID-19 and its adverse outcomes,” the investigators wrote.

The results also highlight “the need to screen and treat individuals with SUD as part of the strategy to control the pandemic while ensuring no disparities in access to healthcare support,” they added.

Dr. Volkow noted that “marginalization” often occurs for individuals with addiction, making it more difficult for them to access health care services.

“It is incumbent upon clinicians to meet the unique challenges of caring for this vulnerable population, just as they would any other high-risk group,” she said.

“Patients should not just be treated for COVID, but should also be provided with treatment for their substance use disorder,” Dr. Volkow added.
 

‘Pretty convincing’

Andrew J. Saxon, MD, professor in the department of psychiatry and behavioral sciences at the University of Washington, Seattle, called the findings interesting.

“I found it pretty convincing that people who have substance use disorders are probably at higher risk for getting COVID-19 infection and more complications once they are infected,” he said.

Dr. Saxon, who was not involved with the research, is also director of the Center of Excellence in Substance Addiction Treatment and Education and is a member of the American Psychiatric Association’s Council on Addiction Psychiatry.

He noted that an important point from the study was not just about a patient having an SUD being at increased risk for COVID-19 “and a more severe disease trajectory.” Other factors associated with having an SUD, such as increased comorbidities, also likely play a part.

Dr. Saxon agreed that the ongoing opioid epidemic combined with the pandemic led to a “perfect storm” of problems.

“We were making slow but some progress getting more people the medications they need [to treat opioid use disorder], but the pandemic coming along disrupted those efforts. A lot of health care entities had to shut down for a while, seeing patients only remotely,” which led to barriers as many clinicians needed to learn how to proceed using telehealth options, said Dr. Saxon.
 

Universal screening?

Asked whether physicians should screen all patients for SUDs, Dr. Saxon said it’s a complicated question.

“Screening for tobacco and alcohol has a really good evidence base and practices should be doing that. The stigma is there but it’s a lot less than with illegal substances,” he said.

Screening for illegal substances or misuse of prescription substances may not be a good idea in health care settings “when it’s something they can’t do anything about. If you’re going to screen, you would have to have either referral processes in place or treatment available in your facility,” Dr. Saxon said.

Opioid use disorder is “especially amenable to treatment in a primary care or health care setting with prescribers,” he noted.

However, stimulant or cannabis use disorders “require fairly intensive behavioral interventions that are not easy to deliver in many health care settings. And we don›t have the workforce trained up to provide those treatments as widely as they should be,” said Dr. Saxon.

“Unless there’s some way to treat the issue, what’s the point of screening for it? That just creates frustration for patients and clinicians, as well,” he said. “It’s something we’re moving toward but we’re not quite there yet.”

The report authors and Dr. Saxon have disclosed no relevant financial relationships.

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

Substance use disorders (SUD), particularly opioid addiction and smoking, are tied to an increased risk for COVID-19 and serious adverse outcomes including hospitalization and death, new research suggests.

A study funded by the National Institutes of Health assessed electronic health records of more than 73 million patients in the United States. Although only 10.3% of the participants had an SUD, “they represented 15.6% of the COVID-19 cases,” the investigators reported.

In addition, those with a recent diagnosis of SUD were eight times more likely to develop COVID-19 versus those without such a diagnosis. For specific SUDs, the greatest risk was for those with an opioid addiction followed by those who were addicted to cigarettes.

Is nicotine protective?

Dr. Volkow, her fellow senior author Rong Xu, PhD, Case Western Reserve University, Cleveland, and their team conducted the study because data released before the pandemic showed a significant increase in opioid overdose in 2019. “We were in an opioid crisis where we again saw an increase in mortality associated with overdose – and then COVID comes along. So the question was how are people who are already struggling faring? And if they were getting infected [with the coronavirus], what happened to them?”

Patients with SUDs have multiple medical comorbidities that are known risk factors for COVID-19, Dr. Volkow noted.

However, the only specific SUD that has been previously studied in this context is tobacco use disorder, she said. A report from Chinese investigators released early in the pandemic showed that smokers were more likely to be infected by coronavirus and more likely to die from COVID-19.

Interestingly, a cross-sectional study published in April suggested that smoking may be protective against COVID, and Dr. Volkow noted that a clinical study currently being conducted in France is assessing whether wearing a nicotine patch has the potential to prevent the virus.

“That’s very different from looking at a chronic smoker,” she pointed out. “It’s a potential that nicotine as a chemical [could be] a preventive measure as opposed to saying smoking will prevent you from getting COVID.”

Patients with SUDs, said Dr. Volkow, “are likely to be at greater risk because of the effects of drugs in the metabolic system and the interfering with oxygenation in the pulmonary vessels.”

The retrospective case-control study included EHR data from 73.1 million patients. In the study population, 54% were women, 55% were White, 10% Black, 2% Asian, 1% Hispanic/Latino, and the others were classified as other or unknown.

EHRs were collected through June 15 at 360 hospitals in all 50 states and were deidentified to ensure privacy. SUDs included alcohol, tobacco, cannabis, opioid, and cocaine.
 

Racial disparities

Results showed that about 7.5 million participants had a previous SUD diagnosis; of these, 722,370 had been diagnosed within the past year.

Tobacco use disorder was the most common diagnosis (n = 6,414,580), followed by alcohol (1,264,990), cannabis (490,420), opioid (471,520), and cocaine (222,680).

In addition, 12,030 (60% women) were diagnosed with COVID-19 and 1,880 had both COVID-19 and an SUD.

Adjusted analyses revealed that those who had a recent diagnosis of SUD were at a significantly greater increased risk for COVID-19 than individuals without an SUD (adjusted odds ratio, 8.7; 95% confidence interval, 8.4-9.0; P < 10^–30).

This increased risk was greatest in participants with opioid use disorder (aOR, 10.2; 95% CI, 9.1-11.5; P < 10^–30), followed by those with tobacco use disorder (aOR, 8.2; 95% CI, 7.9 - 8.5; P < 10–30).

Alcohol, cocaine, and cannabis had aORs of 7.7, 6.5, and 5.3, respectively. The aOR for lifetime SUD and COVID-19 was 1.5.

Among all patients with COVID-19, hospitalization rates were significantly greater in those with an SUD (43.8%) versus those without (30.1%), as were death rates at 9.6% versus 6.6%, respectively.

Race was a significant risk factor. Black patients with a recent SUD diagnosis were twice as likely as White patients to develop COVID-19 (aOR, 2.2; P < 10^–30), and those specifically with opioid use disorder were four times more likely to develop the disease (aOR, 4.2  P < 10^–25).

Black patients with both COVID-19 and lifetime SUD also had greater hospitalization and death rates versus their White peers (50.7% vs. 35.2% and 13% vs. 8.6%, respectively).

“This surprised me,” Dr. Volkow noted. “You can see the emergence of the racial disparities even under these conditions of really negative outcomes.”
 

Vulnerable populations

Cancer; obesity; HIV; diabetes; cardiovascular disease; and chronic kidney, liver, and lung diseases, which are all risk factors for COVID-19, were more prevalent in the group of patients with a recent SUD diagnosis versus those without.

In addition, asthma, type 2 diabetes, hypertension, obesity, and chronic kidney disease were more prevalent in the Black patents with a recent SUD than in the White patients.

Overall, the findings “identify individuals with SUD as a vulnerable population, especially African Americans with SUDs, who are at significantly increased risk for COVID-19 and its adverse outcomes,” the investigators wrote.

The results also highlight “the need to screen and treat individuals with SUD as part of the strategy to control the pandemic while ensuring no disparities in access to healthcare support,” they added.

Dr. Volkow noted that “marginalization” often occurs for individuals with addiction, making it more difficult for them to access health care services.

“It is incumbent upon clinicians to meet the unique challenges of caring for this vulnerable population, just as they would any other high-risk group,” she said.

“Patients should not just be treated for COVID, but should also be provided with treatment for their substance use disorder,” Dr. Volkow added.
 

‘Pretty convincing’

Andrew J. Saxon, MD, professor in the department of psychiatry and behavioral sciences at the University of Washington, Seattle, called the findings interesting.

“I found it pretty convincing that people who have substance use disorders are probably at higher risk for getting COVID-19 infection and more complications once they are infected,” he said.

Dr. Saxon, who was not involved with the research, is also director of the Center of Excellence in Substance Addiction Treatment and Education and is a member of the American Psychiatric Association’s Council on Addiction Psychiatry.

He noted that an important point from the study was not just about a patient having an SUD being at increased risk for COVID-19 “and a more severe disease trajectory.” Other factors associated with having an SUD, such as increased comorbidities, also likely play a part.

Dr. Saxon agreed that the ongoing opioid epidemic combined with the pandemic led to a “perfect storm” of problems.

“We were making slow but some progress getting more people the medications they need [to treat opioid use disorder], but the pandemic coming along disrupted those efforts. A lot of health care entities had to shut down for a while, seeing patients only remotely,” which led to barriers as many clinicians needed to learn how to proceed using telehealth options, said Dr. Saxon.
 

Universal screening?

Asked whether physicians should screen all patients for SUDs, Dr. Saxon said it’s a complicated question.

“Screening for tobacco and alcohol has a really good evidence base and practices should be doing that. The stigma is there but it’s a lot less than with illegal substances,” he said.

Screening for illegal substances or misuse of prescription substances may not be a good idea in health care settings “when it’s something they can’t do anything about. If you’re going to screen, you would have to have either referral processes in place or treatment available in your facility,” Dr. Saxon said.

Opioid use disorder is “especially amenable to treatment in a primary care or health care setting with prescribers,” he noted.

However, stimulant or cannabis use disorders “require fairly intensive behavioral interventions that are not easy to deliver in many health care settings. And we don›t have the workforce trained up to provide those treatments as widely as they should be,” said Dr. Saxon.

“Unless there’s some way to treat the issue, what’s the point of screening for it? That just creates frustration for patients and clinicians, as well,” he said. “It’s something we’re moving toward but we’re not quite there yet.”

The report authors and Dr. Saxon have disclosed no relevant financial relationships.

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

Substance use disorders (SUD), particularly opioid addiction and smoking, are tied to an increased risk for COVID-19 and serious adverse outcomes including hospitalization and death, new research suggests.

A study funded by the National Institutes of Health assessed electronic health records of more than 73 million patients in the United States. Although only 10.3% of the participants had an SUD, “they represented 15.6% of the COVID-19 cases,” the investigators reported.

In addition, those with a recent diagnosis of SUD were eight times more likely to develop COVID-19 versus those without such a diagnosis. For specific SUDs, the greatest risk was for those with an opioid addiction followed by those who were addicted to cigarettes.

Is nicotine protective?

Dr. Volkow, her fellow senior author Rong Xu, PhD, Case Western Reserve University, Cleveland, and their team conducted the study because data released before the pandemic showed a significant increase in opioid overdose in 2019. “We were in an opioid crisis where we again saw an increase in mortality associated with overdose – and then COVID comes along. So the question was how are people who are already struggling faring? And if they were getting infected [with the coronavirus], what happened to them?”

Patients with SUDs have multiple medical comorbidities that are known risk factors for COVID-19, Dr. Volkow noted.

However, the only specific SUD that has been previously studied in this context is tobacco use disorder, she said. A report from Chinese investigators released early in the pandemic showed that smokers were more likely to be infected by coronavirus and more likely to die from COVID-19.

Interestingly, a cross-sectional study published in April suggested that smoking may be protective against COVID, and Dr. Volkow noted that a clinical study currently being conducted in France is assessing whether wearing a nicotine patch has the potential to prevent the virus.

“That’s very different from looking at a chronic smoker,” she pointed out. “It’s a potential that nicotine as a chemical [could be] a preventive measure as opposed to saying smoking will prevent you from getting COVID.”

Patients with SUDs, said Dr. Volkow, “are likely to be at greater risk because of the effects of drugs in the metabolic system and the interfering with oxygenation in the pulmonary vessels.”

The retrospective case-control study included EHR data from 73.1 million patients. In the study population, 54% were women, 55% were White, 10% Black, 2% Asian, 1% Hispanic/Latino, and the others were classified as other or unknown.

EHRs were collected through June 15 at 360 hospitals in all 50 states and were deidentified to ensure privacy. SUDs included alcohol, tobacco, cannabis, opioid, and cocaine.
 

Racial disparities

Results showed that about 7.5 million participants had a previous SUD diagnosis; of these, 722,370 had been diagnosed within the past year.

Tobacco use disorder was the most common diagnosis (n = 6,414,580), followed by alcohol (1,264,990), cannabis (490,420), opioid (471,520), and cocaine (222,680).

In addition, 12,030 (60% women) were diagnosed with COVID-19 and 1,880 had both COVID-19 and an SUD.

Adjusted analyses revealed that those who had a recent diagnosis of SUD were at a significantly greater increased risk for COVID-19 than individuals without an SUD (adjusted odds ratio, 8.7; 95% confidence interval, 8.4-9.0; P < 10^–30).

This increased risk was greatest in participants with opioid use disorder (aOR, 10.2; 95% CI, 9.1-11.5; P < 10^–30), followed by those with tobacco use disorder (aOR, 8.2; 95% CI, 7.9 - 8.5; P < 10–30).

Alcohol, cocaine, and cannabis had aORs of 7.7, 6.5, and 5.3, respectively. The aOR for lifetime SUD and COVID-19 was 1.5.

