Clinical

People living with HIV who are admitted to the hospital with COVID-19 are no more likely to die than those without HIV, an analysis conducted in New York City shows. This is despite the fact that comorbidities associated with worse COVID-19 outcomes were more common in the HIV group.

“We don’t see any signs that people with HIV should take extra precautions” to protect themselves from COVID-19, said Keith Sigel, MD, associate professor of medicine and infectious diseases at the Icahn School of Medicine at Mount Sinai, New York, and the lead researcher on the study, published online June 28 in Clinical Infectious Diseases.

“We still don’t have a great explanation for why we’re seeing what we’re seeing,” he added. “But we’re glad we’re seeing it.”

The findings have changed how Dr. Sigel talks to his patients with HIV about protecting themselves from COVID-19. Some patients have so curtailed their behavior for fear of acquiring COVID-19 that they aren’t buying groceries or attending needed medical appointments. With these data, Dr. Sigel said he’s comfortable telling his patients, “COVID-19 is bad all by itself, but you don’t need to go crazy. Wear a mask, practice appropriate social distancing and hygiene, but your risk doesn’t appear to be greater.”

The findings conform with those on the lack of association between HIV and COVID-19 severity seen in a cohort study from Spain, a case study from China, and case series from New Jersey, New York City, and Spain.

One of the only regions reporting something different so far is South Africa. There, HIV is the third most common comorbidity associated with death from COVID-19, according to a cohort analysis conducted in the province of Western Cape.

The intersection of HIV and COVID-19 will be a major theme at the virtual meeting of the International AIDS conference. Along with data from HIV prevention and treatment trials, the conference will feature updates on where the world stands in the control of HIV during the COVID-19 pandemic. And for an even more focused look, the IAS COVID-19 Conference will immediately follow that meeting.

The New York City cohort

For their study, Dr. Sigel and colleagues examined the 4402 COVID-19 cases at the Mount Sinai Health System’s five hospitals between March 12 and April 23.

They found 88 people with COVID-19 whose charts showed codes indicating they were living with HIV. All 88 were receiving treatment, and 81% of them had undetectable viral loads documented at COVID admission or in the 12 months prior to admission.

The median age was 61 years, and 40% of the cohort was black and 30% was Hispanic.

Patients in the comparison group – 405 people without HIV from the Veterans Aging Cohort Study who had been admitted to the hospital for COVID-19 – were matched in terms of age, race, and stage of COVID-19.

The study had an 80% power to detect a 15% increase in the absolute risk for death in people with COVID-19, with or without HIV.

Patients with HIV were almost three times as likely to have smoked and were more likely to have chronic obstructive pulmonary disease, cirrhosis, and a history of cancer.

“This was a group of patients that one might suspect would do worse,” Dr. Sigel said. And yet, “we didn’t see any difference in deaths. We didn’t see any difference in respiratory failure.”

In fact, people with HIV required mechanical ventilation less often than those without HIV (18% vs. 23%). And when it came to mortality, one in five people died from COVID-19 during follow-up whether they had HIV or not (21% vs. 20%).

The only factor associated with significantly worse outcomes was a history of organ transplantation, “suggesting that non-HIV causes of immunodeficiency may be more prominent risks for severe outcomes,” Dr. Sigel and colleagues explained.

A surprise association

What’s more, the researchers found a slight association between the use of nucleoside reverse-transcriptase inhibitors (NRTI) by people with HIV and better outcomes in COVID-19. That echoes findings published June 26 in Annals of Internal Medicine, which showed that people with HIV taking the combination of tenofovir disoproxil fumarate plus emtricitabine (Truvada, Gilead Sciences) were less likely to be diagnosed with COVID-19, less likely to be hospitalized, and less likely to die.

This has led some to wonder whether NRTIs have some effect on SARS-CoV-2, the virus that causes COVID-19. Dr. Sigel said he wonders that too, but right now, it’s just musings.

“These studies are not even remotely designed” to show that NRTIs are protective against COVID-19, he explained. “Ours was extremely underpowered to detect that and there was a high potential for confounding.”

“I’d be wary of any study in a subpopulation – which is what we’re dealing with here – that is looking for signals of protection with certain medications,” he added.

A “modest” increase

Using the South African data, released on June 22, public health officials estimate that people with HIV are 2.75 times more likely to die from COVID-19 than those without HIV, making it the third most common comorbidity in people who died from COVID-19, behind diabetes and hypertension. This held true regardless of whether the people with HIV were on treatment.

But when they looked at COVID-19 deaths in the sickest of the sick – those hospitalized with COVID-19 symptoms – HIV was associated with just a 28% increase in the risk for death. The South African researchers called this risk “modest.”

“While these findings may overestimate the effect of HIV on COVID-19 death due to the presence of residual confounding, people living with HIV should be considered a high-risk group for COVID-19 management, with modestly elevated risk of poor outcomes, irrespective of viral suppression,” they wrote.

Epidemiologist Gregorio Millett, MPH, has been tracking the effect of HIV on COVID-19 outcomes since the start of the pandemic in his role as vice president and head of policy at the American Foundation for AIDS Research (amFAR).

Back in April, he and his colleagues looked at rates of COVID-19 deaths and hospitalizations in counties with disproportionate levels of black residents. These areas often overlapped with the communities selected for the Ending the HIV Epidemic plan to control HIV by 2030. What they found was that there was more HIV and COVID-19 in those communities.

What they didn’t find was that people with HIV in those communities had worse outcomes with COVID-19. This remained true even when they reran the analysis after the number of cases of COVID-19 in the United States surpassed 100,000. Those data have yet to be published, Mr. Millett reported.

“HIV does not pop out,” he said. “It’s still social determinants of health. It’s still underlying conditions. It’s still age as a primary factor.”

“People living with HIV are mainly dying of underlying conditions – so all the things associated with COVID-19 – rather than the association being with HIV itself,” he added.

Although he’s not ruling out the possibility that an association like the one in South Africa could emerge, Mr. Millett, who will present a plenary on the context of the HIV epidemic at the IAS conference, said he suspects we won’t see one.

“If we didn’t see an association with the counties that are disproportionately African American, in the black belt where we see high rates of HIV, particularly where we see the social determinants of health that definitely make a difference – if we’re not seeing that association there, where we have a high proportion of African Americans who are at risk both for HIV and COVID-19 – I just don’t think it’s going to emerge,” he said.

This article first appeared on Medscape.com.

People living with HIV who are admitted to the hospital with COVID-19 are no more likely to die than those without HIV, an analysis conducted in New York City shows. This is despite the fact that comorbidities associated with worse COVID-19 outcomes were more common in the HIV group.

“We don’t see any signs that people with HIV should take extra precautions” to protect themselves from COVID-19, said Keith Sigel, MD, associate professor of medicine and infectious diseases at the Icahn School of Medicine at Mount Sinai, New York, and the lead researcher on the study, published online June 28 in Clinical Infectious Diseases.

“We still don’t have a great explanation for why we’re seeing what we’re seeing,” he added. “But we’re glad we’re seeing it.”

The findings have changed how Dr. Sigel talks to his patients with HIV about protecting themselves from COVID-19. Some patients have so curtailed their behavior for fear of acquiring COVID-19 that they aren’t buying groceries or attending needed medical appointments. With these data, Dr. Sigel said he’s comfortable telling his patients, “COVID-19 is bad all by itself, but you don’t need to go crazy. Wear a mask, practice appropriate social distancing and hygiene, but your risk doesn’t appear to be greater.”

The findings conform with those on the lack of association between HIV and COVID-19 severity seen in a cohort study from Spain, a case study from China, and case series from New Jersey, New York City, and Spain.

One of the only regions reporting something different so far is South Africa. There, HIV is the third most common comorbidity associated with death from COVID-19, according to a cohort analysis conducted in the province of Western Cape.

The intersection of HIV and COVID-19 will be a major theme at the virtual meeting of the International AIDS conference. Along with data from HIV prevention and treatment trials, the conference will feature updates on where the world stands in the control of HIV during the COVID-19 pandemic. And for an even more focused look, the IAS COVID-19 Conference will immediately follow that meeting.

The New York City cohort

For their study, Dr. Sigel and colleagues examined the 4402 COVID-19 cases at the Mount Sinai Health System’s five hospitals between March 12 and April 23.

They found 88 people with COVID-19 whose charts showed codes indicating they were living with HIV. All 88 were receiving treatment, and 81% of them had undetectable viral loads documented at COVID admission or in the 12 months prior to admission.

The median age was 61 years, and 40% of the cohort was black and 30% was Hispanic.

Patients in the comparison group – 405 people without HIV from the Veterans Aging Cohort Study who had been admitted to the hospital for COVID-19 – were matched in terms of age, race, and stage of COVID-19.

The study had an 80% power to detect a 15% increase in the absolute risk for death in people with COVID-19, with or without HIV.

Patients with HIV were almost three times as likely to have smoked and were more likely to have chronic obstructive pulmonary disease, cirrhosis, and a history of cancer.

“This was a group of patients that one might suspect would do worse,” Dr. Sigel said. And yet, “we didn’t see any difference in deaths. We didn’t see any difference in respiratory failure.”

In fact, people with HIV required mechanical ventilation less often than those without HIV (18% vs. 23%). And when it came to mortality, one in five people died from COVID-19 during follow-up whether they had HIV or not (21% vs. 20%).

The only factor associated with significantly worse outcomes was a history of organ transplantation, “suggesting that non-HIV causes of immunodeficiency may be more prominent risks for severe outcomes,” Dr. Sigel and colleagues explained.

A surprise association

What’s more, the researchers found a slight association between the use of nucleoside reverse-transcriptase inhibitors (NRTI) by people with HIV and better outcomes in COVID-19. That echoes findings published June 26 in Annals of Internal Medicine, which showed that people with HIV taking the combination of tenofovir disoproxil fumarate plus emtricitabine (Truvada, Gilead Sciences) were less likely to be diagnosed with COVID-19, less likely to be hospitalized, and less likely to die.

This has led some to wonder whether NRTIs have some effect on SARS-CoV-2, the virus that causes COVID-19. Dr. Sigel said he wonders that too, but right now, it’s just musings.

“These studies are not even remotely designed” to show that NRTIs are protective against COVID-19, he explained. “Ours was extremely underpowered to detect that and there was a high potential for confounding.”

“I’d be wary of any study in a subpopulation – which is what we’re dealing with here – that is looking for signals of protection with certain medications,” he added.

A “modest” increase

Using the South African data, released on June 22, public health officials estimate that people with HIV are 2.75 times more likely to die from COVID-19 than those without HIV, making it the third most common comorbidity in people who died from COVID-19, behind diabetes and hypertension. This held true regardless of whether the people with HIV were on treatment.

But when they looked at COVID-19 deaths in the sickest of the sick – those hospitalized with COVID-19 symptoms – HIV was associated with just a 28% increase in the risk for death. The South African researchers called this risk “modest.”

“While these findings may overestimate the effect of HIV on COVID-19 death due to the presence of residual confounding, people living with HIV should be considered a high-risk group for COVID-19 management, with modestly elevated risk of poor outcomes, irrespective of viral suppression,” they wrote.

Epidemiologist Gregorio Millett, MPH, has been tracking the effect of HIV on COVID-19 outcomes since the start of the pandemic in his role as vice president and head of policy at the American Foundation for AIDS Research (amFAR).

Back in April, he and his colleagues looked at rates of COVID-19 deaths and hospitalizations in counties with disproportionate levels of black residents. These areas often overlapped with the communities selected for the Ending the HIV Epidemic plan to control HIV by 2030. What they found was that there was more HIV and COVID-19 in those communities.

What they didn’t find was that people with HIV in those communities had worse outcomes with COVID-19. This remained true even when they reran the analysis after the number of cases of COVID-19 in the United States surpassed 100,000. Those data have yet to be published, Mr. Millett reported.

“HIV does not pop out,” he said. “It’s still social determinants of health. It’s still underlying conditions. It’s still age as a primary factor.”

“People living with HIV are mainly dying of underlying conditions – so all the things associated with COVID-19 – rather than the association being with HIV itself,” he added.

Although he’s not ruling out the possibility that an association like the one in South Africa could emerge, Mr. Millett, who will present a plenary on the context of the HIV epidemic at the IAS conference, said he suspects we won’t see one.

“If we didn’t see an association with the counties that are disproportionately African American, in the black belt where we see high rates of HIV, particularly where we see the social determinants of health that definitely make a difference – if we’re not seeing that association there, where we have a high proportion of African Americans who are at risk both for HIV and COVID-19 – I just don’t think it’s going to emerge,” he said.

This article first appeared on Medscape.com.

People living with HIV who are admitted to the hospital with COVID-19 are no more likely to die than those without HIV, an analysis conducted in New York City shows. This is despite the fact that comorbidities associated with worse COVID-19 outcomes were more common in the HIV group.

“We don’t see any signs that people with HIV should take extra precautions” to protect themselves from COVID-19, said Keith Sigel, MD, associate professor of medicine and infectious diseases at the Icahn School of Medicine at Mount Sinai, New York, and the lead researcher on the study, published online June 28 in Clinical Infectious Diseases.

“We still don’t have a great explanation for why we’re seeing what we’re seeing,” he added. “But we’re glad we’re seeing it.”

The findings have changed how Dr. Sigel talks to his patients with HIV about protecting themselves from COVID-19. Some patients have so curtailed their behavior for fear of acquiring COVID-19 that they aren’t buying groceries or attending needed medical appointments. With these data, Dr. Sigel said he’s comfortable telling his patients, “COVID-19 is bad all by itself, but you don’t need to go crazy. Wear a mask, practice appropriate social distancing and hygiene, but your risk doesn’t appear to be greater.”

The findings conform with those on the lack of association between HIV and COVID-19 severity seen in a cohort study from Spain, a case study from China, and case series from New Jersey, New York City, and Spain.

One of the only regions reporting something different so far is South Africa. There, HIV is the third most common comorbidity associated with death from COVID-19, according to a cohort analysis conducted in the province of Western Cape.

The intersection of HIV and COVID-19 will be a major theme at the virtual meeting of the International AIDS conference. Along with data from HIV prevention and treatment trials, the conference will feature updates on where the world stands in the control of HIV during the COVID-19 pandemic. And for an even more focused look, the IAS COVID-19 Conference will immediately follow that meeting.

The New York City cohort

For their study, Dr. Sigel and colleagues examined the 4402 COVID-19 cases at the Mount Sinai Health System’s five hospitals between March 12 and April 23.

They found 88 people with COVID-19 whose charts showed codes indicating they were living with HIV. All 88 were receiving treatment, and 81% of them had undetectable viral loads documented at COVID admission or in the 12 months prior to admission.

The median age was 61 years, and 40% of the cohort was black and 30% was Hispanic.

Patients in the comparison group – 405 people without HIV from the Veterans Aging Cohort Study who had been admitted to the hospital for COVID-19 – were matched in terms of age, race, and stage of COVID-19.

The study had an 80% power to detect a 15% increase in the absolute risk for death in people with COVID-19, with or without HIV.

Patients with HIV were almost three times as likely to have smoked and were more likely to have chronic obstructive pulmonary disease, cirrhosis, and a history of cancer.

“This was a group of patients that one might suspect would do worse,” Dr. Sigel said. And yet, “we didn’t see any difference in deaths. We didn’t see any difference in respiratory failure.”

In fact, people with HIV required mechanical ventilation less often than those without HIV (18% vs. 23%). And when it came to mortality, one in five people died from COVID-19 during follow-up whether they had HIV or not (21% vs. 20%).

The only factor associated with significantly worse outcomes was a history of organ transplantation, “suggesting that non-HIV causes of immunodeficiency may be more prominent risks for severe outcomes,” Dr. Sigel and colleagues explained.

A surprise association

What’s more, the researchers found a slight association between the use of nucleoside reverse-transcriptase inhibitors (NRTI) by people with HIV and better outcomes in COVID-19. That echoes findings published June 26 in Annals of Internal Medicine, which showed that people with HIV taking the combination of tenofovir disoproxil fumarate plus emtricitabine (Truvada, Gilead Sciences) were less likely to be diagnosed with COVID-19, less likely to be hospitalized, and less likely to die.

This has led some to wonder whether NRTIs have some effect on SARS-CoV-2, the virus that causes COVID-19. Dr. Sigel said he wonders that too, but right now, it’s just musings.

“These studies are not even remotely designed” to show that NRTIs are protective against COVID-19, he explained. “Ours was extremely underpowered to detect that and there was a high potential for confounding.”

“I’d be wary of any study in a subpopulation – which is what we’re dealing with here – that is looking for signals of protection with certain medications,” he added.

A “modest” increase

Using the South African data, released on June 22, public health officials estimate that people with HIV are 2.75 times more likely to die from COVID-19 than those without HIV, making it the third most common comorbidity in people who died from COVID-19, behind diabetes and hypertension. This held true regardless of whether the people with HIV were on treatment.

But when they looked at COVID-19 deaths in the sickest of the sick – those hospitalized with COVID-19 symptoms – HIV was associated with just a 28% increase in the risk for death. The South African researchers called this risk “modest.”

“While these findings may overestimate the effect of HIV on COVID-19 death due to the presence of residual confounding, people living with HIV should be considered a high-risk group for COVID-19 management, with modestly elevated risk of poor outcomes, irrespective of viral suppression,” they wrote.

