Pulmonary Health Hub

The patients walk into Dr. Melissa Marshall’s community clinics in Northern California with the telltale symptoms. They’re having trouble breathing. It may even hurt to inhale. They’ve got a cough, and the sore throat is definitely there.

A straight case of COVID-19? Not so fast. This is wildfire country.

Up and down the West Coast, hospitals and health facilities are reporting an influx of patients with problems most likely related to smoke inhalation. As fires rage largely uncontrolled amid dry heat and high winds, smoke and ash are billowing and settling on coastal areas like San Francisco and cities and towns hundreds of miles inland as well, turning the sky orange or gray and making even ordinary breathing difficult.

But that, Marshall said, is only part of the challenge. Facilities already strapped for testing supplies and personal protective equipment must first rule out COVID-19 in these patients, because many of the symptoms they present with are the same as those caused by the virus.

“Obviously, there’s overlap in the symptoms,” said Marshall, the CEO of CommuniCare, a collection of six clinics in Yolo County, near Sacramento, that treats mostly underinsured and uninsured patients. “Any time someone comes in with even some of those symptoms, we ask ourselves, ‘Is it COVID?’ At the end of the day, clinically speaking, I still want to rule out the virus.”

The protocol is to treat the symptoms, whatever their cause, while recommending that the patient quarantine until test results for the virus come back, she said.

It is a scene playing out in numerous hospitals. Administrators and physicians, finely attuned to COVID-19’s ability to spread quickly and wreak havoc, simply won’t take a chance when they recognize symptoms that could emanate from the virus.

“We’ve seen an increase in patients presenting to the emergency department with respiratory distress,” said Dr. Nanette Mickiewicz, president and CEO of Dominican Hospital in Santa Cruz. “As this can also be a symptom of COVID-19, we’re treating these patients as we would any person under investigation for coronavirus until we can rule them out through our screening process.” During the workup, symptoms that are more specific to COVID-19, like fever, would become apparent.

For the workers at Dominican, the issue moved to the top of the list quickly. Santa Cruz and San Mateo counties have borne the brunt of the CZU Lightning Complex fires, which as of Sept. 10 had burned more than 86,000 acres, destroying 1,100 structures and threatening more than 7,600 others. Nearly a month after they began, the fires were approximately 84% contained, but thousands of people remained evacuated.

Dominican, a Dignity Health hospital, is “open, safe and providing care,” Mickiewicz said. Multiple tents erected outside the building serve as an extension of its ER waiting room. They also are used to perform what has come to be understood as an essential role: separating those with symptoms of COVID-19 from those without.

At the two Solano County hospitals operated by NorthBay Healthcare, the path of some of the wildfires prompted officials to review their evacuation procedures, said spokesperson Steve Huddleston. They ultimately avoided the need to evacuate patients, and new ones arrived with COVID-like symptoms that may actually have been from smoke inhalation.

Huddleston said NorthBay’s intake process “calls for anyone with COVID characteristics to be handled as [a] patient under investigation for COVID, which means they’re separated, screened and managed by staff in special PPE.” At the two hospitals, which have handled nearly 200 COVID cases so far, the protocol is well established.

Hospitals in California, though not under siege in most cases, are dealing with multiple issues they might typically face only sporadically. In Napa County, Adventist Health St. Helena Hospital evacuated 51 patients on a single August night as a fire approached, moving them to 10 other facilities according to their needs and bed space. After a 10-day closure, the hospital was allowed to reopen as evacuation orders were lifted, the fire having been contained some distance away.

The wildfires are also taking a personal toll on health care workers. CommuniCare’s Marshall lost her family’s home in rural Winters, along with 20 acres of olive trees and other plantings that surrounded it, in the Aug. 19 fires that swept through Solano County.

“They called it a ‘firenado,’ ” Marshall said. An apparent confluence of three fires raged out of control, demolishing thousands of acres. With her family safely accounted for and temporary housing arranged by a friend, she returned to work. “Our clinics interact with a very vulnerable population,” she said, “and this is a critical time for them.”

