Cardiology News

Because of their place at the interface between critical care and cardiovascular medicine, critical care cardiologists are in a good position to come up with novel approaches to adapting critical care systems to the current crisis. Health care and clinical resources have been severely strained in some places, and increasing evidence suggests that SARS-CoV-2 can cause injury to most organ systems. More than a quarter of hospitalized patients have cardiac injury, which can be a key reason for clinical deterioration.

An international group of critical care cardiologists led by Jason Katz, MD, of Duke University, Durham, N.C., offered suggestions for scalable models for critical care delivery in the context of COVID-19 in the Journal of the American College of Cardiology.

Critical care cardiology developed in response to changes in patient populations and their clinical needs. Respiratory insufficiency, heart failure, structural heart disease, and multisystem organ dysfunction became more common than patients with complicated acute MI, leading cardiologists in critical care cardiology to become more proficient in general critical care medicine, and to become leaders in forming collaborative multidisciplinary teams. The authors argued that COVID-19 is precipitating a similar need to adapt to the changing needs of patients.

“This pandemic should serve as a clarion call to our health care systems that we should continue to develop a nimble workforce that can adapt to change quickly during a crisis. We believe critical care cardiologists are well positioned to help serve society in this capacity,” the authors wrote.
 

Surge staging

They proposed four surge stages based in part on an American College of Chest Physicians–endorsed model (Chest 2014 Oct;146:e61S-74S), which regards a 25% capacity surge as minor. At the other end of the spectrum, a 200% surge is defined as a “disaster.” In minor surges (less than 25% increase), the traditional cardiac ICU (CICU) model can continue to be applied. During moderate (25%-100% increases) or major (100%-200%) surges, the critical care cardiologist should collaborate or consult within multiple health care teams. Physicians not trained in critical care can assist with care of intubated and critically ill patients under the supervision of a critical care cardiologist or under the supervision of a partnership between a non–cardiac critical care medicine provider and a cardiologist. The number of patients cared for by each team should increase in step with the size of the surge.

In disaster situations (more than 200% surge), there should be adaptive and dynamic staffing reorganization. The report included an illustration of a range of steps that can be taken, including alterations to staffing, regional care systems, resource management, and triage practices. Scoring systems such as Sequential Organ Failure Assessment may be useful for triaging, but the authors also suggest employment of validated cardiac disease–specific scores, because traditional ICU measures don’t always apply well to CICU populations.

At the hospital level, deferrals should be made for elective cardiac procedures that require CICU or postanesthesia care unit recovery periods. Semielective procedures should be considered after risk-benefit considerations when delays could lead to morbidity or mortality. Even some traditional emergency procedures may need to be reevaluated in the COVID-19 context: For example, some low-risk ST-segment elevation MI (STEMI) patients don’t require ICU care but are manageable in cardiac intermediate care beds instead. Historical triage practices should be reexamined to predict which STEMI patients will require ICU care.
 

Resource allocation

The CICU work flow will be affected as some of its beds are opened up to COVID-19 patients. Standard philosophies of concentrating intense resources will have to give way to a utilitarian approach that evaluates operations based on efficiency, equity, and justice. Physician-patient contact should be minimized using technological links when possible, and rounds might be reorganized to first examine patients without COVID-19, in order to minimize between-patient spread.

Military medicine, which is used to ramping up operations during times of crisis, has potential lessons for the current pandemic. In the face of mass casualties, military physicians often turn to the North Atlantic Treaty Organization triage system, which separates patients into four categories: immediate, requiring lifesaving intervention; delayed, requiring intervention within hours to days; minimal, where the patient is injured but ambulatory; and expectant patients who are deceased or too injured to save. Impersonal though this system may be, it may be required in the most severe scenarios when resources are scarce or absent.

The authors reported no relevant financial disclosures.

SOURCE: Katz J et al. J Am Coll Cardiol. 2020 Apr 15. doi: 10.1016/j.annonc.2020.02.01.

Because of their place at the interface between critical care and cardiovascular medicine, critical care cardiologists are in a good position to come up with novel approaches to adapting critical care systems to the current crisis. Health care and clinical resources have been severely strained in some places, and increasing evidence suggests that SARS-CoV-2 can cause injury to most organ systems. More than a quarter of hospitalized patients have cardiac injury, which can be a key reason for clinical deterioration.

An international group of critical care cardiologists led by Jason Katz, MD, of Duke University, Durham, N.C., offered suggestions for scalable models for critical care delivery in the context of COVID-19 in the Journal of the American College of Cardiology.

Critical care cardiology developed in response to changes in patient populations and their clinical needs. Respiratory insufficiency, heart failure, structural heart disease, and multisystem organ dysfunction became more common than patients with complicated acute MI, leading cardiologists in critical care cardiology to become more proficient in general critical care medicine, and to become leaders in forming collaborative multidisciplinary teams. The authors argued that COVID-19 is precipitating a similar need to adapt to the changing needs of patients.

“This pandemic should serve as a clarion call to our health care systems that we should continue to develop a nimble workforce that can adapt to change quickly during a crisis. We believe critical care cardiologists are well positioned to help serve society in this capacity,” the authors wrote.
 

Surge staging

They proposed four surge stages based in part on an American College of Chest Physicians–endorsed model (Chest 2014 Oct;146:e61S-74S), which regards a 25% capacity surge as minor. At the other end of the spectrum, a 200% surge is defined as a “disaster.” In minor surges (less than 25% increase), the traditional cardiac ICU (CICU) model can continue to be applied. During moderate (25%-100% increases) or major (100%-200%) surges, the critical care cardiologist should collaborate or consult within multiple health care teams. Physicians not trained in critical care can assist with care of intubated and critically ill patients under the supervision of a critical care cardiologist or under the supervision of a partnership between a non–cardiac critical care medicine provider and a cardiologist. The number of patients cared for by each team should increase in step with the size of the surge.

In disaster situations (more than 200% surge), there should be adaptive and dynamic staffing reorganization. The report included an illustration of a range of steps that can be taken, including alterations to staffing, regional care systems, resource management, and triage practices. Scoring systems such as Sequential Organ Failure Assessment may be useful for triaging, but the authors also suggest employment of validated cardiac disease–specific scores, because traditional ICU measures don’t always apply well to CICU populations.

At the hospital level, deferrals should be made for elective cardiac procedures that require CICU or postanesthesia care unit recovery periods. Semielective procedures should be considered after risk-benefit considerations when delays could lead to morbidity or mortality. Even some traditional emergency procedures may need to be reevaluated in the COVID-19 context: For example, some low-risk ST-segment elevation MI (STEMI) patients don’t require ICU care but are manageable in cardiac intermediate care beds instead. Historical triage practices should be reexamined to predict which STEMI patients will require ICU care.
 

Resource allocation

The CICU work flow will be affected as some of its beds are opened up to COVID-19 patients. Standard philosophies of concentrating intense resources will have to give way to a utilitarian approach that evaluates operations based on efficiency, equity, and justice. Physician-patient contact should be minimized using technological links when possible, and rounds might be reorganized to first examine patients without COVID-19, in order to minimize between-patient spread.

Military medicine, which is used to ramping up operations during times of crisis, has potential lessons for the current pandemic. In the face of mass casualties, military physicians often turn to the North Atlantic Treaty Organization triage system, which separates patients into four categories: immediate, requiring lifesaving intervention; delayed, requiring intervention within hours to days; minimal, where the patient is injured but ambulatory; and expectant patients who are deceased or too injured to save. Impersonal though this system may be, it may be required in the most severe scenarios when resources are scarce or absent.

The authors reported no relevant financial disclosures.

SOURCE: Katz J et al. J Am Coll Cardiol. 2020 Apr 15. doi: 10.1016/j.annonc.2020.02.01.

Because of their place at the interface between critical care and cardiovascular medicine, critical care cardiologists are in a good position to come up with novel approaches to adapting critical care systems to the current crisis. Health care and clinical resources have been severely strained in some places, and increasing evidence suggests that SARS-CoV-2 can cause injury to most organ systems. More than a quarter of hospitalized patients have cardiac injury, which can be a key reason for clinical deterioration.

An international group of critical care cardiologists led by Jason Katz, MD, of Duke University, Durham, N.C., offered suggestions for scalable models for critical care delivery in the context of COVID-19 in the Journal of the American College of Cardiology.

Critical care cardiology developed in response to changes in patient populations and their clinical needs. Respiratory insufficiency, heart failure, structural heart disease, and multisystem organ dysfunction became more common than patients with complicated acute MI, leading cardiologists in critical care cardiology to become more proficient in general critical care medicine, and to become leaders in forming collaborative multidisciplinary teams. The authors argued that COVID-19 is precipitating a similar need to adapt to the changing needs of patients.

“This pandemic should serve as a clarion call to our health care systems that we should continue to develop a nimble workforce that can adapt to change quickly during a crisis. We believe critical care cardiologists are well positioned to help serve society in this capacity,” the authors wrote.
 

Surge staging

They proposed four surge stages based in part on an American College of Chest Physicians–endorsed model (Chest 2014 Oct;146:e61S-74S), which regards a 25% capacity surge as minor. At the other end of the spectrum, a 200% surge is defined as a “disaster.” In minor surges (less than 25% increase), the traditional cardiac ICU (CICU) model can continue to be applied. During moderate (25%-100% increases) or major (100%-200%) surges, the critical care cardiologist should collaborate or consult within multiple health care teams. Physicians not trained in critical care can assist with care of intubated and critically ill patients under the supervision of a critical care cardiologist or under the supervision of a partnership between a non–cardiac critical care medicine provider and a cardiologist. The number of patients cared for by each team should increase in step with the size of the surge.

In disaster situations (more than 200% surge), there should be adaptive and dynamic staffing reorganization. The report included an illustration of a range of steps that can be taken, including alterations to staffing, regional care systems, resource management, and triage practices. Scoring systems such as Sequential Organ Failure Assessment may be useful for triaging, but the authors also suggest employment of validated cardiac disease–specific scores, because traditional ICU measures don’t always apply well to CICU populations.

At the hospital level, deferrals should be made for elective cardiac procedures that require CICU or postanesthesia care unit recovery periods. Semielective procedures should be considered after risk-benefit considerations when delays could lead to morbidity or mortality. Even some traditional emergency procedures may need to be reevaluated in the COVID-19 context: For example, some low-risk ST-segment elevation MI (STEMI) patients don’t require ICU care but are manageable in cardiac intermediate care beds instead. Historical triage practices should be reexamined to predict which STEMI patients will require ICU care.
 

Resource allocation

The CICU work flow will be affected as some of its beds are opened up to COVID-19 patients. Standard philosophies of concentrating intense resources will have to give way to a utilitarian approach that evaluates operations based on efficiency, equity, and justice. Physician-patient contact should be minimized using technological links when possible, and rounds might be reorganized to first examine patients without COVID-19, in order to minimize between-patient spread.

Military medicine, which is used to ramping up operations during times of crisis, has potential lessons for the current pandemic. In the face of mass casualties, military physicians often turn to the North Atlantic Treaty Organization triage system, which separates patients into four categories: immediate, requiring lifesaving intervention; delayed, requiring intervention within hours to days; minimal, where the patient is injured but ambulatory; and expectant patients who are deceased or too injured to save. Impersonal though this system may be, it may be required in the most severe scenarios when resources are scarce or absent.

The authors reported no relevant financial disclosures.

SOURCE: Katz J et al. J Am Coll Cardiol. 2020 Apr 15. doi: 10.1016/j.annonc.2020.02.01.

The explanation for the impressive clinical benefits of sacubitril/valsartan in women with heart failure with preserved ejection fraction in the PARAGON-HF trial – but not in the men – remains elusive, Jonathan W. Cunningham, MD, said at the joint scientific sessions of the American College of Cardiology and the World Heart Federation. The meeting was conducted online after its cancellation because of the COVID-19 pandemic.

American College of Cardiology

“We’ve all been trying to unravel the explanation for the differential effects between men and women in the primary trial. I don’t know that this NT-proBNP substudy gives a clear answer because we did see similar reduction in NT-proBNP in the men and women,” said Dr. Cunningham of Brigham and Women’s Hospital, Boston.

“Unfortunately, I think we’re still looking for the underlying physiological explanation for that very interesting interaction,” he added.

The PARAGON-HF trial included 4,796 patients with heart failure with preserved ejection fraction (HFpEF) who were randomized double-blind to sacubitril/valsartan (Entresto) or valsartan on top of background guideline-directed medical therapy and followed for a median of 34 months (N Engl J Med. 2019 Oct 24;381[17]:1609-20). The sacubitril/valsartan group’s 13% relative risk reduction in the primary composite endpoint of cardiovascular death and total heart failure hospitalizations fell tantalizingly short of statistical significance (P = 0.058).

In women, however, who comprised more than half of the study population, the benefit of sacubitril/valsartan was larger: a 27% relative risk reduction compared to valsartan alone. That’s a statistically significant difference in a prespecified subgroup analysis, but according to the rules of clinical trials and statistics it must be considered hypothesis-generating and nondefinitive, since the overall trial was negative. Men randomized to sacubitril/valsartan had a modest 3% increased risk of the primary endpoint compared to men on valsartan.

Because of the enormous unmet need for effective therapy for HFpEF, and the fact that HFpEF is more common in women than men, the search is on for an explanation that would account for the striking gender difference in outcome in PARAGON-HF. At ACC 2020, Dr. Cunningham presented a secondary analysis of the trial focusing on the relationships between baseline and on-treatment N-terminal pro-B-type natriuretic peptide (NT-proBNP) levels and clinical outcomes.

Among the key findings was that the higher the baseline NT-proBNP, the greater the likelihood of the primary endpoint. Also, sacubitril/valsartan reduced NT-proBNP to a similar extent in men and women: For example, by 20% compared to valsartan in men and by 18% in women when measured 16 weeks after randomization. And reduction in NT-proBNP was associated with reduced risk of cardiovascular death and heart failure hospitalizations; indeed, 60% of participants in PARAGON-HF experienced a decrease in NT-proBNP, and they had a 23% lower event rate compared to patients whose NT-proBNP increased during the course of the study.

Another intriguing finding in the parent PARAGON-HF trial was that HFpEF patients with an LVEF of 45%-57% had a 22% lower rate of the primary endpoint than those with an LVEF of 58% or more. But as with the gender difference in clinical outcomes in response to sacubitril/valsartan, the difference in outcomes based on ejection fraction was not mediated by the drug’s impact on NT-proBNP, since sacubitril/valsartan reduced NT-proBNP to a similar degree in HFpEF patients with an LVEF above or below 57%.

The difference in outcomes by ejection fraction wasn’t entirely surprising, because those low-normal–range ejection fractions where sacubitril/valsartan had a favorable impact approach those characteristic of heart failure with reduced ejection fraction (HFrEF), and guidelines give sacubitril/valsartan a class I recommendation in patients with HFrEF on the strength of the medication’s demonstrated reduction in morbidity and mortality in the PARADIGM-HF trial.

Discussant Lee R. Goldberg, MD, predicted this analysis will have an impact on the design of future clinical trials in HFpEF, which up until now have required certain minimum NT-proBNP levels for participation.

“Maybe this is why so many of our trials in HFpEF have been unsuccessful. It’s a very heterogeneous population and perhaps NT-proBNP cutoffs are leading to a lot of mischief or heterogeneity that causes us some difficulty,” said Dr. Goldberg, professor of medicine and chief of the section of advanced heart failure and cardiac transplantation at the University of Pennsylvania, Philadelphia.

Dr. Cunningham reported having no financial conflicts regarding his study. The PARAGON-HF trial was funded by Novartis.

Simultaneously with Dr. Cunningham’s presentation at ACC 2020, the study results were published online (JACC Heart Fail. 2020 Mar 26; doi: 10.1016/j.jchf.2020.03.002.

[email protected]

SOURCE: Cunningham JW. ACC 2020, Abstract 412-08.

The explanation for the impressive clinical benefits of sacubitril/valsartan in women with heart failure with preserved ejection fraction in the PARAGON-HF trial – but not in the men – remains elusive, Jonathan W. Cunningham, MD, said at the joint scientific sessions of the American College of Cardiology and the World Heart Federation. The meeting was conducted online after its cancellation because of the COVID-19 pandemic.

American College of Cardiology

“We’ve all been trying to unravel the explanation for the differential effects between men and women in the primary trial. I don’t know that this NT-proBNP substudy gives a clear answer because we did see similar reduction in NT-proBNP in the men and women,” said Dr. Cunningham of Brigham and Women’s Hospital, Boston.

“Unfortunately, I think we’re still looking for the underlying physiological explanation for that very interesting interaction,” he added.

The PARAGON-HF trial included 4,796 patients with heart failure with preserved ejection fraction (HFpEF) who were randomized double-blind to sacubitril/valsartan (Entresto) or valsartan on top of background guideline-directed medical therapy and followed for a median of 34 months (N Engl J Med. 2019 Oct 24;381[17]:1609-20). The sacubitril/valsartan group’s 13% relative risk reduction in the primary composite endpoint of cardiovascular death and total heart failure hospitalizations fell tantalizingly short of statistical significance (P = 0.058).

In women, however, who comprised more than half of the study population, the benefit of sacubitril/valsartan was larger: a 27% relative risk reduction compared to valsartan alone. That’s a statistically significant difference in a prespecified subgroup analysis, but according to the rules of clinical trials and statistics it must be considered hypothesis-generating and nondefinitive, since the overall trial was negative. Men randomized to sacubitril/valsartan had a modest 3% increased risk of the primary endpoint compared to men on valsartan.