Epidemiologist Gregorio Millett, MPH, has been tracking the effect of HIV on COVID-19 outcomes since the start of the pandemic in his role as vice president and head of policy at the American Foundation for AIDS Research (amFAR).

Back in April, he and his colleagues looked at rates of COVID-19 deaths and hospitalizations in counties with disproportionate levels of black residents. These areas often overlapped with the communities selected for the Ending the HIV Epidemic plan to control HIV by 2030. What they found was that there was more HIV and COVID-19 in those communities.

What they didn’t find was that people with HIV in those communities had worse outcomes with COVID-19. This remained true even when they reran the analysis after the number of cases of COVID-19 in the United States surpassed 100,000. Those data have yet to be published, Mr. Millett reported.

“HIV does not pop out,” he said. “It’s still social determinants of health. It’s still underlying conditions. It’s still age as a primary factor.”

“People living with HIV are mainly dying of underlying conditions – so all the things associated with COVID-19 – rather than the association being with HIV itself,” he added.

Although he’s not ruling out the possibility that an association like the one in South Africa could emerge, Mr. Millett, who will present a plenary on the context of the HIV epidemic at the IAS conference, said he suspects we won’t see one.

“If we didn’t see an association with the counties that are disproportionately African American, in the black belt where we see high rates of HIV, particularly where we see the social determinants of health that definitely make a difference – if we’re not seeing that association there, where we have a high proportion of African Americans who are at risk both for HIV and COVID-19 – I just don’t think it’s going to emerge,” he said.

This article first appeared on Medscape.com.

Patients with COVID-19 may be at increased risk of acute ischemic stroke compared with patients with influenza, according to a retrospective cohort study conducted at New York–Presbyterian Hospital and Weill Cornell Medicine, New York. “These findings suggest that clinicians should be vigilant for symptoms and signs of acute ischemic stroke in patients with COVID-19 so that time-sensitive interventions, such as thrombolysis and thrombectomy, can be instituted if possible to reduce the burden of long-term disability,” wrote Alexander E. Merkler and colleagues. Their report is in JAMA Neurology.

While several recent publications have “raised the possibility” of this link, none have had an appropriate control group, noted Dr. Merkler of the department of neurology, Weill Cornell Medicine. “Further elucidation of thrombotic mechanisms in patients with COVID-19 may yield better strategies to prevent disabling thrombotic complications like ischemic stroke,” he added.
 

An increased risk of stroke

The study included 1,916 adults with confirmed COVID-19 (median age 64 years) who were either hospitalized or visited an emergency department between March 4 and May 2, 2020. These cases were compared with a historical cohort of 1,486 patients (median age 62 years) who were hospitalized with laboratory-confirmed influenza A or B between January 1, 2016, and May 31, 2018.

Among the patients with COVID-19, a diagnosis of cerebrovascular disease during hospitalization, a brain computed tomography (CT), or brain magnetic resonance imaging (MRI) was an indication of possible ischemic stroke. These records were then independently reviewed by two board-certified attending neurologists (with a third resolving any disagreement) to adjudicate a final stroke diagnosis. In the influenza cohort, the Cornell Acute Stroke Academic Registry (CAESAR) was used to ascertain ischemic strokes.

The study identified 31 patients with stroke among the COVID-19 cohort (1.6%; 95% confidence interval, 1.1%-2.3%) and 3 in the influenza cohort (0.2%; 95% CI, 0.0%-0.6%). After adjustment for age, sex, and race, stroke risk was almost 8 times higher in the COVID-19 cohort (OR, 7.6; 95% CI, 2.3-25.2).

This association “persisted across multiple sensitivity analyses, with the magnitude of relative associations ranging from 4.0 to 9,” wrote the authors. “This included a sensitivity analysis that adjusted for the number of vascular risk factors and ICU admissions (OR, 4.6; 95% CI, 1.4-15.7).”

The median age of patients with COVID-19 and stroke was 69 years, and the median duration of COVID-19 symptom onset to stroke diagnosis was 16 days. Stroke symptoms were the presenting complaint in only 26% of the patients, while the remainder developing stroke while hospitalized, and more than a third (35%) of all strokes occurred in patients who were mechanically ventilated with severe COVID-19. Inpatient mortality was considerably higher among patients with COVID-19 with stroke versus without (32% vs. 14%; P = .003).

In patients with COVID-19 “most ischemic strokes occurred in older age groups, those with traditional stroke risk factors, and people of color,” wrote the authors. “We also noted that initial plasma D-dimer levels were nearly 3-fold higher in those who received a diagnosis of ischemic stroke than in those who did not” (1.930 mcg/mL vs. 0.682 mcg/mL).

The authors suggested several possible explanations for the elevated risk of stroke in COVID-19. Acute viral illnesses are known to trigger inflammation, and COVID-19 in particular is associated with “a vigorous inflammatory response accompanied by coagulopathy, with elevated D-dimer levels and the frequent presence of antiphospholipid antibodies,” they wrote. The infection is also associated with more severe respiratory syndrome compared with influenza, as well as a heightened risk for complications such as atrial arrhythmias, myocardial infarction, heart failure, myocarditis, and venous thromboses, all of which likely contribute to the risk of ischemic stroke.”
 

COVID or conventional risk factors?

Asked to comment on the study, Benedict Michael, MBChB (Hons), MRCP (Neurol), PhD, from the United Kingdom’s Coronerve Studies Group, a collaborative initiative to study the neurological features of COVID-19, said in an interview that “this study suggests many cases of stroke are occurring in older patients with multiple existing conventional and well recognized risks for stroke, and may simply represent decompensation during sepsis.”

Dr. Michael, a senior clinician scientist fellow at the University of Liverpool and an honorary consultant neurologist at the Walton Centre, was the senior author on a recently published UK-wide surveillance study on the neurological and neuropsychiatric complications of COVID-19 (Lancet Psychiatry. 2020 Jun 25. doi: 10.1016/S2215-0366[20]30287-X).

He said among patients in the New York study, “those with COVID and a stroke appeared to have many conventional risk factors for stroke (and often at higher percentages than COVID patients without a stroke), e.g. hypertension, overweight, diabetes, hyperlipidemia, existing vascular disease affecting the coronary arteries and atrial fibrillation. To establish evidence-based treatment pathways, clearly further studies are needed to determine the biological mechanisms underlying the seemingly higher rate of stroke with COVID-19 than influenza; but this must especially focus on those younger patients without conventional risk factors for stroke (which are largely not included in this study).”

SOURCE: Merkler AE et al. JAMA Neurol. doi: 10.1001/jamaneurol.2020.2730.

Patients with COVID-19 may be at increased risk of acute ischemic stroke compared with patients with influenza, according to a retrospective cohort study conducted at New York–Presbyterian Hospital and Weill Cornell Medicine, New York. “These findings suggest that clinicians should be vigilant for symptoms and signs of acute ischemic stroke in patients with COVID-19 so that time-sensitive interventions, such as thrombolysis and thrombectomy, can be instituted if possible to reduce the burden of long-term disability,” wrote Alexander E. Merkler and colleagues. Their report is in JAMA Neurology.

While several recent publications have “raised the possibility” of this link, none have had an appropriate control group, noted Dr. Merkler of the department of neurology, Weill Cornell Medicine. “Further elucidation of thrombotic mechanisms in patients with COVID-19 may yield better strategies to prevent disabling thrombotic complications like ischemic stroke,” he added.
 

An increased risk of stroke

The study included 1,916 adults with confirmed COVID-19 (median age 64 years) who were either hospitalized or visited an emergency department between March 4 and May 2, 2020. These cases were compared with a historical cohort of 1,486 patients (median age 62 years) who were hospitalized with laboratory-confirmed influenza A or B between January 1, 2016, and May 31, 2018.

Among the patients with COVID-19, a diagnosis of cerebrovascular disease during hospitalization, a brain computed tomography (CT), or brain magnetic resonance imaging (MRI) was an indication of possible ischemic stroke. These records were then independently reviewed by two board-certified attending neurologists (with a third resolving any disagreement) to adjudicate a final stroke diagnosis. In the influenza cohort, the Cornell Acute Stroke Academic Registry (CAESAR) was used to ascertain ischemic strokes.

The study identified 31 patients with stroke among the COVID-19 cohort (1.6%; 95% confidence interval, 1.1%-2.3%) and 3 in the influenza cohort (0.2%; 95% CI, 0.0%-0.6%). After adjustment for age, sex, and race, stroke risk was almost 8 times higher in the COVID-19 cohort (OR, 7.6; 95% CI, 2.3-25.2).

This association “persisted across multiple sensitivity analyses, with the magnitude of relative associations ranging from 4.0 to 9,” wrote the authors. “This included a sensitivity analysis that adjusted for the number of vascular risk factors and ICU admissions (OR, 4.6; 95% CI, 1.4-15.7).”

The median age of patients with COVID-19 and stroke was 69 years, and the median duration of COVID-19 symptom onset to stroke diagnosis was 16 days. Stroke symptoms were the presenting complaint in only 26% of the patients, while the remainder developing stroke while hospitalized, and more than a third (35%) of all strokes occurred in patients who were mechanically ventilated with severe COVID-19. Inpatient mortality was considerably higher among patients with COVID-19 with stroke versus without (32% vs. 14%; P = .003).

In patients with COVID-19 “most ischemic strokes occurred in older age groups, those with traditional stroke risk factors, and people of color,” wrote the authors. “We also noted that initial plasma D-dimer levels were nearly 3-fold higher in those who received a diagnosis of ischemic stroke than in those who did not” (1.930 mcg/mL vs. 0.682 mcg/mL).

The authors suggested several possible explanations for the elevated risk of stroke in COVID-19. Acute viral illnesses are known to trigger inflammation, and COVID-19 in particular is associated with “a vigorous inflammatory response accompanied by coagulopathy, with elevated D-dimer levels and the frequent presence of antiphospholipid antibodies,” they wrote. The infection is also associated with more severe respiratory syndrome compared with influenza, as well as a heightened risk for complications such as atrial arrhythmias, myocardial infarction, heart failure, myocarditis, and venous thromboses, all of which likely contribute to the risk of ischemic stroke.”
 

COVID or conventional risk factors?

Asked to comment on the study, Benedict Michael, MBChB (Hons), MRCP (Neurol), PhD, from the United Kingdom’s Coronerve Studies Group, a collaborative initiative to study the neurological features of COVID-19, said in an interview that “this study suggests many cases of stroke are occurring in older patients with multiple existing conventional and well recognized risks for stroke, and may simply represent decompensation during sepsis.”

Dr. Michael, a senior clinician scientist fellow at the University of Liverpool and an honorary consultant neurologist at the Walton Centre, was the senior author on a recently published UK-wide surveillance study on the neurological and neuropsychiatric complications of COVID-19 (Lancet Psychiatry. 2020 Jun 25. doi: 10.1016/S2215-0366[20]30287-X).

He said among patients in the New York study, “those with COVID and a stroke appeared to have many conventional risk factors for stroke (and often at higher percentages than COVID patients without a stroke), e.g. hypertension, overweight, diabetes, hyperlipidemia, existing vascular disease affecting the coronary arteries and atrial fibrillation. To establish evidence-based treatment pathways, clearly further studies are needed to determine the biological mechanisms underlying the seemingly higher rate of stroke with COVID-19 than influenza; but this must especially focus on those younger patients without conventional risk factors for stroke (which are largely not included in this study).”

SOURCE: Merkler AE et al. JAMA Neurol. doi: 10.1001/jamaneurol.2020.2730.

Patients with COVID-19 may be at increased risk of acute ischemic stroke compared with patients with influenza, according to a retrospective cohort study conducted at New York–Presbyterian Hospital and Weill Cornell Medicine, New York. “These findings suggest that clinicians should be vigilant for symptoms and signs of acute ischemic stroke in patients with COVID-19 so that time-sensitive interventions, such as thrombolysis and thrombectomy, can be instituted if possible to reduce the burden of long-term disability,” wrote Alexander E. Merkler and colleagues. Their report is in JAMA Neurology.

While several recent publications have “raised the possibility” of this link, none have had an appropriate control group, noted Dr. Merkler of the department of neurology, Weill Cornell Medicine. “Further elucidation of thrombotic mechanisms in patients with COVID-19 may yield better strategies to prevent disabling thrombotic complications like ischemic stroke,” he added.
 

An increased risk of stroke

The study included 1,916 adults with confirmed COVID-19 (median age 64 years) who were either hospitalized or visited an emergency department between March 4 and May 2, 2020. These cases were compared with a historical cohort of 1,486 patients (median age 62 years) who were hospitalized with laboratory-confirmed influenza A or B between January 1, 2016, and May 31, 2018.

Among the patients with COVID-19, a diagnosis of cerebrovascular disease during hospitalization, a brain computed tomography (CT), or brain magnetic resonance imaging (MRI) was an indication of possible ischemic stroke. These records were then independently reviewed by two board-certified attending neurologists (with a third resolving any disagreement) to adjudicate a final stroke diagnosis. In the influenza cohort, the Cornell Acute Stroke Academic Registry (CAESAR) was used to ascertain ischemic strokes.

The study identified 31 patients with stroke among the COVID-19 cohort (1.6%; 95% confidence interval, 1.1%-2.3%) and 3 in the influenza cohort (0.2%; 95% CI, 0.0%-0.6%). After adjustment for age, sex, and race, stroke risk was almost 8 times higher in the COVID-19 cohort (OR, 7.6; 95% CI, 2.3-25.2).

This association “persisted across multiple sensitivity analyses, with the magnitude of relative associations ranging from 4.0 to 9,” wrote the authors. “This included a sensitivity analysis that adjusted for the number of vascular risk factors and ICU admissions (OR, 4.6; 95% CI, 1.4-15.7).”

The median age of patients with COVID-19 and stroke was 69 years, and the median duration of COVID-19 symptom onset to stroke diagnosis was 16 days. Stroke symptoms were the presenting complaint in only 26% of the patients, while the remainder developing stroke while hospitalized, and more than a third (35%) of all strokes occurred in patients who were mechanically ventilated with severe COVID-19. Inpatient mortality was considerably higher among patients with COVID-19 with stroke versus without (32% vs. 14%; P = .003).

In patients with COVID-19 “most ischemic strokes occurred in older age groups, those with traditional stroke risk factors, and people of color,” wrote the authors. “We also noted that initial plasma D-dimer levels were nearly 3-fold higher in those who received a diagnosis of ischemic stroke than in those who did not” (1.930 mcg/mL vs. 0.682 mcg/mL).

The authors suggested several possible explanations for the elevated risk of stroke in COVID-19. Acute viral illnesses are known to trigger inflammation, and COVID-19 in particular is associated with “a vigorous inflammatory response accompanied by coagulopathy, with elevated D-dimer levels and the frequent presence of antiphospholipid antibodies,” they wrote. The infection is also associated with more severe respiratory syndrome compared with influenza, as well as a heightened risk for complications such as atrial arrhythmias, myocardial infarction, heart failure, myocarditis, and venous thromboses, all of which likely contribute to the risk of ischemic stroke.”
 

COVID or conventional risk factors?

Asked to comment on the study, Benedict Michael, MBChB (Hons), MRCP (Neurol), PhD, from the United Kingdom’s Coronerve Studies Group, a collaborative initiative to study the neurological features of COVID-19, said in an interview that “this study suggests many cases of stroke are occurring in older patients with multiple existing conventional and well recognized risks for stroke, and may simply represent decompensation during sepsis.”

Dr. Michael, a senior clinician scientist fellow at the University of Liverpool and an honorary consultant neurologist at the Walton Centre, was the senior author on a recently published UK-wide surveillance study on the neurological and neuropsychiatric complications of COVID-19 (Lancet Psychiatry. 2020 Jun 25. doi: 10.1016/S2215-0366[20]30287-X).

He said among patients in the New York study, “those with COVID and a stroke appeared to have many conventional risk factors for stroke (and often at higher percentages than COVID patients without a stroke), e.g. hypertension, overweight, diabetes, hyperlipidemia, existing vascular disease affecting the coronary arteries and atrial fibrillation. To establish evidence-based treatment pathways, clearly further studies are needed to determine the biological mechanisms underlying the seemingly higher rate of stroke with COVID-19 than influenza; but this must especially focus on those younger patients without conventional risk factors for stroke (which are largely not included in this study).”

SOURCE: Merkler AE et al. JAMA Neurol. doi: 10.1001/jamaneurol.2020.2730.

Background: Alterations to the coagulation cascade put cirrhotic patients at higher risk for bleeding and thrombotic complications.

As such, pharmacologic VTE prophylaxis is often underutilized in patients admitted with cirrhosis; for patients requiring therapeutic anticoagulation, direct oral anticoagulants are safe in stable patients with mild cirrhosis, but should be avoided in Child-Pugh B and C patients.

Bottom line: Cirrhotic patients do not require routine correction of coagulopathy prior to low-risk procedures.

Citation: O’Leary JG et al. AGA Clinical Practice Update: Coagulation in cirrhosis. Gastroenterology. 2019. doi: 10.1053/j.gastro.2019.03.070.

Dr. Lublin is a hospitalist at the University of Colorado at Denver, Aurora.