Among all patients with COVID-19, hospitalization rates were significantly greater in those with an SUD (43.8%) versus those without (30.1%), as were death rates at 9.6% versus 6.6%, respectively.

Race was a significant risk factor. Black patients with a recent SUD diagnosis were twice as likely as White patients to develop COVID-19 (aOR, 2.2; P < 10^–30), and those specifically with opioid use disorder were four times more likely to develop the disease (aOR, 4.2  P < 10^–25).

Black patients with both COVID-19 and lifetime SUD also had greater hospitalization and death rates versus their White peers (50.7% vs. 35.2% and 13% vs. 8.6%, respectively).

“This surprised me,” Dr. Volkow noted. “You can see the emergence of the racial disparities even under these conditions of really negative outcomes.”
 

Vulnerable populations

Cancer; obesity; HIV; diabetes; cardiovascular disease; and chronic kidney, liver, and lung diseases, which are all risk factors for COVID-19, were more prevalent in the group of patients with a recent SUD diagnosis versus those without.

In addition, asthma, type 2 diabetes, hypertension, obesity, and chronic kidney disease were more prevalent in the Black patents with a recent SUD than in the White patients.

Overall, the findings “identify individuals with SUD as a vulnerable population, especially African Americans with SUDs, who are at significantly increased risk for COVID-19 and its adverse outcomes,” the investigators wrote.

The results also highlight “the need to screen and treat individuals with SUD as part of the strategy to control the pandemic while ensuring no disparities in access to healthcare support,” they added.

Dr. Volkow noted that “marginalization” often occurs for individuals with addiction, making it more difficult for them to access health care services.

“It is incumbent upon clinicians to meet the unique challenges of caring for this vulnerable population, just as they would any other high-risk group,” she said.

“Patients should not just be treated for COVID, but should also be provided with treatment for their substance use disorder,” Dr. Volkow added.
 

‘Pretty convincing’

Andrew J. Saxon, MD, professor in the department of psychiatry and behavioral sciences at the University of Washington, Seattle, called the findings interesting.

“I found it pretty convincing that people who have substance use disorders are probably at higher risk for getting COVID-19 infection and more complications once they are infected,” he said.

Dr. Saxon, who was not involved with the research, is also director of the Center of Excellence in Substance Addiction Treatment and Education and is a member of the American Psychiatric Association’s Council on Addiction Psychiatry.

He noted that an important point from the study was not just about a patient having an SUD being at increased risk for COVID-19 “and a more severe disease trajectory.” Other factors associated with having an SUD, such as increased comorbidities, also likely play a part.

Dr. Saxon agreed that the ongoing opioid epidemic combined with the pandemic led to a “perfect storm” of problems.

“We were making slow but some progress getting more people the medications they need [to treat opioid use disorder], but the pandemic coming along disrupted those efforts. A lot of health care entities had to shut down for a while, seeing patients only remotely,” which led to barriers as many clinicians needed to learn how to proceed using telehealth options, said Dr. Saxon.
 

Universal screening?

Asked whether physicians should screen all patients for SUDs, Dr. Saxon said it’s a complicated question.

“Screening for tobacco and alcohol has a really good evidence base and practices should be doing that. The stigma is there but it’s a lot less than with illegal substances,” he said.

Screening for illegal substances or misuse of prescription substances may not be a good idea in health care settings “when it’s something they can’t do anything about. If you’re going to screen, you would have to have either referral processes in place or treatment available in your facility,” Dr. Saxon said.

Opioid use disorder is “especially amenable to treatment in a primary care or health care setting with prescribers,” he noted.

However, stimulant or cannabis use disorders “require fairly intensive behavioral interventions that are not easy to deliver in many health care settings. And we don›t have the workforce trained up to provide those treatments as widely as they should be,” said Dr. Saxon.

“Unless there’s some way to treat the issue, what’s the point of screening for it? That just creates frustration for patients and clinicians, as well,” he said. “It’s something we’re moving toward but we’re not quite there yet.”

The report authors and Dr. Saxon have disclosed no relevant financial relationships.

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

Black and Hispanic children comprised significantly more cases of COVID-19, compared with White children, based on data from a large, cross-sectional study of 1,000 cases.

“Data regarding disparities in SARS-CoV-2 infection and outcomes have been, thus far, mostly limited to adults,” wrote Monika K. Goyal, MD, of Children’s National Hospital, Washington, and colleagues. “Additional data further suggest that low socioeconomic status may further exacerbate health outcomes for racial and ethnic minorities.”

In a study published in Pediatrics, the researchers conducted a cross-sectional analysis of 1,000 children from a registry of non–acutely ill pediatric patients seen at a drive-through and walk-up COVID-19 test site.
 

Minority, socioeconomic status affect pediatric outcomes too

Overall, 207 (21%) of the children tested positive for COVID-19; of these 46% were Hispanic, 30% were non-Hispanic Black, and 7% were non-Hispanic White. The median age of the study population was 8 years, and approximately half were male.

The researchers also examined the association of median family income (MFI) using census block group estimates data from the American Community Survey (2014–2018) to represent socioeconomic status.

Infection rates were significantly higher among children in the lowest three quartiles of MFI (24%, 27%, and 38% for quartiles 3, 2, and 1, respectively), compared with the highest quartile of MFI (9%).

After adjusting for age, sex, and MFI, Hispanic children were six times more likely and non-Hispanic Black children were twice as likely to test positive for COVID-19 than non-Hispanic White children (adjusted odds ratios, 6.3 and 2.3, respectively).

The study findings were limited by several factors including the use of clinician-reported ethnicity and thus potential for misclassification, the researchers noted. In addition, the socioeconomic and racial disparities may be underestimated because these groups have less access to primary care, and the study did not allow for confounding variables including housing conditions or occupancy.

“Although it was beyond the scope of this study to understand the causes for these differential rates of infection, the causes may be multifactorial, including, but not limited to, structural factors, poorer access to health care, limited resources, and bias and discrimination,” the researchers noted. In addition, the high infection rate among minority children may be impacted by parents who are less able to telework, find child care, or avoid public transportation, Dr. Goyal and associates wrote.

Future research should address “the modifiable reasons for these observed disparities as well as their differential impact in terms of SARS-CoV-2–related morbidity and mortality outcomes to mitigate the spread of infection and its health effects,” they concluded.
 

How to help

“This study is important because we need to understand which groups of children are at highest risk for SARS-CoV-2 infection in order to maximize efforts for screening, allocating resources, and prioritizing vaccine administration,” Karalyn Kinsella, MD, a pediatrician in private practice in Cheshire, Conn., said in an interview.

Dr. Kinsella said she was not surprised at the higher infection rates in general in minorities and low socioeconomic groups. “We already knew that adult COVID-19 rates were higher for people in certain racial/ethnic groups and those with socioeconomic disadvantages; however, I was shocked by the percentages. That is a huge burden for a population that already has disparities in health outcomes.”

“As the authors cite, this was not a research study of why these groups were more likely to be COVID-19 positive, but they speculated that crowded living conditions, multigenerational families living together, and many minorities being essential workers unable to work from home,” said Dr. Kinsella. Additional factors contributing to higher infection rates may include limited access to care, transportation issues, insurance coverage, schedule challenges, and fear of deportation. Some of these problems might be addressed by coming into communities in mobile vans, visiting community health centers and schools with free educational materials, using masks and hand sanitizer, and offering free access to testing.

“Future studies could confirm the cause of this discrepancy, as well as study community-based interventions and their outcomes,” Dr. Kinsella said. In the meantime, a take-home message for clinicians is the need to prioritize screening, resources, and vaccines to reflect the higher rates of SARS-CoV-2 infections in children from disadvantaged racial and socioeconomic backgrounds.

The study received no outside funding. The researchers had no financial conflicts to disclose, but lead author Dr. Goyal is a member of the Pediatrics editorial board. Dr. Kinsella had no financial conflicts to disclose, but serves on the Pediatric News editorial advisory board.

SOURCE: Goyal MK et al. Pediatrics. 2020 Sep 24. doi: 10.1542/peds.2020-009951.

Black and Hispanic children comprised significantly more cases of COVID-19, compared with White children, based on data from a large, cross-sectional study of 1,000 cases.

“Data regarding disparities in SARS-CoV-2 infection and outcomes have been, thus far, mostly limited to adults,” wrote Monika K. Goyal, MD, of Children’s National Hospital, Washington, and colleagues. “Additional data further suggest that low socioeconomic status may further exacerbate health outcomes for racial and ethnic minorities.”

In a study published in Pediatrics, the researchers conducted a cross-sectional analysis of 1,000 children from a registry of non–acutely ill pediatric patients seen at a drive-through and walk-up COVID-19 test site.
 

Minority, socioeconomic status affect pediatric outcomes too

Overall, 207 (21%) of the children tested positive for COVID-19; of these 46% were Hispanic, 30% were non-Hispanic Black, and 7% were non-Hispanic White. The median age of the study population was 8 years, and approximately half were male.

The researchers also examined the association of median family income (MFI) using census block group estimates data from the American Community Survey (2014–2018) to represent socioeconomic status.

Infection rates were significantly higher among children in the lowest three quartiles of MFI (24%, 27%, and 38% for quartiles 3, 2, and 1, respectively), compared with the highest quartile of MFI (9%).

After adjusting for age, sex, and MFI, Hispanic children were six times more likely and non-Hispanic Black children were twice as likely to test positive for COVID-19 than non-Hispanic White children (adjusted odds ratios, 6.3 and 2.3, respectively).

The study findings were limited by several factors including the use of clinician-reported ethnicity and thus potential for misclassification, the researchers noted. In addition, the socioeconomic and racial disparities may be underestimated because these groups have less access to primary care, and the study did not allow for confounding variables including housing conditions or occupancy.

“Although it was beyond the scope of this study to understand the causes for these differential rates of infection, the causes may be multifactorial, including, but not limited to, structural factors, poorer access to health care, limited resources, and bias and discrimination,” the researchers noted. In addition, the high infection rate among minority children may be impacted by parents who are less able to telework, find child care, or avoid public transportation, Dr. Goyal and associates wrote.

Future research should address “the modifiable reasons for these observed disparities as well as their differential impact in terms of SARS-CoV-2–related morbidity and mortality outcomes to mitigate the spread of infection and its health effects,” they concluded.
 

How to help

“This study is important because we need to understand which groups of children are at highest risk for SARS-CoV-2 infection in order to maximize efforts for screening, allocating resources, and prioritizing vaccine administration,” Karalyn Kinsella, MD, a pediatrician in private practice in Cheshire, Conn., said in an interview.

Dr. Kinsella said she was not surprised at the higher infection rates in general in minorities and low socioeconomic groups. “We already knew that adult COVID-19 rates were higher for people in certain racial/ethnic groups and those with socioeconomic disadvantages; however, I was shocked by the percentages. That is a huge burden for a population that already has disparities in health outcomes.”

“As the authors cite, this was not a research study of why these groups were more likely to be COVID-19 positive, but they speculated that crowded living conditions, multigenerational families living together, and many minorities being essential workers unable to work from home,” said Dr. Kinsella. Additional factors contributing to higher infection rates may include limited access to care, transportation issues, insurance coverage, schedule challenges, and fear of deportation. Some of these problems might be addressed by coming into communities in mobile vans, visiting community health centers and schools with free educational materials, using masks and hand sanitizer, and offering free access to testing.

“Future studies could confirm the cause of this discrepancy, as well as study community-based interventions and their outcomes,” Dr. Kinsella said. In the meantime, a take-home message for clinicians is the need to prioritize screening, resources, and vaccines to reflect the higher rates of SARS-CoV-2 infections in children from disadvantaged racial and socioeconomic backgrounds.

The study received no outside funding. The researchers had no financial conflicts to disclose, but lead author Dr. Goyal is a member of the Pediatrics editorial board. Dr. Kinsella had no financial conflicts to disclose, but serves on the Pediatric News editorial advisory board.

SOURCE: Goyal MK et al. Pediatrics. 2020 Sep 24. doi: 10.1542/peds.2020-009951.

Black and Hispanic children comprised significantly more cases of COVID-19, compared with White children, based on data from a large, cross-sectional study of 1,000 cases.

“Data regarding disparities in SARS-CoV-2 infection and outcomes have been, thus far, mostly limited to adults,” wrote Monika K. Goyal, MD, of Children’s National Hospital, Washington, and colleagues. “Additional data further suggest that low socioeconomic status may further exacerbate health outcomes for racial and ethnic minorities.”

In a study published in Pediatrics, the researchers conducted a cross-sectional analysis of 1,000 children from a registry of non–acutely ill pediatric patients seen at a drive-through and walk-up COVID-19 test site.
 

Minority, socioeconomic status affect pediatric outcomes too

Overall, 207 (21%) of the children tested positive for COVID-19; of these 46% were Hispanic, 30% were non-Hispanic Black, and 7% were non-Hispanic White. The median age of the study population was 8 years, and approximately half were male.

The researchers also examined the association of median family income (MFI) using census block group estimates data from the American Community Survey (2014–2018) to represent socioeconomic status.

Infection rates were significantly higher among children in the lowest three quartiles of MFI (24%, 27%, and 38% for quartiles 3, 2, and 1, respectively), compared with the highest quartile of MFI (9%).