Because of the enormous unmet need for effective therapy for HFpEF, and the fact that HFpEF is more common in women than men, the search is on for an explanation that would account for the striking gender difference in outcome in PARAGON-HF. At ACC 2020, Dr. Cunningham presented a secondary analysis of the trial focusing on the relationships between baseline and on-treatment N-terminal pro-B-type natriuretic peptide (NT-proBNP) levels and clinical outcomes.

Among the key findings was that the higher the baseline NT-proBNP, the greater the likelihood of the primary endpoint. Also, sacubitril/valsartan reduced NT-proBNP to a similar extent in men and women: For example, by 20% compared to valsartan in men and by 18% in women when measured 16 weeks after randomization. And reduction in NT-proBNP was associated with reduced risk of cardiovascular death and heart failure hospitalizations; indeed, 60% of participants in PARAGON-HF experienced a decrease in NT-proBNP, and they had a 23% lower event rate compared to patients whose NT-proBNP increased during the course of the study.

Another intriguing finding in the parent PARAGON-HF trial was that HFpEF patients with an LVEF of 45%-57% had a 22% lower rate of the primary endpoint than those with an LVEF of 58% or more. But as with the gender difference in clinical outcomes in response to sacubitril/valsartan, the difference in outcomes based on ejection fraction was not mediated by the drug’s impact on NT-proBNP, since sacubitril/valsartan reduced NT-proBNP to a similar degree in HFpEF patients with an LVEF above or below 57%.

The difference in outcomes by ejection fraction wasn’t entirely surprising, because those low-normal–range ejection fractions where sacubitril/valsartan had a favorable impact approach those characteristic of heart failure with reduced ejection fraction (HFrEF), and guidelines give sacubitril/valsartan a class I recommendation in patients with HFrEF on the strength of the medication’s demonstrated reduction in morbidity and mortality in the PARADIGM-HF trial.

Discussant Lee R. Goldberg, MD, predicted this analysis will have an impact on the design of future clinical trials in HFpEF, which up until now have required certain minimum NT-proBNP levels for participation.

“Maybe this is why so many of our trials in HFpEF have been unsuccessful. It’s a very heterogeneous population and perhaps NT-proBNP cutoffs are leading to a lot of mischief or heterogeneity that causes us some difficulty,” said Dr. Goldberg, professor of medicine and chief of the section of advanced heart failure and cardiac transplantation at the University of Pennsylvania, Philadelphia.

Dr. Cunningham reported having no financial conflicts regarding his study. The PARAGON-HF trial was funded by Novartis.

Simultaneously with Dr. Cunningham’s presentation at ACC 2020, the study results were published online (JACC Heart Fail. 2020 Mar 26; doi: 10.1016/j.jchf.2020.03.002.

[email protected]

SOURCE: Cunningham JW. ACC 2020, Abstract 412-08.

The explanation for the impressive clinical benefits of sacubitril/valsartan in women with heart failure with preserved ejection fraction in the PARAGON-HF trial – but not in the men – remains elusive, Jonathan W. Cunningham, MD, said at the joint scientific sessions of the American College of Cardiology and the World Heart Federation. The meeting was conducted online after its cancellation because of the COVID-19 pandemic.

American College of Cardiology

“We’ve all been trying to unravel the explanation for the differential effects between men and women in the primary trial. I don’t know that this NT-proBNP substudy gives a clear answer because we did see similar reduction in NT-proBNP in the men and women,” said Dr. Cunningham of Brigham and Women’s Hospital, Boston.

“Unfortunately, I think we’re still looking for the underlying physiological explanation for that very interesting interaction,” he added.

The PARAGON-HF trial included 4,796 patients with heart failure with preserved ejection fraction (HFpEF) who were randomized double-blind to sacubitril/valsartan (Entresto) or valsartan on top of background guideline-directed medical therapy and followed for a median of 34 months (N Engl J Med. 2019 Oct 24;381[17]:1609-20). The sacubitril/valsartan group’s 13% relative risk reduction in the primary composite endpoint of cardiovascular death and total heart failure hospitalizations fell tantalizingly short of statistical significance (P = 0.058).

In women, however, who comprised more than half of the study population, the benefit of sacubitril/valsartan was larger: a 27% relative risk reduction compared to valsartan alone. That’s a statistically significant difference in a prespecified subgroup analysis, but according to the rules of clinical trials and statistics it must be considered hypothesis-generating and nondefinitive, since the overall trial was negative. Men randomized to sacubitril/valsartan had a modest 3% increased risk of the primary endpoint compared to men on valsartan.

Because of the enormous unmet need for effective therapy for HFpEF, and the fact that HFpEF is more common in women than men, the search is on for an explanation that would account for the striking gender difference in outcome in PARAGON-HF. At ACC 2020, Dr. Cunningham presented a secondary analysis of the trial focusing on the relationships between baseline and on-treatment N-terminal pro-B-type natriuretic peptide (NT-proBNP) levels and clinical outcomes.

Among the key findings was that the higher the baseline NT-proBNP, the greater the likelihood of the primary endpoint. Also, sacubitril/valsartan reduced NT-proBNP to a similar extent in men and women: For example, by 20% compared to valsartan in men and by 18% in women when measured 16 weeks after randomization. And reduction in NT-proBNP was associated with reduced risk of cardiovascular death and heart failure hospitalizations; indeed, 60% of participants in PARAGON-HF experienced a decrease in NT-proBNP, and they had a 23% lower event rate compared to patients whose NT-proBNP increased during the course of the study.

Another intriguing finding in the parent PARAGON-HF trial was that HFpEF patients with an LVEF of 45%-57% had a 22% lower rate of the primary endpoint than those with an LVEF of 58% or more. But as with the gender difference in clinical outcomes in response to sacubitril/valsartan, the difference in outcomes based on ejection fraction was not mediated by the drug’s impact on NT-proBNP, since sacubitril/valsartan reduced NT-proBNP to a similar degree in HFpEF patients with an LVEF above or below 57%.

The difference in outcomes by ejection fraction wasn’t entirely surprising, because those low-normal–range ejection fractions where sacubitril/valsartan had a favorable impact approach those characteristic of heart failure with reduced ejection fraction (HFrEF), and guidelines give sacubitril/valsartan a class I recommendation in patients with HFrEF on the strength of the medication’s demonstrated reduction in morbidity and mortality in the PARADIGM-HF trial.

Discussant Lee R. Goldberg, MD, predicted this analysis will have an impact on the design of future clinical trials in HFpEF, which up until now have required certain minimum NT-proBNP levels for participation.

“Maybe this is why so many of our trials in HFpEF have been unsuccessful. It’s a very heterogeneous population and perhaps NT-proBNP cutoffs are leading to a lot of mischief or heterogeneity that causes us some difficulty,” said Dr. Goldberg, professor of medicine and chief of the section of advanced heart failure and cardiac transplantation at the University of Pennsylvania, Philadelphia.

Dr. Cunningham reported having no financial conflicts regarding his study. The PARAGON-HF trial was funded by Novartis.

Simultaneously with Dr. Cunningham’s presentation at ACC 2020, the study results were published online (JACC Heart Fail. 2020 Mar 26; doi: 10.1016/j.jchf.2020.03.002.

[email protected]

SOURCE: Cunningham JW. ACC 2020, Abstract 412-08.

“I do not shrink from this responsibility – I welcome it.” – John F. Kennedy, inaugural address

COVID-19 has changed our world. Social distancing is now the norm and flattening the curve is our motto. Family physicians’ place on the front line of medicine is more important now than it has ever been.

In the Pennsylvania community in which we work, the first person to don protective gear and sample patients for viral testing in a rapidly organized COVID-19 testing site was John Russell, MD, a family physician. When I asked him about his experience, Dr. Russell said: “No one became a fireman to get cats out of trees ... it was to fight fires. As doctors, this is the same idea ... this is a chance to help fight the fires in our community.”

And, of course, it is primary care providers – family physicians, internists, pediatricians, nurse practitioners, physician assistants, and nurses – who day in and day out are putting aside their own fears, while dealing with those of their family, to come to work with a sense of purpose and courage.

The military uses the term “operational tempo” to describe the speed and intensity of actions relative to the speed and intensity of unfolding events in the operational environment. Family physicians are being asked to work at an increased speed in unfamiliar terrain as our environments change by the hour. The challenge is to answer the call – and take care of ourselves – in unprecedented ways. We often use anticipatory guidance with our patients to help prepare them for the challenges they will face. So too must we anticipate the things we will need to be attentive to in the coming months in order to sustain the effort that will be required of us.

With this in mind, we would be wise to consider developing plans in three domains: physical, mental, and social.

With gyms closed and restaurants limiting their offerings to take-out, this is an opportune time to create an exercise regimen at home and experiment with healthy meal options. YouTube videos abound for workouts of every length. And of course, you can simply take a daily walk, go for a run, or take a bike ride. Similarly, good choices can be made with take-out and the foods we prepare at home.

To take care of our mental health, we need to have the discipline to take breaks, delegate when necessary, and use downtime to clear our minds. Need another option? Consider meditation. Google “best meditation apps” and take your pick.

From a social standpoint, we must be proactive about preventing emotional isolation. Technology allows us to connect with others through messaging and face-to-face video. We need to remember to regularly check in with those we care about; few things in life are as affirming as the connections with those who are close to us: ­family, coworkers, and patients.

Out of crisis comes opportunity. Should we be quarantined, we can remind ourselves that Sir Isaac Newton, while in quarantine during the bubonic plague, laid the foundation for classical physics, composed theories on light and optics, and penned his first draft of the law of gravity.¹

Life carries on amidst the ­pandemic. Even though the current focus is on the ­COVID-19 crisis, our many needs, joys, and challenges as human beings remain. Today, someone will find out she is pregnant and someone else will be diagnosed with cancer, plan a wedding, or attend the funeral of a loved one. We, as family physicians, have the training to lead with courage and empathy. We have the expertise gained through years of helping patients though diverse physical and emotional challenges.

We will continue to listen to our patients’ stories, diagnose and treat their diseases, and take steps to bring a sense of calm to the chaos around us. We need to be mindful of our own mindset, because we have a choice. As the psychologist Victor Frankl said in 1946 after being liberated from the concentration camps, “Everything can be taken from a man but one thing: the last of the human freedoms – to choose one’s attitude in any given set of circumstances, to choose one’s own way.”²
 

A version of this commentary originally appeared in the Journal of Family Practice (J Fam Pract. 2020 April;69[3]:119,153).

Dr. Skolnik is professor of family and community medicine at Jefferson Medical College, Philadelphia, and an associate director of the family medicine residency program at Abington (Pa.) Jefferson Health. Aaron Sutton is a behavioral health consultant and faculty member in the family medicine residency program at Abington Jefferson Health.

References

1. Brockell G. “During a pandemic, Isaac Newton had to work from home, too. He used the time wisely.” The Washington Post. 2020 Mar 12.

2. Frankl VE. “Man’s Search for Meaning.” Boston: Beacon Press, 2006.

“I do not shrink from this responsibility – I welcome it.” – John F. Kennedy, inaugural address

COVID-19 has changed our world. Social distancing is now the norm and flattening the curve is our motto. Family physicians’ place on the front line of medicine is more important now than it has ever been.

In the Pennsylvania community in which we work, the first person to don protective gear and sample patients for viral testing in a rapidly organized COVID-19 testing site was John Russell, MD, a family physician. When I asked him about his experience, Dr. Russell said: “No one became a fireman to get cats out of trees ... it was to fight fires. As doctors, this is the same idea ... this is a chance to help fight the fires in our community.”

And, of course, it is primary care providers – family physicians, internists, pediatricians, nurse practitioners, physician assistants, and nurses – who day in and day out are putting aside their own fears, while dealing with those of their family, to come to work with a sense of purpose and courage.

The military uses the term “operational tempo” to describe the speed and intensity of actions relative to the speed and intensity of unfolding events in the operational environment. Family physicians are being asked to work at an increased speed in unfamiliar terrain as our environments change by the hour. The challenge is to answer the call – and take care of ourselves – in unprecedented ways. We often use anticipatory guidance with our patients to help prepare them for the challenges they will face. So too must we anticipate the things we will need to be attentive to in the coming months in order to sustain the effort that will be required of us.

With this in mind, we would be wise to consider developing plans in three domains: physical, mental, and social.

With gyms closed and restaurants limiting their offerings to take-out, this is an opportune time to create an exercise regimen at home and experiment with healthy meal options. YouTube videos abound for workouts of every length. And of course, you can simply take a daily walk, go for a run, or take a bike ride. Similarly, good choices can be made with take-out and the foods we prepare at home.

To take care of our mental health, we need to have the discipline to take breaks, delegate when necessary, and use downtime to clear our minds. Need another option? Consider meditation. Google “best meditation apps” and take your pick.

From a social standpoint, we must be proactive about preventing emotional isolation. Technology allows us to connect with others through messaging and face-to-face video. We need to remember to regularly check in with those we care about; few things in life are as affirming as the connections with those who are close to us: ­family, coworkers, and patients.

Out of crisis comes opportunity. Should we be quarantined, we can remind ourselves that Sir Isaac Newton, while in quarantine during the bubonic plague, laid the foundation for classical physics, composed theories on light and optics, and penned his first draft of the law of gravity.¹

Life carries on amidst the ­pandemic. Even though the current focus is on the ­COVID-19 crisis, our many needs, joys, and challenges as human beings remain. Today, someone will find out she is pregnant and someone else will be diagnosed with cancer, plan a wedding, or attend the funeral of a loved one. We, as family physicians, have the training to lead with courage and empathy. We have the expertise gained through years of helping patients though diverse physical and emotional challenges.

We will continue to listen to our patients’ stories, diagnose and treat their diseases, and take steps to bring a sense of calm to the chaos around us. We need to be mindful of our own mindset, because we have a choice. As the psychologist Victor Frankl said in 1946 after being liberated from the concentration camps, “Everything can be taken from a man but one thing: the last of the human freedoms – to choose one’s attitude in any given set of circumstances, to choose one’s own way.”²
 

A version of this commentary originally appeared in the Journal of Family Practice (J Fam Pract. 2020 April;69[3]:119,153).

Dr. Skolnik is professor of family and community medicine at Jefferson Medical College, Philadelphia, and an associate director of the family medicine residency program at Abington (Pa.) Jefferson Health. Aaron Sutton is a behavioral health consultant and faculty member in the family medicine residency program at Abington Jefferson Health.

References

1. Brockell G. “During a pandemic, Isaac Newton had to work from home, too. He used the time wisely.” The Washington Post. 2020 Mar 12.

2. Frankl VE. “Man’s Search for Meaning.” Boston: Beacon Press, 2006.

“I do not shrink from this responsibility – I welcome it.” – John F. Kennedy, inaugural address

COVID-19 has changed our world. Social distancing is now the norm and flattening the curve is our motto. Family physicians’ place on the front line of medicine is more important now than it has ever been.

In the Pennsylvania community in which we work, the first person to don protective gear and sample patients for viral testing in a rapidly organized COVID-19 testing site was John Russell, MD, a family physician. When I asked him about his experience, Dr. Russell said: “No one became a fireman to get cats out of trees ... it was to fight fires. As doctors, this is the same idea ... this is a chance to help fight the fires in our community.”

And, of course, it is primary care providers – family physicians, internists, pediatricians, nurse practitioners, physician assistants, and nurses – who day in and day out are putting aside their own fears, while dealing with those of their family, to come to work with a sense of purpose and courage.

The military uses the term “operational tempo” to describe the speed and intensity of actions relative to the speed and intensity of unfolding events in the operational environment. Family physicians are being asked to work at an increased speed in unfamiliar terrain as our environments change by the hour. The challenge is to answer the call – and take care of ourselves – in unprecedented ways. We often use anticipatory guidance with our patients to help prepare them for the challenges they will face. So too must we anticipate the things we will need to be attentive to in the coming months in order to sustain the effort that will be required of us.

With this in mind, we would be wise to consider developing plans in three domains: physical, mental, and social.

With gyms closed and restaurants limiting their offerings to take-out, this is an opportune time to create an exercise regimen at home and experiment with healthy meal options. YouTube videos abound for workouts of every length. And of course, you can simply take a daily walk, go for a run, or take a bike ride. Similarly, good choices can be made with take-out and the foods we prepare at home.

To take care of our mental health, we need to have the discipline to take breaks, delegate when necessary, and use downtime to clear our minds. Need another option? Consider meditation. Google “best meditation apps” and take your pick.

From a social standpoint, we must be proactive about preventing emotional isolation. Technology allows us to connect with others through messaging and face-to-face video. We need to remember to regularly check in with those we care about; few things in life are as affirming as the connections with those who are close to us: ­family, coworkers, and patients.

Out of crisis comes opportunity. Should we be quarantined, we can remind ourselves that Sir Isaac Newton, while in quarantine during the bubonic plague, laid the foundation for classical physics, composed theories on light and optics, and penned his first draft of the law of gravity.¹

Life carries on amidst the ­pandemic. Even though the current focus is on the ­COVID-19 crisis, our many needs, joys, and challenges as human beings remain. Today, someone will find out she is pregnant and someone else will be diagnosed with cancer, plan a wedding, or attend the funeral of a loved one. We, as family physicians, have the training to lead with courage and empathy. We have the expertise gained through years of helping patients though diverse physical and emotional challenges.

We will continue to listen to our patients’ stories, diagnose and treat their diseases, and take steps to bring a sense of calm to the chaos around us. We need to be mindful of our own mindset, because we have a choice. As the psychologist Victor Frankl said in 1946 after being liberated from the concentration camps, “Everything can be taken from a man but one thing: the last of the human freedoms – to choose one’s attitude in any given set of circumstances, to choose one’s own way.”²
 

A version of this commentary originally appeared in the Journal of Family Practice (J Fam Pract. 2020 April;69[3]:119,153).