Background: Alterations to the coagulation cascade put cirrhotic patients at higher risk for bleeding and thrombotic complications.

As such, pharmacologic VTE prophylaxis is often underutilized in patients admitted with cirrhosis; for patients requiring therapeutic anticoagulation, direct oral anticoagulants are safe in stable patients with mild cirrhosis, but should be avoided in Child-Pugh B and C patients.

Bottom line: Cirrhotic patients do not require routine correction of coagulopathy prior to low-risk procedures.

Citation: O’Leary JG et al. AGA Clinical Practice Update: Coagulation in cirrhosis. Gastroenterology. 2019. doi: 10.1053/j.gastro.2019.03.070.

Dr. Lublin is a hospitalist at the University of Colorado at Denver, Aurora.

Background: Alterations to the coagulation cascade put cirrhotic patients at higher risk for bleeding and thrombotic complications.

As such, pharmacologic VTE prophylaxis is often underutilized in patients admitted with cirrhosis; for patients requiring therapeutic anticoagulation, direct oral anticoagulants are safe in stable patients with mild cirrhosis, but should be avoided in Child-Pugh B and C patients.

Bottom line: Cirrhotic patients do not require routine correction of coagulopathy prior to low-risk procedures.

Citation: O’Leary JG et al. AGA Clinical Practice Update: Coagulation in cirrhosis. Gastroenterology. 2019. doi: 10.1053/j.gastro.2019.03.070.

Dr. Lublin is a hospitalist at the University of Colorado at Denver, Aurora.

Background: The United States Renal Data System registry estimates that approximately 30% of patients die within 1 year of initiating hemodialysis.

Dr. Lublin is a hospitalist at the University of Colorado at Denver, Aurora.

Background: The United States Renal Data System registry estimates that approximately 30% of patients die within 1 year of initiating hemodialysis.

Dr. Lublin is a hospitalist at the University of Colorado at Denver, Aurora.

Background: The United States Renal Data System registry estimates that approximately 30% of patients die within 1 year of initiating hemodialysis.

Dr. Lublin is a hospitalist at the University of Colorado at Denver, Aurora.

Captopril appears to be associated with a higher rate of pulmonary adverse reactions in patients with diabetes than that of other ACE inhibitors or angiotensin receptor blockers (ARBs) and therefore may not be the best choice for patients with diabetes and COVID-19, a new study suggests.

The study was published online in the Journal of the American Pharmacists Association.

The authors, led by Emma G. Stafford, PharmD, University of Missouri-Kansas City School of Pharmacy, note that diabetes seems to confer a higher risk of adverse outcomes in COVID-19 infection and there is conflicting data on the contribution of ACE inhibitors and ARBs, commonly used medications in diabetes, on the mortality and morbidity of COVID-19.

“In light of the recent COVID-19 outbreak, more research is needed to understand the effects that diabetes (and its medications) may have on the respiratory system and how that could affect the management of diseases such as COVID-19,” they say.

“Although ACE inhibitors and ARBs are generally considered to have similar adverse event profiles, evaluation of postmarketing adverse events may shed light on minute differences that could have important clinical impacts,” they add.

For the current study, the researchers analyzed data from multiple publicly available data sources on adverse drug reactions in patients with diabetes taking ACE inhibitors or ARBs. The data included all adverse drug events (ADEs) reported nationally to the US Food and Drug Administration and internationally to the Medical Dictionary for Regulatory Activities (MedDRA).

Results showed that captopril, the first ACE inhibitor approved back in 1981, has a higher incidence of pulmonary ADEs in patients with diabetes as compared with other ACE-inhibitor drugs (P = .005) as well as a statistically significant difference in pulmonary events compared with ARBs (P = .012).

“These analyses suggest that pharmacists and clinicians will need to consider the specific medication’s adverse event profile, particularly captopril, on how it may affect infections and other acute disease states that alter pulmonary function, such as COVID-19,” the authors conclude.

They say that the high incidence of pulmonary adverse drug effects with captopril “highlights the fact that the drugs belonging in one class are not identical and that its pharmacokinetics and pharmacodynamics can affect the patients’ health especially during acute processes like COVID-19.”

“This is especially important as current observational studies of COVID-19 patients tend to group drugs within a class and are not analyzing the potential differences within each class,” they add.

They note that ACE inhibitors can be broadly classified into 3 structural classes: sulfhydryl-, dicarboxyl-, and phosphorous- containing molecules. Notably, captopril is the only currently available ACE inhibitor belonging to the sulfhydryl-containing class and may explain the higher incidence of adverse drug effects observed, they comment.

“Health care providers have been left with many questions when treating patients with COVID-19, including how ACE inhibitors or ARBs may affect their clinical course. Results from this study may be helpful when prescribing or continuing ACE inhibitors or ARBs for patients with diabetes and infections or illnesses that may affect pulmonary function, such as COVID-19,” they conclude.

Questioning safety in COVID-19 an “overreach”

Commenting for Medscape Medical News, Michael A. Weber, MD, professor of medicine at State University of New York, said he thought the current article appears to overreach in questioning captopril’s safety in the COVID-19 setting.

“Captopril was the first ACE inhibitor available for clinical use. In early prescribing its dosage was not well understood and it might have been administered in excessive amounts,” Weber notes.

“There were some renal and other adverse effects reported that at first were attributed to the fact that captopril, unlike any other popular ACE inhibitors, contained a sulfhydryl (SH) group in its molecule,” he said. “It is not clear whether this feature could be responsible for the increased pulmonary side effects and potential danger to COVID-19 patients now reported with captopril in this new pharmacy article.”

But he adds: “The article contains no evidence that the effect of captopril or any other ACE inhibitor on the pulmonary ACE-2 enzyme has a deleterious effect on outcomes of COVID-19 disease. In any case, captopril — which should be prescribed in a twice-daily dose — is not frequently prescribed these days since newer ACE inhibitors are effective with just once-daily dosing.”

This article first appeared on Medscape.com.

Captopril appears to be associated with a higher rate of pulmonary adverse reactions in patients with diabetes than that of other ACE inhibitors or angiotensin receptor blockers (ARBs) and therefore may not be the best choice for patients with diabetes and COVID-19, a new study suggests.

The study was published online in the Journal of the American Pharmacists Association.

The authors, led by Emma G. Stafford, PharmD, University of Missouri-Kansas City School of Pharmacy, note that diabetes seems to confer a higher risk of adverse outcomes in COVID-19 infection and there is conflicting data on the contribution of ACE inhibitors and ARBs, commonly used medications in diabetes, on the mortality and morbidity of COVID-19.

“In light of the recent COVID-19 outbreak, more research is needed to understand the effects that diabetes (and its medications) may have on the respiratory system and how that could affect the management of diseases such as COVID-19,” they say.

“Although ACE inhibitors and ARBs are generally considered to have similar adverse event profiles, evaluation of postmarketing adverse events may shed light on minute differences that could have important clinical impacts,” they add.

For the current study, the researchers analyzed data from multiple publicly available data sources on adverse drug reactions in patients with diabetes taking ACE inhibitors or ARBs. The data included all adverse drug events (ADEs) reported nationally to the US Food and Drug Administration and internationally to the Medical Dictionary for Regulatory Activities (MedDRA).

Results showed that captopril, the first ACE inhibitor approved back in 1981, has a higher incidence of pulmonary ADEs in patients with diabetes as compared with other ACE-inhibitor drugs (P = .005) as well as a statistically significant difference in pulmonary events compared with ARBs (P = .012).

“These analyses suggest that pharmacists and clinicians will need to consider the specific medication’s adverse event profile, particularly captopril, on how it may affect infections and other acute disease states that alter pulmonary function, such as COVID-19,” the authors conclude.

They say that the high incidence of pulmonary adverse drug effects with captopril “highlights the fact that the drugs belonging in one class are not identical and that its pharmacokinetics and pharmacodynamics can affect the patients’ health especially during acute processes like COVID-19.”

“This is especially important as current observational studies of COVID-19 patients tend to group drugs within a class and are not analyzing the potential differences within each class,” they add.

They note that ACE inhibitors can be broadly classified into 3 structural classes: sulfhydryl-, dicarboxyl-, and phosphorous- containing molecules. Notably, captopril is the only currently available ACE inhibitor belonging to the sulfhydryl-containing class and may explain the higher incidence of adverse drug effects observed, they comment.

“Health care providers have been left with many questions when treating patients with COVID-19, including how ACE inhibitors or ARBs may affect their clinical course. Results from this study may be helpful when prescribing or continuing ACE inhibitors or ARBs for patients with diabetes and infections or illnesses that may affect pulmonary function, such as COVID-19,” they conclude.

Questioning safety in COVID-19 an “overreach”

Commenting for Medscape Medical News, Michael A. Weber, MD, professor of medicine at State University of New York, said he thought the current article appears to overreach in questioning captopril’s safety in the COVID-19 setting.

“Captopril was the first ACE inhibitor available for clinical use. In early prescribing its dosage was not well understood and it might have been administered in excessive amounts,” Weber notes.

“There were some renal and other adverse effects reported that at first were attributed to the fact that captopril, unlike any other popular ACE inhibitors, contained a sulfhydryl (SH) group in its molecule,” he said. “It is not clear whether this feature could be responsible for the increased pulmonary side effects and potential danger to COVID-19 patients now reported with captopril in this new pharmacy article.”

But he adds: “The article contains no evidence that the effect of captopril or any other ACE inhibitor on the pulmonary ACE-2 enzyme has a deleterious effect on outcomes of COVID-19 disease. In any case, captopril — which should be prescribed in a twice-daily dose — is not frequently prescribed these days since newer ACE inhibitors are effective with just once-daily dosing.”

This article first appeared on Medscape.com.

Captopril appears to be associated with a higher rate of pulmonary adverse reactions in patients with diabetes than that of other ACE inhibitors or angiotensin receptor blockers (ARBs) and therefore may not be the best choice for patients with diabetes and COVID-19, a new study suggests.

The study was published online in the Journal of the American Pharmacists Association.

The authors, led by Emma G. Stafford, PharmD, University of Missouri-Kansas City School of Pharmacy, note that diabetes seems to confer a higher risk of adverse outcomes in COVID-19 infection and there is conflicting data on the contribution of ACE inhibitors and ARBs, commonly used medications in diabetes, on the mortality and morbidity of COVID-19.

“In light of the recent COVID-19 outbreak, more research is needed to understand the effects that diabetes (and its medications) may have on the respiratory system and how that could affect the management of diseases such as COVID-19,” they say.

“Although ACE inhibitors and ARBs are generally considered to have similar adverse event profiles, evaluation of postmarketing adverse events may shed light on minute differences that could have important clinical impacts,” they add.

For the current study, the researchers analyzed data from multiple publicly available data sources on adverse drug reactions in patients with diabetes taking ACE inhibitors or ARBs. The data included all adverse drug events (ADEs) reported nationally to the US Food and Drug Administration and internationally to the Medical Dictionary for Regulatory Activities (MedDRA).

Results showed that captopril, the first ACE inhibitor approved back in 1981, has a higher incidence of pulmonary ADEs in patients with diabetes as compared with other ACE-inhibitor drugs (P = .005) as well as a statistically significant difference in pulmonary events compared with ARBs (P = .012).

“These analyses suggest that pharmacists and clinicians will need to consider the specific medication’s adverse event profile, particularly captopril, on how it may affect infections and other acute disease states that alter pulmonary function, such as COVID-19,” the authors conclude.

They say that the high incidence of pulmonary adverse drug effects with captopril “highlights the fact that the drugs belonging in one class are not identical and that its pharmacokinetics and pharmacodynamics can affect the patients’ health especially during acute processes like COVID-19.”

“This is especially important as current observational studies of COVID-19 patients tend to group drugs within a class and are not analyzing the potential differences within each class,” they add.

They note that ACE inhibitors can be broadly classified into 3 structural classes: sulfhydryl-, dicarboxyl-, and phosphorous- containing molecules. Notably, captopril is the only currently available ACE inhibitor belonging to the sulfhydryl-containing class and may explain the higher incidence of adverse drug effects observed, they comment.

“Health care providers have been left with many questions when treating patients with COVID-19, including how ACE inhibitors or ARBs may affect their clinical course. Results from this study may be helpful when prescribing or continuing ACE inhibitors or ARBs for patients with diabetes and infections or illnesses that may affect pulmonary function, such as COVID-19,” they conclude.

Questioning safety in COVID-19 an “overreach”

Commenting for Medscape Medical News, Michael A. Weber, MD, professor of medicine at State University of New York, said he thought the current article appears to overreach in questioning captopril’s safety in the COVID-19 setting.

“Captopril was the first ACE inhibitor available for clinical use. In early prescribing its dosage was not well understood and it might have been administered in excessive amounts,” Weber notes.

“There were some renal and other adverse effects reported that at first were attributed to the fact that captopril, unlike any other popular ACE inhibitors, contained a sulfhydryl (SH) group in its molecule,” he said. “It is not clear whether this feature could be responsible for the increased pulmonary side effects and potential danger to COVID-19 patients now reported with captopril in this new pharmacy article.”

But he adds: “The article contains no evidence that the effect of captopril or any other ACE inhibitor on the pulmonary ACE-2 enzyme has a deleterious effect on outcomes of COVID-19 disease. In any case, captopril — which should be prescribed in a twice-daily dose — is not frequently prescribed these days since newer ACE inhibitors are effective with just once-daily dosing.”

This article first appeared on Medscape.com.

Do not rely on more traditional signs and symptoms of COVID-19 like fever and dyspnea when assessing patients with Cushing’s syndrome for the novel coronavirus, Rosario Pivonello, MD, PhD, and colleagues urged.

Physicians evaluating patients with Cushing’s syndrome for COVID-19 “should be suspicious of any change in health status of their patients with Cushing’s syndrome, rather than relying on fever and [dyspnea] as typical features,” Dr. Pivonello, an endocrinologist with the University of Naples (Italy) Federico II, and colleagues wrote in a commentary published in The Lancet Diabetes & Endocrinology.

COVID-19 symptoms are a unique concern among patients with Cushing’s syndrome because many of the cardiometabolic and immune impairments that place someone at higher risk of more severe disease or mortality for the novel coronavirus – such as obesity, hypertension, diabetes, and immunodeficiency syndromes – are also shared with Cushing’s syndrome.

Increased cardiovascular risk factors and susceptibility to severe infection are “two leading causes of death” for patients with Cushing’s syndrome, Dr. Pivonello and colleagues noted.

The immunocompromised state of patients with Cushing’s syndrome may make detection of COVID-19 infection difficult, the authors say. For example, fever is a common symptom of patients with COVID-19, but in patients with active Cushing’s syndrome, “low-grade chronic inflammation and the poor immune response might limit febrile response in the early phase of infection,” Dr. Pivonello and colleagues wrote.

In other cases, because Cushing’s syndrome and COVID-19 have overlapping symptoms, it may be difficult to attribute a particular symptom to either disease. Dyspnea is a common symptom of COVID-19, but may present in Cushing’s syndrome because of “cardiac insufficiency or weakness of respiratory muscles,” the authors wrote. Instead, physicians should look to other COVID-19 symptoms, such as cough, dysgeusia, anosmia, and diarrhea, for signs of the disease.

Patients with Cushing’s syndrome may also be predisposed to a more severe course of COVID-19 because of the prevalence of obesity, hypertension, or diabetes in these patients, which have been identified as comorbidities that increase the likelihood of severe COVID-19 and progression to acute respiratory distress syndrome (ARDS). “However, a key element in the development of ARDS during COVID-19 is the exaggerated cellular response induced by the cytokine increase, leading to massive alveolar–capillary wall damage and a decline in gas exchange,” Dr. Pivonello and colleagues wrote. “Because patients with Cushing’s syndrome might not mount a normal cytokine response, these patients might [paradoxically] be less prone to develop severe ARDS with COVID-19.”

As both Cushing’s syndrome and COVID-19 are associated with hypercoagulability, the authors “strongly advise” using low-molecular-weight heparin in hospitalized patients with active Cushing’s syndrome who develop COVID-19. In both diseases, there is also a risk of longer duration of viral infections and opportunistic infections such as atypical bacterial and invasive fungal infections. For this reason, the authors also recommended patients with Cushing’s syndrome who have COVID-19 be placed on prolonged antiviral and broad-spectrum antibiotic treatment as a prophylactic measure.

During the pandemic, avoiding surgery for Cushing’s syndrome should be considered to reduce the likelihood of acquiring COVID-19 in a hospital setting, the authors wrote. Medical therapy can be temporarily used where appropriate, such as using ketoconazole, metyrapone, osilodrostat, and etomidate to lower cortisol levels. They acknowledge that some cases of malignant Cushing’s syndrome may require “expeditious definitive diagnosis and proper surgical resolution.”

After remission, while infection risk should be significantly lowered, other comorbidities like obesity, hypertension, diabetes, and thromboembolic diathesis may remain. “Because these are features associated with an increased death risk in patients with COVID-19, patients with Cushing’s syndrome in remission should be considered a high-risk population and consequently adopt adequate self-protection strategies to [minimize] contagion risk,” the authors wrote.