While she pondered how her family would rebuild, the CEO was faced with another immediate crisis: the clinic’s shortage of supplies. Last month, CommuniCare got down to 19 COVID test kits on hand, and ran so low on swabs “that we were literally turning to our veterinary friends for reinforcements,” the doctor said. The clinic’s COVID test results, meanwhile, were taking nearly two weeks to be returned from an overwhelmed outside lab, rendering contact tracing almost useless.

Those situations have been addressed, at least temporarily, Marshall said. But although the West Coast is in the most dangerous time of year for wildfires, generally September to December, another complication for health providers lies on the horizon: flu season.

The Southern Hemisphere, whose influenza trends during our summer months typically predict what’s to come for the U.S., has had very little of the disease this year, presumably because of restricted travel, social distancing and face masks. But it’s too early to be sure what the U.S. flu season will entail.

“You can start to see some cases of the flu in late October,” said Marshall, “and the reality is that it’s going to carry a number of characteristics that could also be symptomatic of COVID. And nothing changes: You have to rule it out, just to eliminate the risk.”

KHN (Kaiser Health News) is a nonprofit news service covering health issues. It is an editorially independent program of KFF (Kaiser Family Foundation), which is not affiliated with Kaiser Permanente. This KHN story first published on California Healthline, a service of the California Health Care Foundation.

The patients walk into Dr. Melissa Marshall’s community clinics in Northern California with the telltale symptoms. They’re having trouble breathing. It may even hurt to inhale. They’ve got a cough, and the sore throat is definitely there.

A straight case of COVID-19? Not so fast. This is wildfire country.

Up and down the West Coast, hospitals and health facilities are reporting an influx of patients with problems most likely related to smoke inhalation. As fires rage largely uncontrolled amid dry heat and high winds, smoke and ash are billowing and settling on coastal areas like San Francisco and cities and towns hundreds of miles inland as well, turning the sky orange or gray and making even ordinary breathing difficult.

But that, Marshall said, is only part of the challenge. Facilities already strapped for testing supplies and personal protective equipment must first rule out COVID-19 in these patients, because many of the symptoms they present with are the same as those caused by the virus.

“Obviously, there’s overlap in the symptoms,” said Marshall, the CEO of CommuniCare, a collection of six clinics in Yolo County, near Sacramento, that treats mostly underinsured and uninsured patients. “Any time someone comes in with even some of those symptoms, we ask ourselves, ‘Is it COVID?’ At the end of the day, clinically speaking, I still want to rule out the virus.”

The protocol is to treat the symptoms, whatever their cause, while recommending that the patient quarantine until test results for the virus come back, she said.

It is a scene playing out in numerous hospitals. Administrators and physicians, finely attuned to COVID-19’s ability to spread quickly and wreak havoc, simply won’t take a chance when they recognize symptoms that could emanate from the virus.

“We’ve seen an increase in patients presenting to the emergency department with respiratory distress,” said Dr. Nanette Mickiewicz, president and CEO of Dominican Hospital in Santa Cruz. “As this can also be a symptom of COVID-19, we’re treating these patients as we would any person under investigation for coronavirus until we can rule them out through our screening process.” During the workup, symptoms that are more specific to COVID-19, like fever, would become apparent.

For the workers at Dominican, the issue moved to the top of the list quickly. Santa Cruz and San Mateo counties have borne the brunt of the CZU Lightning Complex fires, which as of Sept. 10 had burned more than 86,000 acres, destroying 1,100 structures and threatening more than 7,600 others. Nearly a month after they began, the fires were approximately 84% contained, but thousands of people remained evacuated.

Dominican, a Dignity Health hospital, is “open, safe and providing care,” Mickiewicz said. Multiple tents erected outside the building serve as an extension of its ER waiting room. They also are used to perform what has come to be understood as an essential role: separating those with symptoms of COVID-19 from those without.

At the two Solano County hospitals operated by NorthBay Healthcare, the path of some of the wildfires prompted officials to review their evacuation procedures, said spokesperson Steve Huddleston. They ultimately avoided the need to evacuate patients, and new ones arrived with COVID-like symptoms that may actually have been from smoke inhalation.