Dr. Skolnik is professor of family and community medicine at Jefferson Medical College, Philadelphia, and an associate director of the family medicine residency program at Abington (Pa.) Jefferson Health. Aaron Sutton is a behavioral health consultant and faculty member in the family medicine residency program at Abington Jefferson Health.

References

1. Brockell G. “During a pandemic, Isaac Newton had to work from home, too. He used the time wisely.” The Washington Post. 2020 Mar 12.

2. Frankl VE. “Man’s Search for Meaning.” Boston: Beacon Press, 2006.

It is becoming increasingly clear that obesity is one of the biggest risk factors for severe COVID-19 disease, particularly among younger patients.

Newly published data from New York show that, among those aged under 60 years, obesity was twice as likely to result in hospitalization for COVID-19 and also significantly increased the likelihood that a person would end up in intensive care.

“Obesity [in people younger than 60] appears to be a previously unrecognized risk factor for hospital admission and need for critical care. This has important and practical implications when nearly 40% of adults in the U.S. are obese with a body mass index [BMI] of [at least] 30,” wrote Jennifer Lighter, MD, of New York University Langone Health, and colleagues in their research letter published in Clinical Infectious Diseases.

Similar findings in a preprint publication, yet to be peer reviewed, from another New York hospital show that, with the exception of older age, obesity (BMI greater than 40 kg/m²) had the strongest association with hospitalization for COVID-19, increasing the risk more than 500%.

Meanwhile, a new French study shows a high frequency of obesity among patients admitted to one ICU for COVID-19; furthermore, disease severity increased with increasing BMI. One of the authors said in an interview that many of the presenting patients were younger, with their only risk factor being obesity.

“Patients with obesity should avoid any COVID-19 contamination by enforcing all prevention measures during the current pandemic,” wrote the authors, led by Arthur Simonnet, MD, Centre Hospitalier Universitaire de Lille (France).

They also stressed that COVID-19 patients “with severe obesity should be monitored more closely.”
 

Those with obesity are young and become very sick, very quickly

François Pattou, MD, PhD, coauthor of the French article published in Obesity said in an interview that, when patients with COVID-19 began to arrive at their ICU in Lille, there were young patients who did not have any other comorbidities.

“They were just obese,” he observed, adding that they seemed “to have a very specific disease, something different” from that seen before, with patients becoming very sick, very quickly.

In their study, they examined 124 consecutive patients admitted to intensive care with COVID-19 between Feb. 25 and April 5, 2020, and compared them with a historical control group of 306 patients admitted to the ICU at the same hospital for non–COVID-19-related severe acute respiratory disease in 2019.

By April 6, 60 patients with COVID-19 had been discharged from intensive care, 18 had died, and 46 remained in the unit. The majority (73%) were male, and their median age was 60 years. Obesity and severe obesity were significantly more prevalent among the patients with COVID-19, at 47.6% and 28.2% versus 25.2% and 10.8% among historical controls (P < .001 for trend).

A key finding was that those with a BMI greater than 35 had a more than 600% increased risk of requiring mechanical ventilation (odds ratio, 7.36; P = .021), compared with those with a BMI less than 25, even after adjusting for age, diabetes, and hypertension.
 

Obesity in under 60s at least doubles risk of admission in U.S.

The studies out of New York, one of which was stratified by age, paint a similar picture.

Dr. Lighter and colleagues found that, of the 3,615 individuals who tested positive for COVID-19 in their series, 775 (21%) had a BMI of 30-34 and 595 (16%) had a BMI of at least 35. Obesity wasn’t a predictor of admission to hospital or the ICU in those over the age of 60 years, but in those younger than 60 years, it was.

Those under age 60 with a BMI of 30-34 were twice as likely to be admitted to hospital (hazard ratio, 2.0; P < .0001) and critical care (HR, 1.8; P = .006), compared with those under age 60 with a BMI less than 30. Likewise, those under age 60 with a BMI of at least 35 were 2.2 (P < .0001) and 3.6 (P < .0001) times more likely to be admitted to acute and critical care.

“Unfortunately, obesity in people [less than] 60 years is a newly identified epidemiologic risk factor which may contribute to increased morbidity rates [with COVID-19] experienced in the U.S.,” they concluded.

And in the other U.S. study, Christopher M. Petrilli, MD, of New York University, and colleagues looked at 4,103 patients with COVID-19 treated between March 1 and April 2, 2020, and followed to April 7.

Just under half of patients (48.7%) were hospitalized, of whom 22.3% required mechanical ventilation and 14.6% died or were discharged to hospice. The research was published on medRxiv, showing that, apart from age, the strongest predictors of hospitalization were BMI greater than 40 (OR, 6.2) and heart failure (OR, 4.3).

“It is notable that the chronic condition with the strongest association with critical illness was obesity, with a substantially higher odds ratio than any cardiovascular or pulmonary disease,” they noted.
 

Inflammation is a possible culprit

Dr. Pattou believes that the culprit behind the increased risk of disease severity seen with obesity in COVID-19 is inflammation, mediated by fibrin deposits in the circulation, which his colleagues have seen on autopsy, and which “block oxygen passage through the blood.”

This may help explain why mechanical ventilation can be less successful in these patients. “The answer is to get rid of this inflammation,” Dr. Pattou observed.

Dr. Petrilli and colleagues also observed that obesity “is well-recognized to be a proinflammatory condition.”

And their findings showed “the importance of inflammatory markers in distinguishing future critical from noncritical illness,” they said, noting that, among these markers, early elevations in C-reactive protein and D-dimer “had the strongest association with mechanical ventilation or mortality.”

Livio Luzi, MD, of IRCCS MultiMedica, Milan, Italy, has previously written on the relationship between influenza and obesity, and discussed in an interview the potential lessons for the COVID-19 pandemic.

“Obesity is characterized by an impairment of immune response and by a low-grade chronic inflammation. Furthermore, obese subjects have an altered dynamic of pulmonary ventilation, with reduced diaphragmatic excursion,” Dr. Luzi said. These factors, alongside others, “may help to explain” the current results, and stress the importance of close monitoring of those with obesity and COVID-19.

No relevant financial relationships were declared.

This article first appeared on Medscape.com.

It is becoming increasingly clear that obesity is one of the biggest risk factors for severe COVID-19 disease, particularly among younger patients.

Newly published data from New York show that, among those aged under 60 years, obesity was twice as likely to result in hospitalization for COVID-19 and also significantly increased the likelihood that a person would end up in intensive care.

“Obesity [in people younger than 60] appears to be a previously unrecognized risk factor for hospital admission and need for critical care. This has important and practical implications when nearly 40% of adults in the U.S. are obese with a body mass index [BMI] of [at least] 30,” wrote Jennifer Lighter, MD, of New York University Langone Health, and colleagues in their research letter published in Clinical Infectious Diseases.

Similar findings in a preprint publication, yet to be peer reviewed, from another New York hospital show that, with the exception of older age, obesity (BMI greater than 40 kg/m²) had the strongest association with hospitalization for COVID-19, increasing the risk more than 500%.

Meanwhile, a new French study shows a high frequency of obesity among patients admitted to one ICU for COVID-19; furthermore, disease severity increased with increasing BMI. One of the authors said in an interview that many of the presenting patients were younger, with their only risk factor being obesity.

“Patients with obesity should avoid any COVID-19 contamination by enforcing all prevention measures during the current pandemic,” wrote the authors, led by Arthur Simonnet, MD, Centre Hospitalier Universitaire de Lille (France).

They also stressed that COVID-19 patients “with severe obesity should be monitored more closely.”
 

Those with obesity are young and become very sick, very quickly

François Pattou, MD, PhD, coauthor of the French article published in Obesity said in an interview that, when patients with COVID-19 began to arrive at their ICU in Lille, there were young patients who did not have any other comorbidities.

“They were just obese,” he observed, adding that they seemed “to have a very specific disease, something different” from that seen before, with patients becoming very sick, very quickly.

In their study, they examined 124 consecutive patients admitted to intensive care with COVID-19 between Feb. 25 and April 5, 2020, and compared them with a historical control group of 306 patients admitted to the ICU at the same hospital for non–COVID-19-related severe acute respiratory disease in 2019.

By April 6, 60 patients with COVID-19 had been discharged from intensive care, 18 had died, and 46 remained in the unit. The majority (73%) were male, and their median age was 60 years. Obesity and severe obesity were significantly more prevalent among the patients with COVID-19, at 47.6% and 28.2% versus 25.2% and 10.8% among historical controls (P < .001 for trend).

A key finding was that those with a BMI greater than 35 had a more than 600% increased risk of requiring mechanical ventilation (odds ratio, 7.36; P = .021), compared with those with a BMI less than 25, even after adjusting for age, diabetes, and hypertension.
 

Obesity in under 60s at least doubles risk of admission in U.S.

The studies out of New York, one of which was stratified by age, paint a similar picture.

Dr. Lighter and colleagues found that, of the 3,615 individuals who tested positive for COVID-19 in their series, 775 (21%) had a BMI of 30-34 and 595 (16%) had a BMI of at least 35. Obesity wasn’t a predictor of admission to hospital or the ICU in those over the age of 60 years, but in those younger than 60 years, it was.

Those under age 60 with a BMI of 30-34 were twice as likely to be admitted to hospital (hazard ratio, 2.0; P < .0001) and critical care (HR, 1.8; P = .006), compared with those under age 60 with a BMI less than 30. Likewise, those under age 60 with a BMI of at least 35 were 2.2 (P < .0001) and 3.6 (P < .0001) times more likely to be admitted to acute and critical care.

“Unfortunately, obesity in people [less than] 60 years is a newly identified epidemiologic risk factor which may contribute to increased morbidity rates [with COVID-19] experienced in the U.S.,” they concluded.

And in the other U.S. study, Christopher M. Petrilli, MD, of New York University, and colleagues looked at 4,103 patients with COVID-19 treated between March 1 and April 2, 2020, and followed to April 7.

Just under half of patients (48.7%) were hospitalized, of whom 22.3% required mechanical ventilation and 14.6% died or were discharged to hospice. The research was published on medRxiv, showing that, apart from age, the strongest predictors of hospitalization were BMI greater than 40 (OR, 6.2) and heart failure (OR, 4.3).

“It is notable that the chronic condition with the strongest association with critical illness was obesity, with a substantially higher odds ratio than any cardiovascular or pulmonary disease,” they noted.
 

Inflammation is a possible culprit

Dr. Pattou believes that the culprit behind the increased risk of disease severity seen with obesity in COVID-19 is inflammation, mediated by fibrin deposits in the circulation, which his colleagues have seen on autopsy, and which “block oxygen passage through the blood.”

This may help explain why mechanical ventilation can be less successful in these patients. “The answer is to get rid of this inflammation,” Dr. Pattou observed.

Dr. Petrilli and colleagues also observed that obesity “is well-recognized to be a proinflammatory condition.”

And their findings showed “the importance of inflammatory markers in distinguishing future critical from noncritical illness,” they said, noting that, among these markers, early elevations in C-reactive protein and D-dimer “had the strongest association with mechanical ventilation or mortality.”

Livio Luzi, MD, of IRCCS MultiMedica, Milan, Italy, has previously written on the relationship between influenza and obesity, and discussed in an interview the potential lessons for the COVID-19 pandemic.

“Obesity is characterized by an impairment of immune response and by a low-grade chronic inflammation. Furthermore, obese subjects have an altered dynamic of pulmonary ventilation, with reduced diaphragmatic excursion,” Dr. Luzi said. These factors, alongside others, “may help to explain” the current results, and stress the importance of close monitoring of those with obesity and COVID-19.

No relevant financial relationships were declared.

This article first appeared on Medscape.com.

It is becoming increasingly clear that obesity is one of the biggest risk factors for severe COVID-19 disease, particularly among younger patients.

Newly published data from New York show that, among those aged under 60 years, obesity was twice as likely to result in hospitalization for COVID-19 and also significantly increased the likelihood that a person would end up in intensive care.

“Obesity [in people younger than 60] appears to be a previously unrecognized risk factor for hospital admission and need for critical care. This has important and practical implications when nearly 40% of adults in the U.S. are obese with a body mass index [BMI] of [at least] 30,” wrote Jennifer Lighter, MD, of New York University Langone Health, and colleagues in their research letter published in Clinical Infectious Diseases.

Similar findings in a preprint publication, yet to be peer reviewed, from another New York hospital show that, with the exception of older age, obesity (BMI greater than 40 kg/m²) had the strongest association with hospitalization for COVID-19, increasing the risk more than 500%.

Meanwhile, a new French study shows a high frequency of obesity among patients admitted to one ICU for COVID-19; furthermore, disease severity increased with increasing BMI. One of the authors said in an interview that many of the presenting patients were younger, with their only risk factor being obesity.

“Patients with obesity should avoid any COVID-19 contamination by enforcing all prevention measures during the current pandemic,” wrote the authors, led by Arthur Simonnet, MD, Centre Hospitalier Universitaire de Lille (France).

They also stressed that COVID-19 patients “with severe obesity should be monitored more closely.”
 

Those with obesity are young and become very sick, very quickly

François Pattou, MD, PhD, coauthor of the French article published in Obesity said in an interview that, when patients with COVID-19 began to arrive at their ICU in Lille, there were young patients who did not have any other comorbidities.

“They were just obese,” he observed, adding that they seemed “to have a very specific disease, something different” from that seen before, with patients becoming very sick, very quickly.

In their study, they examined 124 consecutive patients admitted to intensive care with COVID-19 between Feb. 25 and April 5, 2020, and compared them with a historical control group of 306 patients admitted to the ICU at the same hospital for non–COVID-19-related severe acute respiratory disease in 2019.

By April 6, 60 patients with COVID-19 had been discharged from intensive care, 18 had died, and 46 remained in the unit. The majority (73%) were male, and their median age was 60 years. Obesity and severe obesity were significantly more prevalent among the patients with COVID-19, at 47.6% and 28.2% versus 25.2% and 10.8% among historical controls (P < .001 for trend).

A key finding was that those with a BMI greater than 35 had a more than 600% increased risk of requiring mechanical ventilation (odds ratio, 7.36; P = .021), compared with those with a BMI less than 25, even after adjusting for age, diabetes, and hypertension.
 

Obesity in under 60s at least doubles risk of admission in U.S.

The studies out of New York, one of which was stratified by age, paint a similar picture.

Dr. Lighter and colleagues found that, of the 3,615 individuals who tested positive for COVID-19 in their series, 775 (21%) had a BMI of 30-34 and 595 (16%) had a BMI of at least 35. Obesity wasn’t a predictor of admission to hospital or the ICU in those over the age of 60 years, but in those younger than 60 years, it was.

Those under age 60 with a BMI of 30-34 were twice as likely to be admitted to hospital (hazard ratio, 2.0; P < .0001) and critical care (HR, 1.8; P = .006), compared with those under age 60 with a BMI less than 30. Likewise, those under age 60 with a BMI of at least 35 were 2.2 (P < .0001) and 3.6 (P < .0001) times more likely to be admitted to acute and critical care.

“Unfortunately, obesity in people [less than] 60 years is a newly identified epidemiologic risk factor which may contribute to increased morbidity rates [with COVID-19] experienced in the U.S.,” they concluded.

And in the other U.S. study, Christopher M. Petrilli, MD, of New York University, and colleagues looked at 4,103 patients with COVID-19 treated between March 1 and April 2, 2020, and followed to April 7.

Just under half of patients (48.7%) were hospitalized, of whom 22.3% required mechanical ventilation and 14.6% died or were discharged to hospice. The research was published on medRxiv, showing that, apart from age, the strongest predictors of hospitalization were BMI greater than 40 (OR, 6.2) and heart failure (OR, 4.3).

“It is notable that the chronic condition with the strongest association with critical illness was obesity, with a substantially higher odds ratio than any cardiovascular or pulmonary disease,” they noted.
 

Inflammation is a possible culprit

Dr. Pattou believes that the culprit behind the increased risk of disease severity seen with obesity in COVID-19 is inflammation, mediated by fibrin deposits in the circulation, which his colleagues have seen on autopsy, and which “block oxygen passage through the blood.”

This may help explain why mechanical ventilation can be less successful in these patients. “The answer is to get rid of this inflammation,” Dr. Pattou observed.

Dr. Petrilli and colleagues also observed that obesity “is well-recognized to be a proinflammatory condition.”

And their findings showed “the importance of inflammatory markers in distinguishing future critical from noncritical illness,” they said, noting that, among these markers, early elevations in C-reactive protein and D-dimer “had the strongest association with mechanical ventilation or mortality.”

Livio Luzi, MD, of IRCCS MultiMedica, Milan, Italy, has previously written on the relationship between influenza and obesity, and discussed in an interview the potential lessons for the COVID-19 pandemic.

“Obesity is characterized by an impairment of immune response and by a low-grade chronic inflammation. Furthermore, obese subjects have an altered dynamic of pulmonary ventilation, with reduced diaphragmatic excursion,” Dr. Luzi said. These factors, alongside others, “may help to explain” the current results, and stress the importance of close monitoring of those with obesity and COVID-19.

No relevant financial relationships were declared.

This article first appeared on Medscape.com.

COVID-19 has prompted many changes in pediatric health care. They say necessity is the mother of invention. Sometimes, necessity is the motivator for the long-past-due adoption of a previous invention, such as telemedicine for minor illnesses. And sometimes necessity reminds us about what is really important in a world of high technology.