After adjusting for age, sex, and MFI, Hispanic children were six times more likely and non-Hispanic Black children were twice as likely to test positive for COVID-19 than non-Hispanic White children (adjusted odds ratios, 6.3 and 2.3, respectively).

The study findings were limited by several factors including the use of clinician-reported ethnicity and thus potential for misclassification, the researchers noted. In addition, the socioeconomic and racial disparities may be underestimated because these groups have less access to primary care, and the study did not allow for confounding variables including housing conditions or occupancy.

“Although it was beyond the scope of this study to understand the causes for these differential rates of infection, the causes may be multifactorial, including, but not limited to, structural factors, poorer access to health care, limited resources, and bias and discrimination,” the researchers noted. In addition, the high infection rate among minority children may be impacted by parents who are less able to telework, find child care, or avoid public transportation, Dr. Goyal and associates wrote.

Future research should address “the modifiable reasons for these observed disparities as well as their differential impact in terms of SARS-CoV-2–related morbidity and mortality outcomes to mitigate the spread of infection and its health effects,” they concluded.
 

How to help

“This study is important because we need to understand which groups of children are at highest risk for SARS-CoV-2 infection in order to maximize efforts for screening, allocating resources, and prioritizing vaccine administration,” Karalyn Kinsella, MD, a pediatrician in private practice in Cheshire, Conn., said in an interview.

Dr. Kinsella said she was not surprised at the higher infection rates in general in minorities and low socioeconomic groups. “We already knew that adult COVID-19 rates were higher for people in certain racial/ethnic groups and those with socioeconomic disadvantages; however, I was shocked by the percentages. That is a huge burden for a population that already has disparities in health outcomes.”

“As the authors cite, this was not a research study of why these groups were more likely to be COVID-19 positive, but they speculated that crowded living conditions, multigenerational families living together, and many minorities being essential workers unable to work from home,” said Dr. Kinsella. Additional factors contributing to higher infection rates may include limited access to care, transportation issues, insurance coverage, schedule challenges, and fear of deportation. Some of these problems might be addressed by coming into communities in mobile vans, visiting community health centers and schools with free educational materials, using masks and hand sanitizer, and offering free access to testing.

“Future studies could confirm the cause of this discrepancy, as well as study community-based interventions and their outcomes,” Dr. Kinsella said. In the meantime, a take-home message for clinicians is the need to prioritize screening, resources, and vaccines to reflect the higher rates of SARS-CoV-2 infections in children from disadvantaged racial and socioeconomic backgrounds.

The study received no outside funding. The researchers had no financial conflicts to disclose, but lead author Dr. Goyal is a member of the Pediatrics editorial board. Dr. Kinsella had no financial conflicts to disclose, but serves on the Pediatric News editorial advisory board.

SOURCE: Goyal MK et al. Pediatrics. 2020 Sep 24. doi: 10.1542/peds.2020-009951.

Parents who did not vaccinate their children against influenza last year were significantly less likely to do so this year than parents whose children were vaccinated last year, based on survey data from more than 2,000 parents with babies and young children.

Choreograph/Thinkstock

“Pediatric vaccination will be an important component to mitigating a dual influenza/COVID-19 epidemic,” Rebeccah L. Sokol, PhD, of Wayne State University, Detroit, and Anna H. Grummon, PhD, of Harvard School of Public Health, Boston, reported in Pediatrics.

Although the pandemic has increased acceptance of some healthy behaviors including handwashing and social distancing, the impact on influenza vaccination rates remains unknown, they said.

To assess parents’ current intentions for flu vaccination of young children this season, the researchers conducted an online survey of 2,164 parents or guardians of children aged between 6 months and 5 years in the United States. The 15-minute online survey was conducted in May 2020 and participants received gift cards. The primary outcome was the impact of the COVID-19 pandemic on parental intentions for having their child vaccinated against seasonal flu this year.

“We measured change categorically, with response options ranging from 1 (I became much less likely to get my child the flu shot next year) to 5 (I became much more likely to get my child the flu shot next year),” the researchers said.
 

Pandemic changes some parents’ plans

Overall, 60% of parents said that the ongoing pandemic had altered their flu vaccination intentions for their children. About 34% percent of parents whose children did not receive flu vaccine last year said they would not seek the vaccine this year because of the pandemic, compared with 25% of parents whose children received last year’s flu vaccine, a statistically significant difference (P < .001).

Approximately 21% of parents whose children received no flu vaccine last year said the pandemic made them more likely to seek vaccination for the 2020-2021 season, compared with 38% of parents whose children received last year’s flu vaccine.

“These results suggest that overall seasonal influenza vaccination rates may not increase simply because of an ongoing infectious disease pandemic. Instead, a significant predictor of future behavior remains past behavior,” Dr. Sokol and Dr. Grummon said.

The study findings were limited by several factors including the use of a convenience sample and the timing of the survey in May 2020, meaning that survey results might not be generalizable this fall as the pandemic persists, they noted. “Additionally, we assessed intentions to vaccinate; future research will clarify the COVID-19 pandemic’s influence on actual vaccination behaviors.”

The challenge of how to increase uptake of the influenza vaccine during the era of COVID-19 remains, and targeted efforts could include social norms messaging through social media, mass media, or health care providers to increase parents’ intentions to vaccinate, as well as vaccination reminders and presumptive announcements from health care providers that present vaccination as the default option, the researchers added.
 

Potential for ‘twindemic’ is real

The uptake of flu vaccination is especially important this year, Christopher J. Harrison, MD, director of the vaccine and treatment evaluation unit and professor of pediatrics at the University of Missouri–Kansas City, said in an interview.

“This year we are entering a flu season where the certainty of the timing as well as the potential severity of the season are not known. That said, social distancing and wearing masks – to the extent that enough people conform to COVID-19 precautions – could delay or even blunt the usual influenza season,” he noted.

Unfortunately, the Centers for Disease Control and Prevention and the Food and Drug Administration have had their credibility damaged by the challenges of creating a successful response on the fly to a uniquely multifaceted virus to which previous rules do not apply, Dr. Harrison said. In addition, public confidence was eroded when information about testing and reopening policies were released by non-CDC nonscientists and labeled “CDC recommended,” with no opportunity for the scientific community to correct inaccuracies.

“The current study reveals that public trust in influenza vaccine and indirectly in health authorities has been affected by the pandemic,” said Dr. Harrison. “Vaccine hesitancy has increased somewhat even among previous vaccine accepters. One wonders if promises of a quick COVID-19 vaccine increased mistrust of the FDA because of safety concerns, even among the most ardent provaccine population, and whether these concerns are bleeding over into influenza vaccine concerns.

“This only adds to the anxiety that families feel about visiting any medical facility for routine vaccines while the pandemic rages, and we now are in a fall SARS-CoV-2 resurgence,” he added.

Although the current study data are concerning, “there could still be a net gain of pediatric influenza vaccine uptake this season because the 34% less likely to immunize among previously nonimmunizing families would be counterbalanced by 21% of the same group being more likely to immunize their children [theoretical net loss of 13%],” Dr. Harrison explained. “But the pandemic seems to have motivated previously influenza-immunizing families, i.e. while 24% were less likely, 39% are more likely to immunize [theoretical net gain of 15%]. That said, we would still be way short of the number needed to get to herd immunity.”

Dr. Harrison said he found the findings somewhat surprising, but perhaps he should not have. “I had hoped for more acceptance rather than most people staying in their prior vaccine ‘opinion lanes,’ ending up with likely little overall net change in plans to immunize despite increased health awareness caused by a pandemic.”

However, “the U.S. population has been polarized on vaccines and particularly influenza vaccines for more than 50 years, so why would a pandemic make us less polarized, particularly when the pandemic itself has been a polarizing event?” he questioned.

The greatest barriers to flu vaccination for children this year include a lack of motivation among families to visit immunization sites, given the ongoing need for social distancing and masks, Dr. Harrison said.

“Another barrier is the waning public confidence in our medical/scientific national leaders and organizations,” he emphasized. “This makes it crucial that primary care providers step up and be extra strong vaccine advocates, despite the fact that pandemic economics and necessary safety processes have stressed providers and devastated practices. Indeed, in times of medical stress, no one gets more trust from families than their own personal provider.”

Ultimately, avenues for future research include asking diverse groups of families what they feel they need to hear to be more engaged in immunizing children against influenza. But for now, the current study findings identify that “the public is not uniformly responding to the pandemic’s influence on their likelihood of immunizing their children against influenza,” Dr. Harrison said.

“We now know the size of the problem and hopefully governments, public health organizations, pediatric advocates and clinical care givers can find ways to magnify the message that a pandemic year is not a year to avoid seasonal influenza vaccine unless one has a true contraindication,” Dr. Harrison said.

In addition, “one wonders if the poll were taken today – post the president’s COVID-19 illness – would the answers be different?” he noted.

Dr. Sokol’s work was supported in part by the Eunice Kennedy Shriver National Institute of Child Health and Human Development but otherwise had no financial conflicts to disclose. Dr. Harrison disclosed that his institution receives grant funding from Merck, Pfizer, and GlaxoSmithKline for pediatric noninfluenza vaccine studies on which he is a subinvestigator, and support from the CDC for pediatric respiratory and gastrointestinal virus surveillance studies on which he is an investigator.

SOURCE: Sokol RL, Grummon AH. Pediatrics. 2020 Sep 30. doi: 10.1542/peds.2020-022871.

Parents who did not vaccinate their children against influenza last year were significantly less likely to do so this year than parents whose children were vaccinated last year, based on survey data from more than 2,000 parents with babies and young children.

Choreograph/Thinkstock

“Pediatric vaccination will be an important component to mitigating a dual influenza/COVID-19 epidemic,” Rebeccah L. Sokol, PhD, of Wayne State University, Detroit, and Anna H. Grummon, PhD, of Harvard School of Public Health, Boston, reported in Pediatrics.

Although the pandemic has increased acceptance of some healthy behaviors including handwashing and social distancing, the impact on influenza vaccination rates remains unknown, they said.

To assess parents’ current intentions for flu vaccination of young children this season, the researchers conducted an online survey of 2,164 parents or guardians of children aged between 6 months and 5 years in the United States. The 15-minute online survey was conducted in May 2020 and participants received gift cards. The primary outcome was the impact of the COVID-19 pandemic on parental intentions for having their child vaccinated against seasonal flu this year.

“We measured change categorically, with response options ranging from 1 (I became much less likely to get my child the flu shot next year) to 5 (I became much more likely to get my child the flu shot next year),” the researchers said.
 

Pandemic changes some parents’ plans

Overall, 60% of parents said that the ongoing pandemic had altered their flu vaccination intentions for their children. About 34% percent of parents whose children did not receive flu vaccine last year said they would not seek the vaccine this year because of the pandemic, compared with 25% of parents whose children received last year’s flu vaccine, a statistically significant difference (P < .001).

Approximately 21% of parents whose children received no flu vaccine last year said the pandemic made them more likely to seek vaccination for the 2020-2021 season, compared with 38% of parents whose children received last year’s flu vaccine.

“These results suggest that overall seasonal influenza vaccination rates may not increase simply because of an ongoing infectious disease pandemic. Instead, a significant predictor of future behavior remains past behavior,” Dr. Sokol and Dr. Grummon said.

The study findings were limited by several factors including the use of a convenience sample and the timing of the survey in May 2020, meaning that survey results might not be generalizable this fall as the pandemic persists, they noted. “Additionally, we assessed intentions to vaccinate; future research will clarify the COVID-19 pandemic’s influence on actual vaccination behaviors.”

The challenge of how to increase uptake of the influenza vaccine during the era of COVID-19 remains, and targeted efforts could include social norms messaging through social media, mass media, or health care providers to increase parents’ intentions to vaccinate, as well as vaccination reminders and presumptive announcements from health care providers that present vaccination as the default option, the researchers added.
 

Potential for ‘twindemic’ is real

The uptake of flu vaccination is especially important this year, Christopher J. Harrison, MD, director of the vaccine and treatment evaluation unit and professor of pediatrics at the University of Missouri–Kansas City, said in an interview.

“This year we are entering a flu season where the certainty of the timing as well as the potential severity of the season are not known. That said, social distancing and wearing masks – to the extent that enough people conform to COVID-19 precautions – could delay or even blunt the usual influenza season,” he noted.

Unfortunately, the Centers for Disease Control and Prevention and the Food and Drug Administration have had their credibility damaged by the challenges of creating a successful response on the fly to a uniquely multifaceted virus to which previous rules do not apply, Dr. Harrison said. In addition, public confidence was eroded when information about testing and reopening policies were released by non-CDC nonscientists and labeled “CDC recommended,” with no opportunity for the scientific community to correct inaccuracies.

“The current study reveals that public trust in influenza vaccine and indirectly in health authorities has been affected by the pandemic,” said Dr. Harrison. “Vaccine hesitancy has increased somewhat even among previous vaccine accepters. One wonders if promises of a quick COVID-19 vaccine increased mistrust of the FDA because of safety concerns, even among the most ardent provaccine population, and whether these concerns are bleeding over into influenza vaccine concerns.

“This only adds to the anxiety that families feel about visiting any medical facility for routine vaccines while the pandemic rages, and we now are in a fall SARS-CoV-2 resurgence,” he added.