Dr. Pivonello reported relationships with Novartis, Strongbridge Biopharma, HRA Pharma, Ipsen, Shire, and Pfizer, Corcept Therapeutics, IBSA Farmaceutici, Ferring, and Italfarmaco in the form of receiving grants and/or personal fees. One coauthor reported receiving grants and/or nonfinancial support from Takeda, Ipsen, Shire, Pfizer, and Corcept Therapeutics. One coauthor reported receiving grants and personal fees from Novartis and Strongbridge, and grants from Millendo Therapeutics. Another coauthor reported receiving grants and/or personal fees from Novartis, Ipsen, Shire, Pfizer, Italfarmaco, Lilly, Merck, and Novo Nordisk. The other authors reported no relevant conflicts of interest.

SOURCE: Pivonello R et al. Lancet Diabetes Endocrinol. 2020 Jun 9. doi: 10.1016/S2213-8587(20)30215-1.

Do not rely on more traditional signs and symptoms of COVID-19 like fever and dyspnea when assessing patients with Cushing’s syndrome for the novel coronavirus, Rosario Pivonello, MD, PhD, and colleagues urged.

Physicians evaluating patients with Cushing’s syndrome for COVID-19 “should be suspicious of any change in health status of their patients with Cushing’s syndrome, rather than relying on fever and [dyspnea] as typical features,” Dr. Pivonello, an endocrinologist with the University of Naples (Italy) Federico II, and colleagues wrote in a commentary published in The Lancet Diabetes & Endocrinology.

COVID-19 symptoms are a unique concern among patients with Cushing’s syndrome because many of the cardiometabolic and immune impairments that place someone at higher risk of more severe disease or mortality for the novel coronavirus – such as obesity, hypertension, diabetes, and immunodeficiency syndromes – are also shared with Cushing’s syndrome.

Increased cardiovascular risk factors and susceptibility to severe infection are “two leading causes of death” for patients with Cushing’s syndrome, Dr. Pivonello and colleagues noted.

The immunocompromised state of patients with Cushing’s syndrome may make detection of COVID-19 infection difficult, the authors say. For example, fever is a common symptom of patients with COVID-19, but in patients with active Cushing’s syndrome, “low-grade chronic inflammation and the poor immune response might limit febrile response in the early phase of infection,” Dr. Pivonello and colleagues wrote.

In other cases, because Cushing’s syndrome and COVID-19 have overlapping symptoms, it may be difficult to attribute a particular symptom to either disease. Dyspnea is a common symptom of COVID-19, but may present in Cushing’s syndrome because of “cardiac insufficiency or weakness of respiratory muscles,” the authors wrote. Instead, physicians should look to other COVID-19 symptoms, such as cough, dysgeusia, anosmia, and diarrhea, for signs of the disease.

Patients with Cushing’s syndrome may also be predisposed to a more severe course of COVID-19 because of the prevalence of obesity, hypertension, or diabetes in these patients, which have been identified as comorbidities that increase the likelihood of severe COVID-19 and progression to acute respiratory distress syndrome (ARDS). “However, a key element in the development of ARDS during COVID-19 is the exaggerated cellular response induced by the cytokine increase, leading to massive alveolar–capillary wall damage and a decline in gas exchange,” Dr. Pivonello and colleagues wrote. “Because patients with Cushing’s syndrome might not mount a normal cytokine response, these patients might [paradoxically] be less prone to develop severe ARDS with COVID-19.”

As both Cushing’s syndrome and COVID-19 are associated with hypercoagulability, the authors “strongly advise” using low-molecular-weight heparin in hospitalized patients with active Cushing’s syndrome who develop COVID-19. In both diseases, there is also a risk of longer duration of viral infections and opportunistic infections such as atypical bacterial and invasive fungal infections. For this reason, the authors also recommended patients with Cushing’s syndrome who have COVID-19 be placed on prolonged antiviral and broad-spectrum antibiotic treatment as a prophylactic measure.

During the pandemic, avoiding surgery for Cushing’s syndrome should be considered to reduce the likelihood of acquiring COVID-19 in a hospital setting, the authors wrote. Medical therapy can be temporarily used where appropriate, such as using ketoconazole, metyrapone, osilodrostat, and etomidate to lower cortisol levels. They acknowledge that some cases of malignant Cushing’s syndrome may require “expeditious definitive diagnosis and proper surgical resolution.”

After remission, while infection risk should be significantly lowered, other comorbidities like obesity, hypertension, diabetes, and thromboembolic diathesis may remain. “Because these are features associated with an increased death risk in patients with COVID-19, patients with Cushing’s syndrome in remission should be considered a high-risk population and consequently adopt adequate self-protection strategies to [minimize] contagion risk,” the authors wrote.

Dr. Pivonello reported relationships with Novartis, Strongbridge Biopharma, HRA Pharma, Ipsen, Shire, and Pfizer, Corcept Therapeutics, IBSA Farmaceutici, Ferring, and Italfarmaco in the form of receiving grants and/or personal fees. One coauthor reported receiving grants and/or nonfinancial support from Takeda, Ipsen, Shire, Pfizer, and Corcept Therapeutics. One coauthor reported receiving grants and personal fees from Novartis and Strongbridge, and grants from Millendo Therapeutics. Another coauthor reported receiving grants and/or personal fees from Novartis, Ipsen, Shire, Pfizer, Italfarmaco, Lilly, Merck, and Novo Nordisk. The other authors reported no relevant conflicts of interest.

SOURCE: Pivonello R et al. Lancet Diabetes Endocrinol. 2020 Jun 9. doi: 10.1016/S2213-8587(20)30215-1.

Do not rely on more traditional signs and symptoms of COVID-19 like fever and dyspnea when assessing patients with Cushing’s syndrome for the novel coronavirus, Rosario Pivonello, MD, PhD, and colleagues urged.

Physicians evaluating patients with Cushing’s syndrome for COVID-19 “should be suspicious of any change in health status of their patients with Cushing’s syndrome, rather than relying on fever and [dyspnea] as typical features,” Dr. Pivonello, an endocrinologist with the University of Naples (Italy) Federico II, and colleagues wrote in a commentary published in The Lancet Diabetes & Endocrinology.

COVID-19 symptoms are a unique concern among patients with Cushing’s syndrome because many of the cardiometabolic and immune impairments that place someone at higher risk of more severe disease or mortality for the novel coronavirus – such as obesity, hypertension, diabetes, and immunodeficiency syndromes – are also shared with Cushing’s syndrome.

Increased cardiovascular risk factors and susceptibility to severe infection are “two leading causes of death” for patients with Cushing’s syndrome, Dr. Pivonello and colleagues noted.

The immunocompromised state of patients with Cushing’s syndrome may make detection of COVID-19 infection difficult, the authors say. For example, fever is a common symptom of patients with COVID-19, but in patients with active Cushing’s syndrome, “low-grade chronic inflammation and the poor immune response might limit febrile response in the early phase of infection,” Dr. Pivonello and colleagues wrote.

In other cases, because Cushing’s syndrome and COVID-19 have overlapping symptoms, it may be difficult to attribute a particular symptom to either disease. Dyspnea is a common symptom of COVID-19, but may present in Cushing’s syndrome because of “cardiac insufficiency or weakness of respiratory muscles,” the authors wrote. Instead, physicians should look to other COVID-19 symptoms, such as cough, dysgeusia, anosmia, and diarrhea, for signs of the disease.

Patients with Cushing’s syndrome may also be predisposed to a more severe course of COVID-19 because of the prevalence of obesity, hypertension, or diabetes in these patients, which have been identified as comorbidities that increase the likelihood of severe COVID-19 and progression to acute respiratory distress syndrome (ARDS). “However, a key element in the development of ARDS during COVID-19 is the exaggerated cellular response induced by the cytokine increase, leading to massive alveolar–capillary wall damage and a decline in gas exchange,” Dr. Pivonello and colleagues wrote. “Because patients with Cushing’s syndrome might not mount a normal cytokine response, these patients might [paradoxically] be less prone to develop severe ARDS with COVID-19.”

As both Cushing’s syndrome and COVID-19 are associated with hypercoagulability, the authors “strongly advise” using low-molecular-weight heparin in hospitalized patients with active Cushing’s syndrome who develop COVID-19. In both diseases, there is also a risk of longer duration of viral infections and opportunistic infections such as atypical bacterial and invasive fungal infections. For this reason, the authors also recommended patients with Cushing’s syndrome who have COVID-19 be placed on prolonged antiviral and broad-spectrum antibiotic treatment as a prophylactic measure.

During the pandemic, avoiding surgery for Cushing’s syndrome should be considered to reduce the likelihood of acquiring COVID-19 in a hospital setting, the authors wrote. Medical therapy can be temporarily used where appropriate, such as using ketoconazole, metyrapone, osilodrostat, and etomidate to lower cortisol levels. They acknowledge that some cases of malignant Cushing’s syndrome may require “expeditious definitive diagnosis and proper surgical resolution.”

After remission, while infection risk should be significantly lowered, other comorbidities like obesity, hypertension, diabetes, and thromboembolic diathesis may remain. “Because these are features associated with an increased death risk in patients with COVID-19, patients with Cushing’s syndrome in remission should be considered a high-risk population and consequently adopt adequate self-protection strategies to [minimize] contagion risk,” the authors wrote.

Dr. Pivonello reported relationships with Novartis, Strongbridge Biopharma, HRA Pharma, Ipsen, Shire, and Pfizer, Corcept Therapeutics, IBSA Farmaceutici, Ferring, and Italfarmaco in the form of receiving grants and/or personal fees. One coauthor reported receiving grants and/or nonfinancial support from Takeda, Ipsen, Shire, Pfizer, and Corcept Therapeutics. One coauthor reported receiving grants and personal fees from Novartis and Strongbridge, and grants from Millendo Therapeutics. Another coauthor reported receiving grants and/or personal fees from Novartis, Ipsen, Shire, Pfizer, Italfarmaco, Lilly, Merck, and Novo Nordisk. The other authors reported no relevant conflicts of interest.

SOURCE: Pivonello R et al. Lancet Diabetes Endocrinol. 2020 Jun 9. doi: 10.1016/S2213-8587(20)30215-1.

Two European prospective case series published in JAMA Dermatology found no direct association between skin lesions on the hands and feet and SARS-CoV-2 in young people, which raises questions about other contributing factors, such as lockdown conditions, which may be clarified with additional research.

Lindy P. Fox, MD, professor of dermatology at the University of California, San Francisco, who was not an author of either study, urged caution in interpreting these results. Data from the American Academy of Dermatology and a recent paper from the British Journal of Dermatology suggest a real association exists, at in least some patients. “It’s going to be true that most patients with toe lesions are PCR [polymerase chain reaction]-negative because it tends to be a late phenomenon when patients are no longer shedding virus,” Dr. Fox said in an interview.

Reports about chickenpox-like vesicles, urticaria, and other skin lesions in SARS-CoV-2 patients have circulated in the clinical literature and the media. Acute acro-ischemia has been cited as a potential sign of infection in adolescents and children.

One of the European studies, which was published in JAMA Dermatology, explored this association in 20 patients aged 1-18 years (mean age, 12.3 years), who presented with new-onset acral inflammatory lesions in their hands and feet at La Fe University Hospital, in Valencia, during the country’s peak quarantine period in April. Investigators conducted blood tests and reverse transcriptase–PCR (RT-PCR) for SARS-CoV-2, and six patients had skin biopsies.

Juncal Roca-Ginés, MD, of the department of dermatology, at the Hospital Universitario y Politécnico in La Fe, and coauthors, identified acral erythema in 6 (30%) of the cases, dactylitis in 4 (20%), purpuric maculopapules in 7 (35%), and a mixed pattern in 3 (15%). Serologic and viral testing yielded no positive results for SARS-CoV-2 or other viruses, and none of the patients exhibited COVID-19 symptoms such as fever, dry cough, sore throat, myalgia, or taste or smell disorders. In other findings, 45% of the patients had a history of vascular reactive disease of the hands, and 75% reported walking barefoot in their homes while staying at home. Only two patients reported taking medications.

In the six patients who had a biopsy, the findings were characteristic of chillblains, “confirming the clinical impression,” the authors wrote. Concluding that they could not show a relationship between acute acral skin changes and COVID-19, they noted that “other studies with improved microbiologic tests or molecular techniques aimed at demonstrating the presence of SARS-CoV-2 in the skin may help to clarify this problem.”

The other case series, which was also published in JAMA Dermatology and included 31 adults at a hospital in Brussels, who had recently developed chillblains, also looked for a connection between SARS-CoV-2 and chilblains, in April. Most of the participants were in their teens or 20s. Lesions had appeared on hands, feet, or on both extremities within 1-30 days of consultation, presenting as erythematous or purplish erythematous macules, occasionally with central vesicular or bullous lesions or necrotic areas. Patients reported pain, burning, and itching.

Skin biopsies were obtained in 22 patients and confirmed the diagnosis of chilblains; of the 15 with immunofluorescence analyses, 7 patients were found to have vasculitis of small-diameter vessels.

Of the 31 patients, 20 (64%) reported mild symptoms consistent with SARS-CoV-2, yet none of the RT-PCR or serologic test results showed signs of the virus in all 31 patients. “Because some patients had experienced chilblains for more than 15 days [under 30 days or less] at the time of inclusion, we can reasonably exclude the possibility that serologic testing was done too soon,” observed the authors. They also didn’t find eosinopenia, lymphopenia, and hyperferritinemia, which have been associated with COVID-19, they added.

Changes in lifestyle conditions during the pandemic may explain the appearance of these lesions, according to the authors of both studies, who mentioned that walking around in socks or bare feet and reduced physical activity could have indirectly led to the development of skin lesions.

It’s also possible that young people have less severe disease and a delayed reaction to the virus, Ignacio Torres-Navarro, MD, a dermatologist with La Fe University and the Spanish study’s corresponding author, said in an interview. Their feet may lack maturity in neurovascular regulation and/or the eccrine glands, which can happen in other diseases such as neutrophilic idiopathic eccrine hidradenitis. “In this context, perhaps there was an observational bias of the parents to the children when this manifestation was reported in the media. However, nothing has been demonstrated,” he said.

In an accompanying editor’s note, Claudia Hernandez, MD, of the departments of dermatology and pediatrics, Rush University Medical Center, Chicago, and Anna L. Bruckner, MD, of the departments of dermatology and pediatrics at the University of Colorado, Aurora, wrote that “it is still unclear whether a viral cytopathic process vs a viral reaction pattern or other mechanism is responsible for ‘COVID toes.’ ” Lack of confirmatory testing and reliance on indirect evidence of infection complicates this further, they noted, adding that “dermatologists must be aware of the protean cutaneous findings that are possibly associated with COVID-19, even if our understanding of their origins remains incomplete.”

In an interview, Dr. Fox, a member of the AAD’s’s COVID-19 Registry task force, offered other possible reasons for the negative antibody tests in the studies. The assay might not have been testing the correct antigen, or the timing of the test might not have been optimal. “More studies will help this become less controversial,” she said.

The authors of the two case series acknowledged potential limitations of their studies. Neither was large in scope: Both took place over a week’s time and included small cohorts. The Belgian study had no control group or long-term follow-up. Little is still known about the clinical manifestations and detection methods for SARS-CoV-2, noted the authors of the Spanish study.

The Spanish study received funding La Fe University Hospital’s department of dermatology, and the authors had no disclosures. The Belgian study received support from the Fondation Saint-Luc, which provided academic funding for its lead author, Marie Baeck, MD, PhD. Another author of this study received personal fees from the Fondation Saint-Luc and personal fees and nonfinancial support from Bioderma. The authors of the editor’s note had no disclosures.

SOURCES: Roca-Ginés J et al. JAMA Dermatol. 2020 Jun 25. doi: 10.1001/jamadermatol.2020.2340; Herman A et al. JAMA Dermatol. 2020 Jun 25. doi: 10.1001/jamadermatol.2020.2368.

Two European prospective case series published in JAMA Dermatology found no direct association between skin lesions on the hands and feet and SARS-CoV-2 in young people, which raises questions about other contributing factors, such as lockdown conditions, which may be clarified with additional research.

Lindy P. Fox, MD, professor of dermatology at the University of California, San Francisco, who was not an author of either study, urged caution in interpreting these results. Data from the American Academy of Dermatology and a recent paper from the British Journal of Dermatology suggest a real association exists, at in least some patients. “It’s going to be true that most patients with toe lesions are PCR [polymerase chain reaction]-negative because it tends to be a late phenomenon when patients are no longer shedding virus,” Dr. Fox said in an interview.

Reports about chickenpox-like vesicles, urticaria, and other skin lesions in SARS-CoV-2 patients have circulated in the clinical literature and the media. Acute acro-ischemia has been cited as a potential sign of infection in adolescents and children.

One of the European studies, which was published in JAMA Dermatology, explored this association in 20 patients aged 1-18 years (mean age, 12.3 years), who presented with new-onset acral inflammatory lesions in their hands and feet at La Fe University Hospital, in Valencia, during the country’s peak quarantine period in April. Investigators conducted blood tests and reverse transcriptase–PCR (RT-PCR) for SARS-CoV-2, and six patients had skin biopsies.