Huddleston said NorthBay’s intake process “calls for anyone with COVID characteristics to be handled as [a] patient under investigation for COVID, which means they’re separated, screened and managed by staff in special PPE.” At the two hospitals, which have handled nearly 200 COVID cases so far, the protocol is well established.

Hospitals in California, though not under siege in most cases, are dealing with multiple issues they might typically face only sporadically. In Napa County, Adventist Health St. Helena Hospital evacuated 51 patients on a single August night as a fire approached, moving them to 10 other facilities according to their needs and bed space. After a 10-day closure, the hospital was allowed to reopen as evacuation orders were lifted, the fire having been contained some distance away.

The wildfires are also taking a personal toll on health care workers. CommuniCare’s Marshall lost her family’s home in rural Winters, along with 20 acres of olive trees and other plantings that surrounded it, in the Aug. 19 fires that swept through Solano County.

“They called it a ‘firenado,’ ” Marshall said. An apparent confluence of three fires raged out of control, demolishing thousands of acres. With her family safely accounted for and temporary housing arranged by a friend, she returned to work. “Our clinics interact with a very vulnerable population,” she said, “and this is a critical time for them.”

While she pondered how her family would rebuild, the CEO was faced with another immediate crisis: the clinic’s shortage of supplies. Last month, CommuniCare got down to 19 COVID test kits on hand, and ran so low on swabs “that we were literally turning to our veterinary friends for reinforcements,” the doctor said. The clinic’s COVID test results, meanwhile, were taking nearly two weeks to be returned from an overwhelmed outside lab, rendering contact tracing almost useless.

Those situations have been addressed, at least temporarily, Marshall said. But although the West Coast is in the most dangerous time of year for wildfires, generally September to December, another complication for health providers lies on the horizon: flu season.

The Southern Hemisphere, whose influenza trends during our summer months typically predict what’s to come for the U.S., has had very little of the disease this year, presumably because of restricted travel, social distancing and face masks. But it’s too early to be sure what the U.S. flu season will entail.

“You can start to see some cases of the flu in late October,” said Marshall, “and the reality is that it’s going to carry a number of characteristics that could also be symptomatic of COVID. And nothing changes: You have to rule it out, just to eliminate the risk.”

KHN (Kaiser Health News) is a nonprofit news service covering health issues. It is an editorially independent program of KFF (Kaiser Family Foundation), which is not affiliated with Kaiser Permanente. This KHN story first published on California Healthline, a service of the California Health Care Foundation.

The patients walk into Dr. Melissa Marshall’s community clinics in Northern California with the telltale symptoms. They’re having trouble breathing. It may even hurt to inhale. They’ve got a cough, and the sore throat is definitely there.

A straight case of COVID-19? Not so fast. This is wildfire country.

Up and down the West Coast, hospitals and health facilities are reporting an influx of patients with problems most likely related to smoke inhalation. As fires rage largely uncontrolled amid dry heat and high winds, smoke and ash are billowing and settling on coastal areas like San Francisco and cities and towns hundreds of miles inland as well, turning the sky orange or gray and making even ordinary breathing difficult.

But that, Marshall said, is only part of the challenge. Facilities already strapped for testing supplies and personal protective equipment must first rule out COVID-19 in these patients, because many of the symptoms they present with are the same as those caused by the virus.

“Obviously, there’s overlap in the symptoms,” said Marshall, the CEO of CommuniCare, a collection of six clinics in Yolo County, near Sacramento, that treats mostly underinsured and uninsured patients. “Any time someone comes in with even some of those symptoms, we ask ourselves, ‘Is it COVID?’ At the end of the day, clinically speaking, I still want to rule out the virus.”

The protocol is to treat the symptoms, whatever their cause, while recommending that the patient quarantine until test results for the virus come back, she said.

It is a scene playing out in numerous hospitals. Administrators and physicians, finely attuned to COVID-19’s ability to spread quickly and wreak havoc, simply won’t take a chance when they recognize symptoms that could emanate from the virus.