Although the current study data are concerning, “there could still be a net gain of pediatric influenza vaccine uptake this season because the 34% less likely to immunize among previously nonimmunizing families would be counterbalanced by 21% of the same group being more likely to immunize their children [theoretical net loss of 13%],” Dr. Harrison explained. “But the pandemic seems to have motivated previously influenza-immunizing families, i.e. while 24% were less likely, 39% are more likely to immunize [theoretical net gain of 15%]. That said, we would still be way short of the number needed to get to herd immunity.”

Dr. Harrison said he found the findings somewhat surprising, but perhaps he should not have. “I had hoped for more acceptance rather than most people staying in their prior vaccine ‘opinion lanes,’ ending up with likely little overall net change in plans to immunize despite increased health awareness caused by a pandemic.”

However, “the U.S. population has been polarized on vaccines and particularly influenza vaccines for more than 50 years, so why would a pandemic make us less polarized, particularly when the pandemic itself has been a polarizing event?” he questioned.

The greatest barriers to flu vaccination for children this year include a lack of motivation among families to visit immunization sites, given the ongoing need for social distancing and masks, Dr. Harrison said.

“Another barrier is the waning public confidence in our medical/scientific national leaders and organizations,” he emphasized. “This makes it crucial that primary care providers step up and be extra strong vaccine advocates, despite the fact that pandemic economics and necessary safety processes have stressed providers and devastated practices. Indeed, in times of medical stress, no one gets more trust from families than their own personal provider.”

Ultimately, avenues for future research include asking diverse groups of families what they feel they need to hear to be more engaged in immunizing children against influenza. But for now, the current study findings identify that “the public is not uniformly responding to the pandemic’s influence on their likelihood of immunizing their children against influenza,” Dr. Harrison said.

“We now know the size of the problem and hopefully governments, public health organizations, pediatric advocates and clinical care givers can find ways to magnify the message that a pandemic year is not a year to avoid seasonal influenza vaccine unless one has a true contraindication,” Dr. Harrison said.

In addition, “one wonders if the poll were taken today – post the president’s COVID-19 illness – would the answers be different?” he noted.

Dr. Sokol’s work was supported in part by the Eunice Kennedy Shriver National Institute of Child Health and Human Development but otherwise had no financial conflicts to disclose. Dr. Harrison disclosed that his institution receives grant funding from Merck, Pfizer, and GlaxoSmithKline for pediatric noninfluenza vaccine studies on which he is a subinvestigator, and support from the CDC for pediatric respiratory and gastrointestinal virus surveillance studies on which he is an investigator.

SOURCE: Sokol RL, Grummon AH. Pediatrics. 2020 Sep 30. doi: 10.1542/peds.2020-022871.

Parents who did not vaccinate their children against influenza last year were significantly less likely to do so this year than parents whose children were vaccinated last year, based on survey data from more than 2,000 parents with babies and young children.

Choreograph/Thinkstock

“Pediatric vaccination will be an important component to mitigating a dual influenza/COVID-19 epidemic,” Rebeccah L. Sokol, PhD, of Wayne State University, Detroit, and Anna H. Grummon, PhD, of Harvard School of Public Health, Boston, reported in Pediatrics.

Although the pandemic has increased acceptance of some healthy behaviors including handwashing and social distancing, the impact on influenza vaccination rates remains unknown, they said.

To assess parents’ current intentions for flu vaccination of young children this season, the researchers conducted an online survey of 2,164 parents or guardians of children aged between 6 months and 5 years in the United States. The 15-minute online survey was conducted in May 2020 and participants received gift cards. The primary outcome was the impact of the COVID-19 pandemic on parental intentions for having their child vaccinated against seasonal flu this year.

“We measured change categorically, with response options ranging from 1 (I became much less likely to get my child the flu shot next year) to 5 (I became much more likely to get my child the flu shot next year),” the researchers said.
 

Pandemic changes some parents’ plans

Overall, 60% of parents said that the ongoing pandemic had altered their flu vaccination intentions for their children. About 34% percent of parents whose children did not receive flu vaccine last year said they would not seek the vaccine this year because of the pandemic, compared with 25% of parents whose children received last year’s flu vaccine, a statistically significant difference (P < .001).

Approximately 21% of parents whose children received no flu vaccine last year said the pandemic made them more likely to seek vaccination for the 2020-2021 season, compared with 38% of parents whose children received last year’s flu vaccine.

“These results suggest that overall seasonal influenza vaccination rates may not increase simply because of an ongoing infectious disease pandemic. Instead, a significant predictor of future behavior remains past behavior,” Dr. Sokol and Dr. Grummon said.

The study findings were limited by several factors including the use of a convenience sample and the timing of the survey in May 2020, meaning that survey results might not be generalizable this fall as the pandemic persists, they noted. “Additionally, we assessed intentions to vaccinate; future research will clarify the COVID-19 pandemic’s influence on actual vaccination behaviors.”

The challenge of how to increase uptake of the influenza vaccine during the era of COVID-19 remains, and targeted efforts could include social norms messaging through social media, mass media, or health care providers to increase parents’ intentions to vaccinate, as well as vaccination reminders and presumptive announcements from health care providers that present vaccination as the default option, the researchers added.
 

Potential for ‘twindemic’ is real

The uptake of flu vaccination is especially important this year, Christopher J. Harrison, MD, director of the vaccine and treatment evaluation unit and professor of pediatrics at the University of Missouri–Kansas City, said in an interview.

“This year we are entering a flu season where the certainty of the timing as well as the potential severity of the season are not known. That said, social distancing and wearing masks – to the extent that enough people conform to COVID-19 precautions – could delay or even blunt the usual influenza season,” he noted.

Unfortunately, the Centers for Disease Control and Prevention and the Food and Drug Administration have had their credibility damaged by the challenges of creating a successful response on the fly to a uniquely multifaceted virus to which previous rules do not apply, Dr. Harrison said. In addition, public confidence was eroded when information about testing and reopening policies were released by non-CDC nonscientists and labeled “CDC recommended,” with no opportunity for the scientific community to correct inaccuracies.

“The current study reveals that public trust in influenza vaccine and indirectly in health authorities has been affected by the pandemic,” said Dr. Harrison. “Vaccine hesitancy has increased somewhat even among previous vaccine accepters. One wonders if promises of a quick COVID-19 vaccine increased mistrust of the FDA because of safety concerns, even among the most ardent provaccine population, and whether these concerns are bleeding over into influenza vaccine concerns.

“This only adds to the anxiety that families feel about visiting any medical facility for routine vaccines while the pandemic rages, and we now are in a fall SARS-CoV-2 resurgence,” he added.

Although the current study data are concerning, “there could still be a net gain of pediatric influenza vaccine uptake this season because the 34% less likely to immunize among previously nonimmunizing families would be counterbalanced by 21% of the same group being more likely to immunize their children [theoretical net loss of 13%],” Dr. Harrison explained. “But the pandemic seems to have motivated previously influenza-immunizing families, i.e. while 24% were less likely, 39% are more likely to immunize [theoretical net gain of 15%]. That said, we would still be way short of the number needed to get to herd immunity.”

Dr. Harrison said he found the findings somewhat surprising, but perhaps he should not have. “I had hoped for more acceptance rather than most people staying in their prior vaccine ‘opinion lanes,’ ending up with likely little overall net change in plans to immunize despite increased health awareness caused by a pandemic.”

However, “the U.S. population has been polarized on vaccines and particularly influenza vaccines for more than 50 years, so why would a pandemic make us less polarized, particularly when the pandemic itself has been a polarizing event?” he questioned.

The greatest barriers to flu vaccination for children this year include a lack of motivation among families to visit immunization sites, given the ongoing need for social distancing and masks, Dr. Harrison said.

“Another barrier is the waning public confidence in our medical/scientific national leaders and organizations,” he emphasized. “This makes it crucial that primary care providers step up and be extra strong vaccine advocates, despite the fact that pandemic economics and necessary safety processes have stressed providers and devastated practices. Indeed, in times of medical stress, no one gets more trust from families than their own personal provider.”

Ultimately, avenues for future research include asking diverse groups of families what they feel they need to hear to be more engaged in immunizing children against influenza. But for now, the current study findings identify that “the public is not uniformly responding to the pandemic’s influence on their likelihood of immunizing their children against influenza,” Dr. Harrison said.

“We now know the size of the problem and hopefully governments, public health organizations, pediatric advocates and clinical care givers can find ways to magnify the message that a pandemic year is not a year to avoid seasonal influenza vaccine unless one has a true contraindication,” Dr. Harrison said.

In addition, “one wonders if the poll were taken today – post the president’s COVID-19 illness – would the answers be different?” he noted.

Dr. Sokol’s work was supported in part by the Eunice Kennedy Shriver National Institute of Child Health and Human Development but otherwise had no financial conflicts to disclose. Dr. Harrison disclosed that his institution receives grant funding from Merck, Pfizer, and GlaxoSmithKline for pediatric noninfluenza vaccine studies on which he is a subinvestigator, and support from the CDC for pediatric respiratory and gastrointestinal virus surveillance studies on which he is an investigator.

SOURCE: Sokol RL, Grummon AH. Pediatrics. 2020 Sep 30. doi: 10.1542/peds.2020-022871.

President Donald Trump’s COVID-19 diagnosis is raising fresh questions about the White House’s strategy for testing and containing the virus for a president whose cavalier attitude about the coronavirus has persisted since it landed on American shores.

The president has said others are tested before getting close to him, appearing to hold it as an iron shield of safety. He has largely eschewed mask-wearing and social distancing in meetings, travel and public events, while holding rallies for thousands of often maskless supporters.

The Trump administration has increasingly pinned its coronavirus testing strategy for the nation on antigen tests, which do not need a traditional lab for processing and quickly return results to patients. But the results are less accurate than those of the slower PCR tests. 

An early antigen test used by the White House was woefully inaccurate. But the new antigen test the White House is using has not been independently evaluated for accuracy and reliability. Moreover, this is the kit the Trump administration is pushing out to thousands of nursing homes to test residents and staff.

Testing “isn’t a ‘get out of jail free card,’” said Dr. Alan Wells, medical director of clinical labs at the University of Pittsburgh Medical Center and creator of its test for the novel coronavirus. In general, antigen tests can miss up to half the cases that are detected by polymerase chain reaction tests, depending on the population of patients tested, he said.

The White House said the president’s diagnosis was confirmed with a PCR test but declined to say which test delivered his initial result. The White House has been using a new antigen test from Abbott Laboratories to screen its staff for COVID-19, according to two administration officials. 

The test, known as BinaxNOW, received an emergency use authorization from the Food and Drug Administration in August. It produces results in 15 minutes. Yet little is independently known about how effective it is. According to the company, the test is 97% accurate in detecting positives and 98.5% accurate in identifying those without disease. Abbott’s stated performance of its antigen test was based on examining people within 7 days of COVID symptoms appearing.

The president and first lady have both had symptoms, according to White House chief of staff Mark Meadows and the first lady’s Twitter account. The president was admitted to Walter Reed National Military Medical Center on Friday evening “out of an abundance of caution,” White House press secretary Kayleigh McEnany said in a statement.

Vice President Mike Pence is also tested daily for the virus and tested negative, spokesperson Devin O’Malley said Friday, but he did not respond to a follow-up question about which test was used.

Trump heavily promoted another Abbott rapid testing device, the ID NOW, earlier this year. But that test relies on different technology than the newer Abbott antigen test.

“I have not seen any independent evaluation of the Binax assay in the literature or in the blogs,” Wells said. “It is an unknown.”

The Department of Health and Human Services announced in August that it had signed a $760 million contract with Abbott for 150 million BinaxNOW antigen tests, which are now being distributed to nursing homes and historically black colleges and universities, as well as to governors to help inform decisions about opening and closing schools. The Big Ten football conference has also pinned playing hopes on the deployment of antigen tests following Trump’s political pressure.

However, even senior federal officials concede that a test alone isn’t likely to stop the spread of a virus that has sickened more than 7 million Americans.

“Testing does not substitute for avoiding crowded indoor spaces, washing hands, or wearing a mask when you can’t physically distance; further, a negative test today does not mean that you won’t be positive tomorrow,” Adm. Brett Giroir, the senior HHS official helming the administration’s testing effort, said in a statement at the time.

Trump could be part of a “super-spreading event,” said Dr. Michael Osterholm, director of the Center for Infectious Disease Research and Policy at the University of Minnesota.

Given the timing of Trump’s positive test — which he announced on Twitter early Friday – his infection “likely happened 5 or more days ago,” Osterholm said. “If so, then he was widely infectious as early as Tuesday,” the day of the first presidential debate in Cleveland.

At least seven people who attended a Rose Garden announcement last Saturday, when Trump announced his nomination of Judge Amy Coney Barrett to the Supreme Court, have since tested positive for the coronavirus. They include Trump’s former adviser Kellyanne Conway, Republican Sens. Mike Lee and Thom Tillis, and the president of the University of Notre Dame, the Rev. John Jenkins.

“Having that many infected people there all at one time, we’re still going to see transmission coming off that event for a couple days,” Osterholm said.

Osterholm notes that about 20% of infected people lead to 80% of COVID-19 cases, because “super spreaders” can infect so many people at once.

He notes that participants and audience members at Tuesday’s debate were separated by at least 6 feet. But 6 feet isn’t always enough to prevent infection, he said.