Juncal Roca-Ginés, MD, of the department of dermatology, at the Hospital Universitario y Politécnico in La Fe, and coauthors, identified acral erythema in 6 (30%) of the cases, dactylitis in 4 (20%), purpuric maculopapules in 7 (35%), and a mixed pattern in 3 (15%). Serologic and viral testing yielded no positive results for SARS-CoV-2 or other viruses, and none of the patients exhibited COVID-19 symptoms such as fever, dry cough, sore throat, myalgia, or taste or smell disorders. In other findings, 45% of the patients had a history of vascular reactive disease of the hands, and 75% reported walking barefoot in their homes while staying at home. Only two patients reported taking medications.

In the six patients who had a biopsy, the findings were characteristic of chillblains, “confirming the clinical impression,” the authors wrote. Concluding that they could not show a relationship between acute acral skin changes and COVID-19, they noted that “other studies with improved microbiologic tests or molecular techniques aimed at demonstrating the presence of SARS-CoV-2 in the skin may help to clarify this problem.”

The other case series, which was also published in JAMA Dermatology and included 31 adults at a hospital in Brussels, who had recently developed chillblains, also looked for a connection between SARS-CoV-2 and chilblains, in April. Most of the participants were in their teens or 20s. Lesions had appeared on hands, feet, or on both extremities within 1-30 days of consultation, presenting as erythematous or purplish erythematous macules, occasionally with central vesicular or bullous lesions or necrotic areas. Patients reported pain, burning, and itching.

Skin biopsies were obtained in 22 patients and confirmed the diagnosis of chilblains; of the 15 with immunofluorescence analyses, 7 patients were found to have vasculitis of small-diameter vessels.

Of the 31 patients, 20 (64%) reported mild symptoms consistent with SARS-CoV-2, yet none of the RT-PCR or serologic test results showed signs of the virus in all 31 patients. “Because some patients had experienced chilblains for more than 15 days [under 30 days or less] at the time of inclusion, we can reasonably exclude the possibility that serologic testing was done too soon,” observed the authors. They also didn’t find eosinopenia, lymphopenia, and hyperferritinemia, which have been associated with COVID-19, they added.

Changes in lifestyle conditions during the pandemic may explain the appearance of these lesions, according to the authors of both studies, who mentioned that walking around in socks or bare feet and reduced physical activity could have indirectly led to the development of skin lesions.

It’s also possible that young people have less severe disease and a delayed reaction to the virus, Ignacio Torres-Navarro, MD, a dermatologist with La Fe University and the Spanish study’s corresponding author, said in an interview. Their feet may lack maturity in neurovascular regulation and/or the eccrine glands, which can happen in other diseases such as neutrophilic idiopathic eccrine hidradenitis. “In this context, perhaps there was an observational bias of the parents to the children when this manifestation was reported in the media. However, nothing has been demonstrated,” he said.

In an accompanying editor’s note, Claudia Hernandez, MD, of the departments of dermatology and pediatrics, Rush University Medical Center, Chicago, and Anna L. Bruckner, MD, of the departments of dermatology and pediatrics at the University of Colorado, Aurora, wrote that “it is still unclear whether a viral cytopathic process vs a viral reaction pattern or other mechanism is responsible for ‘COVID toes.’ ” Lack of confirmatory testing and reliance on indirect evidence of infection complicates this further, they noted, adding that “dermatologists must be aware of the protean cutaneous findings that are possibly associated with COVID-19, even if our understanding of their origins remains incomplete.”

In an interview, Dr. Fox, a member of the AAD’s’s COVID-19 Registry task force, offered other possible reasons for the negative antibody tests in the studies. The assay might not have been testing the correct antigen, or the timing of the test might not have been optimal. “More studies will help this become less controversial,” she said.

The authors of the two case series acknowledged potential limitations of their studies. Neither was large in scope: Both took place over a week’s time and included small cohorts. The Belgian study had no control group or long-term follow-up. Little is still known about the clinical manifestations and detection methods for SARS-CoV-2, noted the authors of the Spanish study.

The Spanish study received funding La Fe University Hospital’s department of dermatology, and the authors had no disclosures. The Belgian study received support from the Fondation Saint-Luc, which provided academic funding for its lead author, Marie Baeck, MD, PhD. Another author of this study received personal fees from the Fondation Saint-Luc and personal fees and nonfinancial support from Bioderma. The authors of the editor’s note had no disclosures.

SOURCES: Roca-Ginés J et al. JAMA Dermatol. 2020 Jun 25. doi: 10.1001/jamadermatol.2020.2340; Herman A et al. JAMA Dermatol. 2020 Jun 25. doi: 10.1001/jamadermatol.2020.2368.

Two European prospective case series published in JAMA Dermatology found no direct association between skin lesions on the hands and feet and SARS-CoV-2 in young people, which raises questions about other contributing factors, such as lockdown conditions, which may be clarified with additional research.

Lindy P. Fox, MD, professor of dermatology at the University of California, San Francisco, who was not an author of either study, urged caution in interpreting these results. Data from the American Academy of Dermatology and a recent paper from the British Journal of Dermatology suggest a real association exists, at in least some patients. “It’s going to be true that most patients with toe lesions are PCR [polymerase chain reaction]-negative because it tends to be a late phenomenon when patients are no longer shedding virus,” Dr. Fox said in an interview.

Reports about chickenpox-like vesicles, urticaria, and other skin lesions in SARS-CoV-2 patients have circulated in the clinical literature and the media. Acute acro-ischemia has been cited as a potential sign of infection in adolescents and children.

One of the European studies, which was published in JAMA Dermatology, explored this association in 20 patients aged 1-18 years (mean age, 12.3 years), who presented with new-onset acral inflammatory lesions in their hands and feet at La Fe University Hospital, in Valencia, during the country’s peak quarantine period in April. Investigators conducted blood tests and reverse transcriptase–PCR (RT-PCR) for SARS-CoV-2, and six patients had skin biopsies.

Juncal Roca-Ginés, MD, of the department of dermatology, at the Hospital Universitario y Politécnico in La Fe, and coauthors, identified acral erythema in 6 (30%) of the cases, dactylitis in 4 (20%), purpuric maculopapules in 7 (35%), and a mixed pattern in 3 (15%). Serologic and viral testing yielded no positive results for SARS-CoV-2 or other viruses, and none of the patients exhibited COVID-19 symptoms such as fever, dry cough, sore throat, myalgia, or taste or smell disorders. In other findings, 45% of the patients had a history of vascular reactive disease of the hands, and 75% reported walking barefoot in their homes while staying at home. Only two patients reported taking medications.

In the six patients who had a biopsy, the findings were characteristic of chillblains, “confirming the clinical impression,” the authors wrote. Concluding that they could not show a relationship between acute acral skin changes and COVID-19, they noted that “other studies with improved microbiologic tests or molecular techniques aimed at demonstrating the presence of SARS-CoV-2 in the skin may help to clarify this problem.”

The other case series, which was also published in JAMA Dermatology and included 31 adults at a hospital in Brussels, who had recently developed chillblains, also looked for a connection between SARS-CoV-2 and chilblains, in April. Most of the participants were in their teens or 20s. Lesions had appeared on hands, feet, or on both extremities within 1-30 days of consultation, presenting as erythematous or purplish erythematous macules, occasionally with central vesicular or bullous lesions or necrotic areas. Patients reported pain, burning, and itching.

Skin biopsies were obtained in 22 patients and confirmed the diagnosis of chilblains; of the 15 with immunofluorescence analyses, 7 patients were found to have vasculitis of small-diameter vessels.

Of the 31 patients, 20 (64%) reported mild symptoms consistent with SARS-CoV-2, yet none of the RT-PCR or serologic test results showed signs of the virus in all 31 patients. “Because some patients had experienced chilblains for more than 15 days [under 30 days or less] at the time of inclusion, we can reasonably exclude the possibility that serologic testing was done too soon,” observed the authors. They also didn’t find eosinopenia, lymphopenia, and hyperferritinemia, which have been associated with COVID-19, they added.

Changes in lifestyle conditions during the pandemic may explain the appearance of these lesions, according to the authors of both studies, who mentioned that walking around in socks or bare feet and reduced physical activity could have indirectly led to the development of skin lesions.

It’s also possible that young people have less severe disease and a delayed reaction to the virus, Ignacio Torres-Navarro, MD, a dermatologist with La Fe University and the Spanish study’s corresponding author, said in an interview. Their feet may lack maturity in neurovascular regulation and/or the eccrine glands, which can happen in other diseases such as neutrophilic idiopathic eccrine hidradenitis. “In this context, perhaps there was an observational bias of the parents to the children when this manifestation was reported in the media. However, nothing has been demonstrated,” he said.

In an accompanying editor’s note, Claudia Hernandez, MD, of the departments of dermatology and pediatrics, Rush University Medical Center, Chicago, and Anna L. Bruckner, MD, of the departments of dermatology and pediatrics at the University of Colorado, Aurora, wrote that “it is still unclear whether a viral cytopathic process vs a viral reaction pattern or other mechanism is responsible for ‘COVID toes.’ ” Lack of confirmatory testing and reliance on indirect evidence of infection complicates this further, they noted, adding that “dermatologists must be aware of the protean cutaneous findings that are possibly associated with COVID-19, even if our understanding of their origins remains incomplete.”

In an interview, Dr. Fox, a member of the AAD’s’s COVID-19 Registry task force, offered other possible reasons for the negative antibody tests in the studies. The assay might not have been testing the correct antigen, or the timing of the test might not have been optimal. “More studies will help this become less controversial,” she said.

The authors of the two case series acknowledged potential limitations of their studies. Neither was large in scope: Both took place over a week’s time and included small cohorts. The Belgian study had no control group or long-term follow-up. Little is still known about the clinical manifestations and detection methods for SARS-CoV-2, noted the authors of the Spanish study.

The Spanish study received funding La Fe University Hospital’s department of dermatology, and the authors had no disclosures. The Belgian study received support from the Fondation Saint-Luc, which provided academic funding for its lead author, Marie Baeck, MD, PhD. Another author of this study received personal fees from the Fondation Saint-Luc and personal fees and nonfinancial support from Bioderma. The authors of the editor’s note had no disclosures.

SOURCES: Roca-Ginés J et al. JAMA Dermatol. 2020 Jun 25. doi: 10.1001/jamadermatol.2020.2340; Herman A et al. JAMA Dermatol. 2020 Jun 25. doi: 10.1001/jamadermatol.2020.2368.

Background: The transgender population historically has not been identified in population research. Little is known about their health care needs.

Dr. Hoegh is a hospitalist at the University of Colorado at Denver, Aurora.

Background: The transgender population historically has not been identified in population research. Little is known about their health care needs.

Dr. Hoegh is a hospitalist at the University of Colorado at Denver, Aurora.

Background: The transgender population historically has not been identified in population research. Little is known about their health care needs.

Dr. Hoegh is a hospitalist at the University of Colorado at Denver, Aurora.

Patients hospitalized for sepsis are more likely to require readmission within a month after discharge if they live in disadvantaged neighborhoods, according to a study published in Critical Care Medicine.

The association between living in a disadvantaged neighborhood and 30-day readmission remained significant even after adjustment for “individual demographic variables, active tobacco use, length of index hospitalization, severity of acute and chronic morbidity, and place of initial discharge,” wrote Panagis Galiatsatos, MD, of Johns Hopkins University in Baltimore, and colleagues.

“Our findings suggest the need for interventions that emphasize neighborhood-level socioeconomic variables in addition to individual-level efforts in an effort to promote and achieve health equity for patients who survive a hospitalization due to sepsis,” the authors wrote. “With a third of our cohort rehospitalized with infections, and other studies emphasizing that the most common readmission diagnosis was infection, attention toward both anticipating and attenuating the risk of infection in sepsis survivors, especially among those who live in higher risk neighborhoods, must be a priority for the prevention of readmissions.”

Although she did not find the study results surprising, Eva DuGoff, PhD, a senior managing consultant with the Berkeley Research Group and a visiting assistant professor at University of Maryland School of Public Health, College Park, said in an interview that she was impressed with how clinically rigorous the analysis was, both in confirming an accurate sepsis diagnosis and in using the more refined measure of the Area Deprivation Index (ADI) to assess neighborhood disadvantage.

“I think it makes sense that people who have less means and are in neighborhoods with fewer resources would run into more issues and would need to return to the hospital, above and beyond the clinical risk factors, such as smoking and chronic conditions,” said Dr. DuGoff, who studies health disparities but was not involved in this study.

Shayla N.M. Durfey MD, ScM, a pediatric resident at Hasbro Children’s Hospital in Providence, R.I., said in an interview she was similarly unsurprised by the findings.

“People who live in disadvantaged neighborhoods may have less access to walking spaces, healthy food, and safe housing and more exposure to poor air quality, toxic stress, and violence – any of which can negatively impact health or recovery from illness through stress responses, nutritional deficiencies, or comorbidities, such as reactive airway disease, obesity, hypertension, and diabetes,” said Dr. Durfey, who studies health disparities but was not involved in this study. “Our research has found these neighborhood-level factors often matter above and beyond individual social determinants of health.”

Dr. Galiatsatos and associates conducted a retrospective study in Baltimore that compared readmission rates in 2017 at Johns Hopkins Bayview Medical Center among patients discharged after a hospitalization for sepsis, coded via ICD-10. They relied on the ADI to categorize the neighborhoods of patients’ residential addresses. The ADI rates various socioeconomic components, including income, education, employment, and housing characteristics, on a scale of 1-100 in geographic blocks, with higher score indicating a greater level of disadvantage.

Among 647 hospitalized patients with an ICD-10 code of sepsis who also met criteria for sepsis or septic shock per the Sepsis-3 definition, 17.9% were excluded from the analysis because they died or were transferred to hospice care. The other 531 patients had an average age of 61, and just under one-third (30.9%) were active smokers. Their average length of stay was 6.9 days, with a mean Charlson Comorbidity Index of 4.2 and a mean Sequential Organ Failure Assessment score of 4.9.

The average ADI for all the patients was 54.2, but the average score was 63 for the 22% of patients who were readmitted within 30 days of initial discharge, compared with an average 51.8 for patients not readmitted (P < .001).

Among those 117 readmitted, “39 patients had a reinfection, 68 had an exacerbation of their chronic conditions, and 10 were admitted for ‘concerning symptoms’ without a primary admitting diagnosis,” the investigators reported. Because “a third of our cohort was readmitted with an infection, it is possible that more disadvantaged neighborhoods created more challenges for a person’s immune system, which may be compromised after recovering from sepsis.”

Dr. DuGoff further noted that health literacy may be lower among people living in less advantaged neighborhoods.

“A number of studies suggest when patients leave the hospital, they’re not sure what they need to do. The language is complicated, and it’s hard to know what kind of medication to take when, and when you’re supposed to return to the doctor or the hospital,” Dr. DuGoff said. “Managing all of that can be pretty scary for people, particularly after a traumatic experience with sepsis at the hospital.”

Most patients had been discharged home (67.3%), but the 31.6% discharged to a skilled nursing facility had a greater likelihood of readmission, compared with those discharged home (P < .01); 1% were discharged to acute rehabilitation. The average length of stay during the index hospitalization was also greater for those readmitted (8.7 days) than for those not readmitted (6.4 days). The groups did not differ in terms of their acute organ dysfunction or severity of their comorbidities.

However, even after adjustment for these factors, “neighborhood disadvantage remained significantly associated with 30-day rehospitalization in patients who were discharged with sepsis,” the authors said. Specifically, each additional standard deviation greater in patients’ ADI was associated with increased risk of 30-day readmission (P < .001).

“Given that the ADI is a composite score, we cannot identify which component is the predominant driver of rehospitalizations for patients who survive sepsis,” the authors wrote. “However, all components that make up the index are intertwined, and policy efforts targeting one (i.e., unemployment) will likely impact others (i.e., housing).”

Dr. Durfey said that medical schools have not traditionally provided training related to management of social risk factors, although this is changing in more recent curricula. But the findings still have clinical relevance for practitioners.

“Certainly, the first step is awareness of where and how patients live and being mindful of how treatment plans may be impacted by social factors at both the individual and community levels,” Dr. Durfey said. “An important part of this is working in partnership with social workers and case managers. Importantly, clinicians can also partner with disadvantaged communities to advocate for improved conditions through policy change and act as expert witnesses to how neighborhood level factors impact health.”

Dr. DuGoff also wondered what implications these findings might have currently, with regards to COVID-19.

“People living in disadvantaged neighborhoods are already at higher risk for getting the disease, and this study raises really good questions about how we should be monitoring discharge now in anticipation of these types of issues,” she said.

The authors noted that their study is cross-sectional and cannot indicate causation, and the findings of a single urban institution may not be generalizable elsewhere. They also did not consider what interventions individual patients had during their index hospitalization that could have increased frailty.

The study did not note external funding. One coauthor of the study, Suchi Saria, PhD, reported receiving honoraria and travel reimbursement from two dozen biotechnology companies for keynotes and advisory board service; she also holds equity in Patient Ping and Bayesian Health. The other authors reported no industry disclosures. In addition to consulting for Berkeley Research Group, Dr. DuGoff has received a past honorarium from Zimmer Biomet. Dr. Durfey has no disclosures.

SOURCE: Galiatsatos P et al. Crit Care Med. 2020 Jun;48(6):808-14.

Patients hospitalized for sepsis are more likely to require readmission within a month after discharge if they live in disadvantaged neighborhoods, according to a study published in Critical Care Medicine.