“We’ve seen an increase in patients presenting to the emergency department with respiratory distress,” said Dr. Nanette Mickiewicz, president and CEO of Dominican Hospital in Santa Cruz. “As this can also be a symptom of COVID-19, we’re treating these patients as we would any person under investigation for coronavirus until we can rule them out through our screening process.” During the workup, symptoms that are more specific to COVID-19, like fever, would become apparent.

For the workers at Dominican, the issue moved to the top of the list quickly. Santa Cruz and San Mateo counties have borne the brunt of the CZU Lightning Complex fires, which as of Sept. 10 had burned more than 86,000 acres, destroying 1,100 structures and threatening more than 7,600 others. Nearly a month after they began, the fires were approximately 84% contained, but thousands of people remained evacuated.

Dominican, a Dignity Health hospital, is “open, safe and providing care,” Mickiewicz said. Multiple tents erected outside the building serve as an extension of its ER waiting room. They also are used to perform what has come to be understood as an essential role: separating those with symptoms of COVID-19 from those without.

At the two Solano County hospitals operated by NorthBay Healthcare, the path of some of the wildfires prompted officials to review their evacuation procedures, said spokesperson Steve Huddleston. They ultimately avoided the need to evacuate patients, and new ones arrived with COVID-like symptoms that may actually have been from smoke inhalation.

Huddleston said NorthBay’s intake process “calls for anyone with COVID characteristics to be handled as [a] patient under investigation for COVID, which means they’re separated, screened and managed by staff in special PPE.” At the two hospitals, which have handled nearly 200 COVID cases so far, the protocol is well established.

Hospitals in California, though not under siege in most cases, are dealing with multiple issues they might typically face only sporadically. In Napa County, Adventist Health St. Helena Hospital evacuated 51 patients on a single August night as a fire approached, moving them to 10 other facilities according to their needs and bed space. After a 10-day closure, the hospital was allowed to reopen as evacuation orders were lifted, the fire having been contained some distance away.

The wildfires are also taking a personal toll on health care workers. CommuniCare’s Marshall lost her family’s home in rural Winters, along with 20 acres of olive trees and other plantings that surrounded it, in the Aug. 19 fires that swept through Solano County.

“They called it a ‘firenado,’ ” Marshall said. An apparent confluence of three fires raged out of control, demolishing thousands of acres. With her family safely accounted for and temporary housing arranged by a friend, she returned to work. “Our clinics interact with a very vulnerable population,” she said, “and this is a critical time for them.”

While she pondered how her family would rebuild, the CEO was faced with another immediate crisis: the clinic’s shortage of supplies. Last month, CommuniCare got down to 19 COVID test kits on hand, and ran so low on swabs “that we were literally turning to our veterinary friends for reinforcements,” the doctor said. The clinic’s COVID test results, meanwhile, were taking nearly two weeks to be returned from an overwhelmed outside lab, rendering contact tracing almost useless.

Those situations have been addressed, at least temporarily, Marshall said. But although the West Coast is in the most dangerous time of year for wildfires, generally September to December, another complication for health providers lies on the horizon: flu season.

The Southern Hemisphere, whose influenza trends during our summer months typically predict what’s to come for the U.S., has had very little of the disease this year, presumably because of restricted travel, social distancing and face masks. But it’s too early to be sure what the U.S. flu season will entail.

“You can start to see some cases of the flu in late October,” said Marshall, “and the reality is that it’s going to carry a number of characteristics that could also be symptomatic of COVID. And nothing changes: You have to rule it out, just to eliminate the risk.”

KHN (Kaiser Health News) is a nonprofit news service covering health issues. It is an editorially independent program of KFF (Kaiser Family Foundation), which is not affiliated with Kaiser Permanente. This KHN story first published on California Healthline, a service of the California Health Care Foundation.

Continued use of tumor necrosis factor inhibitors or methotrexate is acceptable in most patients who acquire COVID-19, results of a recent cohort study suggest.

Among patients on tumor necrosis factor inhibitors (TNFi) or methotrexate who developed COVID-19, death and hospitalization rates were similar to matched COVID-19 patients not on those medications, according to authors of the multicenter research network study.