While many COVID-19 infections appear to be spread by respiratory droplets, which usually fall to the ground within 6 feet, people who are singing or speaking loudly can project virus much further. Evidence also suggests that the novel coronavirus can spread through aerosols, floating in the air like a speck of dust.

“I wonder how much virus was floating in that room that night,” Osterholm said.

Other experts say it’s too soon to say whether Trump was infected in a super-spreader event. “The president and his wife have had many exposures to many people in enclosed venues without protection,” so they could have been infected at any number of places, said Dr. William Schaffner, an infectious disease specialist at the Vanderbilt University School of Medicine. 

Although Democratic presidential candidate and former Vice President Joe Biden tested negative for the virus with a PCR test Friday, experts note that false-negative results are common in the first few days after infection. Test results over the next several days will yield more useful information.

It can take more than a week for the virus to reproduce enough to be detected, Wells said: “You are probably not detectable for 3, 5, 7, even 10 days after you’re exposed.”

In Minnesota, where Trump held an outdoor campaign rally in Duluth with hundreds of attendees Wednesday, health officials warned that a 14-day quarantine is necessary, regardless of test results.

“Anyone who was a direct contact of President Trump or known COVID-19 cases needs to quarantine and should get tested,” the Minnesota Department of Health said.

Ongoing lapses in test result reporting could hamper efforts to track and isolate sick people. As of Sept. 10, 21 states and the District of Columbia were not reporting all antigen test results, according to a KHN investigation, a lapse in reporting that officials say leaves them blind to disease spread. Since then, public health departments in Arizona, North Carolina and South Dakota all have announced plans to add antigen testing to their case reporting.

Requests for comment to the D.C. Department of Health were referred to Mayor Muriel Bowser’s office, which did not respond. District health officials told KHN in early September that the White House does not report antigen test results to them – a potential violation of federal law under the CARES Act, which says any institution performing tests to diagnose COVID-19 must report all results to local or state public health departments.

Dr. Amesh Adalja, a senior scholar at the Johns Hopkins University Center for Health Security, said it’s not surprising that Trump tested positive, given that so many of his close associates – including his national security adviser and Secret Service officers – have also been infected by the virus.

“When you look at the number of social contacts and travel schedules, it’s not surprising,” Adalja said.

Kaiser Health News is a nonprofit news service covering health issues. It is an editorially independent program of KFF (Kaiser Family Foundation), which is not affiliated with Kaiser Permanente.

President Donald Trump’s COVID-19 diagnosis is raising fresh questions about the White House’s strategy for testing and containing the virus for a president whose cavalier attitude about the coronavirus has persisted since it landed on American shores.

The president has said others are tested before getting close to him, appearing to hold it as an iron shield of safety. He has largely eschewed mask-wearing and social distancing in meetings, travel and public events, while holding rallies for thousands of often maskless supporters.

The Trump administration has increasingly pinned its coronavirus testing strategy for the nation on antigen tests, which do not need a traditional lab for processing and quickly return results to patients. But the results are less accurate than those of the slower PCR tests. 

An early antigen test used by the White House was woefully inaccurate. But the new antigen test the White House is using has not been independently evaluated for accuracy and reliability. Moreover, this is the kit the Trump administration is pushing out to thousands of nursing homes to test residents and staff.

Testing “isn’t a ‘get out of jail free card,’” said Dr. Alan Wells, medical director of clinical labs at the University of Pittsburgh Medical Center and creator of its test for the novel coronavirus. In general, antigen tests can miss up to half the cases that are detected by polymerase chain reaction tests, depending on the population of patients tested, he said.

The White House said the president’s diagnosis was confirmed with a PCR test but declined to say which test delivered his initial result. The White House has been using a new antigen test from Abbott Laboratories to screen its staff for COVID-19, according to two administration officials. 

The test, known as BinaxNOW, received an emergency use authorization from the Food and Drug Administration in August. It produces results in 15 minutes. Yet little is independently known about how effective it is. According to the company, the test is 97% accurate in detecting positives and 98.5% accurate in identifying those without disease. Abbott’s stated performance of its antigen test was based on examining people within 7 days of COVID symptoms appearing.

The president and first lady have both had symptoms, according to White House chief of staff Mark Meadows and the first lady’s Twitter account. The president was admitted to Walter Reed National Military Medical Center on Friday evening “out of an abundance of caution,” White House press secretary Kayleigh McEnany said in a statement.

Vice President Mike Pence is also tested daily for the virus and tested negative, spokesperson Devin O’Malley said Friday, but he did not respond to a follow-up question about which test was used.

Trump heavily promoted another Abbott rapid testing device, the ID NOW, earlier this year. But that test relies on different technology than the newer Abbott antigen test.

“I have not seen any independent evaluation of the Binax assay in the literature or in the blogs,” Wells said. “It is an unknown.”

The Department of Health and Human Services announced in August that it had signed a $760 million contract with Abbott for 150 million BinaxNOW antigen tests, which are now being distributed to nursing homes and historically black colleges and universities, as well as to governors to help inform decisions about opening and closing schools. The Big Ten football conference has also pinned playing hopes on the deployment of antigen tests following Trump’s political pressure.

However, even senior federal officials concede that a test alone isn’t likely to stop the spread of a virus that has sickened more than 7 million Americans.

“Testing does not substitute for avoiding crowded indoor spaces, washing hands, or wearing a mask when you can’t physically distance; further, a negative test today does not mean that you won’t be positive tomorrow,” Adm. Brett Giroir, the senior HHS official helming the administration’s testing effort, said in a statement at the time.

Trump could be part of a “super-spreading event,” said Dr. Michael Osterholm, director of the Center for Infectious Disease Research and Policy at the University of Minnesota.

Given the timing of Trump’s positive test — which he announced on Twitter early Friday – his infection “likely happened 5 or more days ago,” Osterholm said. “If so, then he was widely infectious as early as Tuesday,” the day of the first presidential debate in Cleveland.

At least seven people who attended a Rose Garden announcement last Saturday, when Trump announced his nomination of Judge Amy Coney Barrett to the Supreme Court, have since tested positive for the coronavirus. They include Trump’s former adviser Kellyanne Conway, Republican Sens. Mike Lee and Thom Tillis, and the president of the University of Notre Dame, the Rev. John Jenkins.

“Having that many infected people there all at one time, we’re still going to see transmission coming off that event for a couple days,” Osterholm said.

Osterholm notes that about 20% of infected people lead to 80% of COVID-19 cases, because “super spreaders” can infect so many people at once.

He notes that participants and audience members at Tuesday’s debate were separated by at least 6 feet. But 6 feet isn’t always enough to prevent infection, he said.

While many COVID-19 infections appear to be spread by respiratory droplets, which usually fall to the ground within 6 feet, people who are singing or speaking loudly can project virus much further. Evidence also suggests that the novel coronavirus can spread through aerosols, floating in the air like a speck of dust.

“I wonder how much virus was floating in that room that night,” Osterholm said.

Other experts say it’s too soon to say whether Trump was infected in a super-spreader event. “The president and his wife have had many exposures to many people in enclosed venues without protection,” so they could have been infected at any number of places, said Dr. William Schaffner, an infectious disease specialist at the Vanderbilt University School of Medicine. 

Although Democratic presidential candidate and former Vice President Joe Biden tested negative for the virus with a PCR test Friday, experts note that false-negative results are common in the first few days after infection. Test results over the next several days will yield more useful information.

It can take more than a week for the virus to reproduce enough to be detected, Wells said: “You are probably not detectable for 3, 5, 7, even 10 days after you’re exposed.”

In Minnesota, where Trump held an outdoor campaign rally in Duluth with hundreds of attendees Wednesday, health officials warned that a 14-day quarantine is necessary, regardless of test results.

“Anyone who was a direct contact of President Trump or known COVID-19 cases needs to quarantine and should get tested,” the Minnesota Department of Health said.

Ongoing lapses in test result reporting could hamper efforts to track and isolate sick people. As of Sept. 10, 21 states and the District of Columbia were not reporting all antigen test results, according to a KHN investigation, a lapse in reporting that officials say leaves them blind to disease spread. Since then, public health departments in Arizona, North Carolina and South Dakota all have announced plans to add antigen testing to their case reporting.

Requests for comment to the D.C. Department of Health were referred to Mayor Muriel Bowser’s office, which did not respond. District health officials told KHN in early September that the White House does not report antigen test results to them – a potential violation of federal law under the CARES Act, which says any institution performing tests to diagnose COVID-19 must report all results to local or state public health departments.

Dr. Amesh Adalja, a senior scholar at the Johns Hopkins University Center for Health Security, said it’s not surprising that Trump tested positive, given that so many of his close associates – including his national security adviser and Secret Service officers – have also been infected by the virus.

“When you look at the number of social contacts and travel schedules, it’s not surprising,” Adalja said.

Kaiser Health News is a nonprofit news service covering health issues. It is an editorially independent program of KFF (Kaiser Family Foundation), which is not affiliated with Kaiser Permanente.

President Donald Trump’s COVID-19 diagnosis is raising fresh questions about the White House’s strategy for testing and containing the virus for a president whose cavalier attitude about the coronavirus has persisted since it landed on American shores.

The president has said others are tested before getting close to him, appearing to hold it as an iron shield of safety. He has largely eschewed mask-wearing and social distancing in meetings, travel and public events, while holding rallies for thousands of often maskless supporters.

The Trump administration has increasingly pinned its coronavirus testing strategy for the nation on antigen tests, which do not need a traditional lab for processing and quickly return results to patients. But the results are less accurate than those of the slower PCR tests. 

An early antigen test used by the White House was woefully inaccurate. But the new antigen test the White House is using has not been independently evaluated for accuracy and reliability. Moreover, this is the kit the Trump administration is pushing out to thousands of nursing homes to test residents and staff.

Testing “isn’t a ‘get out of jail free card,’” said Dr. Alan Wells, medical director of clinical labs at the University of Pittsburgh Medical Center and creator of its test for the novel coronavirus. In general, antigen tests can miss up to half the cases that are detected by polymerase chain reaction tests, depending on the population of patients tested, he said.

The White House said the president’s diagnosis was confirmed with a PCR test but declined to say which test delivered his initial result. The White House has been using a new antigen test from Abbott Laboratories to screen its staff for COVID-19, according to two administration officials. 

The test, known as BinaxNOW, received an emergency use authorization from the Food and Drug Administration in August. It produces results in 15 minutes. Yet little is independently known about how effective it is. According to the company, the test is 97% accurate in detecting positives and 98.5% accurate in identifying those without disease. Abbott’s stated performance of its antigen test was based on examining people within 7 days of COVID symptoms appearing.

The president and first lady have both had symptoms, according to White House chief of staff Mark Meadows and the first lady’s Twitter account. The president was admitted to Walter Reed National Military Medical Center on Friday evening “out of an abundance of caution,” White House press secretary Kayleigh McEnany said in a statement.

Vice President Mike Pence is also tested daily for the virus and tested negative, spokesperson Devin O’Malley said Friday, but he did not respond to a follow-up question about which test was used.

Trump heavily promoted another Abbott rapid testing device, the ID NOW, earlier this year. But that test relies on different technology than the newer Abbott antigen test.

“I have not seen any independent evaluation of the Binax assay in the literature or in the blogs,” Wells said. “It is an unknown.”

The Department of Health and Human Services announced in August that it had signed a $760 million contract with Abbott for 150 million BinaxNOW antigen tests, which are now being distributed to nursing homes and historically black colleges and universities, as well as to governors to help inform decisions about opening and closing schools. The Big Ten football conference has also pinned playing hopes on the deployment of antigen tests following Trump’s political pressure.

However, even senior federal officials concede that a test alone isn’t likely to stop the spread of a virus that has sickened more than 7 million Americans.

“Testing does not substitute for avoiding crowded indoor spaces, washing hands, or wearing a mask when you can’t physically distance; further, a negative test today does not mean that you won’t be positive tomorrow,” Adm. Brett Giroir, the senior HHS official helming the administration’s testing effort, said in a statement at the time.

Trump could be part of a “super-spreading event,” said Dr. Michael Osterholm, director of the Center for Infectious Disease Research and Policy at the University of Minnesota.

Given the timing of Trump’s positive test — which he announced on Twitter early Friday – his infection “likely happened 5 or more days ago,” Osterholm said. “If so, then he was widely infectious as early as Tuesday,” the day of the first presidential debate in Cleveland.

At least seven people who attended a Rose Garden announcement last Saturday, when Trump announced his nomination of Judge Amy Coney Barrett to the Supreme Court, have since tested positive for the coronavirus. They include Trump’s former adviser Kellyanne Conway, Republican Sens. Mike Lee and Thom Tillis, and the president of the University of Notre Dame, the Rev. John Jenkins.

“Having that many infected people there all at one time, we’re still going to see transmission coming off that event for a couple days,” Osterholm said.

Osterholm notes that about 20% of infected people lead to 80% of COVID-19 cases, because “super spreaders” can infect so many people at once.

He notes that participants and audience members at Tuesday’s debate were separated by at least 6 feet. But 6 feet isn’t always enough to prevent infection, he said.

While many COVID-19 infections appear to be spread by respiratory droplets, which usually fall to the ground within 6 feet, people who are singing or speaking loudly can project virus much further. Evidence also suggests that the novel coronavirus can spread through aerosols, floating in the air like a speck of dust.

“I wonder how much virus was floating in that room that night,” Osterholm said.