The association between living in a disadvantaged neighborhood and 30-day readmission remained significant even after adjustment for “individual demographic variables, active tobacco use, length of index hospitalization, severity of acute and chronic morbidity, and place of initial discharge,” wrote Panagis Galiatsatos, MD, of Johns Hopkins University in Baltimore, and colleagues.

“Our findings suggest the need for interventions that emphasize neighborhood-level socioeconomic variables in addition to individual-level efforts in an effort to promote and achieve health equity for patients who survive a hospitalization due to sepsis,” the authors wrote. “With a third of our cohort rehospitalized with infections, and other studies emphasizing that the most common readmission diagnosis was infection, attention toward both anticipating and attenuating the risk of infection in sepsis survivors, especially among those who live in higher risk neighborhoods, must be a priority for the prevention of readmissions.”

Although she did not find the study results surprising, Eva DuGoff, PhD, a senior managing consultant with the Berkeley Research Group and a visiting assistant professor at University of Maryland School of Public Health, College Park, said in an interview that she was impressed with how clinically rigorous the analysis was, both in confirming an accurate sepsis diagnosis and in using the more refined measure of the Area Deprivation Index (ADI) to assess neighborhood disadvantage.

“I think it makes sense that people who have less means and are in neighborhoods with fewer resources would run into more issues and would need to return to the hospital, above and beyond the clinical risk factors, such as smoking and chronic conditions,” said Dr. DuGoff, who studies health disparities but was not involved in this study.

Shayla N.M. Durfey MD, ScM, a pediatric resident at Hasbro Children’s Hospital in Providence, R.I., said in an interview she was similarly unsurprised by the findings.

“People who live in disadvantaged neighborhoods may have less access to walking spaces, healthy food, and safe housing and more exposure to poor air quality, toxic stress, and violence – any of which can negatively impact health or recovery from illness through stress responses, nutritional deficiencies, or comorbidities, such as reactive airway disease, obesity, hypertension, and diabetes,” said Dr. Durfey, who studies health disparities but was not involved in this study. “Our research has found these neighborhood-level factors often matter above and beyond individual social determinants of health.”

Dr. Galiatsatos and associates conducted a retrospective study in Baltimore that compared readmission rates in 2017 at Johns Hopkins Bayview Medical Center among patients discharged after a hospitalization for sepsis, coded via ICD-10. They relied on the ADI to categorize the neighborhoods of patients’ residential addresses. The ADI rates various socioeconomic components, including income, education, employment, and housing characteristics, on a scale of 1-100 in geographic blocks, with higher score indicating a greater level of disadvantage.

Among 647 hospitalized patients with an ICD-10 code of sepsis who also met criteria for sepsis or septic shock per the Sepsis-3 definition, 17.9% were excluded from the analysis because they died or were transferred to hospice care. The other 531 patients had an average age of 61, and just under one-third (30.9%) were active smokers. Their average length of stay was 6.9 days, with a mean Charlson Comorbidity Index of 4.2 and a mean Sequential Organ Failure Assessment score of 4.9.

The average ADI for all the patients was 54.2, but the average score was 63 for the 22% of patients who were readmitted within 30 days of initial discharge, compared with an average 51.8 for patients not readmitted (P < .001).

Among those 117 readmitted, “39 patients had a reinfection, 68 had an exacerbation of their chronic conditions, and 10 were admitted for ‘concerning symptoms’ without a primary admitting diagnosis,” the investigators reported. Because “a third of our cohort was readmitted with an infection, it is possible that more disadvantaged neighborhoods created more challenges for a person’s immune system, which may be compromised after recovering from sepsis.”

Dr. DuGoff further noted that health literacy may be lower among people living in less advantaged neighborhoods.

“A number of studies suggest when patients leave the hospital, they’re not sure what they need to do. The language is complicated, and it’s hard to know what kind of medication to take when, and when you’re supposed to return to the doctor or the hospital,” Dr. DuGoff said. “Managing all of that can be pretty scary for people, particularly after a traumatic experience with sepsis at the hospital.”

Most patients had been discharged home (67.3%), but the 31.6% discharged to a skilled nursing facility had a greater likelihood of readmission, compared with those discharged home (P < .01); 1% were discharged to acute rehabilitation. The average length of stay during the index hospitalization was also greater for those readmitted (8.7 days) than for those not readmitted (6.4 days). The groups did not differ in terms of their acute organ dysfunction or severity of their comorbidities.

However, even after adjustment for these factors, “neighborhood disadvantage remained significantly associated with 30-day rehospitalization in patients who were discharged with sepsis,” the authors said. Specifically, each additional standard deviation greater in patients’ ADI was associated with increased risk of 30-day readmission (P < .001).

“Given that the ADI is a composite score, we cannot identify which component is the predominant driver of rehospitalizations for patients who survive sepsis,” the authors wrote. “However, all components that make up the index are intertwined, and policy efforts targeting one (i.e., unemployment) will likely impact others (i.e., housing).”

Dr. Durfey said that medical schools have not traditionally provided training related to management of social risk factors, although this is changing in more recent curricula. But the findings still have clinical relevance for practitioners.

“Certainly, the first step is awareness of where and how patients live and being mindful of how treatment plans may be impacted by social factors at both the individual and community levels,” Dr. Durfey said. “An important part of this is working in partnership with social workers and case managers. Importantly, clinicians can also partner with disadvantaged communities to advocate for improved conditions through policy change and act as expert witnesses to how neighborhood level factors impact health.”

Dr. DuGoff also wondered what implications these findings might have currently, with regards to COVID-19.

“People living in disadvantaged neighborhoods are already at higher risk for getting the disease, and this study raises really good questions about how we should be monitoring discharge now in anticipation of these types of issues,” she said.

The authors noted that their study is cross-sectional and cannot indicate causation, and the findings of a single urban institution may not be generalizable elsewhere. They also did not consider what interventions individual patients had during their index hospitalization that could have increased frailty.

The study did not note external funding. One coauthor of the study, Suchi Saria, PhD, reported receiving honoraria and travel reimbursement from two dozen biotechnology companies for keynotes and advisory board service; she also holds equity in Patient Ping and Bayesian Health. The other authors reported no industry disclosures. In addition to consulting for Berkeley Research Group, Dr. DuGoff has received a past honorarium from Zimmer Biomet. Dr. Durfey has no disclosures.

SOURCE: Galiatsatos P et al. Crit Care Med. 2020 Jun;48(6):808-14.

Patients hospitalized for sepsis are more likely to require readmission within a month after discharge if they live in disadvantaged neighborhoods, according to a study published in Critical Care Medicine.

The association between living in a disadvantaged neighborhood and 30-day readmission remained significant even after adjustment for “individual demographic variables, active tobacco use, length of index hospitalization, severity of acute and chronic morbidity, and place of initial discharge,” wrote Panagis Galiatsatos, MD, of Johns Hopkins University in Baltimore, and colleagues.

“Our findings suggest the need for interventions that emphasize neighborhood-level socioeconomic variables in addition to individual-level efforts in an effort to promote and achieve health equity for patients who survive a hospitalization due to sepsis,” the authors wrote. “With a third of our cohort rehospitalized with infections, and other studies emphasizing that the most common readmission diagnosis was infection, attention toward both anticipating and attenuating the risk of infection in sepsis survivors, especially among those who live in higher risk neighborhoods, must be a priority for the prevention of readmissions.”

Although she did not find the study results surprising, Eva DuGoff, PhD, a senior managing consultant with the Berkeley Research Group and a visiting assistant professor at University of Maryland School of Public Health, College Park, said in an interview that she was impressed with how clinically rigorous the analysis was, both in confirming an accurate sepsis diagnosis and in using the more refined measure of the Area Deprivation Index (ADI) to assess neighborhood disadvantage.

“I think it makes sense that people who have less means and are in neighborhoods with fewer resources would run into more issues and would need to return to the hospital, above and beyond the clinical risk factors, such as smoking and chronic conditions,” said Dr. DuGoff, who studies health disparities but was not involved in this study.

Shayla N.M. Durfey MD, ScM, a pediatric resident at Hasbro Children’s Hospital in Providence, R.I., said in an interview she was similarly unsurprised by the findings.

“People who live in disadvantaged neighborhoods may have less access to walking spaces, healthy food, and safe housing and more exposure to poor air quality, toxic stress, and violence – any of which can negatively impact health or recovery from illness through stress responses, nutritional deficiencies, or comorbidities, such as reactive airway disease, obesity, hypertension, and diabetes,” said Dr. Durfey, who studies health disparities but was not involved in this study. “Our research has found these neighborhood-level factors often matter above and beyond individual social determinants of health.”

Dr. Galiatsatos and associates conducted a retrospective study in Baltimore that compared readmission rates in 2017 at Johns Hopkins Bayview Medical Center among patients discharged after a hospitalization for sepsis, coded via ICD-10. They relied on the ADI to categorize the neighborhoods of patients’ residential addresses. The ADI rates various socioeconomic components, including income, education, employment, and housing characteristics, on a scale of 1-100 in geographic blocks, with higher score indicating a greater level of disadvantage.

Among 647 hospitalized patients with an ICD-10 code of sepsis who also met criteria for sepsis or septic shock per the Sepsis-3 definition, 17.9% were excluded from the analysis because they died or were transferred to hospice care. The other 531 patients had an average age of 61, and just under one-third (30.9%) were active smokers. Their average length of stay was 6.9 days, with a mean Charlson Comorbidity Index of 4.2 and a mean Sequential Organ Failure Assessment score of 4.9.

The average ADI for all the patients was 54.2, but the average score was 63 for the 22% of patients who were readmitted within 30 days of initial discharge, compared with an average 51.8 for patients not readmitted (P < .001).

Among those 117 readmitted, “39 patients had a reinfection, 68 had an exacerbation of their chronic conditions, and 10 were admitted for ‘concerning symptoms’ without a primary admitting diagnosis,” the investigators reported. Because “a third of our cohort was readmitted with an infection, it is possible that more disadvantaged neighborhoods created more challenges for a person’s immune system, which may be compromised after recovering from sepsis.”

Dr. DuGoff further noted that health literacy may be lower among people living in less advantaged neighborhoods.

“A number of studies suggest when patients leave the hospital, they’re not sure what they need to do. The language is complicated, and it’s hard to know what kind of medication to take when, and when you’re supposed to return to the doctor or the hospital,” Dr. DuGoff said. “Managing all of that can be pretty scary for people, particularly after a traumatic experience with sepsis at the hospital.”

Most patients had been discharged home (67.3%), but the 31.6% discharged to a skilled nursing facility had a greater likelihood of readmission, compared with those discharged home (P < .01); 1% were discharged to acute rehabilitation. The average length of stay during the index hospitalization was also greater for those readmitted (8.7 days) than for those not readmitted (6.4 days). The groups did not differ in terms of their acute organ dysfunction or severity of their comorbidities.

However, even after adjustment for these factors, “neighborhood disadvantage remained significantly associated with 30-day rehospitalization in patients who were discharged with sepsis,” the authors said. Specifically, each additional standard deviation greater in patients’ ADI was associated with increased risk of 30-day readmission (P < .001).

“Given that the ADI is a composite score, we cannot identify which component is the predominant driver of rehospitalizations for patients who survive sepsis,” the authors wrote. “However, all components that make up the index are intertwined, and policy efforts targeting one (i.e., unemployment) will likely impact others (i.e., housing).”

Dr. Durfey said that medical schools have not traditionally provided training related to management of social risk factors, although this is changing in more recent curricula. But the findings still have clinical relevance for practitioners.

“Certainly, the first step is awareness of where and how patients live and being mindful of how treatment plans may be impacted by social factors at both the individual and community levels,” Dr. Durfey said. “An important part of this is working in partnership with social workers and case managers. Importantly, clinicians can also partner with disadvantaged communities to advocate for improved conditions through policy change and act as expert witnesses to how neighborhood level factors impact health.”

Dr. DuGoff also wondered what implications these findings might have currently, with regards to COVID-19.

“People living in disadvantaged neighborhoods are already at higher risk for getting the disease, and this study raises really good questions about how we should be monitoring discharge now in anticipation of these types of issues,” she said.

The authors noted that their study is cross-sectional and cannot indicate causation, and the findings of a single urban institution may not be generalizable elsewhere. They also did not consider what interventions individual patients had during their index hospitalization that could have increased frailty.

The study did not note external funding. One coauthor of the study, Suchi Saria, PhD, reported receiving honoraria and travel reimbursement from two dozen biotechnology companies for keynotes and advisory board service; she also holds equity in Patient Ping and Bayesian Health. The other authors reported no industry disclosures. In addition to consulting for Berkeley Research Group, Dr. DuGoff has received a past honorarium from Zimmer Biomet. Dr. Durfey has no disclosures.

SOURCE: Galiatsatos P et al. Crit Care Med. 2020 Jun;48(6):808-14.

Do you want to know what keeps us up at night? As 4th-year medical students born, raised, and living in Haiti, we worry about the impact of COVID-19 on our patients.

The pandemic has shaken the world, and Haiti is no exception.

Courtesy Schneider Dorcela

It has taken several months for the disease to spread, and it began with two confirmed cases, one from France and the other from Belgium, on March 19.¹ Much of the spread of COVID-19 in Haiti has been tied to workers returning from the Dominican Republic. As of June 29, Haiti had 5,975 confirmed cases and 105 deaths.² Of course, those numbers sound minuscule, compared with those in the United States, where the number of deaths from COVID-19 surpassed 100,000 several weeks ago. But the population of Haiti is 30 times smaller than that of the United States, and Haiti is the poorest country in the Western Hemisphere. We have watched in horror as the virus has ravaged marginalized groups in the United States and worry that it will do the same in our own country.

Just as the Haitian Ministry of Health worked with various groups to reach the 1-year free of cholera mark in Haiti, groups such as Doctors Without Borders must mobilize to rein in COVID-19.
 

Community transmission rapid

After the first two cases were confirmed, a state of health emergency was immediately declared. Haitian President Jovenel Moïse and other government officials called for the implementation of several measures aimed at limiting the spread of COVID-19.

Schools, universities, clinical training programs, vocational centers, factories, airports, and ports, except for the transport of goods, were all ordered to close until further notice. Gatherings of larger than 10 people were banned. A curfew from 8 p.m. EST time to 5 a.m. EST was imposed. Measures such as those encouraged by U.S. Centers for Disease Control and Prevention, such as hand washing, physical distancing, and staying at home were also encouraged by the Haitian Ministry of Health. Mask wearing in public places was deemed mandatory.

The latest testing data show that community spread has been occurring among the Haitian population at a rapid rate. According to Jean William Pape, MD, Haiti’s top infectious diseases expert and founder of GHESKIO, an iconic infectious disease center that cares for people with HIV-AIDS and tuberculosis, a COVID-19 simulation from Cornell University in New York shows that about 35% of the Haitian population will be infected by the end of August 2020. A simulation by the University of Oxford (England) paints an even more dire picture. That simulation shows that 86% of the population could be infected, More than 9,000 additional hospital beds would be needed, and 20,000 people would be likely to die from COVID-19, Dr. Pape said in an interview with Haiti’s Nouvelliste newspaper.³
 

Medical response

We know that there is a global shortage of health care workers^,4 and Haiti is no exception. According to a 2018 report from the Haitian Ministry of Health, the country has 11,775 health care professionals, including about 3,354 medical doctors, to care for more than 11 million people. That translates to about 23.4 physicians per 100,000.⁵

The pandemic has led some members of this already anemic health care workforce to stay home because of a lack of personal protective equipment. Others, because of reduced hospital or clinic budgets, have been furloughed, making the COVID-19 national health emergency even harder to manage. The rationing of electricity and limited access to clean water⁶ in some areas are other complications that undermine our ability to provide quality care.

But a severe health care shortage is not the only challenge facing Haiti. It spends about $131 U.S. per capita, which makes Haiti one of most vulnerable among low- and middle-income countries in the world. As a poor country,⁷ its health care infrastructure is among the most inadequate and weakest. Prior to COVID-19, medical advocacy groups already had started movements and strikes demanding that the government improve the health care system. The country’s precarious health care infrastructure includes a lack of hospital beds, and basic medical supplies and equipment, such as oxygen and ventilators.⁸ The emergence of COVID-19 has only exacerbated the situation.

Clinical training programs have been suspended, many doctors and nurses are on quarantine, and some hospitals and clinics are closing. We have witnessed makeshift voodoo clinics built by Haitian voodoo leaders to receive, hospitalize, and treat COVID-19 patients through rituals and herbal remedies. In some areas of the country, residents have protested against the opening of several COVID-19 treatment and management centers.
 

Unique cultural challenges

Public health officials around the world are facing challenges persuading citizens to engage in behaviors that could protect them from the virus.

Just as in America, where many people opt to not wear face coverings^9,10 despite the public health risks, deep distrust of the Haitian government has undermined the messages of President Moïse and public health officials about the role of masks in limiting the spread of COVID. We see large numbers of unmasked people on the streets in the informal markets every day. Crammed tap-taps and overloaded motorcycles are moving everywhere. This also could be tied to cultural attitudes about COVID that persist among some Haitians. For example, many people with signs and symptoms of COVID-19 are afraid of going to the hospital to get tested and receive care, and resort to going to the voodoo clinics. Along with rituals, voodoo priests have been serving up teas with ingredients, including moringa, eucalyptus, ginger, and honey to those seeking COVID-19 care in the centers. The voodoo priests claim that the teas they serve strengthen the immune system.