Reassuringly, likelihood of hospitalization and mortality were not significantly different between 214 patients with COVID-19 taking TNFi or methotrexate and 31,862 matched COVID-19 patients not on those medications, according to the investigators, whose findings were published recently in the Journal of the American Academy of Dermatology.

Zachary Zinn, MD, corresponding author on the study, said in an interview that the findings suggest these medicines can be safely continued in the majority of patients taking them during the COVID-19 pandemic.

“If you’re a prescribing physician who’s giving patients TNF inhibitors or methotrexate or both, I think you can comfortably tell your patients there is good data that these do not lead to worse outcomes if you get COVID-19,” said Dr. Zinn, associate professor in the department of dermatology at West Virginia University, Morgantown.

The findings from these researchers corroborate a growing body of evidence suggesting that immunosuppressive treatments can be continued in patients with dermatologic and rheumatic conditions.

In recent guidance from the National Psoriasis Foundation, released Sept. 4, an expert consensus panel cited 15 studies that they said suggested that treatments for psoriasis or psoriatic arthritis “do not meaningfully alter the risk of acquiring SARS-CoV-2 infection or having worse COVID-19 outcomes.”

That said, the data to date are mainly from small case series and registry studies based on spontaneously reported COVID-19 cases, which suggests a continued need for shared decision making. In addition, chronic systemic corticosteroids should be avoided for management of psoriatic arthritis, the guidance states, based on rheumatology and gastroenterology literature suggesting this treatment is linked to worse COVID-19 outcomes.

In the interview, Dr. Zinn noted that some previous studies of immunosuppressive treatments in patients who acquire COVID-19 have aggregated data on numerous classes of biologic medications, lessening the strength of data for each specific medication.

“By focusing specifically on TNF inhibitors and methotrexate, this study gives better guidance to prescribers of these medications,” he said.

To see whether TNFi or methotrexate increased risk of worsened COVID-19 outcomes, Dr. Zinn and coinvestigators evaluated data from TriNetX, a research network that includes approximately 53 million unique patient records, predominantly in the United States.

They identified 32,076 adult patients with COVID-19, of whom 214 had recent exposure to TNFi or methotrexate. The patients in the TNFi/methotrexate group were similar in age to those without exposure to those drugs, at 55.1 versus 53.2 years, respectively. However, patients in the drug exposure group were more frequently White, female, and had substantially more comorbidities, including diabetes and obesity, according to the investigators.

Nevertheless, the likelihood of hospitalization was not statistically different in the TNFi/methotrexate group versus the non-TNFi/methotrexate group, with a risk ratio of 0.91 (95% confidence interval, 0.68-1.22; P = .5260).

Likewise, the likelihood of death was not different between groups, with a RR of 0.87 (95% CI, 0.42-1.78; P = .6958). Looking at subgroups of patients exposed to TNFi or methotrexate only didn’t change the results, the investigators added.

Taken together, the findings argue against interruption of these treatments because of the fear of the possibly worse COVID-19 outcomes, the investigators concluded, although they emphasized the need for more research.

“Because the COVID-19 pandemic is ongoing, there is a desperate need for evidence-based data on biologic and immunomodulator exposure in the setting of COVID-19 infection,” they wrote.

Dr. Zinn and coauthors reported no conflicts of interest and no funding sources related to the study.

SOURCE: Zinn Z et al. J Am Acad Dermatol. 2020 Sep 11. doi: 10.1016/j.jaad.2020.09.009.

Continued use of tumor necrosis factor inhibitors or methotrexate is acceptable in most patients who acquire COVID-19, results of a recent cohort study suggest.

Among patients on tumor necrosis factor inhibitors (TNFi) or methotrexate who developed COVID-19, death and hospitalization rates were similar to matched COVID-19 patients not on those medications, according to authors of the multicenter research network study.

Reassuringly, likelihood of hospitalization and mortality were not significantly different between 214 patients with COVID-19 taking TNFi or methotrexate and 31,862 matched COVID-19 patients not on those medications, according to the investigators, whose findings were published recently in the Journal of the American Academy of Dermatology.

Zachary Zinn, MD, corresponding author on the study, said in an interview that the findings suggest these medicines can be safely continued in the majority of patients taking them during the COVID-19 pandemic.