Other experts say it’s too soon to say whether Trump was infected in a super-spreader event. “The president and his wife have had many exposures to many people in enclosed venues without protection,” so they could have been infected at any number of places, said Dr. William Schaffner, an infectious disease specialist at the Vanderbilt University School of Medicine. 

Although Democratic presidential candidate and former Vice President Joe Biden tested negative for the virus with a PCR test Friday, experts note that false-negative results are common in the first few days after infection. Test results over the next several days will yield more useful information.

It can take more than a week for the virus to reproduce enough to be detected, Wells said: “You are probably not detectable for 3, 5, 7, even 10 days after you’re exposed.”

In Minnesota, where Trump held an outdoor campaign rally in Duluth with hundreds of attendees Wednesday, health officials warned that a 14-day quarantine is necessary, regardless of test results.

“Anyone who was a direct contact of President Trump or known COVID-19 cases needs to quarantine and should get tested,” the Minnesota Department of Health said.

Ongoing lapses in test result reporting could hamper efforts to track and isolate sick people. As of Sept. 10, 21 states and the District of Columbia were not reporting all antigen test results, according to a KHN investigation, a lapse in reporting that officials say leaves them blind to disease spread. Since then, public health departments in Arizona, North Carolina and South Dakota all have announced plans to add antigen testing to their case reporting.

Requests for comment to the D.C. Department of Health were referred to Mayor Muriel Bowser’s office, which did not respond. District health officials told KHN in early September that the White House does not report antigen test results to them – a potential violation of federal law under the CARES Act, which says any institution performing tests to diagnose COVID-19 must report all results to local or state public health departments.

Dr. Amesh Adalja, a senior scholar at the Johns Hopkins University Center for Health Security, said it’s not surprising that Trump tested positive, given that so many of his close associates – including his national security adviser and Secret Service officers – have also been infected by the virus.

“When you look at the number of social contacts and travel schedules, it’s not surprising,” Adalja said.

Kaiser Health News is a nonprofit news service covering health issues. It is an editorially independent program of KFF (Kaiser Family Foundation), which is not affiliated with Kaiser Permanente.

We think of a patient’s recovery happening in multiple locations – in a hospital room or a rehabilitation facility, for example. But many clinicians may not consider the opportunity to aid healing that lies in the waiting room.

The waiting room is where a patient’s loved ones often are and they, sometimes more than anyone, can unlock the path to a patient’s quicker recovery. Friends and family can offer encouragement, as they have an existing bond of trust that can help if a patient needs reinforcement to take their medications or follow other health care advice. But if loved ones are going to help patients, they need help from clinicians. Beyond being potential allies, they are also hurting, experiencing worry or confusion in a world of medical jargon.

The coronavirus changes the relationship of patients and their loved ones, as patients are often isolated or limited in the number of visitors they are allowed to see. A smartphone replaces the smiling faces of friends and relatives at their bedside, and a text is a poor substitute for a hug.

The Hospitalist asked some experienced hospitalists for insight on how best to communicate with patients’ loved ones to improve outcomes for all, medically and emotionally.
 

Team approach

“Patients feel isolated, terrified, and vulnerable but still need an advocate in the hospital, so daily communication with a patient’s loved one is important to give a sense that the patient is looked after,” said Kari Esbensen, MD, PhD, a hospitalist and palliative care expert at Emory University Hospital Midtown, Atlanta.

Glenn Rosenbluth, MD, a pediatric hospitalist and director, quality and safety programs, at the University of California, San Francisco, Benioff Children’s Hospital, agreed. He said that the most important thing is to communicate, period.

“We fall into this pattern of ‘out of sight, out of mind,’ ” he said. “We need to take the extra step to find out who a patient’s loved ones are. If it is a clinical visit, ask the patient, or maybe get the information from a caseworker, or just pay attention to who is dropping in to see the patient. Having a second person available to jot down notes, or having a handy list of questions – it all helps the patient. We forget that sometimes it can seem like a whirlwind for the patient when they are hurting. We have to remember that a loved one is important to a patient’s care team and we need to include them, empower them, and show that we want to hear their voices.”

Dr. Esbensen said it is critical to start off on the right foot when communicating with a patient’s loved one, especially during the current pandemic.

“With COVID-19, the most important thing is to speak honestly, to say hope for the best but prepare for the worst-case scenario,” Dr. Esbensen said. “We’ve seen that conditions can shift dramatically in short periods of time. The loved one needs to have a sense of the positive and negative possibilities. Families tend to lack understanding of the changes in the patient that are caused by COVID-19. The patient can come out of the hospital debilitated, very different than when they entered the hospital, and we need to warn people close to them about this. Unrealistic expectations need to be guarded against if a patient’s loved ones are going to help.”

Perhaps the best form of communication with a patient’s loved ones is an often-forgotten skill: listening.

“Get an idea from the patient’s loved ones of what the issues are, as well as their idea of what they think of the disease and how it spreads,” Dr. Esbensen said. “Sometimes they are right on target but sometimes there are misinterpretations and we need to help them understand it better. It’s not a ‘one-size-fits-all’ speech that we should give, but try to say, ‘tell me what you think is going on, what you think you’ve heard, and what you’re worried about,’ and learn what is most important to the patient. Start on those terms and adapt; this way you can correct and address what makes them most fearful, which can be different for each loved one. For some, the concern could be that they have children or other vulnerable people in the house. Finding out these other issues is important.”

“A lot of people just want information and want to be helpful, but we also need to realize that, while we are caring for many patients, this one person is the patient they are focused on,” said Laura Nell Hodo, MD, a pediatric hospitalist at Kravis Children’s Hospital at Mount Sinai in New York. “Don’t rush, and if you know that a patient’s loved one needs more time, make sure it can be found – if not then, at least later on the phone. Fifteen to 20 minutes may be what’s needed, and you can’t shortchange them.”

Dr. Hodo said that a patient’s loved ones often do not realize it is possible to receive phone calls from hospitalists. “We need to remind them that they can get in touch with us. We have to remember how helpless they can feel and how they want to understand what is happening in the hospital.”

For medical adherence issues, sometimes it is best to communicate with the patient and loved one at the same time, Dr. Hodo advised. “Whether it’s for medication or postdischarge exercises, if they both receive the information together it can reinforce adherence. But you also need to remember that the patient may only want a loved one told about certain things, or possibly nothing at all. We need to make sure we understand the patient’s wishes, regardless of whether we think a person close to them can be an ally or not.”

Dr. Esbensen also noted that a loved one can give hospitalists important clues to the emotional components of a patient’s care.

“I remember a patient whose wife told me how he worked in a garage, how he was strong and did not want people to think he was a weak guy just because of what was happening to him,” Dr. Esbensen said. “I didn’t know that he felt he might be perceived in this way. I mentioned to him how I learned he was a good mechanic and he perked up and felt seen in a different light. These things make a difference.”

But when is the best time to speak with a patient’s loved ones? Since much communication is done via phone during the pandemic, there are different philosophies.

“We had a debate among colleagues to see how each of us did it,” Dr. Esbensen said. “Some try to call after each patient encounter, while they are outside the room and it’s fresh in their mind, but others find it better to make the call after their rounds, to give the person their full attention. Most of the time I try to do it that way.”

She noted that, in the current environment, a phone call may be better than a face-to-face conversation with patients’ loved ones.

“We’re covered in so much gear to protect us from the coronavirus that it can feel like a great distance exists between us and the person with whom we’re speaking,” she said. “It’s strange, but the phone can make the conversation seem more relaxed and may get people to open up more.”
 

Even when they leave

All the hospitalists affirmed that loved ones can make a big difference for the patient through all aspects of care. Long after a patient returns home, the support of loved ones can have a profound impact in speeding healing and improving long-term outcomes.

Dr. Esbensen said COVID-19 and other serious illnesses can leave a patient needing support, and maybe a “push” when feeling low keeps them from adhering to medical advice.

“It’s not just in the hospital but after discharge,” she said. “A person offering support can really help patients throughout their journey, and much success in recovering from illness occurs after the transition home. Having the support of that one person a patient trusts can be critical.”

Dr. Hodo believes that the coronavirus pandemic could forever change the way hospitalists communicate with patients and their loved ones.

“I work in pediatrics and we know serious medical decisions can’t be made without guardians or parents,” she said. “But in adult medicine doctors may not automatically ask the patient about calling someone for input on decision-making. With COVID, you cannot assume a patient is on their own, because there are protocols keeping people from physically being present in the patient’s room. My experience from working in adult coronavirus units is that the thinking about the loved ones’ role in patient care – and communication with them – might just change. … At least, I hope so.”
 

Quick takeaways for hospitalists

• Get beyond personal protective equipment. A conversation with a patient’s loved one might be easier to achieve via phone, without all the protective gear in the way.
• Encourage adherence. Speaking with patients and loved ones together may be more effective. They may reach agreement quicker on how best to adhere to medical advice.
• Loved ones offer clues. They might give you a better sense of a patient’s worries, or help you to connect better with those in your care.
• Be present. You have a long to-do list but do not let empathy fall off it, even if you feel overwhelmed.

We think of a patient’s recovery happening in multiple locations – in a hospital room or a rehabilitation facility, for example. But many clinicians may not consider the opportunity to aid healing that lies in the waiting room.

The waiting room is where a patient’s loved ones often are and they, sometimes more than anyone, can unlock the path to a patient’s quicker recovery. Friends and family can offer encouragement, as they have an existing bond of trust that can help if a patient needs reinforcement to take their medications or follow other health care advice. But if loved ones are going to help patients, they need help from clinicians. Beyond being potential allies, they are also hurting, experiencing worry or confusion in a world of medical jargon.

The coronavirus changes the relationship of patients and their loved ones, as patients are often isolated or limited in the number of visitors they are allowed to see. A smartphone replaces the smiling faces of friends and relatives at their bedside, and a text is a poor substitute for a hug.

The Hospitalist asked some experienced hospitalists for insight on how best to communicate with patients’ loved ones to improve outcomes for all, medically and emotionally.
 

Team approach

“Patients feel isolated, terrified, and vulnerable but still need an advocate in the hospital, so daily communication with a patient’s loved one is important to give a sense that the patient is looked after,” said Kari Esbensen, MD, PhD, a hospitalist and palliative care expert at Emory University Hospital Midtown, Atlanta.

Glenn Rosenbluth, MD, a pediatric hospitalist and director, quality and safety programs, at the University of California, San Francisco, Benioff Children’s Hospital, agreed. He said that the most important thing is to communicate, period.

“We fall into this pattern of ‘out of sight, out of mind,’ ” he said. “We need to take the extra step to find out who a patient’s loved ones are. If it is a clinical visit, ask the patient, or maybe get the information from a caseworker, or just pay attention to who is dropping in to see the patient. Having a second person available to jot down notes, or having a handy list of questions – it all helps the patient. We forget that sometimes it can seem like a whirlwind for the patient when they are hurting. We have to remember that a loved one is important to a patient’s care team and we need to include them, empower them, and show that we want to hear their voices.”

Dr. Esbensen said it is critical to start off on the right foot when communicating with a patient’s loved one, especially during the current pandemic.

“With COVID-19, the most important thing is to speak honestly, to say hope for the best but prepare for the worst-case scenario,” Dr. Esbensen said. “We’ve seen that conditions can shift dramatically in short periods of time. The loved one needs to have a sense of the positive and negative possibilities. Families tend to lack understanding of the changes in the patient that are caused by COVID-19. The patient can come out of the hospital debilitated, very different than when they entered the hospital, and we need to warn people close to them about this. Unrealistic expectations need to be guarded against if a patient’s loved ones are going to help.”

Perhaps the best form of communication with a patient’s loved ones is an often-forgotten skill: listening.

“Get an idea from the patient’s loved ones of what the issues are, as well as their idea of what they think of the disease and how it spreads,” Dr. Esbensen said. “Sometimes they are right on target but sometimes there are misinterpretations and we need to help them understand it better. It’s not a ‘one-size-fits-all’ speech that we should give, but try to say, ‘tell me what you think is going on, what you think you’ve heard, and what you’re worried about,’ and learn what is most important to the patient. Start on those terms and adapt; this way you can correct and address what makes them most fearful, which can be different for each loved one. For some, the concern could be that they have children or other vulnerable people in the house. Finding out these other issues is important.”

“A lot of people just want information and want to be helpful, but we also need to realize that, while we are caring for many patients, this one person is the patient they are focused on,” said Laura Nell Hodo, MD, a pediatric hospitalist at Kravis Children’s Hospital at Mount Sinai in New York. “Don’t rush, and if you know that a patient’s loved one needs more time, make sure it can be found – if not then, at least later on the phone. Fifteen to 20 minutes may be what’s needed, and you can’t shortchange them.”

Dr. Hodo said that a patient’s loved ones often do not realize it is possible to receive phone calls from hospitalists. “We need to remind them that they can get in touch with us. We have to remember how helpless they can feel and how they want to understand what is happening in the hospital.”

For medical adherence issues, sometimes it is best to communicate with the patient and loved one at the same time, Dr. Hodo advised. “Whether it’s for medication or postdischarge exercises, if they both receive the information together it can reinforce adherence. But you also need to remember that the patient may only want a loved one told about certain things, or possibly nothing at all. We need to make sure we understand the patient’s wishes, regardless of whether we think a person close to them can be an ally or not.”