Nicola Marfisi/AGF/Universal Images Group/Science Source

Unlike our nearly overwhelmed internal medicine, ED, and family physician colleagues, many pediatricians are in a lull that threatens the financial viability of our practices. We are postponing annual well visits. We have fewer sick visits and hospitalizations since respiratory syncytial virus (RSV) and influenza also have been reduced by social distancing. Parents are avoiding the risk of contagion in the waiting room and not bringing their children in for minor complaints. There is more telemedicine – a welcome change in financing and practice whose time has come, but was being delayed by lack of insurance coverage.

Technology has allowed clinicians to respond to the pandemic in ways that would not have been possible a few years ago. Online tools, such as subscription email lists, webinars, and electronic medical news services, provide updates when the information changes weekly on the virus’s contagiousness, asymptomatic and presymptomatic transmission, prevalence, the effectiveness of masks, and experimental treatment options. These changes have been so fast that many journal articles based on data from China were obsolete and contradicted before they appeared in print.

However, technology only helped us to more effectively do what we needed to do in the first place – come together in a world of physical distancing and work toward common goals. In many hospitals, pediatric wards were emptied by reduced RSV admissions and postponed elective surgeries. These units have been converted to accept adult patients up to age 30 or 40 years. Our med-peds colleagues quickly created webinars and online resource packages on topics pediatric hospitalists might need to care for that population. There were refresher courses on ventilator management and reminders that community pediatric hospitalists, who in the winter might have one-third of their admissions with RSV, have more experience managing viral pneumonia than the internists.

Ward teams were created with a pediatric attending and an internal medicine resident. The resident’s familiarity with the names of blood pressure medicines complemented the attending’s years of clinical judgment and bedside manner. People are stepping out of their comfort zones but initial reports from the front lines are that, with each other’s support, we’ve got this.

Mistakes in telemedicine are being made, shared, and learned from. Emergency physicians are collecting anecdotes of situations when things were missed or treatment delayed. Surgeons report seeing increased numbers of cases in which the diagnosis of appendicitis was delayed, which isn’t surprising when a pediatrician cannot lay hands on the belly. Perhaps any case in which a parent calls a second or third time should be seen in the flesh.

Some newborn nurseries are discharging mother and baby at 24 hours after birth and rediscovering what was learned about that practice, which became common in the 1990s. It works well for the vast majority of babies, but we need to be ready to detect the occasional jaundiced baby or the one where breastfeeding isn’t going well. The gray-haired pediatricians can recall those nuances.

Another key role is to help everyone process the frequent deaths during a pandemic. First, there are the families we care for. Children are losing grandparents with little warning. Parents may be overwhelmed with grief while ill themselves. That makes children vulnerable.

Our medical system in 2 months has moved heaven and earth – and significantly harmed the medical care and financial future of our children – trying to assure that every 80-year-old has the right to die while attached to a ventilator, even though only a small fraction of them will survive to discharge. Meanwhile, on the wards, visitation policies have people deteriorating and dying alone. I find this paradigm distressing and antithetical to my training.

Medicine and nursing both have long histories in which the practitioner recognized that there was little they could do to prevent the death. Their role was to compassionately guide the family through it. For some people, this connection is the most precious of the arts of medicine and nursing. We need to reexamine our values. We need to get creative. We need to involve palliative care experts and clergy with the same urgency with which we have automakers making ventilators.

Second, there are our colleagues. Pediatric caregivers, particularly trainees, rarely encounter deaths and can benefit from debriefing sessions, even short ones. There is comfort in having a colleague review the situation and say: “There was nothing you could have done.” Or even: “That minor omission did not alter the outcome.” Even when everything was done properly, deaths cause moral suffering that needs processing and healing. Even if you don’t have magic words to give, just being present aids in the healing. We are all in this, together.

Dr. Powell is a pediatric hospitalist and clinical ethics consultant living in St. Louis. He has no relevant financial disclosures. Email him at [email protected].

COVID-19 has prompted many changes in pediatric health care. They say necessity is the mother of invention. Sometimes, necessity is the motivator for the long-past-due adoption of a previous invention, such as telemedicine for minor illnesses. And sometimes necessity reminds us about what is really important in a world of high technology.

Nicola Marfisi/AGF/Universal Images Group/Science Source

Unlike our nearly overwhelmed internal medicine, ED, and family physician colleagues, many pediatricians are in a lull that threatens the financial viability of our practices. We are postponing annual well visits. We have fewer sick visits and hospitalizations since respiratory syncytial virus (RSV) and influenza also have been reduced by social distancing. Parents are avoiding the risk of contagion in the waiting room and not bringing their children in for minor complaints. There is more telemedicine – a welcome change in financing and practice whose time has come, but was being delayed by lack of insurance coverage.

Technology has allowed clinicians to respond to the pandemic in ways that would not have been possible a few years ago. Online tools, such as subscription email lists, webinars, and electronic medical news services, provide updates when the information changes weekly on the virus’s contagiousness, asymptomatic and presymptomatic transmission, prevalence, the effectiveness of masks, and experimental treatment options. These changes have been so fast that many journal articles based on data from China were obsolete and contradicted before they appeared in print.

However, technology only helped us to more effectively do what we needed to do in the first place – come together in a world of physical distancing and work toward common goals. In many hospitals, pediatric wards were emptied by reduced RSV admissions and postponed elective surgeries. These units have been converted to accept adult patients up to age 30 or 40 years. Our med-peds colleagues quickly created webinars and online resource packages on topics pediatric hospitalists might need to care for that population. There were refresher courses on ventilator management and reminders that community pediatric hospitalists, who in the winter might have one-third of their admissions with RSV, have more experience managing viral pneumonia than the internists.

Ward teams were created with a pediatric attending and an internal medicine resident. The resident’s familiarity with the names of blood pressure medicines complemented the attending’s years of clinical judgment and bedside manner. People are stepping out of their comfort zones but initial reports from the front lines are that, with each other’s support, we’ve got this.

Mistakes in telemedicine are being made, shared, and learned from. Emergency physicians are collecting anecdotes of situations when things were missed or treatment delayed. Surgeons report seeing increased numbers of cases in which the diagnosis of appendicitis was delayed, which isn’t surprising when a pediatrician cannot lay hands on the belly. Perhaps any case in which a parent calls a second or third time should be seen in the flesh.

Some newborn nurseries are discharging mother and baby at 24 hours after birth and rediscovering what was learned about that practice, which became common in the 1990s. It works well for the vast majority of babies, but we need to be ready to detect the occasional jaundiced baby or the one where breastfeeding isn’t going well. The gray-haired pediatricians can recall those nuances.

Another key role is to help everyone process the frequent deaths during a pandemic. First, there are the families we care for. Children are losing grandparents with little warning. Parents may be overwhelmed with grief while ill themselves. That makes children vulnerable.

Our medical system in 2 months has moved heaven and earth – and significantly harmed the medical care and financial future of our children – trying to assure that every 80-year-old has the right to die while attached to a ventilator, even though only a small fraction of them will survive to discharge. Meanwhile, on the wards, visitation policies have people deteriorating and dying alone. I find this paradigm distressing and antithetical to my training.

Medicine and nursing both have long histories in which the practitioner recognized that there was little they could do to prevent the death. Their role was to compassionately guide the family through it. For some people, this connection is the most precious of the arts of medicine and nursing. We need to reexamine our values. We need to get creative. We need to involve palliative care experts and clergy with the same urgency with which we have automakers making ventilators.

Second, there are our colleagues. Pediatric caregivers, particularly trainees, rarely encounter deaths and can benefit from debriefing sessions, even short ones. There is comfort in having a colleague review the situation and say: “There was nothing you could have done.” Or even: “That minor omission did not alter the outcome.” Even when everything was done properly, deaths cause moral suffering that needs processing and healing. Even if you don’t have magic words to give, just being present aids in the healing. We are all in this, together.

Dr. Powell is a pediatric hospitalist and clinical ethics consultant living in St. Louis. He has no relevant financial disclosures. Email him at [email protected].

COVID-19 has prompted many changes in pediatric health care. They say necessity is the mother of invention. Sometimes, necessity is the motivator for the long-past-due adoption of a previous invention, such as telemedicine for minor illnesses. And sometimes necessity reminds us about what is really important in a world of high technology.

Nicola Marfisi/AGF/Universal Images Group/Science Source

Unlike our nearly overwhelmed internal medicine, ED, and family physician colleagues, many pediatricians are in a lull that threatens the financial viability of our practices. We are postponing annual well visits. We have fewer sick visits and hospitalizations since respiratory syncytial virus (RSV) and influenza also have been reduced by social distancing. Parents are avoiding the risk of contagion in the waiting room and not bringing their children in for minor complaints. There is more telemedicine – a welcome change in financing and practice whose time has come, but was being delayed by lack of insurance coverage.

Technology has allowed clinicians to respond to the pandemic in ways that would not have been possible a few years ago. Online tools, such as subscription email lists, webinars, and electronic medical news services, provide updates when the information changes weekly on the virus’s contagiousness, asymptomatic and presymptomatic transmission, prevalence, the effectiveness of masks, and experimental treatment options. These changes have been so fast that many journal articles based on data from China were obsolete and contradicted before they appeared in print.

However, technology only helped us to more effectively do what we needed to do in the first place – come together in a world of physical distancing and work toward common goals. In many hospitals, pediatric wards were emptied by reduced RSV admissions and postponed elective surgeries. These units have been converted to accept adult patients up to age 30 or 40 years. Our med-peds colleagues quickly created webinars and online resource packages on topics pediatric hospitalists might need to care for that population. There were refresher courses on ventilator management and reminders that community pediatric hospitalists, who in the winter might have one-third of their admissions with RSV, have more experience managing viral pneumonia than the internists.

Ward teams were created with a pediatric attending and an internal medicine resident. The resident’s familiarity with the names of blood pressure medicines complemented the attending’s years of clinical judgment and bedside manner. People are stepping out of their comfort zones but initial reports from the front lines are that, with each other’s support, we’ve got this.

Mistakes in telemedicine are being made, shared, and learned from. Emergency physicians are collecting anecdotes of situations when things were missed or treatment delayed. Surgeons report seeing increased numbers of cases in which the diagnosis of appendicitis was delayed, which isn’t surprising when a pediatrician cannot lay hands on the belly. Perhaps any case in which a parent calls a second or third time should be seen in the flesh.

Some newborn nurseries are discharging mother and baby at 24 hours after birth and rediscovering what was learned about that practice, which became common in the 1990s. It works well for the vast majority of babies, but we need to be ready to detect the occasional jaundiced baby or the one where breastfeeding isn’t going well. The gray-haired pediatricians can recall those nuances.

Another key role is to help everyone process the frequent deaths during a pandemic. First, there are the families we care for. Children are losing grandparents with little warning. Parents may be overwhelmed with grief while ill themselves. That makes children vulnerable.

Our medical system in 2 months has moved heaven and earth – and significantly harmed the medical care and financial future of our children – trying to assure that every 80-year-old has the right to die while attached to a ventilator, even though only a small fraction of them will survive to discharge. Meanwhile, on the wards, visitation policies have people deteriorating and dying alone. I find this paradigm distressing and antithetical to my training.

Medicine and nursing both have long histories in which the practitioner recognized that there was little they could do to prevent the death. Their role was to compassionately guide the family through it. For some people, this connection is the most precious of the arts of medicine and nursing. We need to reexamine our values. We need to get creative. We need to involve palliative care experts and clergy with the same urgency with which we have automakers making ventilators.

Second, there are our colleagues. Pediatric caregivers, particularly trainees, rarely encounter deaths and can benefit from debriefing sessions, even short ones. There is comfort in having a colleague review the situation and say: “There was nothing you could have done.” Or even: “That minor omission did not alter the outcome.” Even when everything was done properly, deaths cause moral suffering that needs processing and healing. Even if you don’t have magic words to give, just being present aids in the healing. We are all in this, together.

Dr. Powell is a pediatric hospitalist and clinical ethics consultant living in St. Louis. He has no relevant financial disclosures. Email him at [email protected].

As an Episcopal priest, Father Robert Pace of Fort Worth, TX, is used to putting others first and reaching out to help. So when the pulmonologist who helped him through his ordeal with COVID-19 asked if he would like to donate blood to help other patients, he did not hesitate.

“I said, ‘Absolutely,’” Pace, 53, recalls. He says the idea was ‘very appealing.’ ” During his ordeal with COVID-19 in March, he had spent 3 days in the hospital, isolated and on IV fluids and oxygen. He was short of breath, with a heartbeat more rapid than usual.

Now, fully recovered, his blood was a precious commodity, antibody-rich and potentially life-saving.

As researchers scramble to test drugs to fight COVID-19, others are turning to an age-old treatment. They’re collecting the blood of survivors and giving it to patients in the throes of a severe infection, a treatment known as convalescent plasma therapy.

Doctors say the treatment will probably serve as a bridge until other drugs and a vaccine become available.

Although the FDA considers the treatment investigational, in late March, it eased access to it. Patients can get it as part of a clinical trial or through an expanded access program overseen by hospitals or universities. A doctor can also request permission to use the treatment for a single patient.

“It is considered an emergent, compassionate need,” says John Burk, MD, a pulmonologist at Texas Health Harris Methodist Hospital, Fort Worth, who treated Pace. “It is a way to bring it to the bedside.” And the approval can happen quickly. Burk says he got one from the FDA just 20 minutes after requesting it for a severely ill patient.
 

How it works

The premise of how it works is “quite straightforward,” says Michael Joyner, MD, a professor of anesthesiology at the Mayo Clinic, Rochester, MN. “When someone is recovered and no longer symptomatic, you can harvest those antibodies from their blood and give them to someone else, and hopefully alter the course of their disease.” Joyner is the principal investigator for the FDA’s national Expanded Access to Convalescent Plasma for the Treatment of Patients with COVID-19, with 1,000 sites already signed on.

Convalescent therapy has been used to fight many other viruses, including Ebola, severe acute respiratory syndrome (SARS), the “bird” flu, H1N1 flu, and during the 1918 flu pandemic. Joyner says the strongest evidence for it comes from the 1950s, when it was used to treat a rodent-borne illness called Argentine hemorrhagic fever. Using convalescent plasma therapy for this infection reduced the death rate from nearly 43% before the treatment became common in the late 1950s to about 3% after it was widely used, one report found.

Data about convalescent therapy specifically for COVID-19 is limited. Chinese researchers reported on five critically ill patients, all on mechanical ventilation, treated with convalescent plasma after they had received antiviral and anti-inflammatory medicines. Three could leave the hospital after 51-55 days, and two were in stable condition in the hospital 37 days after the transfusion.

In another study of 10 severely ill patients, symptoms went away or improved in all 10 within 1 to 3 days after the transfusion. Two of the three on ventilators were weaned off and put on oxygen instead. None died.

Chinese researchers also reported three cases of patients with COVID-19 given the convalescent therapy who had a satisfactory recovery.

Researchers who reviewed the track record of convalescent therapy for other conditions recently concluded that the treatment doesn’t appear to cause severe side effects and it should be studied for COVID-19.

Although information on side effects specific to this treatment is evolving, Joyner says they are “very, very low.”

According to the FDA, allergic reactions can occur with plasma therapies. Because the treatment for COVID-19 is new, it is not known if patients might have other types of reactions.
 

Who can donate?

Blood bank officials and researchers running the convalescent plasma programs say the desire to help is widespread, and they’ve been deluged with offers to donate. But requirements are strict.

Donors must have evidence of COVID-19 infection, documented in a variety of ways, such as a diagnostic test by nasal swab or a blood test showing antibodies. And they must be symptom-free for 14 days, with test results, or 28 days without.

The treatment involves collecting plasma, not whole blood. Plasma, the liquid part of the blood, helps with clotting and supports immunity. During the collection, a donor’s blood is put through a machine that collects the plasma only and sends the red blood cells and platelets back to the donor.
 

Clinical trials

Requirements may be more stringent for donors joining a formal clinical trial rather than an expanded access program. For instance, potential donors in a randomized clinical trial underway at Stony Brook University must have higher antibody levels than required by the FDA, says study leader Elliott Bennett-Guerrero, MD, medical director of perioperative quality and patient safety and professor at the Renaissance School of Medicine.

He hopes to enroll up to 500 patients from the Long Island, NY, area. While clinical trials typically have a 50-50 split, with half of subjects getting a treatment and half a placebo, Bennett-Guerrero’s study will give 80% of patients the convalescent plasma and 20% standard plasma.

Julia Sabia Motley, 57, of Merrick, NY, is hoping to become a donor for the Stony Brook study. She and her husband, Sean Motley, 59, tested positive in late March. She has to pass one more test to join the trial. Her husband is also planning to try to donate. “I can finally do something,” Sabia Motley says. Her son is in the MD-PhD program at Stony Brook and told her about the study.
 

Many questions remain

The treatment for COVID-19 is in its infancy. Burk has given the convalescent plasma to two patients. One is now recovering at home, and the other is on a ventilator but improving, he says.

About 200 nationwide have received the therapy, Joyner says. He expects blood supplies to increase as more people are eligible to donate.

Questions remain about how effective the convalescent therapy will be. While experts know that the COVID-19 antibodies “can be helpful in fighting the virus, we don’t know how long the antibodies in the plasma would stay in place,” Bennett-Guerrero says.

Nor do doctors know who the therapy might work best for, beyond people with a severe or life-threatening illness. When it’s been used for other infections, it’s generally given in early stages once someone has symptoms, Joyner says.

Joyner says he sees the treatment as a stopgap ‘’until concentrated antibodies are available.” Several drug companies are working to retrieve antibodies from donors and make concentrated antibody drugs.