In addition, it is difficult for poor people who live in small quarters with several other people to adhere to physical distancing.¹¹
 

Stigma and violence

Other barriers in the fight against COVID-19 in Haiti are stigma and violence. If widespread testing were available, some Haitians would opt not to do so – despite clear signs and symptoms of the infection. Some people who would get tested if they could are afraid to do so because of fears tied to being attacked by neighbors.

When Haitian University professor Bellamy Nelson and his girlfriend returned to Haiti from the United States in March and began experiencing some pain and fever, he experienced attacks from neighbors, he said in an interview. He said neighbors threatened to burn down his house. When an ambulance arrived at his house to transport him to a hospital, it had to drive through back roads to avoid people armed with rocks, fire, and machetes, he told us. No hospital wanted to admit him. Eventually, Professor Nelson self-quarantined at home, he said.

In another incident, a national ambulance center in Gonaïves, a town toward the northern region of Haiti, reportedly was vandalized, because COVID-19 equipment and supplies used to treat people had been stored there. Hospital Bernard Mevs, along with many other hospitals, was forced by the area’s residents to suspend the plan to open a center for COVID-19 management. Threats to burn down the hospitals caused the leaders of the hospitals to back down and give up a plan to build a 20-bed COVID-19 response center.
 

Maternal health

Another concern we have about the pandemic is the risk it could be to pregnant women. On average, 94,000 deaths occur annually in Haiti. Out of this number, maternal mortality accounts for 1,000. In 2017, for every 100,000 live births for women of reproductive age from 15 to 49 years old, 480 women died. In contrast, in the Dominican Republic, 95 women died per 100,000 that same year. In the United States, 19 died, and in Norway, no more than 2 died that year.¹²

Some of the primary factors contributing to the crisis are limited accessibility, inadequate health care facilities, and an inadequate number of trained health care practitioners; low percentages of skilled attendants at deliveries and of prenatal and postnatal visits; and high numbers of high-risk deliveries in nonqualified health facilities.

During the COVID-19 national health emergency, with most hospitals reducing their health care personnel either because of budget-related reasons or because they are on quarantine, this maternal-fetal health crisis has escalated.

One of the biggest hospitals in Jacmel, a town in the southern region of Haiti, has stopped its prenatal care program. In Delmas, the city with the highest incidence and prevalence of COVID-19, Hôpital Universitaire de la Paix has reduced this program to 50% of its capacity and gynecologic care has been completely suspended. Hôpital St. Luc, one of the first hospitals in the western region of Haiti to open its doors to care for COVID-19 patients, has recently shut down the entire maternal-fetal department.

So, access to prenatal and postnatal care, including the ability to deliver babies in health care institutions, is significantly reduced because of COVID-19. This leaves thousands of already vulnerable pregnant women at risk and having to deliver domestically with little to no health care professional assistance. We worry that, in light of the data, more women and babies will die because of the COVID-19 pandemic.
 

A call to action

Despite these conditions, there are reasons for hope. Various groups, both from the international community and locally have mobilized to respond to the pandemic.

International health care organizations such as Doctors Without Borders and Partners in Health, and local groups such as GHESKIO, the St. Luke Foundation for Haiti, and others have been collaborating with the Haitian Ministry of Health to devise and strategic plans and deploy valuable resources with the common goal of saving lives from COVID-19.

GHESKIO, for example, under Dr. Pape’s leadership, currently has one of the three COVID-19 testing centers in the country. It also has two COVID-19 treatment centers in full operation, in Port-au-Prince, the capital city, managing and treating 520 patients with confirmed COVID-19. GHESKIO, which has been in the front lines of previous major infectious disease outbreaks,¹³ has trained about 200 clinicians from both public and private health care institutions to care for COVID-19 patients.

Doctors Without Borders has been investing in efforts to support the Ministry of Health by converting and renovating its Burn Center in Drouillard, a small section of the city of Cité Soleil, one of the country’s biggest slums. In May, as part of its COVID-19 response, it launched a 20-bed capacity center that can accommodate up to 45 beds to care for patients who have tested positive for COVID-19.

Partners in Health, the Boston-based nonprofit health care organization cofounded in 1987 by American anthropologist and infectious disease specialist, Paul Farmer, MD, and the largest nonprofit health care provider in Haiti, also joined the Ministry of Health through its national and public health efforts to tackle COVID-19 in Haiti. Partners in Health, through its sister organization, Zanmi Lasante, has pioneered the movement of diagnosing and treating people with HIV-AIDS and TB. Since the late 1990s, its efforts against both infectious diseases have helped 15,000 HIV-positive patients begin and remain on treatment. And every year, 1,500 TB patients have started treatment on the path to a cure.

Early in the pandemic in Haiti, Partners in Health, through its state-of-the-art 300-bed university hospital (Hôpital Universitaire de Mirebalais de Mirebalais), was the first to open a COVID-19 center with a 20-bed capacity and has been caring for COVID-19 patients since then. In June, Partners in Health supported and inaugurated the renovation of the internal medicine department at one of its affiliated community hospitals, Hôpital Saint-Nicolas de Saint Marc. That department will have a 24-bed capacity that can extend up to 36 beds to manage and treat COVID-19 patients.

In total, currently, 26 COVID-19 centers with a capacity of 1,011 beds are available to serve, manage, and treat Haitian patients affected with COVID-19. But are those efforts enough? No.

Haiti, as a weak state even before COVID-19, continues to need funding from the international community so it can strengthen its health care infrastructure to be effective and strong in fighting against COVID-19.

In addition, we would like to see preventive initiatives implemented on the local level. Our family has taken on a role that, we think, could help conquer COVID-19 if others followed suit on a large scale.

As part of our contribution in tackling COVID-19, the two of us have launched a small-scale community experiment. We have educated our family in Delmas about COVID-19 and subsequently launched an awareness campaign in the community. We dispatched small groups that go door to door in the community to educate neighbors about the disease in an effort to help them understand that COVID-19 is real and it is normal for people that feel they may have the disease to seek medical care. This approach helps suppress the transmission of the virus. This pilot project could be reproduced in several other communities. It is easy to operate, rapid, effective, and cost-free. The community has been very receptive to and grateful for our efforts.

Like other countries across the world, Haiti was not ready for COVID-19. But we are confident that, with help from the international community, organizations such as GHESKIO,¹⁴ and with due diligence on the local level, we are strong and resilient enough to beat COVID. We must act together – quickly.

 

References

1. Sénat JD. Coronavirus: 2 cas confirmés en Haïti, Jovenel Moïse décrète l’état d’ur-gence sanitaire. 2020 Le Nouvelliste.

2. Haitian Ministry of Health.

3. “Entre appel a la solidarite et de sombres previsions, le Dr William Pape fait le point.” Le Nouvelliste.

4. Darzi A and Evans T. Lancet. 2016 Nov-Dec 26. 388;10060:2576-7.

5. Rapport Statistique 2018. 2019 Republic of Haiti.

6. Sentlinger K. “Water Crisis in Haiti.” The Water Project.

7. The World Bank in Haiti. worldbank.org.

8. Cenat JM. Travel Med Infect Dis. 2020 Mar 28. doi: 10.1016/jtmaid.2020.101684.

9. Block D. “Why some Americans resist wearing face masks.” voanews.com. 2020 May 31.

10. Panceski B and Douglas J. “Masks could help stop coronavirus. So why are they still controversial?” wsj.com. Updated 29 Jun 2020.

11. Bojarski S. “Social distancing: A luxury Haiti’s poor cannot afford. The Haitian Times. 2020 Apr.

12. World Health Organization, UNICEF, World Bank Group, and the U.N. Population Division. Maternal mortality ratio, Haiti.

13. Feliciano I and Kargbo C. “As COVID cases surge, Haiti’s Dr. Pape is on the front line again.” PBS NewsHour Weekend. 2020 Jun 13.

14. Liautaud B and Deschamps MM. New Engl J Med. 2020 Jun 16.
 

Mr. Dorcela is a senior medical student at Faculté des Sciences de la Santé Université Quisqueya in Port-au-Prince, Haiti. He also is a medical intern at Unité de Médecine Familiale Hôpital Saint Nicolas in Saint-Marc. Mr. Dorcela has no disclosures. Mr. St. Jean, who is Mr. Dorcela’s brother, is also a senior medical student at Faculté des Sciences de la Santé Université Quisqueya in Port-au-Prince. He has no disclosures.

Do you want to know what keeps us up at night? As 4th-year medical students born, raised, and living in Haiti, we worry about the impact of COVID-19 on our patients.

The pandemic has shaken the world, and Haiti is no exception.

Courtesy Schneider Dorcela

It has taken several months for the disease to spread, and it began with two confirmed cases, one from France and the other from Belgium, on March 19.¹ Much of the spread of COVID-19 in Haiti has been tied to workers returning from the Dominican Republic. As of June 29, Haiti had 5,975 confirmed cases and 105 deaths.² Of course, those numbers sound minuscule, compared with those in the United States, where the number of deaths from COVID-19 surpassed 100,000 several weeks ago. But the population of Haiti is 30 times smaller than that of the United States, and Haiti is the poorest country in the Western Hemisphere. We have watched in horror as the virus has ravaged marginalized groups in the United States and worry that it will do the same in our own country.

Just as the Haitian Ministry of Health worked with various groups to reach the 1-year free of cholera mark in Haiti, groups such as Doctors Without Borders must mobilize to rein in COVID-19.
 

Community transmission rapid

After the first two cases were confirmed, a state of health emergency was immediately declared. Haitian President Jovenel Moïse and other government officials called for the implementation of several measures aimed at limiting the spread of COVID-19.

Schools, universities, clinical training programs, vocational centers, factories, airports, and ports, except for the transport of goods, were all ordered to close until further notice. Gatherings of larger than 10 people were banned. A curfew from 8 p.m. EST time to 5 a.m. EST was imposed. Measures such as those encouraged by U.S. Centers for Disease Control and Prevention, such as hand washing, physical distancing, and staying at home were also encouraged by the Haitian Ministry of Health. Mask wearing in public places was deemed mandatory.

The latest testing data show that community spread has been occurring among the Haitian population at a rapid rate. According to Jean William Pape, MD, Haiti’s top infectious diseases expert and founder of GHESKIO, an iconic infectious disease center that cares for people with HIV-AIDS and tuberculosis, a COVID-19 simulation from Cornell University in New York shows that about 35% of the Haitian population will be infected by the end of August 2020. A simulation by the University of Oxford (England) paints an even more dire picture. That simulation shows that 86% of the population could be infected, More than 9,000 additional hospital beds would be needed, and 20,000 people would be likely to die from COVID-19, Dr. Pape said in an interview with Haiti’s Nouvelliste newspaper.³
 

Medical response

We know that there is a global shortage of health care workers^,4 and Haiti is no exception. According to a 2018 report from the Haitian Ministry of Health, the country has 11,775 health care professionals, including about 3,354 medical doctors, to care for more than 11 million people. That translates to about 23.4 physicians per 100,000.⁵

The pandemic has led some members of this already anemic health care workforce to stay home because of a lack of personal protective equipment. Others, because of reduced hospital or clinic budgets, have been furloughed, making the COVID-19 national health emergency even harder to manage. The rationing of electricity and limited access to clean water⁶ in some areas are other complications that undermine our ability to provide quality care.

But a severe health care shortage is not the only challenge facing Haiti. It spends about $131 U.S. per capita, which makes Haiti one of most vulnerable among low- and middle-income countries in the world. As a poor country,⁷ its health care infrastructure is among the most inadequate and weakest. Prior to COVID-19, medical advocacy groups already had started movements and strikes demanding that the government improve the health care system. The country’s precarious health care infrastructure includes a lack of hospital beds, and basic medical supplies and equipment, such as oxygen and ventilators.⁸ The emergence of COVID-19 has only exacerbated the situation.

Clinical training programs have been suspended, many doctors and nurses are on quarantine, and some hospitals and clinics are closing. We have witnessed makeshift voodoo clinics built by Haitian voodoo leaders to receive, hospitalize, and treat COVID-19 patients through rituals and herbal remedies. In some areas of the country, residents have protested against the opening of several COVID-19 treatment and management centers.
 

Unique cultural challenges

Public health officials around the world are facing challenges persuading citizens to engage in behaviors that could protect them from the virus.

Just as in America, where many people opt to not wear face coverings^9,10 despite the public health risks, deep distrust of the Haitian government has undermined the messages of President Moïse and public health officials about the role of masks in limiting the spread of COVID. We see large numbers of unmasked people on the streets in the informal markets every day. Crammed tap-taps and overloaded motorcycles are moving everywhere. This also could be tied to cultural attitudes about COVID that persist among some Haitians. For example, many people with signs and symptoms of COVID-19 are afraid of going to the hospital to get tested and receive care, and resort to going to the voodoo clinics. Along with rituals, voodoo priests have been serving up teas with ingredients, including moringa, eucalyptus, ginger, and honey to those seeking COVID-19 care in the centers. The voodoo priests claim that the teas they serve strengthen the immune system.

In addition, it is difficult for poor people who live in small quarters with several other people to adhere to physical distancing.¹¹
 

Stigma and violence

Other barriers in the fight against COVID-19 in Haiti are stigma and violence. If widespread testing were available, some Haitians would opt not to do so – despite clear signs and symptoms of the infection. Some people who would get tested if they could are afraid to do so because of fears tied to being attacked by neighbors.

When Haitian University professor Bellamy Nelson and his girlfriend returned to Haiti from the United States in March and began experiencing some pain and fever, he experienced attacks from neighbors, he said in an interview. He said neighbors threatened to burn down his house. When an ambulance arrived at his house to transport him to a hospital, it had to drive through back roads to avoid people armed with rocks, fire, and machetes, he told us. No hospital wanted to admit him. Eventually, Professor Nelson self-quarantined at home, he said.

In another incident, a national ambulance center in Gonaïves, a town toward the northern region of Haiti, reportedly was vandalized, because COVID-19 equipment and supplies used to treat people had been stored there. Hospital Bernard Mevs, along with many other hospitals, was forced by the area’s residents to suspend the plan to open a center for COVID-19 management. Threats to burn down the hospitals caused the leaders of the hospitals to back down and give up a plan to build a 20-bed COVID-19 response center.
 

Maternal health

Another concern we have about the pandemic is the risk it could be to pregnant women. On average, 94,000 deaths occur annually in Haiti. Out of this number, maternal mortality accounts for 1,000. In 2017, for every 100,000 live births for women of reproductive age from 15 to 49 years old, 480 women died. In contrast, in the Dominican Republic, 95 women died per 100,000 that same year. In the United States, 19 died, and in Norway, no more than 2 died that year.¹²

Some of the primary factors contributing to the crisis are limited accessibility, inadequate health care facilities, and an inadequate number of trained health care practitioners; low percentages of skilled attendants at deliveries and of prenatal and postnatal visits; and high numbers of high-risk deliveries in nonqualified health facilities.

During the COVID-19 national health emergency, with most hospitals reducing their health care personnel either because of budget-related reasons or because they are on quarantine, this maternal-fetal health crisis has escalated.

One of the biggest hospitals in Jacmel, a town in the southern region of Haiti, has stopped its prenatal care program. In Delmas, the city with the highest incidence and prevalence of COVID-19, Hôpital Universitaire de la Paix has reduced this program to 50% of its capacity and gynecologic care has been completely suspended. Hôpital St. Luc, one of the first hospitals in the western region of Haiti to open its doors to care for COVID-19 patients, has recently shut down the entire maternal-fetal department.

So, access to prenatal and postnatal care, including the ability to deliver babies in health care institutions, is significantly reduced because of COVID-19. This leaves thousands of already vulnerable pregnant women at risk and having to deliver domestically with little to no health care professional assistance. We worry that, in light of the data, more women and babies will die because of the COVID-19 pandemic.
 

A call to action

Despite these conditions, there are reasons for hope. Various groups, both from the international community and locally have mobilized to respond to the pandemic.

International health care organizations such as Doctors Without Borders and Partners in Health, and local groups such as GHESKIO, the St. Luke Foundation for Haiti, and others have been collaborating with the Haitian Ministry of Health to devise and strategic plans and deploy valuable resources with the common goal of saving lives from COVID-19.

GHESKIO, for example, under Dr. Pape’s leadership, currently has one of the three COVID-19 testing centers in the country. It also has two COVID-19 treatment centers in full operation, in Port-au-Prince, the capital city, managing and treating 520 patients with confirmed COVID-19. GHESKIO, which has been in the front lines of previous major infectious disease outbreaks,¹³ has trained about 200 clinicians from both public and private health care institutions to care for COVID-19 patients.

Doctors Without Borders has been investing in efforts to support the Ministry of Health by converting and renovating its Burn Center in Drouillard, a small section of the city of Cité Soleil, one of the country’s biggest slums. In May, as part of its COVID-19 response, it launched a 20-bed capacity center that can accommodate up to 45 beds to care for patients who have tested positive for COVID-19.