Dr. Esbensen also noted that a loved one can give hospitalists important clues to the emotional components of a patient’s care.

“I remember a patient whose wife told me how he worked in a garage, how he was strong and did not want people to think he was a weak guy just because of what was happening to him,” Dr. Esbensen said. “I didn’t know that he felt he might be perceived in this way. I mentioned to him how I learned he was a good mechanic and he perked up and felt seen in a different light. These things make a difference.”

But when is the best time to speak with a patient’s loved ones? Since much communication is done via phone during the pandemic, there are different philosophies.

“We had a debate among colleagues to see how each of us did it,” Dr. Esbensen said. “Some try to call after each patient encounter, while they are outside the room and it’s fresh in their mind, but others find it better to make the call after their rounds, to give the person their full attention. Most of the time I try to do it that way.”

She noted that, in the current environment, a phone call may be better than a face-to-face conversation with patients’ loved ones.

“We’re covered in so much gear to protect us from the coronavirus that it can feel like a great distance exists between us and the person with whom we’re speaking,” she said. “It’s strange, but the phone can make the conversation seem more relaxed and may get people to open up more.”
 

Even when they leave

All the hospitalists affirmed that loved ones can make a big difference for the patient through all aspects of care. Long after a patient returns home, the support of loved ones can have a profound impact in speeding healing and improving long-term outcomes.

Dr. Esbensen said COVID-19 and other serious illnesses can leave a patient needing support, and maybe a “push” when feeling low keeps them from adhering to medical advice.

“It’s not just in the hospital but after discharge,” she said. “A person offering support can really help patients throughout their journey, and much success in recovering from illness occurs after the transition home. Having the support of that one person a patient trusts can be critical.”

Dr. Hodo believes that the coronavirus pandemic could forever change the way hospitalists communicate with patients and their loved ones.

“I work in pediatrics and we know serious medical decisions can’t be made without guardians or parents,” she said. “But in adult medicine doctors may not automatically ask the patient about calling someone for input on decision-making. With COVID, you cannot assume a patient is on their own, because there are protocols keeping people from physically being present in the patient’s room. My experience from working in adult coronavirus units is that the thinking about the loved ones’ role in patient care – and communication with them – might just change. … At least, I hope so.”
 

Quick takeaways for hospitalists

• Get beyond personal protective equipment. A conversation with a patient’s loved one might be easier to achieve via phone, without all the protective gear in the way.
• Encourage adherence. Speaking with patients and loved ones together may be more effective. They may reach agreement quicker on how best to adhere to medical advice.
• Loved ones offer clues. They might give you a better sense of a patient’s worries, or help you to connect better with those in your care.
• Be present. You have a long to-do list but do not let empathy fall off it, even if you feel overwhelmed.

We think of a patient’s recovery happening in multiple locations – in a hospital room or a rehabilitation facility, for example. But many clinicians may not consider the opportunity to aid healing that lies in the waiting room.

The waiting room is where a patient’s loved ones often are and they, sometimes more than anyone, can unlock the path to a patient’s quicker recovery. Friends and family can offer encouragement, as they have an existing bond of trust that can help if a patient needs reinforcement to take their medications or follow other health care advice. But if loved ones are going to help patients, they need help from clinicians. Beyond being potential allies, they are also hurting, experiencing worry or confusion in a world of medical jargon.

The coronavirus changes the relationship of patients and their loved ones, as patients are often isolated or limited in the number of visitors they are allowed to see. A smartphone replaces the smiling faces of friends and relatives at their bedside, and a text is a poor substitute for a hug.

The Hospitalist asked some experienced hospitalists for insight on how best to communicate with patients’ loved ones to improve outcomes for all, medically and emotionally.
 

Team approach

“Patients feel isolated, terrified, and vulnerable but still need an advocate in the hospital, so daily communication with a patient’s loved one is important to give a sense that the patient is looked after,” said Kari Esbensen, MD, PhD, a hospitalist and palliative care expert at Emory University Hospital Midtown, Atlanta.

Glenn Rosenbluth, MD, a pediatric hospitalist and director, quality and safety programs, at the University of California, San Francisco, Benioff Children’s Hospital, agreed. He said that the most important thing is to communicate, period.

“We fall into this pattern of ‘out of sight, out of mind,’ ” he said. “We need to take the extra step to find out who a patient’s loved ones are. If it is a clinical visit, ask the patient, or maybe get the information from a caseworker, or just pay attention to who is dropping in to see the patient. Having a second person available to jot down notes, or having a handy list of questions – it all helps the patient. We forget that sometimes it can seem like a whirlwind for the patient when they are hurting. We have to remember that a loved one is important to a patient’s care team and we need to include them, empower them, and show that we want to hear their voices.”

Dr. Esbensen said it is critical to start off on the right foot when communicating with a patient’s loved one, especially during the current pandemic.

“With COVID-19, the most important thing is to speak honestly, to say hope for the best but prepare for the worst-case scenario,” Dr. Esbensen said. “We’ve seen that conditions can shift dramatically in short periods of time. The loved one needs to have a sense of the positive and negative possibilities. Families tend to lack understanding of the changes in the patient that are caused by COVID-19. The patient can come out of the hospital debilitated, very different than when they entered the hospital, and we need to warn people close to them about this. Unrealistic expectations need to be guarded against if a patient’s loved ones are going to help.”

Perhaps the best form of communication with a patient’s loved ones is an often-forgotten skill: listening.

“Get an idea from the patient’s loved ones of what the issues are, as well as their idea of what they think of the disease and how it spreads,” Dr. Esbensen said. “Sometimes they are right on target but sometimes there are misinterpretations and we need to help them understand it better. It’s not a ‘one-size-fits-all’ speech that we should give, but try to say, ‘tell me what you think is going on, what you think you’ve heard, and what you’re worried about,’ and learn what is most important to the patient. Start on those terms and adapt; this way you can correct and address what makes them most fearful, which can be different for each loved one. For some, the concern could be that they have children or other vulnerable people in the house. Finding out these other issues is important.”

“A lot of people just want information and want to be helpful, but we also need to realize that, while we are caring for many patients, this one person is the patient they are focused on,” said Laura Nell Hodo, MD, a pediatric hospitalist at Kravis Children’s Hospital at Mount Sinai in New York. “Don’t rush, and if you know that a patient’s loved one needs more time, make sure it can be found – if not then, at least later on the phone. Fifteen to 20 minutes may be what’s needed, and you can’t shortchange them.”

Dr. Hodo said that a patient’s loved ones often do not realize it is possible to receive phone calls from hospitalists. “We need to remind them that they can get in touch with us. We have to remember how helpless they can feel and how they want to understand what is happening in the hospital.”

For medical adherence issues, sometimes it is best to communicate with the patient and loved one at the same time, Dr. Hodo advised. “Whether it’s for medication or postdischarge exercises, if they both receive the information together it can reinforce adherence. But you also need to remember that the patient may only want a loved one told about certain things, or possibly nothing at all. We need to make sure we understand the patient’s wishes, regardless of whether we think a person close to them can be an ally or not.”

Dr. Esbensen also noted that a loved one can give hospitalists important clues to the emotional components of a patient’s care.

“I remember a patient whose wife told me how he worked in a garage, how he was strong and did not want people to think he was a weak guy just because of what was happening to him,” Dr. Esbensen said. “I didn’t know that he felt he might be perceived in this way. I mentioned to him how I learned he was a good mechanic and he perked up and felt seen in a different light. These things make a difference.”

But when is the best time to speak with a patient’s loved ones? Since much communication is done via phone during the pandemic, there are different philosophies.

“We had a debate among colleagues to see how each of us did it,” Dr. Esbensen said. “Some try to call after each patient encounter, while they are outside the room and it’s fresh in their mind, but others find it better to make the call after their rounds, to give the person their full attention. Most of the time I try to do it that way.”

She noted that, in the current environment, a phone call may be better than a face-to-face conversation with patients’ loved ones.

“We’re covered in so much gear to protect us from the coronavirus that it can feel like a great distance exists between us and the person with whom we’re speaking,” she said. “It’s strange, but the phone can make the conversation seem more relaxed and may get people to open up more.”
 

Even when they leave

All the hospitalists affirmed that loved ones can make a big difference for the patient through all aspects of care. Long after a patient returns home, the support of loved ones can have a profound impact in speeding healing and improving long-term outcomes.

Dr. Esbensen said COVID-19 and other serious illnesses can leave a patient needing support, and maybe a “push” when feeling low keeps them from adhering to medical advice.

“It’s not just in the hospital but after discharge,” she said. “A person offering support can really help patients throughout their journey, and much success in recovering from illness occurs after the transition home. Having the support of that one person a patient trusts can be critical.”

Dr. Hodo believes that the coronavirus pandemic could forever change the way hospitalists communicate with patients and their loved ones.

“I work in pediatrics and we know serious medical decisions can’t be made without guardians or parents,” she said. “But in adult medicine doctors may not automatically ask the patient about calling someone for input on decision-making. With COVID, you cannot assume a patient is on their own, because there are protocols keeping people from physically being present in the patient’s room. My experience from working in adult coronavirus units is that the thinking about the loved ones’ role in patient care – and communication with them – might just change. … At least, I hope so.”
 

Quick takeaways for hospitalists

• Get beyond personal protective equipment. A conversation with a patient’s loved one might be easier to achieve via phone, without all the protective gear in the way.
• Encourage adherence. Speaking with patients and loved ones together may be more effective. They may reach agreement quicker on how best to adhere to medical advice.
• Loved ones offer clues. They might give you a better sense of a patient’s worries, or help you to connect better with those in your care.
• Be present. You have a long to-do list but do not let empathy fall off it, even if you feel overwhelmed.

The DAPA-CKD trial results, which proved dapagliflozin’s efficacy for slowing chronic kidney disease progression in patients selected for signs of worsening renal function, also have important messages for cardiologists, especially heart failure physicians.

Catherine Hackett/MDedge News

Those messages include findings that were “consistent” with the results of the earlier DAPA-HF trial, which tested the same sodium-glucose transporter 2 (SGLT2) inhibitor in patients selected for having heart failure with reduced ejection fraction (HFrEF). In addition, a specific action of dapagliflozin (Farxiga) on the patients in DAPA-CKD, which enrolled patients based on markers of chronic kidney disease (CKD), was prevention of first and recurrent heart failure hospitalizations, John J.V. McMurray, MD, said at the virtual annual scientific meeting of the Heart Failure Society of America, further highlighting the role that dapagliflozin has in reducing both heart failure and renal events.
 

What DAPA-CKD means for heart failure

The main findings from the DAPA-CKD trial, published in September in the New England Journal of Medicine, included as a secondary outcome the combined rate of death from cardiovascular causes or hospitalization for heart failure (HHF). Treatment with dapagliflozin linked with a significant 29% relative reduction in this endpoint, compared with placebo-treated patients. At the HFSA meeting, Dr. McMurray reported for the first time the specific HHF numbers, a prespecified secondary endpoint for the study.

Patients on dapagliflozin had 37 total HHF events (1.7%), including both first-time and subsequent hospitalizations, while patients in the placebo arm had a total of 71 HHF events (3.3%) during the study’s median 2.4 years of follow-up, an absolute reduction of 1.6% that translated into a relative risk reduction of 49%.

The HHF findings from DAPA-CKD importantly showed that SGLT2 inhibition in patients with signs of renal dysfunction “will not only slow progression of kidney disease but will also reduce the risk of developing heart failure, crucially in patients with or without type 2 diabetes,” explained Dr. McMurray in an interview. “Cardiologists often consult in the kidney wards and advise on management of patients with chronic kidney disease, even those without heart failure.”

The DAPA-CKD findings carry another important message for heart failure management regarding the minimum level of renal function a patient can have and still safely receive dapagliflozin or possibly another agent from the same SGLT2 inhibitor class. In DAPA-CKD, patients safely received dapagliflozin with an estimated glomerular filtration rate (eGFR) as low as 25 mL/min per 1.73 m²; 14% of enrolled patients had an eGFR of 25-29 mL/min per 1.73 m².

“Typically, about 40%-50% of patients with heart failure have chronic kidney disease,” which makes this safety finding important to clinicians who care for heart failure patients, but it’s also important for any patient who might be a candidate for dapagliflozin or another drug from its class. “We had no strong evidence before this trial that SGLT2 inhibition could reduce hard renal endpoints,” specifically need for chronic dialysis, renal transplant, or renal death, “in patients with or without diabetes,” Dr. McMurray said.
 

DAPA-CKD grows the pool of eligible heart failure patients

A further consequence of the DAPA-CKD findings is that when, as expected, regulatory bodies give dapagliflozin an indication for treating the types of CKD patients enrolled in the trial, it will functionally expand this treatment to an even larger swath of heart failure patients who currently don’t qualify for this treatment, specifically patients with CKD who also have heart failure with preserved ejection fraction (HFpEF). On Oct. 2, 2020, the Food and Drug Administration fast-tracked dapagliflozin for the CKD indication by granting it Breakthrough Therapy Designation based on the DAPA-CKD results.

Results first reported in 2019 from the DAPA-HF trial led to dapagliflozin receiving a labeled indication for treating HFrEF, the types of heart failure patients enrolled in the trial. Direct evidence on the efficacy of SGLT2 inhibitors for patients with HFpEF will not be available until results from a few trials now in progress become available during the next 12 months.