“Typically we would think convalescent plasma might be a helpful bridge until therapies that are safe and effective and can be mass-produced are available, such as a vaccine or a drug,” Bennett-Guerrero says.

Even so, he says that he doesn’t think he will have a problem attracting donors, and that he will have repeat donors eager to help.
 

More information for potential donors

Blood banks, the American Red Cross, and others involved in convalescent plasma therapy have posted information online for potential donors. People who don’t meet the qualifications for COVID-19 plasma donations are welcomed as regular blood donors if they meet those criteria

According to the FDA, a donation could potentially help save the lives of up to four COVID-19 patients.

Father Pace is already planning another visit to the blood bank. To pass the time last time, he says, he prayed for the person who would eventually get his blood.

This article first appeared on WebMD.com.

As an Episcopal priest, Father Robert Pace of Fort Worth, TX, is used to putting others first and reaching out to help. So when the pulmonologist who helped him through his ordeal with COVID-19 asked if he would like to donate blood to help other patients, he did not hesitate.

“I said, ‘Absolutely,’” Pace, 53, recalls. He says the idea was ‘very appealing.’ ” During his ordeal with COVID-19 in March, he had spent 3 days in the hospital, isolated and on IV fluids and oxygen. He was short of breath, with a heartbeat more rapid than usual.

Now, fully recovered, his blood was a precious commodity, antibody-rich and potentially life-saving.

As researchers scramble to test drugs to fight COVID-19, others are turning to an age-old treatment. They’re collecting the blood of survivors and giving it to patients in the throes of a severe infection, a treatment known as convalescent plasma therapy.

Doctors say the treatment will probably serve as a bridge until other drugs and a vaccine become available.

Although the FDA considers the treatment investigational, in late March, it eased access to it. Patients can get it as part of a clinical trial or through an expanded access program overseen by hospitals or universities. A doctor can also request permission to use the treatment for a single patient.

“It is considered an emergent, compassionate need,” says John Burk, MD, a pulmonologist at Texas Health Harris Methodist Hospital, Fort Worth, who treated Pace. “It is a way to bring it to the bedside.” And the approval can happen quickly. Burk says he got one from the FDA just 20 minutes after requesting it for a severely ill patient.
 

How it works

The premise of how it works is “quite straightforward,” says Michael Joyner, MD, a professor of anesthesiology at the Mayo Clinic, Rochester, MN. “When someone is recovered and no longer symptomatic, you can harvest those antibodies from their blood and give them to someone else, and hopefully alter the course of their disease.” Joyner is the principal investigator for the FDA’s national Expanded Access to Convalescent Plasma for the Treatment of Patients with COVID-19, with 1,000 sites already signed on.

Convalescent therapy has been used to fight many other viruses, including Ebola, severe acute respiratory syndrome (SARS), the “bird” flu, H1N1 flu, and during the 1918 flu pandemic. Joyner says the strongest evidence for it comes from the 1950s, when it was used to treat a rodent-borne illness called Argentine hemorrhagic fever. Using convalescent plasma therapy for this infection reduced the death rate from nearly 43% before the treatment became common in the late 1950s to about 3% after it was widely used, one report found.

Data about convalescent therapy specifically for COVID-19 is limited. Chinese researchers reported on five critically ill patients, all on mechanical ventilation, treated with convalescent plasma after they had received antiviral and anti-inflammatory medicines. Three could leave the hospital after 51-55 days, and two were in stable condition in the hospital 37 days after the transfusion.

In another study of 10 severely ill patients, symptoms went away or improved in all 10 within 1 to 3 days after the transfusion. Two of the three on ventilators were weaned off and put on oxygen instead. None died.

Chinese researchers also reported three cases of patients with COVID-19 given the convalescent therapy who had a satisfactory recovery.

Researchers who reviewed the track record of convalescent therapy for other conditions recently concluded that the treatment doesn’t appear to cause severe side effects and it should be studied for COVID-19.

Although information on side effects specific to this treatment is evolving, Joyner says they are “very, very low.”

According to the FDA, allergic reactions can occur with plasma therapies. Because the treatment for COVID-19 is new, it is not known if patients might have other types of reactions.
 

Who can donate?

Blood bank officials and researchers running the convalescent plasma programs say the desire to help is widespread, and they’ve been deluged with offers to donate. But requirements are strict.

Donors must have evidence of COVID-19 infection, documented in a variety of ways, such as a diagnostic test by nasal swab or a blood test showing antibodies. And they must be symptom-free for 14 days, with test results, or 28 days without.

The treatment involves collecting plasma, not whole blood. Plasma, the liquid part of the blood, helps with clotting and supports immunity. During the collection, a donor’s blood is put through a machine that collects the plasma only and sends the red blood cells and platelets back to the donor.
 

Clinical trials

Requirements may be more stringent for donors joining a formal clinical trial rather than an expanded access program. For instance, potential donors in a randomized clinical trial underway at Stony Brook University must have higher antibody levels than required by the FDA, says study leader Elliott Bennett-Guerrero, MD, medical director of perioperative quality and patient safety and professor at the Renaissance School of Medicine.

He hopes to enroll up to 500 patients from the Long Island, NY, area. While clinical trials typically have a 50-50 split, with half of subjects getting a treatment and half a placebo, Bennett-Guerrero’s study will give 80% of patients the convalescent plasma and 20% standard plasma.

Julia Sabia Motley, 57, of Merrick, NY, is hoping to become a donor for the Stony Brook study. She and her husband, Sean Motley, 59, tested positive in late March. She has to pass one more test to join the trial. Her husband is also planning to try to donate. “I can finally do something,” Sabia Motley says. Her son is in the MD-PhD program at Stony Brook and told her about the study.
 

Many questions remain

The treatment for COVID-19 is in its infancy. Burk has given the convalescent plasma to two patients. One is now recovering at home, and the other is on a ventilator but improving, he says.

About 200 nationwide have received the therapy, Joyner says. He expects blood supplies to increase as more people are eligible to donate.

Questions remain about how effective the convalescent therapy will be. While experts know that the COVID-19 antibodies “can be helpful in fighting the virus, we don’t know how long the antibodies in the plasma would stay in place,” Bennett-Guerrero says.

Nor do doctors know who the therapy might work best for, beyond people with a severe or life-threatening illness. When it’s been used for other infections, it’s generally given in early stages once someone has symptoms, Joyner says.

Joyner says he sees the treatment as a stopgap ‘’until concentrated antibodies are available.” Several drug companies are working to retrieve antibodies from donors and make concentrated antibody drugs.

“Typically we would think convalescent plasma might be a helpful bridge until therapies that are safe and effective and can be mass-produced are available, such as a vaccine or a drug,” Bennett-Guerrero says.

Even so, he says that he doesn’t think he will have a problem attracting donors, and that he will have repeat donors eager to help.
 

More information for potential donors

Blood banks, the American Red Cross, and others involved in convalescent plasma therapy have posted information online for potential donors. People who don’t meet the qualifications for COVID-19 plasma donations are welcomed as regular blood donors if they meet those criteria

According to the FDA, a donation could potentially help save the lives of up to four COVID-19 patients.

Father Pace is already planning another visit to the blood bank. To pass the time last time, he says, he prayed for the person who would eventually get his blood.

This article first appeared on WebMD.com.

As an Episcopal priest, Father Robert Pace of Fort Worth, TX, is used to putting others first and reaching out to help. So when the pulmonologist who helped him through his ordeal with COVID-19 asked if he would like to donate blood to help other patients, he did not hesitate.

“I said, ‘Absolutely,’” Pace, 53, recalls. He says the idea was ‘very appealing.’ ” During his ordeal with COVID-19 in March, he had spent 3 days in the hospital, isolated and on IV fluids and oxygen. He was short of breath, with a heartbeat more rapid than usual.

Now, fully recovered, his blood was a precious commodity, antibody-rich and potentially life-saving.

As researchers scramble to test drugs to fight COVID-19, others are turning to an age-old treatment. They’re collecting the blood of survivors and giving it to patients in the throes of a severe infection, a treatment known as convalescent plasma therapy.

Doctors say the treatment will probably serve as a bridge until other drugs and a vaccine become available.

Although the FDA considers the treatment investigational, in late March, it eased access to it. Patients can get it as part of a clinical trial or through an expanded access program overseen by hospitals or universities. A doctor can also request permission to use the treatment for a single patient.

“It is considered an emergent, compassionate need,” says John Burk, MD, a pulmonologist at Texas Health Harris Methodist Hospital, Fort Worth, who treated Pace. “It is a way to bring it to the bedside.” And the approval can happen quickly. Burk says he got one from the FDA just 20 minutes after requesting it for a severely ill patient.
 

How it works

The premise of how it works is “quite straightforward,” says Michael Joyner, MD, a professor of anesthesiology at the Mayo Clinic, Rochester, MN. “When someone is recovered and no longer symptomatic, you can harvest those antibodies from their blood and give them to someone else, and hopefully alter the course of their disease.” Joyner is the principal investigator for the FDA’s national Expanded Access to Convalescent Plasma for the Treatment of Patients with COVID-19, with 1,000 sites already signed on.

Convalescent therapy has been used to fight many other viruses, including Ebola, severe acute respiratory syndrome (SARS), the “bird” flu, H1N1 flu, and during the 1918 flu pandemic. Joyner says the strongest evidence for it comes from the 1950s, when it was used to treat a rodent-borne illness called Argentine hemorrhagic fever. Using convalescent plasma therapy for this infection reduced the death rate from nearly 43% before the treatment became common in the late 1950s to about 3% after it was widely used, one report found.

Data about convalescent therapy specifically for COVID-19 is limited. Chinese researchers reported on five critically ill patients, all on mechanical ventilation, treated with convalescent plasma after they had received antiviral and anti-inflammatory medicines. Three could leave the hospital after 51-55 days, and two were in stable condition in the hospital 37 days after the transfusion.

In another study of 10 severely ill patients, symptoms went away or improved in all 10 within 1 to 3 days after the transfusion. Two of the three on ventilators were weaned off and put on oxygen instead. None died.

Chinese researchers also reported three cases of patients with COVID-19 given the convalescent therapy who had a satisfactory recovery.

Researchers who reviewed the track record of convalescent therapy for other conditions recently concluded that the treatment doesn’t appear to cause severe side effects and it should be studied for COVID-19.

Although information on side effects specific to this treatment is evolving, Joyner says they are “very, very low.”

According to the FDA, allergic reactions can occur with plasma therapies. Because the treatment for COVID-19 is new, it is not known if patients might have other types of reactions.
 

Who can donate?

Blood bank officials and researchers running the convalescent plasma programs say the desire to help is widespread, and they’ve been deluged with offers to donate. But requirements are strict.

Donors must have evidence of COVID-19 infection, documented in a variety of ways, such as a diagnostic test by nasal swab or a blood test showing antibodies. And they must be symptom-free for 14 days, with test results, or 28 days without.

The treatment involves collecting plasma, not whole blood. Plasma, the liquid part of the blood, helps with clotting and supports immunity. During the collection, a donor’s blood is put through a machine that collects the plasma only and sends the red blood cells and platelets back to the donor.
 

Clinical trials

Requirements may be more stringent for donors joining a formal clinical trial rather than an expanded access program. For instance, potential donors in a randomized clinical trial underway at Stony Brook University must have higher antibody levels than required by the FDA, says study leader Elliott Bennett-Guerrero, MD, medical director of perioperative quality and patient safety and professor at the Renaissance School of Medicine.

He hopes to enroll up to 500 patients from the Long Island, NY, area. While clinical trials typically have a 50-50 split, with half of subjects getting a treatment and half a placebo, Bennett-Guerrero’s study will give 80% of patients the convalescent plasma and 20% standard plasma.

Julia Sabia Motley, 57, of Merrick, NY, is hoping to become a donor for the Stony Brook study. She and her husband, Sean Motley, 59, tested positive in late March. She has to pass one more test to join the trial. Her husband is also planning to try to donate. “I can finally do something,” Sabia Motley says. Her son is in the MD-PhD program at Stony Brook and told her about the study.
 

Many questions remain

The treatment for COVID-19 is in its infancy. Burk has given the convalescent plasma to two patients. One is now recovering at home, and the other is on a ventilator but improving, he says.

About 200 nationwide have received the therapy, Joyner says. He expects blood supplies to increase as more people are eligible to donate.

Questions remain about how effective the convalescent therapy will be. While experts know that the COVID-19 antibodies “can be helpful in fighting the virus, we don’t know how long the antibodies in the plasma would stay in place,” Bennett-Guerrero says.

Nor do doctors know who the therapy might work best for, beyond people with a severe or life-threatening illness. When it’s been used for other infections, it’s generally given in early stages once someone has symptoms, Joyner says.

Joyner says he sees the treatment as a stopgap ‘’until concentrated antibodies are available.” Several drug companies are working to retrieve antibodies from donors and make concentrated antibody drugs.

“Typically we would think convalescent plasma might be a helpful bridge until therapies that are safe and effective and can be mass-produced are available, such as a vaccine or a drug,” Bennett-Guerrero says.

Even so, he says that he doesn’t think he will have a problem attracting donors, and that he will have repeat donors eager to help.
 

More information for potential donors

Blood banks, the American Red Cross, and others involved in convalescent plasma therapy have posted information online for potential donors. People who don’t meet the qualifications for COVID-19 plasma donations are welcomed as regular blood donors if they meet those criteria

According to the FDA, a donation could potentially help save the lives of up to four COVID-19 patients.

Father Pace is already planning another visit to the blood bank. To pass the time last time, he says, he prayed for the person who would eventually get his blood.

This article first appeared on WebMD.com.

The take-home message from a growing number of recent COVID-19 case reports is that the infection might be far more than a respiratory disease.

Although a cause-and-effect relationship is unknown, people with the virus have presented with or developed heart disease, acute liver injury, ongoing GI issues, skin manifestations, neurologic damage, and other problems, especially among sicker people.

For example, French physicians described an association with encephalopathy, agitation, confusion, and corticospinal tract signs among 58 people hospitalized with acute respiratory distress (N Engl J Med. 2020 Apr 15. doi: 10.1056/NEJMc2008597).

In particular, Yale New Haven (Conn.) Hospital is dealing with unexpected complications up close. Almost half of the beds there are occupied by COVID-19 patients. Over 100 people are in the ICU, and almost 70 intubated. Of the more than 750 COVID admissions so far, only about 350 have been discharged. “Even in a bad flu season, you never see something like this; it’s just unheard of,” said Harlan Krumholz, MD, a Yale cardiologist and professor of medicine helping lead the efforts there.
 

Kidney injuries prominent

“When they get to the ICU, we are seeing lots of people with acute kidney injuries; lots of people developing endocrine problems; people having blood sugar control issues, coagulation issues, blood clots. We are just waking up to the wide range of ways this virus can affect people. Our ignorance is profound,” Dr. Krumholz said, but physicians “recognize that this thing has the capability of attacking almost every single organ system, and it may or may not present with respiratory symptoms.”

It’s a similar story at Mt. Sinai South Nassau, a hospital in Oceanside, N.Y. “We’ve seen a lot of renal injury in people having complications, a lot of acute dialysis,” but it’s unclear how much is caused by the virus and how much is simply because people are so sick, said Aaron Glatt, MD, infectious disease professor and chair of medicine at the hospital. However, he said things are looking brighter than at Yale.

“We are not seeing the same level of increase in cases that we had previously, and we are starting to see extubations and discharges. We’ve treated a number of patients with plasma therapy, and hopefully that will be of benefit. We’ve seen some response to” the immunosuppressive “tocilizumab [Actemra], and a lot of response to very good respiratory therapy. I think we are starting to flatten the curve,” Dr. Glatt said.
 

“Look for tricky symptoms”

The growing awareness of COVID’s protean manifestations is evident in Medscape’s Consult forum, an online community where physicians and medical students share information and seek advice; there’s been over 200 COVID-19 cases and questions since January.

Early on, traffic was mostly about typical pulmonary presentations, but lately it’s shifted to nonrespiratory involvement. Physicians want to know if what they are seeing is related to the virus, and if other people are seeing the same things.

There’s a case on Consult of a 37-year-old man with stomach pain, vomiting, and diarrhea, but no respiratory symptoms and a positive COVID test. A chest CT incidental to his abdominal scan revealed significant bilateral lung involvement.

A 69-year-old woman with a history of laparotomy and new onset intestinal subocclusion had only adhesions on a subsequent exploratory laparotomy, and was doing okay otherwise. She suddenly went into respiratory failure with progressive bradycardia and died 3 days later. Aspiration pneumonia, pulmonary embolism, and MI had been ruled out. “The pattern of cardiovascular failure was in favor of myocarditis, but we don’t have any other clue,” the physician said after describing a second similar case.

Another doctor on the forum reported elevated cardiac enzymes without coronary artery obstruction in a positive patient who went into shock, with an ejection fraction of 40% and markedly increased heart wall thickness, but no lung involvement. There are also two cases of idiopathic thrombocytopenia without fever of hypoxia.

An Italian gastroenterologist said: “Look for tricky symptoms.” Expand “patient history, asking about the sudden occurrence of dysgeusia and/or anosmia. These symptoms have become my guiding diagnostic light” in Verona. “Most patients become nauseated, [and] the taste of any food is unbearable. When I find these symptoms by history, the patient is COVID positive 100%.”
 

‘Make sure that they didn’t die in vain’

There was interest in those and other reports on Consult, and comments from physicians who have theories, but no certain answers about what is, and is not, caused by the virus.

Direct viral attack is likely a part of it, said Stanley Perlman, MD, PhD, a professor of microbiology and immunology at the University of Iowa, Iowa City.