Partners in Health, the Boston-based nonprofit health care organization cofounded in 1987 by American anthropologist and infectious disease specialist, Paul Farmer, MD, and the largest nonprofit health care provider in Haiti, also joined the Ministry of Health through its national and public health efforts to tackle COVID-19 in Haiti. Partners in Health, through its sister organization, Zanmi Lasante, has pioneered the movement of diagnosing and treating people with HIV-AIDS and TB. Since the late 1990s, its efforts against both infectious diseases have helped 15,000 HIV-positive patients begin and remain on treatment. And every year, 1,500 TB patients have started treatment on the path to a cure.

Early in the pandemic in Haiti, Partners in Health, through its state-of-the-art 300-bed university hospital (Hôpital Universitaire de Mirebalais de Mirebalais), was the first to open a COVID-19 center with a 20-bed capacity and has been caring for COVID-19 patients since then. In June, Partners in Health supported and inaugurated the renovation of the internal medicine department at one of its affiliated community hospitals, Hôpital Saint-Nicolas de Saint Marc. That department will have a 24-bed capacity that can extend up to 36 beds to manage and treat COVID-19 patients.

In total, currently, 26 COVID-19 centers with a capacity of 1,011 beds are available to serve, manage, and treat Haitian patients affected with COVID-19. But are those efforts enough? No.

Haiti, as a weak state even before COVID-19, continues to need funding from the international community so it can strengthen its health care infrastructure to be effective and strong in fighting against COVID-19.

In addition, we would like to see preventive initiatives implemented on the local level. Our family has taken on a role that, we think, could help conquer COVID-19 if others followed suit on a large scale.

As part of our contribution in tackling COVID-19, the two of us have launched a small-scale community experiment. We have educated our family in Delmas about COVID-19 and subsequently launched an awareness campaign in the community. We dispatched small groups that go door to door in the community to educate neighbors about the disease in an effort to help them understand that COVID-19 is real and it is normal for people that feel they may have the disease to seek medical care. This approach helps suppress the transmission of the virus. This pilot project could be reproduced in several other communities. It is easy to operate, rapid, effective, and cost-free. The community has been very receptive to and grateful for our efforts.

Like other countries across the world, Haiti was not ready for COVID-19. But we are confident that, with help from the international community, organizations such as GHESKIO,¹⁴ and with due diligence on the local level, we are strong and resilient enough to beat COVID. We must act together – quickly.

 

References

1. Sénat JD. Coronavirus: 2 cas confirmés en Haïti, Jovenel Moïse décrète l’état d’ur-gence sanitaire. 2020 Le Nouvelliste.

2. Haitian Ministry of Health.

3. “Entre appel a la solidarite et de sombres previsions, le Dr William Pape fait le point.” Le Nouvelliste.

4. Darzi A and Evans T. Lancet. 2016 Nov-Dec 26. 388;10060:2576-7.

5. Rapport Statistique 2018. 2019 Republic of Haiti.

6. Sentlinger K. “Water Crisis in Haiti.” The Water Project.

7. The World Bank in Haiti. worldbank.org.

8. Cenat JM. Travel Med Infect Dis. 2020 Mar 28. doi: 10.1016/jtmaid.2020.101684.

9. Block D. “Why some Americans resist wearing face masks.” voanews.com. 2020 May 31.

10. Panceski B and Douglas J. “Masks could help stop coronavirus. So why are they still controversial?” wsj.com. Updated 29 Jun 2020.

11. Bojarski S. “Social distancing: A luxury Haiti’s poor cannot afford. The Haitian Times. 2020 Apr.

12. World Health Organization, UNICEF, World Bank Group, and the U.N. Population Division. Maternal mortality ratio, Haiti.

13. Feliciano I and Kargbo C. “As COVID cases surge, Haiti’s Dr. Pape is on the front line again.” PBS NewsHour Weekend. 2020 Jun 13.

14. Liautaud B and Deschamps MM. New Engl J Med. 2020 Jun 16.
 

Mr. Dorcela is a senior medical student at Faculté des Sciences de la Santé Université Quisqueya in Port-au-Prince, Haiti. He also is a medical intern at Unité de Médecine Familiale Hôpital Saint Nicolas in Saint-Marc. Mr. Dorcela has no disclosures. Mr. St. Jean, who is Mr. Dorcela’s brother, is also a senior medical student at Faculté des Sciences de la Santé Université Quisqueya in Port-au-Prince. He has no disclosures.

Do you want to know what keeps us up at night? As 4th-year medical students born, raised, and living in Haiti, we worry about the impact of COVID-19 on our patients.

The pandemic has shaken the world, and Haiti is no exception.

Courtesy Schneider Dorcela

It has taken several months for the disease to spread, and it began with two confirmed cases, one from France and the other from Belgium, on March 19.¹ Much of the spread of COVID-19 in Haiti has been tied to workers returning from the Dominican Republic. As of June 29, Haiti had 5,975 confirmed cases and 105 deaths.² Of course, those numbers sound minuscule, compared with those in the United States, where the number of deaths from COVID-19 surpassed 100,000 several weeks ago. But the population of Haiti is 30 times smaller than that of the United States, and Haiti is the poorest country in the Western Hemisphere. We have watched in horror as the virus has ravaged marginalized groups in the United States and worry that it will do the same in our own country.

Just as the Haitian Ministry of Health worked with various groups to reach the 1-year free of cholera mark in Haiti, groups such as Doctors Without Borders must mobilize to rein in COVID-19.
 

Community transmission rapid

After the first two cases were confirmed, a state of health emergency was immediately declared. Haitian President Jovenel Moïse and other government officials called for the implementation of several measures aimed at limiting the spread of COVID-19.

Schools, universities, clinical training programs, vocational centers, factories, airports, and ports, except for the transport of goods, were all ordered to close until further notice. Gatherings of larger than 10 people were banned. A curfew from 8 p.m. EST time to 5 a.m. EST was imposed. Measures such as those encouraged by U.S. Centers for Disease Control and Prevention, such as hand washing, physical distancing, and staying at home were also encouraged by the Haitian Ministry of Health. Mask wearing in public places was deemed mandatory.

The latest testing data show that community spread has been occurring among the Haitian population at a rapid rate. According to Jean William Pape, MD, Haiti’s top infectious diseases expert and founder of GHESKIO, an iconic infectious disease center that cares for people with HIV-AIDS and tuberculosis, a COVID-19 simulation from Cornell University in New York shows that about 35% of the Haitian population will be infected by the end of August 2020. A simulation by the University of Oxford (England) paints an even more dire picture. That simulation shows that 86% of the population could be infected, More than 9,000 additional hospital beds would be needed, and 20,000 people would be likely to die from COVID-19, Dr. Pape said in an interview with Haiti’s Nouvelliste newspaper.³
 

Medical response

We know that there is a global shortage of health care workers^,4 and Haiti is no exception. According to a 2018 report from the Haitian Ministry of Health, the country has 11,775 health care professionals, including about 3,354 medical doctors, to care for more than 11 million people. That translates to about 23.4 physicians per 100,000.⁵

The pandemic has led some members of this already anemic health care workforce to stay home because of a lack of personal protective equipment. Others, because of reduced hospital or clinic budgets, have been furloughed, making the COVID-19 national health emergency even harder to manage. The rationing of electricity and limited access to clean water⁶ in some areas are other complications that undermine our ability to provide quality care.

But a severe health care shortage is not the only challenge facing Haiti. It spends about $131 U.S. per capita, which makes Haiti one of most vulnerable among low- and middle-income countries in the world. As a poor country,⁷ its health care infrastructure is among the most inadequate and weakest. Prior to COVID-19, medical advocacy groups already had started movements and strikes demanding that the government improve the health care system. The country’s precarious health care infrastructure includes a lack of hospital beds, and basic medical supplies and equipment, such as oxygen and ventilators.⁸ The emergence of COVID-19 has only exacerbated the situation.

Clinical training programs have been suspended, many doctors and nurses are on quarantine, and some hospitals and clinics are closing. We have witnessed makeshift voodoo clinics built by Haitian voodoo leaders to receive, hospitalize, and treat COVID-19 patients through rituals and herbal remedies. In some areas of the country, residents have protested against the opening of several COVID-19 treatment and management centers.
 

Unique cultural challenges

Public health officials around the world are facing challenges persuading citizens to engage in behaviors that could protect them from the virus.

Just as in America, where many people opt to not wear face coverings^9,10 despite the public health risks, deep distrust of the Haitian government has undermined the messages of President Moïse and public health officials about the role of masks in limiting the spread of COVID. We see large numbers of unmasked people on the streets in the informal markets every day. Crammed tap-taps and overloaded motorcycles are moving everywhere. This also could be tied to cultural attitudes about COVID that persist among some Haitians. For example, many people with signs and symptoms of COVID-19 are afraid of going to the hospital to get tested and receive care, and resort to going to the voodoo clinics. Along with rituals, voodoo priests have been serving up teas with ingredients, including moringa, eucalyptus, ginger, and honey to those seeking COVID-19 care in the centers. The voodoo priests claim that the teas they serve strengthen the immune system.

In addition, it is difficult for poor people who live in small quarters with several other people to adhere to physical distancing.¹¹
 

Stigma and violence

Other barriers in the fight against COVID-19 in Haiti are stigma and violence. If widespread testing were available, some Haitians would opt not to do so – despite clear signs and symptoms of the infection. Some people who would get tested if they could are afraid to do so because of fears tied to being attacked by neighbors.

When Haitian University professor Bellamy Nelson and his girlfriend returned to Haiti from the United States in March and began experiencing some pain and fever, he experienced attacks from neighbors, he said in an interview. He said neighbors threatened to burn down his house. When an ambulance arrived at his house to transport him to a hospital, it had to drive through back roads to avoid people armed with rocks, fire, and machetes, he told us. No hospital wanted to admit him. Eventually, Professor Nelson self-quarantined at home, he said.

In another incident, a national ambulance center in Gonaïves, a town toward the northern region of Haiti, reportedly was vandalized, because COVID-19 equipment and supplies used to treat people had been stored there. Hospital Bernard Mevs, along with many other hospitals, was forced by the area’s residents to suspend the plan to open a center for COVID-19 management. Threats to burn down the hospitals caused the leaders of the hospitals to back down and give up a plan to build a 20-bed COVID-19 response center.
 

Maternal health

Another concern we have about the pandemic is the risk it could be to pregnant women. On average, 94,000 deaths occur annually in Haiti. Out of this number, maternal mortality accounts for 1,000. In 2017, for every 100,000 live births for women of reproductive age from 15 to 49 years old, 480 women died. In contrast, in the Dominican Republic, 95 women died per 100,000 that same year. In the United States, 19 died, and in Norway, no more than 2 died that year.¹²

Some of the primary factors contributing to the crisis are limited accessibility, inadequate health care facilities, and an inadequate number of trained health care practitioners; low percentages of skilled attendants at deliveries and of prenatal and postnatal visits; and high numbers of high-risk deliveries in nonqualified health facilities.

During the COVID-19 national health emergency, with most hospitals reducing their health care personnel either because of budget-related reasons or because they are on quarantine, this maternal-fetal health crisis has escalated.

One of the biggest hospitals in Jacmel, a town in the southern region of Haiti, has stopped its prenatal care program. In Delmas, the city with the highest incidence and prevalence of COVID-19, Hôpital Universitaire de la Paix has reduced this program to 50% of its capacity and gynecologic care has been completely suspended. Hôpital St. Luc, one of the first hospitals in the western region of Haiti to open its doors to care for COVID-19 patients, has recently shut down the entire maternal-fetal department.

So, access to prenatal and postnatal care, including the ability to deliver babies in health care institutions, is significantly reduced because of COVID-19. This leaves thousands of already vulnerable pregnant women at risk and having to deliver domestically with little to no health care professional assistance. We worry that, in light of the data, more women and babies will die because of the COVID-19 pandemic.
 

A call to action

Despite these conditions, there are reasons for hope. Various groups, both from the international community and locally have mobilized to respond to the pandemic.

International health care organizations such as Doctors Without Borders and Partners in Health, and local groups such as GHESKIO, the St. Luke Foundation for Haiti, and others have been collaborating with the Haitian Ministry of Health to devise and strategic plans and deploy valuable resources with the common goal of saving lives from COVID-19.

GHESKIO, for example, under Dr. Pape’s leadership, currently has one of the three COVID-19 testing centers in the country. It also has two COVID-19 treatment centers in full operation, in Port-au-Prince, the capital city, managing and treating 520 patients with confirmed COVID-19. GHESKIO, which has been in the front lines of previous major infectious disease outbreaks,¹³ has trained about 200 clinicians from both public and private health care institutions to care for COVID-19 patients.

Doctors Without Borders has been investing in efforts to support the Ministry of Health by converting and renovating its Burn Center in Drouillard, a small section of the city of Cité Soleil, one of the country’s biggest slums. In May, as part of its COVID-19 response, it launched a 20-bed capacity center that can accommodate up to 45 beds to care for patients who have tested positive for COVID-19.

Partners in Health, the Boston-based nonprofit health care organization cofounded in 1987 by American anthropologist and infectious disease specialist, Paul Farmer, MD, and the largest nonprofit health care provider in Haiti, also joined the Ministry of Health through its national and public health efforts to tackle COVID-19 in Haiti. Partners in Health, through its sister organization, Zanmi Lasante, has pioneered the movement of diagnosing and treating people with HIV-AIDS and TB. Since the late 1990s, its efforts against both infectious diseases have helped 15,000 HIV-positive patients begin and remain on treatment. And every year, 1,500 TB patients have started treatment on the path to a cure.

Early in the pandemic in Haiti, Partners in Health, through its state-of-the-art 300-bed university hospital (Hôpital Universitaire de Mirebalais de Mirebalais), was the first to open a COVID-19 center with a 20-bed capacity and has been caring for COVID-19 patients since then. In June, Partners in Health supported and inaugurated the renovation of the internal medicine department at one of its affiliated community hospitals, Hôpital Saint-Nicolas de Saint Marc. That department will have a 24-bed capacity that can extend up to 36 beds to manage and treat COVID-19 patients.

In total, currently, 26 COVID-19 centers with a capacity of 1,011 beds are available to serve, manage, and treat Haitian patients affected with COVID-19. But are those efforts enough? No.

Haiti, as a weak state even before COVID-19, continues to need funding from the international community so it can strengthen its health care infrastructure to be effective and strong in fighting against COVID-19.

In addition, we would like to see preventive initiatives implemented on the local level. Our family has taken on a role that, we think, could help conquer COVID-19 if others followed suit on a large scale.

As part of our contribution in tackling COVID-19, the two of us have launched a small-scale community experiment. We have educated our family in Delmas about COVID-19 and subsequently launched an awareness campaign in the community. We dispatched small groups that go door to door in the community to educate neighbors about the disease in an effort to help them understand that COVID-19 is real and it is normal for people that feel they may have the disease to seek medical care. This approach helps suppress the transmission of the virus. This pilot project could be reproduced in several other communities. It is easy to operate, rapid, effective, and cost-free. The community has been very receptive to and grateful for our efforts.

Like other countries across the world, Haiti was not ready for COVID-19. But we are confident that, with help from the international community, organizations such as GHESKIO,¹⁴ and with due diligence on the local level, we are strong and resilient enough to beat COVID. We must act together – quickly.

 

References

1. Sénat JD. Coronavirus: 2 cas confirmés en Haïti, Jovenel Moïse décrète l’état d’ur-gence sanitaire. 2020 Le Nouvelliste.

2. Haitian Ministry of Health.

3. “Entre appel a la solidarite et de sombres previsions, le Dr William Pape fait le point.” Le Nouvelliste.

4. Darzi A and Evans T. Lancet. 2016 Nov-Dec 26. 388;10060:2576-7.

5. Rapport Statistique 2018. 2019 Republic of Haiti.

6. Sentlinger K. “Water Crisis in Haiti.” The Water Project.

7. The World Bank in Haiti. worldbank.org.

8. Cenat JM. Travel Med Infect Dis. 2020 Mar 28. doi: 10.1016/jtmaid.2020.101684.

9. Block D. “Why some Americans resist wearing face masks.” voanews.com. 2020 May 31.

10. Panceski B and Douglas J. “Masks could help stop coronavirus. So why are they still controversial?” wsj.com. Updated 29 Jun 2020.

11. Bojarski S. “Social distancing: A luxury Haiti’s poor cannot afford. The Haitian Times. 2020 Apr.

12. World Health Organization, UNICEF, World Bank Group, and the U.N. Population Division. Maternal mortality ratio, Haiti.

13. Feliciano I and Kargbo C. “As COVID cases surge, Haiti’s Dr. Pape is on the front line again.” PBS NewsHour Weekend. 2020 Jun 13.

14. Liautaud B and Deschamps MM. New Engl J Med. 2020 Jun 16.
 

Mr. Dorcela is a senior medical student at Faculté des Sciences de la Santé Université Quisqueya in Port-au-Prince, Haiti. He also is a medical intern at Unité de Médecine Familiale Hôpital Saint Nicolas in Saint-Marc. Mr. Dorcela has no disclosures. Mr. St. Jean, who is Mr. Dorcela’s brother, is also a senior medical student at Faculté des Sciences de la Santé Université Quisqueya in Port-au-Prince. He has no disclosures.