In the meantime, nearly half of patients with HFpEF also have CKD, noted Dr. McMurray, and another large portion of HFpEF patients have type 2 diabetes and hence qualify for SGLT2 inhibitor treatment that way. “Obviously, we would like to know specifically about heart failure outcomes in patients with HFpEF” on SGLT2 inhibitor treatment, he acknowledged. But the recent approval of dapagliflozin for patients with HFrEF and the likely indication coming soon for treating CKD means that the number of patients with heart failure who are not eligible for SGLT2 inhibitor treatment is dwindling down to some extent.
 

New DAPA-HF results show no drug, device interactions

In a separate session at the HFSA virtual meeting, Dr. McMurray and several collaborators on the DAPA-HF trial presented results from some new analyses. Dr. McMurray looked at the impact of dapagliflozin treatment on the primary endpoint when patients were stratified by the diuretic dosage they received at study entry. The results showed that “the benefits from dapagliflozin were irrespective of the use of background diuretic therapy or the diuretic dose,” he reported. Study findings also showed that roughly three-quarters of patients in the study had no change in their diuretic dosage during the course of the trial, that the fraction of patients who had an increase in their dosage was about the same as those whose diuretic dosage decreased, and that this pattern was similar in both the patients on dapagliflozin and in those randomized to placebo.

Another set of new analyses from DAPA-HF looked at the impact on dapagliflozin efficacy of background medical and device therapies for heart failure, as well as background diabetes therapies. The findings showed no signal of an interaction with background therapies. “The effects of dapagliflozin are incremental and complimentary to conventional therapies for HFrEF,” concluded Lars Kober, MD, a professor and heart failure physician at Copenhagen University Hospital.

DAPA-CKD was funded by AstraZeneca, the company that markets dapagliflozin (Farxiga). Dr. McMurray’s employer, Glasgow University, has received payments from AstraZeneca and several other companies to compensate for his time overseeing various clinical trials. Dr. Kober has received honoraria for speaking on behalf of several companies including AstraZeneca.

[email protected]

The DAPA-CKD trial results, which proved dapagliflozin’s efficacy for slowing chronic kidney disease progression in patients selected for signs of worsening renal function, also have important messages for cardiologists, especially heart failure physicians.

Catherine Hackett/MDedge News

Those messages include findings that were “consistent” with the results of the earlier DAPA-HF trial, which tested the same sodium-glucose transporter 2 (SGLT2) inhibitor in patients selected for having heart failure with reduced ejection fraction (HFrEF). In addition, a specific action of dapagliflozin (Farxiga) on the patients in DAPA-CKD, which enrolled patients based on markers of chronic kidney disease (CKD), was prevention of first and recurrent heart failure hospitalizations, John J.V. McMurray, MD, said at the virtual annual scientific meeting of the Heart Failure Society of America, further highlighting the role that dapagliflozin has in reducing both heart failure and renal events.
 

What DAPA-CKD means for heart failure

The main findings from the DAPA-CKD trial, published in September in the New England Journal of Medicine, included as a secondary outcome the combined rate of death from cardiovascular causes or hospitalization for heart failure (HHF). Treatment with dapagliflozin linked with a significant 29% relative reduction in this endpoint, compared with placebo-treated patients. At the HFSA meeting, Dr. McMurray reported for the first time the specific HHF numbers, a prespecified secondary endpoint for the study.

Patients on dapagliflozin had 37 total HHF events (1.7%), including both first-time and subsequent hospitalizations, while patients in the placebo arm had a total of 71 HHF events (3.3%) during the study’s median 2.4 years of follow-up, an absolute reduction of 1.6% that translated into a relative risk reduction of 49%.

The HHF findings from DAPA-CKD importantly showed that SGLT2 inhibition in patients with signs of renal dysfunction “will not only slow progression of kidney disease but will also reduce the risk of developing heart failure, crucially in patients with or without type 2 diabetes,” explained Dr. McMurray in an interview. “Cardiologists often consult in the kidney wards and advise on management of patients with chronic kidney disease, even those without heart failure.”

The DAPA-CKD findings carry another important message for heart failure management regarding the minimum level of renal function a patient can have and still safely receive dapagliflozin or possibly another agent from the same SGLT2 inhibitor class. In DAPA-CKD, patients safely received dapagliflozin with an estimated glomerular filtration rate (eGFR) as low as 25 mL/min per 1.73 m²; 14% of enrolled patients had an eGFR of 25-29 mL/min per 1.73 m².

“Typically, about 40%-50% of patients with heart failure have chronic kidney disease,” which makes this safety finding important to clinicians who care for heart failure patients, but it’s also important for any patient who might be a candidate for dapagliflozin or another drug from its class. “We had no strong evidence before this trial that SGLT2 inhibition could reduce hard renal endpoints,” specifically need for chronic dialysis, renal transplant, or renal death, “in patients with or without diabetes,” Dr. McMurray said.
 

DAPA-CKD grows the pool of eligible heart failure patients

A further consequence of the DAPA-CKD findings is that when, as expected, regulatory bodies give dapagliflozin an indication for treating the types of CKD patients enrolled in the trial, it will functionally expand this treatment to an even larger swath of heart failure patients who currently don’t qualify for this treatment, specifically patients with CKD who also have heart failure with preserved ejection fraction (HFpEF). On Oct. 2, 2020, the Food and Drug Administration fast-tracked dapagliflozin for the CKD indication by granting it Breakthrough Therapy Designation based on the DAPA-CKD results.

Results first reported in 2019 from the DAPA-HF trial led to dapagliflozin receiving a labeled indication for treating HFrEF, the types of heart failure patients enrolled in the trial. Direct evidence on the efficacy of SGLT2 inhibitors for patients with HFpEF will not be available until results from a few trials now in progress become available during the next 12 months.

In the meantime, nearly half of patients with HFpEF also have CKD, noted Dr. McMurray, and another large portion of HFpEF patients have type 2 diabetes and hence qualify for SGLT2 inhibitor treatment that way. “Obviously, we would like to know specifically about heart failure outcomes in patients with HFpEF” on SGLT2 inhibitor treatment, he acknowledged. But the recent approval of dapagliflozin for patients with HFrEF and the likely indication coming soon for treating CKD means that the number of patients with heart failure who are not eligible for SGLT2 inhibitor treatment is dwindling down to some extent.
 

New DAPA-HF results show no drug, device interactions

In a separate session at the HFSA virtual meeting, Dr. McMurray and several collaborators on the DAPA-HF trial presented results from some new analyses. Dr. McMurray looked at the impact of dapagliflozin treatment on the primary endpoint when patients were stratified by the diuretic dosage they received at study entry. The results showed that “the benefits from dapagliflozin were irrespective of the use of background diuretic therapy or the diuretic dose,” he reported. Study findings also showed that roughly three-quarters of patients in the study had no change in their diuretic dosage during the course of the trial, that the fraction of patients who had an increase in their dosage was about the same as those whose diuretic dosage decreased, and that this pattern was similar in both the patients on dapagliflozin and in those randomized to placebo.

Another set of new analyses from DAPA-HF looked at the impact on dapagliflozin efficacy of background medical and device therapies for heart failure, as well as background diabetes therapies. The findings showed no signal of an interaction with background therapies. “The effects of dapagliflozin are incremental and complimentary to conventional therapies for HFrEF,” concluded Lars Kober, MD, a professor and heart failure physician at Copenhagen University Hospital.

DAPA-CKD was funded by AstraZeneca, the company that markets dapagliflozin (Farxiga). Dr. McMurray’s employer, Glasgow University, has received payments from AstraZeneca and several other companies to compensate for his time overseeing various clinical trials. Dr. Kober has received honoraria for speaking on behalf of several companies including AstraZeneca.

[email protected]

The DAPA-CKD trial results, which proved dapagliflozin’s efficacy for slowing chronic kidney disease progression in patients selected for signs of worsening renal function, also have important messages for cardiologists, especially heart failure physicians.

Catherine Hackett/MDedge News

Those messages include findings that were “consistent” with the results of the earlier DAPA-HF trial, which tested the same sodium-glucose transporter 2 (SGLT2) inhibitor in patients selected for having heart failure with reduced ejection fraction (HFrEF). In addition, a specific action of dapagliflozin (Farxiga) on the patients in DAPA-CKD, which enrolled patients based on markers of chronic kidney disease (CKD), was prevention of first and recurrent heart failure hospitalizations, John J.V. McMurray, MD, said at the virtual annual scientific meeting of the Heart Failure Society of America, further highlighting the role that dapagliflozin has in reducing both heart failure and renal events.
 

What DAPA-CKD means for heart failure

The main findings from the DAPA-CKD trial, published in September in the New England Journal of Medicine, included as a secondary outcome the combined rate of death from cardiovascular causes or hospitalization for heart failure (HHF). Treatment with dapagliflozin linked with a significant 29% relative reduction in this endpoint, compared with placebo-treated patients. At the HFSA meeting, Dr. McMurray reported for the first time the specific HHF numbers, a prespecified secondary endpoint for the study.

Patients on dapagliflozin had 37 total HHF events (1.7%), including both first-time and subsequent hospitalizations, while patients in the placebo arm had a total of 71 HHF events (3.3%) during the study’s median 2.4 years of follow-up, an absolute reduction of 1.6% that translated into a relative risk reduction of 49%.

The HHF findings from DAPA-CKD importantly showed that SGLT2 inhibition in patients with signs of renal dysfunction “will not only slow progression of kidney disease but will also reduce the risk of developing heart failure, crucially in patients with or without type 2 diabetes,” explained Dr. McMurray in an interview. “Cardiologists often consult in the kidney wards and advise on management of patients with chronic kidney disease, even those without heart failure.”

The DAPA-CKD findings carry another important message for heart failure management regarding the minimum level of renal function a patient can have and still safely receive dapagliflozin or possibly another agent from the same SGLT2 inhibitor class. In DAPA-CKD, patients safely received dapagliflozin with an estimated glomerular filtration rate (eGFR) as low as 25 mL/min per 1.73 m²; 14% of enrolled patients had an eGFR of 25-29 mL/min per 1.73 m².

“Typically, about 40%-50% of patients with heart failure have chronic kidney disease,” which makes this safety finding important to clinicians who care for heart failure patients, but it’s also important for any patient who might be a candidate for dapagliflozin or another drug from its class. “We had no strong evidence before this trial that SGLT2 inhibition could reduce hard renal endpoints,” specifically need for chronic dialysis, renal transplant, or renal death, “in patients with or without diabetes,” Dr. McMurray said.
 

DAPA-CKD grows the pool of eligible heart failure patients

A further consequence of the DAPA-CKD findings is that when, as expected, regulatory bodies give dapagliflozin an indication for treating the types of CKD patients enrolled in the trial, it will functionally expand this treatment to an even larger swath of heart failure patients who currently don’t qualify for this treatment, specifically patients with CKD who also have heart failure with preserved ejection fraction (HFpEF). On Oct. 2, 2020, the Food and Drug Administration fast-tracked dapagliflozin for the CKD indication by granting it Breakthrough Therapy Designation based on the DAPA-CKD results.

Results first reported in 2019 from the DAPA-HF trial led to dapagliflozin receiving a labeled indication for treating HFrEF, the types of heart failure patients enrolled in the trial. Direct evidence on the efficacy of SGLT2 inhibitors for patients with HFpEF will not be available until results from a few trials now in progress become available during the next 12 months.

In the meantime, nearly half of patients with HFpEF also have CKD, noted Dr. McMurray, and another large portion of HFpEF patients have type 2 diabetes and hence qualify for SGLT2 inhibitor treatment that way. “Obviously, we would like to know specifically about heart failure outcomes in patients with HFpEF” on SGLT2 inhibitor treatment, he acknowledged. But the recent approval of dapagliflozin for patients with HFrEF and the likely indication coming soon for treating CKD means that the number of patients with heart failure who are not eligible for SGLT2 inhibitor treatment is dwindling down to some extent.
 

New DAPA-HF results show no drug, device interactions

In a separate session at the HFSA virtual meeting, Dr. McMurray and several collaborators on the DAPA-HF trial presented results from some new analyses. Dr. McMurray looked at the impact of dapagliflozin treatment on the primary endpoint when patients were stratified by the diuretic dosage they received at study entry. The results showed that “the benefits from dapagliflozin were irrespective of the use of background diuretic therapy or the diuretic dose,” he reported. Study findings also showed that roughly three-quarters of patients in the study had no change in their diuretic dosage during the course of the trial, that the fraction of patients who had an increase in their dosage was about the same as those whose diuretic dosage decreased, and that this pattern was similar in both the patients on dapagliflozin and in those randomized to placebo.

Another set of new analyses from DAPA-HF looked at the impact on dapagliflozin efficacy of background medical and device therapies for heart failure, as well as background diabetes therapies. The findings showed no signal of an interaction with background therapies. “The effects of dapagliflozin are incremental and complimentary to conventional therapies for HFrEF,” concluded Lars Kober, MD, a professor and heart failure physician at Copenhagen University Hospital.

DAPA-CKD was funded by AstraZeneca, the company that markets dapagliflozin (Farxiga). Dr. McMurray’s employer, Glasgow University, has received payments from AstraZeneca and several other companies to compensate for his time overseeing various clinical trials. Dr. Kober has received honoraria for speaking on behalf of several companies including AstraZeneca.

[email protected]