The ACE2 receptor the virus uses to enter cells is common in many organs, plus there were extrapulmonary manifestations with severe acute respiratory syndrome (SARS), another pandemic caused by a zoonotic coronavirus almost 20 years ago. At least with SARS, “many organs were infected when examined at autopsy,” he said.

The body’s inflammatory response is almost certainly also in play. Progressive derangements in inflammatory markers – C-reactive protein, D-dimer, ferritin – correlate with worse prognosis, and “the cytokine storm that occurs in these patients can lead to a degree of encephalopathy, myocarditis, liver impairment, and kidney impairment; multiorgan dysfunction, in other words,” said William Shaffner, MD, a professor of preventive medicine and infectious diseases at Vanderbilt University Medical Center, Nashville, Tenn.

But in some cases, the virus might simply be a bystander to an unrelated disease process; in others, the experimental treatments being used might cause problems. Indeed, cardiology groups recently warned of torsade de pointes – a dangerously abnormal heart rhythm – with hydroxychloroquine and azithromycin.

“We think it’s some combination,” but don’t really know, Dr. Krumholz said. In the meantime, “we are forced to treat patients by instinct and first principles,” and long-term sequelae are unknown. “We don’t want to be in this position for long.”

To that end, he said, “this is the time for us all to hold hands and be together because we need to learn rapidly from each other. Our job is both to care for the people in front of us and make sure that they didn’t die in vain, that the experience they had is funneled into a larger set of data to make sure the next person is better off.”

[email protected]

The take-home message from a growing number of recent COVID-19 case reports is that the infection might be far more than a respiratory disease.

Although a cause-and-effect relationship is unknown, people with the virus have presented with or developed heart disease, acute liver injury, ongoing GI issues, skin manifestations, neurologic damage, and other problems, especially among sicker people.

For example, French physicians described an association with encephalopathy, agitation, confusion, and corticospinal tract signs among 58 people hospitalized with acute respiratory distress (N Engl J Med. 2020 Apr 15. doi: 10.1056/NEJMc2008597).

In particular, Yale New Haven (Conn.) Hospital is dealing with unexpected complications up close. Almost half of the beds there are occupied by COVID-19 patients. Over 100 people are in the ICU, and almost 70 intubated. Of the more than 750 COVID admissions so far, only about 350 have been discharged. “Even in a bad flu season, you never see something like this; it’s just unheard of,” said Harlan Krumholz, MD, a Yale cardiologist and professor of medicine helping lead the efforts there.
 

Kidney injuries prominent

“When they get to the ICU, we are seeing lots of people with acute kidney injuries; lots of people developing endocrine problems; people having blood sugar control issues, coagulation issues, blood clots. We are just waking up to the wide range of ways this virus can affect people. Our ignorance is profound,” Dr. Krumholz said, but physicians “recognize that this thing has the capability of attacking almost every single organ system, and it may or may not present with respiratory symptoms.”

It’s a similar story at Mt. Sinai South Nassau, a hospital in Oceanside, N.Y. “We’ve seen a lot of renal injury in people having complications, a lot of acute dialysis,” but it’s unclear how much is caused by the virus and how much is simply because people are so sick, said Aaron Glatt, MD, infectious disease professor and chair of medicine at the hospital. However, he said things are looking brighter than at Yale.

“We are not seeing the same level of increase in cases that we had previously, and we are starting to see extubations and discharges. We’ve treated a number of patients with plasma therapy, and hopefully that will be of benefit. We’ve seen some response to” the immunosuppressive “tocilizumab [Actemra], and a lot of response to very good respiratory therapy. I think we are starting to flatten the curve,” Dr. Glatt said.
 

“Look for tricky symptoms”

The growing awareness of COVID’s protean manifestations is evident in Medscape’s Consult forum, an online community where physicians and medical students share information and seek advice; there’s been over 200 COVID-19 cases and questions since January.

Early on, traffic was mostly about typical pulmonary presentations, but lately it’s shifted to nonrespiratory involvement. Physicians want to know if what they are seeing is related to the virus, and if other people are seeing the same things.

There’s a case on Consult of a 37-year-old man with stomach pain, vomiting, and diarrhea, but no respiratory symptoms and a positive COVID test. A chest CT incidental to his abdominal scan revealed significant bilateral lung involvement.

A 69-year-old woman with a history of laparotomy and new onset intestinal subocclusion had only adhesions on a subsequent exploratory laparotomy, and was doing okay otherwise. She suddenly went into respiratory failure with progressive bradycardia and died 3 days later. Aspiration pneumonia, pulmonary embolism, and MI had been ruled out. “The pattern of cardiovascular failure was in favor of myocarditis, but we don’t have any other clue,” the physician said after describing a second similar case.

Another doctor on the forum reported elevated cardiac enzymes without coronary artery obstruction in a positive patient who went into shock, with an ejection fraction of 40% and markedly increased heart wall thickness, but no lung involvement. There are also two cases of idiopathic thrombocytopenia without fever of hypoxia.

An Italian gastroenterologist said: “Look for tricky symptoms.” Expand “patient history, asking about the sudden occurrence of dysgeusia and/or anosmia. These symptoms have become my guiding diagnostic light” in Verona. “Most patients become nauseated, [and] the taste of any food is unbearable. When I find these symptoms by history, the patient is COVID positive 100%.”
 

‘Make sure that they didn’t die in vain’

There was interest in those and other reports on Consult, and comments from physicians who have theories, but no certain answers about what is, and is not, caused by the virus.

Direct viral attack is likely a part of it, said Stanley Perlman, MD, PhD, a professor of microbiology and immunology at the University of Iowa, Iowa City.

The ACE2 receptor the virus uses to enter cells is common in many organs, plus there were extrapulmonary manifestations with severe acute respiratory syndrome (SARS), another pandemic caused by a zoonotic coronavirus almost 20 years ago. At least with SARS, “many organs were infected when examined at autopsy,” he said.

The body’s inflammatory response is almost certainly also in play. Progressive derangements in inflammatory markers – C-reactive protein, D-dimer, ferritin – correlate with worse prognosis, and “the cytokine storm that occurs in these patients can lead to a degree of encephalopathy, myocarditis, liver impairment, and kidney impairment; multiorgan dysfunction, in other words,” said William Shaffner, MD, a professor of preventive medicine and infectious diseases at Vanderbilt University Medical Center, Nashville, Tenn.

But in some cases, the virus might simply be a bystander to an unrelated disease process; in others, the experimental treatments being used might cause problems. Indeed, cardiology groups recently warned of torsade de pointes – a dangerously abnormal heart rhythm – with hydroxychloroquine and azithromycin.

“We think it’s some combination,” but don’t really know, Dr. Krumholz said. In the meantime, “we are forced to treat patients by instinct and first principles,” and long-term sequelae are unknown. “We don’t want to be in this position for long.”

To that end, he said, “this is the time for us all to hold hands and be together because we need to learn rapidly from each other. Our job is both to care for the people in front of us and make sure that they didn’t die in vain, that the experience they had is funneled into a larger set of data to make sure the next person is better off.”

[email protected]

The take-home message from a growing number of recent COVID-19 case reports is that the infection might be far more than a respiratory disease.

Although a cause-and-effect relationship is unknown, people with the virus have presented with or developed heart disease, acute liver injury, ongoing GI issues, skin manifestations, neurologic damage, and other problems, especially among sicker people.

For example, French physicians described an association with encephalopathy, agitation, confusion, and corticospinal tract signs among 58 people hospitalized with acute respiratory distress (N Engl J Med. 2020 Apr 15. doi: 10.1056/NEJMc2008597).

In particular, Yale New Haven (Conn.) Hospital is dealing with unexpected complications up close. Almost half of the beds there are occupied by COVID-19 patients. Over 100 people are in the ICU, and almost 70 intubated. Of the more than 750 COVID admissions so far, only about 350 have been discharged. “Even in a bad flu season, you never see something like this; it’s just unheard of,” said Harlan Krumholz, MD, a Yale cardiologist and professor of medicine helping lead the efforts there.
 

Kidney injuries prominent

“When they get to the ICU, we are seeing lots of people with acute kidney injuries; lots of people developing endocrine problems; people having blood sugar control issues, coagulation issues, blood clots. We are just waking up to the wide range of ways this virus can affect people. Our ignorance is profound,” Dr. Krumholz said, but physicians “recognize that this thing has the capability of attacking almost every single organ system, and it may or may not present with respiratory symptoms.”

It’s a similar story at Mt. Sinai South Nassau, a hospital in Oceanside, N.Y. “We’ve seen a lot of renal injury in people having complications, a lot of acute dialysis,” but it’s unclear how much is caused by the virus and how much is simply because people are so sick, said Aaron Glatt, MD, infectious disease professor and chair of medicine at the hospital. However, he said things are looking brighter than at Yale.

“We are not seeing the same level of increase in cases that we had previously, and we are starting to see extubations and discharges. We’ve treated a number of patients with plasma therapy, and hopefully that will be of benefit. We’ve seen some response to” the immunosuppressive “tocilizumab [Actemra], and a lot of response to very good respiratory therapy. I think we are starting to flatten the curve,” Dr. Glatt said.
 

“Look for tricky symptoms”

The growing awareness of COVID’s protean manifestations is evident in Medscape’s Consult forum, an online community where physicians and medical students share information and seek advice; there’s been over 200 COVID-19 cases and questions since January.

Early on, traffic was mostly about typical pulmonary presentations, but lately it’s shifted to nonrespiratory involvement. Physicians want to know if what they are seeing is related to the virus, and if other people are seeing the same things.

There’s a case on Consult of a 37-year-old man with stomach pain, vomiting, and diarrhea, but no respiratory symptoms and a positive COVID test. A chest CT incidental to his abdominal scan revealed significant bilateral lung involvement.

A 69-year-old woman with a history of laparotomy and new onset intestinal subocclusion had only adhesions on a subsequent exploratory laparotomy, and was doing okay otherwise. She suddenly went into respiratory failure with progressive bradycardia and died 3 days later. Aspiration pneumonia, pulmonary embolism, and MI had been ruled out. “The pattern of cardiovascular failure was in favor of myocarditis, but we don’t have any other clue,” the physician said after describing a second similar case.

Another doctor on the forum reported elevated cardiac enzymes without coronary artery obstruction in a positive patient who went into shock, with an ejection fraction of 40% and markedly increased heart wall thickness, but no lung involvement. There are also two cases of idiopathic thrombocytopenia without fever of hypoxia.

An Italian gastroenterologist said: “Look for tricky symptoms.” Expand “patient history, asking about the sudden occurrence of dysgeusia and/or anosmia. These symptoms have become my guiding diagnostic light” in Verona. “Most patients become nauseated, [and] the taste of any food is unbearable. When I find these symptoms by history, the patient is COVID positive 100%.”
 

‘Make sure that they didn’t die in vain’

There was interest in those and other reports on Consult, and comments from physicians who have theories, but no certain answers about what is, and is not, caused by the virus.

Direct viral attack is likely a part of it, said Stanley Perlman, MD, PhD, a professor of microbiology and immunology at the University of Iowa, Iowa City.

The ACE2 receptor the virus uses to enter cells is common in many organs, plus there were extrapulmonary manifestations with severe acute respiratory syndrome (SARS), another pandemic caused by a zoonotic coronavirus almost 20 years ago. At least with SARS, “many organs were infected when examined at autopsy,” he said.

The body’s inflammatory response is almost certainly also in play. Progressive derangements in inflammatory markers – C-reactive protein, D-dimer, ferritin – correlate with worse prognosis, and “the cytokine storm that occurs in these patients can lead to a degree of encephalopathy, myocarditis, liver impairment, and kidney impairment; multiorgan dysfunction, in other words,” said William Shaffner, MD, a professor of preventive medicine and infectious diseases at Vanderbilt University Medical Center, Nashville, Tenn.

But in some cases, the virus might simply be a bystander to an unrelated disease process; in others, the experimental treatments being used might cause problems. Indeed, cardiology groups recently warned of torsade de pointes – a dangerously abnormal heart rhythm – with hydroxychloroquine and azithromycin.

“We think it’s some combination,” but don’t really know, Dr. Krumholz said. In the meantime, “we are forced to treat patients by instinct and first principles,” and long-term sequelae are unknown. “We don’t want to be in this position for long.”

To that end, he said, “this is the time for us all to hold hands and be together because we need to learn rapidly from each other. Our job is both to care for the people in front of us and make sure that they didn’t die in vain, that the experience they had is funneled into a larger set of data to make sure the next person is better off.”

[email protected]

The outbreak of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), and the spread of COVID-19, is overwhelming for many people. Health care workers in the United States and around the world are leading the battle on the front lines of the pandemic. Thus, they experience a higher level of stress, fear, and anxiety during this crisis.

Over the course of weeks, hospitalists have reviewed articles, attended webinars, and discussed institutional strategies to respond to COVID-19. They follow the most up-to-date clinical information about the approach to patient care, conserving personal protective equipment (PPE), and guidance on how to talk to patients and families during crisis situations. The safety of hospitalists has been underscored with persistent advocacy from multiple organizations, for PPE, access to testing supplies, and decreasing any unnecessary exposure.

While it is agreed that the safety and well-being of hospital medicine teams is crucial to our society’s victory over COVID-19, very little has been discussed with regards to the “hospitalist” well-being and wellness during this pandemic.

The well-being of providers is essential to the success of a health care system. Many hospitalists already experience moral injury and showed evidence of provider burnout before COVID-19. With the onset of the pandemic, this will only get worse and burnout will accelerate if nothing is done to stop it. We cannot wait for the dust to settle to help our colleagues, we must act now.

Many providers have expressed similar pandemic fears, including, uncertainty about screening and testing capability, fear of the PPE shortage, fear of being exposed and underprepared, and fear of bringing the virus home and making family members sick. This list is not exclusive, and there are so many other factors that providers are internally processing, all while continuing their commitment to patient care and safety.

Practicing medicine comes with the heaviest of responsibilities, including the defense of the health of humanity. Therefore, it is easy to understand that, while providers are on the battlefield of this pandemic as they defend the health of humanity, they are not thinking of their own wellness or well-being. Moral injury describes the mental, emotional, and spiritual distress people feel after “perpetrating, failing to prevent, or bearing witness to acts that transgress deeply held moral beliefs and expectations.” This is already happening, with many hospitals in various cities running out of ventilators, lacking basic supplies for provider safety and leaving providers in survival mode on the front lines without their “suits of armor.” However, many providers will never recognize moral injury or burnout because they are focused on saving as many lives as possible with very limited resources.

While many websites can aid patient and community members on wellness during COVID-19, there is no specific forum or outlet for providers. We must give all hospital medicine team members a multimedia platform to address the fear, anxiety, and uncertainty of COVID-19. We must also provide them with techniques for resilience, coping strategies, and develop a network of support as the situation evolves, in real time.

We must remind hospitalists, “You may be scared, you may feel anxious, and that is okay. It is normal to have these feelings and it is healthy to acknowledge them. Fear serves as an important role in keeping us safe, but if left unchecked it can be horrifying and crippling. However, to conquer it we must face our fears together, with strategy, knowledge, and advocacy. This is the way to rebuild the current health care climate with confidence and trust.”

Although the world may seem foreign and dangerous, it is in adversity that we will find our strength as a hospital medicine community. We go to work every day because that is what we do. Your courage to come to work every day, in spite of any danger that it may present to you, is an inspiration to the world. The battle is not lost, and as individuals and as a community we must build resilience, inspire hope, and empower each other. We are stronger together than we are alone. As hospitalists around the country, and throughout the world, we must agree to uphold the moral integrity of medicine without sacrificing ourselves.
 

Dr. Williams is the vice-president of the Hampton Roads chapter of the Society of Hospital Medicine. She is a hospitalist at Sentara Careplex Hospital in Hampton, Va., where she also serves as the vice-president of the Medical Executive Committee.

Resource

Dean, Wendy; Talbot, Simon; and Dean, Austin. Reframing clinician distress: Moral injury not burnout. Fed Pract. 2019 Sept;36(9):400-2.

The outbreak of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), and the spread of COVID-19, is overwhelming for many people. Health care workers in the United States and around the world are leading the battle on the front lines of the pandemic. Thus, they experience a higher level of stress, fear, and anxiety during this crisis.

Over the course of weeks, hospitalists have reviewed articles, attended webinars, and discussed institutional strategies to respond to COVID-19. They follow the most up-to-date clinical information about the approach to patient care, conserving personal protective equipment (PPE), and guidance on how to talk to patients and families during crisis situations. The safety of hospitalists has been underscored with persistent advocacy from multiple organizations, for PPE, access to testing supplies, and decreasing any unnecessary exposure.

While it is agreed that the safety and well-being of hospital medicine teams is crucial to our society’s victory over COVID-19, very little has been discussed with regards to the “hospitalist” well-being and wellness during this pandemic.

The well-being of providers is essential to the success of a health care system. Many hospitalists already experience moral injury and showed evidence of provider burnout before COVID-19. With the onset of the pandemic, this will only get worse and burnout will accelerate if nothing is done to stop it. We cannot wait for the dust to settle to help our colleagues, we must act now.

Many providers have expressed similar pandemic fears, including, uncertainty about screening and testing capability, fear of the PPE shortage, fear of being exposed and underprepared, and fear of bringing the virus home and making family members sick. This list is not exclusive, and there are so many other factors that providers are internally processing, all while continuing their commitment to patient care and safety.

Practicing medicine comes with the heaviest of responsibilities, including the defense of the health of humanity. Therefore, it is easy to understand that, while providers are on the battlefield of this pandemic as they defend the health of humanity, they are not thinking of their own wellness or well-being. Moral injury describes the mental, emotional, and spiritual distress people feel after “perpetrating, failing to prevent, or bearing witness to acts that transgress deeply held moral beliefs and expectations.” This is already happening, with many hospitals in various cities running out of ventilators, lacking basic supplies for provider safety and leaving providers in survival mode on the front lines without their “suits of armor.” However, many providers will never recognize moral injury or burnout because they are focused on saving as many lives as possible with very limited resources.

While many websites can aid patient and community members on wellness during COVID-19, there is no specific forum or outlet for providers. We must give all hospital medicine team members a multimedia platform to address the fear, anxiety, and uncertainty of COVID-19. We must also provide them with techniques for resilience, coping strategies, and develop a network of support as the situation evolves, in real time.

We must remind hospitalists, “You may be scared, you may feel anxious, and that is okay. It is normal to have these feelings and it is healthy to acknowledge them. Fear serves as an important role in keeping us safe, but if left unchecked it can be horrifying and crippling. However, to conquer it we must face our fears together, with strategy, knowledge, and advocacy. This is the way to rebuild the current health care climate with confidence and trust.”

Although the world may seem foreign and dangerous, it is in adversity that we will find our strength as a hospital medicine community. We go to work every day because that is what we do. Your courage to come to work every day, in spite of any danger that it may present to you, is an inspiration to the world. The battle is not lost, and as individuals and as a community we must build resilience, inspire hope, and empower each other. We are stronger together than we are alone. As hospitalists around the country, and throughout the world, we must agree to uphold the moral integrity of medicine without sacrificing ourselves.
 

Dr. Williams is the vice-president of the Hampton Roads chapter of the Society of Hospital Medicine. She is a hospitalist at Sentara Careplex Hospital in Hampton, Va., where she also serves as the vice-president of the Medical Executive Committee.

Resource

Dean, Wendy; Talbot, Simon; and Dean, Austin. Reframing clinician distress: Moral injury not burnout. Fed Pract. 2019 Sept;36(9):400-2.

The outbreak of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), and the spread of COVID-19, is overwhelming for many people. Health care workers in the United States and around the world are leading the battle on the front lines of the pandemic. Thus, they experience a higher level of stress, fear, and anxiety during this crisis.

Over the course of weeks, hospitalists have reviewed articles, attended webinars, and discussed institutional strategies to respond to COVID-19. They follow the most up-to-date clinical information about the approach to patient care, conserving personal protective equipment (PPE), and guidance on how to talk to patients and families during crisis situations. The safety of hospitalists has been underscored with persistent advocacy from multiple organizations, for PPE, access to testing supplies, and decreasing any unnecessary exposure.

While it is agreed that the safety and well-being of hospital medicine teams is crucial to our society’s victory over COVID-19, very little has been discussed with regards to the “hospitalist” well-being and wellness during this pandemic.

The well-being of providers is essential to the success of a health care system. Many hospitalists already experience moral injury and showed evidence of provider burnout before COVID-19. With the onset of the pandemic, this will only get worse and burnout will accelerate if nothing is done to stop it. We cannot wait for the dust to settle to help our colleagues, we must act now.

Many providers have expressed similar pandemic fears, including, uncertainty about screening and testing capability, fear of the PPE shortage, fear of being exposed and underprepared, and fear of bringing the virus home and making family members sick. This list is not exclusive, and there are so many other factors that providers are internally processing, all while continuing their commitment to patient care and safety.

Practicing medicine comes with the heaviest of responsibilities, including the defense of the health of humanity. Therefore, it is easy to understand that, while providers are on the battlefield of this pandemic as they defend the health of humanity, they are not thinking of their own wellness or well-being. Moral injury describes the mental, emotional, and spiritual distress people feel after “perpetrating, failing to prevent, or bearing witness to acts that transgress deeply held moral beliefs and expectations.” This is already happening, with many hospitals in various cities running out of ventilators, lacking basic supplies for provider safety and leaving providers in survival mode on the front lines without their “suits of armor.” However, many providers will never recognize moral injury or burnout because they are focused on saving as many lives as possible with very limited resources.

While many websites can aid patient and community members on wellness during COVID-19, there is no specific forum or outlet for providers. We must give all hospital medicine team members a multimedia platform to address the fear, anxiety, and uncertainty of COVID-19. We must also provide them with techniques for resilience, coping strategies, and develop a network of support as the situation evolves, in real time.

We must remind hospitalists, “You may be scared, you may feel anxious, and that is okay. It is normal to have these feelings and it is healthy to acknowledge them. Fear serves as an important role in keeping us safe, but if left unchecked it can be horrifying and crippling. However, to conquer it we must face our fears together, with strategy, knowledge, and advocacy. This is the way to rebuild the current health care climate with confidence and trust.”

Although the world may seem foreign and dangerous, it is in adversity that we will find our strength as a hospital medicine community. We go to work every day because that is what we do. Your courage to come to work every day, in spite of any danger that it may present to you, is an inspiration to the world. The battle is not lost, and as individuals and as a community we must build resilience, inspire hope, and empower each other. We are stronger together than we are alone. As hospitalists around the country, and throughout the world, we must agree to uphold the moral integrity of medicine without sacrificing ourselves.
 

Dr. Williams is the vice-president of the Hampton Roads chapter of the Society of Hospital Medicine. She is a hospitalist at Sentara Careplex Hospital in Hampton, Va., where she also serves as the vice-president of the Medical Executive Committee.

Resource

Dean, Wendy; Talbot, Simon; and Dean, Austin. Reframing clinician distress: Moral injury not burnout. Fed Pract. 2019 Sept;36(9):400-2.

The SARS-CoV-2 novel coronavirus has dramatically altered specialty practice across the board, including the practice of infertility treatment. Reproductive medicine societies recommend suspending new infertility treatment cycles during this time. Women and couples who have already invested time and money in their treatment may be understandably frustrated and worried about the impact of this enforced – and indefinite – delay on their chances of conceiving. This puts the physician, who can’t even guarantee when treatment can resume, in the difficult position of trying to balance the patient’s needs with expert recommendations and government mandates.

Infertility Care During COVID-19

European and American reproductive medicine societies have both offered guidelines regarding infertility care during the pandemic. Both recommend shifting to the use of telehealth rather than in-person visits when possible for initial consultations and follow-up discussions.

With respect to infertility treatments during the COVID-19 pandemic, the American Society for Reproductive Medicine (ASRM) advises the following:

• Suspend initiation of new treatment cycles, including ovulation induction; intrauterine insemination; and in vitro fertilization, including retrievals and frozen embryo transfers, and suspend nonurgent gamete cryopreservation.
• Strongly consider cancellation of all embryo transfers, whether fresh or frozen.
• Continue to care for patients who are currently “in cycle” or who require urgent stimulation and cryopreservation.
• Suspend elective surgeries and nonurgent diagnostic procedures.

In most countries, including the United States, all healthcare providers have been asked to put elective and nonurgent medical interventions on hold to ensure that personal protective equipment and other resources are available for the management of patients with COVID-19.

Infertility is a disease and, as such, not all infertility care should be considered elective. Still, for most patients, the overall chances of conceiving will not be compromised by a short delay (1-3 months) in treatment. A longer wait could have more impact on older patients or those who already have reduced ovarian reserve, but these are not indications for urgent fertility treatment.

There are clearly some cases in which infertility treatment cannot be delayed: for example, fertility preservation (oocyte or embryo vitrification) for patients who need to undergo immediate gonadotoxic oncology treatment. These patients need to be able to freeze oocytes/embryos so that later on, they have the option of having a family.

Another situation that could require new infertility treatment is a woman who needs urgent surgery for a condition such as severe symptomatic endometriosis causing ureteral or bowel stenosis/obstruction. Because the surgery itself can compromise fertility, the patient may elect to undergo oocyte embryo cryopreservation or ovarian tissue cryopreservation before the surgical procedure.
 

Pregnancy and COVID-19

As a precautionary measure during the COVID-19 pandemic, it is recommended that planned pregnancy be avoided. The available data on the risks presented by planning a pregnancy during the COVID pandemic are reassuring but limited.

Pregnancy itself has not been shown to alter the course of COVID-19, and most affected pregnant women will experience only mild or moderate flulike symptoms. Patients with cardiovascular or metabolic comorbidities or those requiring immunosuppressants are expected to be at increased risk for more severe forms of the infection. Currently, no strong evidence suggests a higher risk for miscarriage, stillbirth, or adverse neonatal outcomes with maternal COVID-19 infection.

A report based on 38 cases found no evidence for vertical transmission from mother to fetus, and all neonatal specimens (placental tissue) tested negative for the virus. Moreover, no maternal deaths were reported among these 38 infected women. Another study of 11 infected pregnant women likewise found no increased risk for perinatal morbidity or mortality.

On the other hand, a recent article on the perinatal outcomes of 33 neonates born to mothers with confirmed COVID-19 reported three cases of neonatal COVID-19 as a result of possible vertical transmission. In two cases, symptoms were mild and initial positive coronavirus test results turned negative within a few days. The third case – a pregnancy delivered by emergency cesarean section at 31 weeks for fetal distress – was complicated by bacterial sepsis, thrombocytopenia, and coagulopathy, but once again, the initially positive coronavirus test was negative by day 7.

No neonatal deaths were reported in these 33 cases. The authors could not rule out the possibility of vertical transmission in the three COVID-positive newborns because strict infection control measures were implemented during the care of the patients.
 

Counseling Patients About Suspending Infertility Treatments

Counseling women is the key to acceptance of the need to suspend or postpone infertility treatments during the pandemic. In addition to the economic hardships that some patients may face as a consequence of the pandemic, an obvious source of frustration stems from not knowing how long delays in treatment might be necessary. A discussion with patients or couples may reassure them that delaying conception is the safest route. For some women, other treatment options might be offered, such as the use of a donor gamete.

Some patients, even when counseled appropriately, may elect to accept the unknown risks. These patients should be counseled about the benefits of cryopreservation with delayed transfer. This could be a compromise, because their overall chances of pregnancy will not be affected but they will have to wait to become pregnant.

Counseling patients about the true impact of delaying treatment in their individual circumstances, providing them with emotional and (if needed) psychological support is important while they wait for their treatment to start. For now, the vast majority of the patients understand the need for delay, appreciate the opportunity to consult the physician over the phone, and are demonstrating patience as they wait for their treatment to start or resume.
 

Resuming Infertility Care

Recommendations could change as the pandemic continues and more information becomes available about the impact of coronavirus infection during pregnancy and the overall capacity of the healthcare system improves. ASRM acknowledges that “reproductive care professionals, in consultation with their patients, will have to consider reassessing the criteria of what represents urgent and non-urgent care.” If the data remain reassuring and social distancing measures are able to slow down the spread of the disease, the infertility care of those couples who would be most affected by a delay in their treatment could gradually be resumed. On April 14, ASRM updated its recommendations about resuming infertility treatment: “ While it is not yet prudent to resume nonemergency infertility procedures, the Task Force recognizes it is also time to begin to consider strategies and best practices for resuming time-sensitive fertility treatments in the face of COVID-19.”

It is likely that the return to “normal” daily practice will be done in a stepwise fashion. I expect the practices first to open for diagnostic infertility testing, then for the less invasive procedures (frozen embryo transfer, intrauterine insemination) and finally for the more invasive lengthy procedures (stimulation with retrieval and embryo transfer). During the reopening of practice, strict infection control measures will need to be observed.

Dr. Kovacs is the medical director of Kaali Institute IVF Center in Budapest, Hungary. He has disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

The SARS-CoV-2 novel coronavirus has dramatically altered specialty practice across the board, including the practice of infertility treatment. Reproductive medicine societies recommend suspending new infertility treatment cycles during this time. Women and couples who have already invested time and money in their treatment may be understandably frustrated and worried about the impact of this enforced – and indefinite – delay on their chances of conceiving. This puts the physician, who can’t even guarantee when treatment can resume, in the difficult position of trying to balance the patient’s needs with expert recommendations and government mandates.

Infertility Care During COVID-19

European and American reproductive medicine societies have both offered guidelines regarding infertility care during the pandemic. Both recommend shifting to the use of telehealth rather than in-person visits when possible for initial consultations and follow-up discussions.

With respect to infertility treatments during the COVID-19 pandemic, the American Society for Reproductive Medicine (ASRM) advises the following:

• Suspend initiation of new treatment cycles, including ovulation induction; intrauterine insemination; and in vitro fertilization, including retrievals and frozen embryo transfers, and suspend nonurgent gamete cryopreservation.
• Strongly consider cancellation of all embryo transfers, whether fresh or frozen.
• Continue to care for patients who are currently “in cycle” or who require urgent stimulation and cryopreservation.
• Suspend elective surgeries and nonurgent diagnostic procedures.

In most countries, including the United States, all healthcare providers have been asked to put elective and nonurgent medical interventions on hold to ensure that personal protective equipment and other resources are available for the management of patients with COVID-19.

Infertility is a disease and, as such, not all infertility care should be considered elective. Still, for most patients, the overall chances of conceiving will not be compromised by a short delay (1-3 months) in treatment. A longer wait could have more impact on older patients or those who already have reduced ovarian reserve, but these are not indications for urgent fertility treatment.

There are clearly some cases in which infertility treatment cannot be delayed: for example, fertility preservation (oocyte or embryo vitrification) for patients who need to undergo immediate gonadotoxic oncology treatment. These patients need to be able to freeze oocytes/embryos so that later on, they have the option of having a family.

Another situation that could require new infertility treatment is a woman who needs urgent surgery for a condition such as severe symptomatic endometriosis causing ureteral or bowel stenosis/obstruction. Because the surgery itself can compromise fertility, the patient may elect to undergo oocyte embryo cryopreservation or ovarian tissue cryopreservation before the surgical procedure.
 

Pregnancy and COVID-19

As a precautionary measure during the COVID-19 pandemic, it is recommended that planned pregnancy be avoided. The available data on the risks presented by planning a pregnancy during the COVID pandemic are reassuring but limited.

Pregnancy itself has not been shown to alter the course of COVID-19, and most affected pregnant women will experience only mild or moderate flulike symptoms. Patients with cardiovascular or metabolic comorbidities or those requiring immunosuppressants are expected to be at increased risk for more severe forms of the infection. Currently, no strong evidence suggests a higher risk for miscarriage, stillbirth, or adverse neonatal outcomes with maternal COVID-19 infection.

A report based on 38 cases found no evidence for vertical transmission from mother to fetus, and all neonatal specimens (placental tissue) tested negative for the virus. Moreover, no maternal deaths were reported among these 38 infected women. Another study of 11 infected pregnant women likewise found no increased risk for perinatal morbidity or mortality.

On the other hand, a recent article on the perinatal outcomes of 33 neonates born to mothers with confirmed COVID-19 reported three cases of neonatal COVID-19 as a result of possible vertical transmission. In two cases, symptoms were mild and initial positive coronavirus test results turned negative within a few days. The third case – a pregnancy delivered by emergency cesarean section at 31 weeks for fetal distress – was complicated by bacterial sepsis, thrombocytopenia, and coagulopathy, but once again, the initially positive coronavirus test was negative by day 7.

No neonatal deaths were reported in these 33 cases. The authors could not rule out the possibility of vertical transmission in the three COVID-positive newborns because strict infection control measures were implemented during the care of the patients.
 

Counseling Patients About Suspending Infertility Treatments

Counseling women is the key to acceptance of the need to suspend or postpone infertility treatments during the pandemic. In addition to the economic hardships that some patients may face as a consequence of the pandemic, an obvious source of frustration stems from not knowing how long delays in treatment might be necessary. A discussion with patients or couples may reassure them that delaying conception is the safest route. For some women, other treatment options might be offered, such as the use of a donor gamete.

Some patients, even when counseled appropriately, may elect to accept the unknown risks. These patients should be counseled about the benefits of cryopreservation with delayed transfer. This could be a compromise, because their overall chances of pregnancy will not be affected but they will have to wait to become pregnant.

Counseling patients about the true impact of delaying treatment in their individual circumstances, providing them with emotional and (if needed) psychological support is important while they wait for their treatment to start. For now, the vast majority of the patients understand the need for delay, appreciate the opportunity to consult the physician over the phone, and are demonstrating patience as they wait for their treatment to start or resume.
 

Resuming Infertility Care

Recommendations could change as the pandemic continues and more information becomes available about the impact of coronavirus infection during pregnancy and the overall capacity of the healthcare system improves. ASRM acknowledges that “reproductive care professionals, in consultation with their patients, will have to consider reassessing the criteria of what represents urgent and non-urgent care.” If the data remain reassuring and social distancing measures are able to slow down the spread of the disease, the infertility care of those couples who would be most affected by a delay in their treatment could gradually be resumed. On April 14, ASRM updated its recommendations about resuming infertility treatment: “ While it is not yet prudent to resume nonemergency infertility procedures, the Task Force recognizes it is also time to begin to consider strategies and best practices for resuming time-sensitive fertility treatments in the face of COVID-19.”

It is likely that the return to “normal” daily practice will be done in a stepwise fashion. I expect the practices first to open for diagnostic infertility testing, then for the less invasive procedures (frozen embryo transfer, intrauterine insemination) and finally for the more invasive lengthy procedures (stimulation with retrieval and embryo transfer). During the reopening of practice, strict infection control measures will need to be observed.

Dr. Kovacs is the medical director of Kaali Institute IVF Center in Budapest, Hungary. He has disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

The SARS-CoV-2 novel coronavirus has dramatically altered specialty practice across the board, including the practice of infertility treatment. Reproductive medicine societies recommend suspending new infertility treatment cycles during this time. Women and couples who have already invested time and money in their treatment may be understandably frustrated and worried about the impact of this enforced – and indefinite – delay on their chances of conceiving. This puts the physician, who can’t even guarantee when treatment can resume, in the difficult position of trying to balance the patient’s needs with expert recommendations and government mandates.

Infertility Care During COVID-19

European and American reproductive medicine societies have both offered guidelines regarding infertility care during the pandemic. Both recommend shifting to the use of telehealth rather than in-person visits when possible for initial consultations and follow-up discussions.

With respect to infertility treatments during the COVID-19 pandemic, the American Society for Reproductive Medicine (ASRM) advises the following:

• Suspend initiation of new treatment cycles, including ovulation induction; intrauterine insemination; and in vitro fertilization, including retrievals and frozen embryo transfers, and suspend nonurgent gamete cryopreservation.
• Strongly consider cancellation of all embryo transfers, whether fresh or frozen.
• Continue to care for patients who are currently “in cycle” or who require urgent stimulation and cryopreservation.
• Suspend elective surgeries and nonurgent diagnostic procedures.

In most countries, including the United States, all healthcare providers have been asked to put elective and nonurgent medical interventions on hold to ensure that personal protective equipment and other resources are available for the management of patients with COVID-19.

Infertility is a disease and, as such, not all infertility care should be considered elective. Still, for most patients, the overall chances of conceiving will not be compromised by a short delay (1-3 months) in treatment. A longer wait could have more impact on older patients or those who already have reduced ovarian reserve, but these are not indications for urgent fertility treatment.

There are clearly some cases in which infertility treatment cannot be delayed: for example, fertility preservation (oocyte or embryo vitrification) for patients who need to undergo immediate gonadotoxic oncology treatment. These patients need to be able to freeze oocytes/embryos so that later on, they have the option of having a family.

Another situation that could require new infertility treatment is a woman who needs urgent surgery for a condition such as severe symptomatic endometriosis causing ureteral or bowel stenosis/obstruction. Because the surgery itself can compromise fertility, the patient may elect to undergo oocyte embryo cryopreservation or ovarian tissue cryopreservation before the surgical procedure.
 

Pregnancy and COVID-19

As a precautionary measure during the COVID-19 pandemic, it is recommended that planned pregnancy be avoided. The available data on the risks presented by planning a pregnancy during the COVID pandemic are reassuring but limited.

Pregnancy itself has not been shown to alter the course of COVID-19, and most affected pregnant women will experience only mild or moderate flulike symptoms. Patients with cardiovascular or metabolic comorbidities or those requiring immunosuppressants are expected to be at increased risk for more severe forms of the infection. Currently, no strong evidence suggests a higher risk for miscarriage, stillbirth, or adverse neonatal outcomes with maternal COVID-19 infection.

A report based on 38 cases found no evidence for vertical transmission from mother to fetus, and all neonatal specimens (placental tissue) tested negative for the virus. Moreover, no maternal deaths were reported among these 38 infected women. Another study of 11 infected pregnant women likewise found no increased risk for perinatal morbidity or mortality.

On the other hand, a recent article on the perinatal outcomes of 33 neonates born to mothers with confirmed COVID-19 reported three cases of neonatal COVID-19 as a result of possible vertical transmission. In two cases, symptoms were mild and initial positive coronavirus test results turned negative within a few days. The third case – a pregnancy delivered by emergency cesarean section at 31 weeks for fetal distress – was complicated by bacterial sepsis, thrombocytopenia, and coagulopathy, but once again, the initially positive coronavirus test was negative by day 7.

No neonatal deaths were reported in these 33 cases. The authors could not rule out the possibility of vertical transmission in the three COVID-positive newborns because strict infection control measures were implemented during the care of the patients.
 

Counseling Patients About Suspending Infertility Treatments

Counseling women is the key to acceptance of the need to suspend or postpone infertility treatments during the pandemic. In addition to the economic hardships that some patients may face as a consequence of the pandemic, an obvious source of frustration stems from not knowing how long delays in treatment might be necessary. A discussion with patients or couples may reassure them that delaying conception is the safest route. For some women, other treatment options might be offered, such as the use of a donor gamete.

Some patients, even when counseled appropriately, may elect to accept the unknown risks. These patients should be counseled about the benefits of cryopreservation with delayed transfer. This could be a compromise, because their overall chances of pregnancy will not be affected but they will have to wait to become pregnant.

Counseling patients about the true impact of delaying treatment in their individual circumstances, providing them with emotional and (if needed) psychological support is important while they wait for their treatment to start. For now, the vast majority of the patients understand the need for delay, appreciate the opportunity to consult the physician over the phone, and are demonstrating patience as they wait for their treatment to start or resume.
 

Resuming Infertility Care

Recommendations could change as the pandemic continues and more information becomes available about the impact of coronavirus infection during pregnancy and the overall capacity of the healthcare system improves. ASRM acknowledges that “reproductive care professionals, in consultation with their patients, will have to consider reassessing the criteria of what represents urgent and non-urgent care.” If the data remain reassuring and social distancing measures are able to slow down the spread of the disease, the infertility care of those couples who would be most affected by a delay in their treatment could gradually be resumed. On April 14, ASRM updated its recommendations about resuming infertility treatment: “ While it is not yet prudent to resume nonemergency infertility procedures, the Task Force recognizes it is also time to begin to consider strategies and best practices for resuming time-sensitive fertility treatments in the face of COVID-19.”

It is likely that the return to “normal” daily practice will be done in a stepwise fashion. I expect the practices first to open for diagnostic infertility testing, then for the less invasive procedures (frozen embryo transfer, intrauterine insemination) and finally for the more invasive lengthy procedures (stimulation with retrieval and embryo transfer). During the reopening of practice, strict infection control measures will need to be observed.

Dr. Kovacs is the medical director of Kaali Institute IVF Center in Budapest, Hungary. He has disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

Although priority number one lies in controlling the spread of COVID-19, public health researchers are calling attention to the long-term repercussions of the pandemic on children’s health.

School closures could noticeably worsen the epidemic of childhood obesity that already threatens many children in the United States, say Paul Rundle, DrPH, and colleagues from Columbia University Mailman School of Public Health, New York City, in a perspective published online March 30 in Obesity.

“In part, we wrote the perspective to remind people that summer unhealthy weight gain seems to accumulate year to year,” he told Medscape Medical News in an email.

Rundle and colleagues estimate that time spent out of school will double this year because of school closures due to COVID-19. That, along with shelter-in-place orders, will pose challenges both for physical activity and healthy eating among children.

In addition, playgrounds have closed in many areas, and even where parks remain open, social distancing decreases opportunities for exercise. Team sports are on hold, and without physical education taught in schools, many children will not be getting as much active outdoor play as needed.

That’s especially true for children in urban areas, who may find it even more difficult to exercise inside cramped apartments, they add.

As a result, more and more children may turn to sedentary activities, and increased screen time goes hand in hand with childhood overweight and obesity, not just because of the lack of exercise but also because of snacking on unhealthy, empty-calorie foods while glued to the screen.

“We were hoping to get the word out on this issue, do some education or reminding, and at least let people know that this should be something to keep an eye on, among so many other things,” Rundle added.

Excess Eating Because of Stress and Boredom

Jessica Sparks Lilley, MD, director of the Pediatric Diabetes and Lipid Program at the Mississippi Center for Advanced Medicine in Madison, agrees that it is crucial to address these issues.

“Just like adults, children eat in response to emotions, including stress and boredom, and stress levels are high during these uncertain times,” she told Medscape Medical News.

Although both Rundle and Sparks Lilley acknowledged the challenges of finding good solutions at this time, they do offer some tips.

Schools should make physical education and at-home exercise a priority alongside other remote teaching. Physical education teachers could even stream exercise classes to children at home.

Even just walking in the park while maintaining social distancing could be better than nothing, and a brisk walk is probably even better.

Depending on the age of the child, online yoga may also be useful. Even though yoga burns relatively few calories, it incorporates mindfulness training that may be helpful.

“I think focusing on promoting mindful eating as compared to mindless or distracted eating is important. Even in the best of circumstances, it is hard to exercise enough to burn off high energy snacks,” Rundle said.

Additional Stressors From Poverty: Schools Can Help With Meals

Children living in poverty, already the most vulnerable to obesity and related health problems, have additional stressors, add the two experts.

“As more Americans are losing jobs, poverty is a real threat to many of the children I care for. Families living in poverty often rely on processed, high-calorie, low-nutrient foods for survival, because they are inexpensive and shelf-stable,” Sparks Lilley said.

Rundle and colleagues agree: “Our own experiences in supermarkets show...shelves that held...crackers, chips, ramen noodles, soda, sugary cereals, and processed ready-to-eat meals are quite empty. We anticipate that many children will experience higher calorie diets during the pandemic response.”

Similar to how they address food insecurity during summer holidays, school districts have responded by offering grab-and-go meals, Rundle and colleagues note.

To maintain social distancing for people with vulnerable family members, some school districts have also started delivering food using school buses that run along regularly scheduled routes.

Rundle also stresses that farmers’ markets, which often provide foods that appeal to immigrant and ethnic communities, should be considered part of essential food services.

As such, social distancing protocols should be established for them and they should be allowed to stay open, he argues.

“The safety of American children is at stake in many ways. The threat to themselves or their caregivers being infected with COVID-19 is rightly foremost in our concerns,” Sparks Lilley stressed.

“However, there is other fallout to consider. We’ve seen very clearly the need for public health and preventive medicine and can’t let vulnerable children fall through the cracks.”

Rundle agrees. Although it is a “priority” to mitigate the immediate impact of COVID-19, “it is important to consider ways to prevent its long-term effects, including new risks for childhood obesity.”

Rundle and coauthors, as well as Sparks Lilley, have reported no relevant financial relationships.

This article first appeared on Medscape.com.

Although priority number one lies in controlling the spread of COVID-19, public health researchers are calling attention to the long-term repercussions of the pandemic on children’s health.

School closures could noticeably worsen the epidemic of childhood obesity that already threatens many children in the United States, say Paul Rundle, DrPH, and colleagues from Columbia University Mailman School of Public Health, New York City, in a perspective published online March 30 in Obesity.

“In part, we wrote the perspective to remind people that summer unhealthy weight gain seems to accumulate year to year,” he told Medscape Medical News in an email.

Rundle and colleagues estimate that time spent out of school will double this year because of school closures due to COVID-19. That, along with shelter-in-place orders, will pose challenges both for physical activity and healthy eating among children.

In addition, playgrounds have closed in many areas, and even where parks remain open, social distancing decreases opportunities for exercise. Team sports are on hold, and without physical education taught in schools, many children will not be getting as much active outdoor play as needed.

That’s especially true for children in urban areas, who may find it even more difficult to exercise inside cramped apartments, they add.

As a result, more and more children may turn to sedentary activities, and increased screen time goes hand in hand with childhood overweight and obesity, not just because of the lack of exercise but also because of snacking on unhealthy, empty-calorie foods while glued to the screen.

“We were hoping to get the word out on this issue, do some education or reminding, and at least let people know that this should be something to keep an eye on, among so many other things,” Rundle added.

Excess Eating Because of Stress and Boredom

Jessica Sparks Lilley, MD, director of the Pediatric Diabetes and Lipid Program at the Mississippi Center for Advanced Medicine in Madison, agrees that it is crucial to address these issues.

“Just like adults, children eat in response to emotions, including stress and boredom, and stress levels are high during these uncertain times,” she told Medscape Medical News.

Although both Rundle and Sparks Lilley acknowledged the challenges of finding good solutions at this time, they do offer some tips.

Schools should make physical education and at-home exercise a priority alongside other remote teaching. Physical education teachers could even stream exercise classes to children at home.

Even just walking in the park while maintaining social distancing could be better than nothing, and a brisk walk is probably even better.

Depending on the age of the child, online yoga may also be useful. Even though yoga burns relatively few calories, it incorporates mindfulness training that may be helpful.

“I think focusing on promoting mindful eating as compared to mindless or distracted eating is important. Even in the best of circumstances, it is hard to exercise enough to burn off high energy snacks,” Rundle said.

Additional Stressors From Poverty: Schools Can Help With Meals

Children living in poverty, already the most vulnerable to obesity and related health problems, have additional stressors, add the two experts.

“As more Americans are losing jobs, poverty is a real threat to many of the children I care for. Families living in poverty often rely on processed, high-calorie, low-nutrient foods for survival, because they are inexpensive and shelf-stable,” Sparks Lilley said.

Rundle and colleagues agree: “Our own experiences in supermarkets show...shelves that held...crackers, chips, ramen noodles, soda, sugary cereals, and processed ready-to-eat meals are quite empty. We anticipate that many children will experience higher calorie diets during the pandemic response.”

Similar to how they address food insecurity during summer holidays, school districts have responded by offering grab-and-go meals, Rundle and colleagues note.

To maintain social distancing for people with vulnerable family members, some school districts have also started delivering food using school buses that run along regularly scheduled routes.

Rundle also stresses that farmers’ markets, which often provide foods that appeal to immigrant and ethnic communities, should be considered part of essential food services.

As such, social distancing protocols should be established for them and they should be allowed to stay open, he argues.

“The safety of American children is at stake in many ways. The threat to themselves or their caregivers being infected with COVID-19 is rightly foremost in our concerns,” Sparks Lilley stressed.

“However, there is other fallout to consider. We’ve seen very clearly the need for public health and preventive medicine and can’t let vulnerable children fall through the cracks.”

Rundle agrees. Although it is a “priority” to mitigate the immediate impact of COVID-19, “it is important to consider ways to prevent its long-term effects, including new risks for childhood obesity.”

Rundle and coauthors, as well as Sparks Lilley, have reported no relevant financial relationships.

This article first appeared on Medscape.com.

Although priority number one lies in controlling the spread of COVID-19, public health researchers are calling attention to the long-term repercussions of the pandemic on children’s health.

School closures could noticeably worsen the epidemic of childhood obesity that already threatens many children in the United States, say Paul Rundle, DrPH, and colleagues from Columbia University Mailman School of Public Health, New York City, in a perspective published online March 30 in Obesity.

“In part, we wrote the perspective to remind people that summer unhealthy weight gain seems to accumulate year to year,” he told Medscape Medical News in an email.

Rundle and colleagues estimate that time spent out of school will double this year because of school closures due to COVID-19. That, along with shelter-in-place orders, will pose challenges both for physical activity and healthy eating among children.

In addition, playgrounds have closed in many areas, and even where parks remain open, social distancing decreases opportunities for exercise. Team sports are on hold, and without physical education taught in schools, many children will not be getting as much active outdoor play as needed.

That’s especially true for children in urban areas, who may find it even more difficult to exercise inside cramped apartments, they add.

As a result, more and more children may turn to sedentary activities, and increased screen time goes hand in hand with childhood overweight and obesity, not just because of the lack of exercise but also because of snacking on unhealthy, empty-calorie foods while glued to the screen.

“We were hoping to get the word out on this issue, do some education or reminding, and at least let people know that this should be something to keep an eye on, among so many other things,” Rundle added.

Excess Eating Because of Stress and Boredom

Jessica Sparks Lilley, MD, director of the Pediatric Diabetes and Lipid Program at the Mississippi Center for Advanced Medicine in Madison, agrees that it is crucial to address these issues.

“Just like adults, children eat in response to emotions, including stress and boredom, and stress levels are high during these uncertain times,” she told Medscape Medical News.

Although both Rundle and Sparks Lilley acknowledged the challenges of finding good solutions at this time, they do offer some tips.

Schools should make physical education and at-home exercise a priority alongside other remote teaching. Physical education teachers could even stream exercise classes to children at home.

Even just walking in the park while maintaining social distancing could be better than nothing, and a brisk walk is probably even better.

Depending on the age of the child, online yoga may also be useful. Even though yoga burns relatively few calories, it incorporates mindfulness training that may be helpful.

“I think focusing on promoting mindful eating as compared to mindless or distracted eating is important. Even in the best of circumstances, it is hard to exercise enough to burn off high energy snacks,” Rundle said.

Additional Stressors From Poverty: Schools Can Help With Meals

Children living in poverty, already the most vulnerable to obesity and related health problems, have additional stressors, add the two experts.

“As more Americans are losing jobs, poverty is a real threat to many of the children I care for. Families living in poverty often rely on processed, high-calorie, low-nutrient foods for survival, because they are inexpensive and shelf-stable,” Sparks Lilley said.

Rundle and colleagues agree: “Our own experiences in supermarkets show...shelves that held...crackers, chips, ramen noodles, soda, sugary cereals, and processed ready-to-eat meals are quite empty. We anticipate that many children will experience higher calorie diets during the pandemic response.”

Similar to how they address food insecurity during summer holidays, school districts have responded by offering grab-and-go meals, Rundle and colleagues note.

To maintain social distancing for people with vulnerable family members, some school districts have also started delivering food using school buses that run along regularly scheduled routes.

Rundle also stresses that farmers’ markets, which often provide foods that appeal to immigrant and ethnic communities, should be considered part of essential food services.

As such, social distancing protocols should be established for them and they should be allowed to stay open, he argues.

“The safety of American children is at stake in many ways. The threat to themselves or their caregivers being infected with COVID-19 is rightly foremost in our concerns,” Sparks Lilley stressed.

“However, there is other fallout to consider. We’ve seen very clearly the need for public health and preventive medicine and can’t let vulnerable children fall through the cracks.”

Rundle agrees. Although it is a “priority” to mitigate the immediate impact of COVID-19, “it is important to consider ways to prevent its long-term effects, including new risks for childhood obesity.”

Rundle and coauthors, as well as Sparks Lilley, have reported no relevant financial relationships.

This article first appeared on Medscape.com.