“If you’re a prescribing physician who’s giving patients TNF inhibitors or methotrexate or both, I think you can comfortably tell your patients there is good data that these do not lead to worse outcomes if you get COVID-19,” said Dr. Zinn, associate professor in the department of dermatology at West Virginia University, Morgantown.

The findings from these researchers corroborate a growing body of evidence suggesting that immunosuppressive treatments can be continued in patients with dermatologic and rheumatic conditions.

In recent guidance from the National Psoriasis Foundation, released Sept. 4, an expert consensus panel cited 15 studies that they said suggested that treatments for psoriasis or psoriatic arthritis “do not meaningfully alter the risk of acquiring SARS-CoV-2 infection or having worse COVID-19 outcomes.”

That said, the data to date are mainly from small case series and registry studies based on spontaneously reported COVID-19 cases, which suggests a continued need for shared decision making. In addition, chronic systemic corticosteroids should be avoided for management of psoriatic arthritis, the guidance states, based on rheumatology and gastroenterology literature suggesting this treatment is linked to worse COVID-19 outcomes.

In the interview, Dr. Zinn noted that some previous studies of immunosuppressive treatments in patients who acquire COVID-19 have aggregated data on numerous classes of biologic medications, lessening the strength of data for each specific medication.

“By focusing specifically on TNF inhibitors and methotrexate, this study gives better guidance to prescribers of these medications,” he said.

To see whether TNFi or methotrexate increased risk of worsened COVID-19 outcomes, Dr. Zinn and coinvestigators evaluated data from TriNetX, a research network that includes approximately 53 million unique patient records, predominantly in the United States.

They identified 32,076 adult patients with COVID-19, of whom 214 had recent exposure to TNFi or methotrexate. The patients in the TNFi/methotrexate group were similar in age to those without exposure to those drugs, at 55.1 versus 53.2 years, respectively. However, patients in the drug exposure group were more frequently White, female, and had substantially more comorbidities, including diabetes and obesity, according to the investigators.

Nevertheless, the likelihood of hospitalization was not statistically different in the TNFi/methotrexate group versus the non-TNFi/methotrexate group, with a risk ratio of 0.91 (95% confidence interval, 0.68-1.22; P = .5260).

Likewise, the likelihood of death was not different between groups, with a RR of 0.87 (95% CI, 0.42-1.78; P = .6958). Looking at subgroups of patients exposed to TNFi or methotrexate only didn’t change the results, the investigators added.

Taken together, the findings argue against interruption of these treatments because of the fear of the possibly worse COVID-19 outcomes, the investigators concluded, although they emphasized the need for more research.

“Because the COVID-19 pandemic is ongoing, there is a desperate need for evidence-based data on biologic and immunomodulator exposure in the setting of COVID-19 infection,” they wrote.

Dr. Zinn and coauthors reported no conflicts of interest and no funding sources related to the study.

SOURCE: Zinn Z et al. J Am Acad Dermatol. 2020 Sep 11. doi: 10.1016/j.jaad.2020.09.009.

Continued use of tumor necrosis factor inhibitors or methotrexate is acceptable in most patients who acquire COVID-19, results of a recent cohort study suggest.

Among patients on tumor necrosis factor inhibitors (TNFi) or methotrexate who developed COVID-19, death and hospitalization rates were similar to matched COVID-19 patients not on those medications, according to authors of the multicenter research network study.

Reassuringly, likelihood of hospitalization and mortality were not significantly different between 214 patients with COVID-19 taking TNFi or methotrexate and 31,862 matched COVID-19 patients not on those medications, according to the investigators, whose findings were published recently in the Journal of the American Academy of Dermatology.

Zachary Zinn, MD, corresponding author on the study, said in an interview that the findings suggest these medicines can be safely continued in the majority of patients taking them during the COVID-19 pandemic.

“If you’re a prescribing physician who’s giving patients TNF inhibitors or methotrexate or both, I think you can comfortably tell your patients there is good data that these do not lead to worse outcomes if you get COVID-19,” said Dr. Zinn, associate professor in the department of dermatology at West Virginia University, Morgantown.

The findings from these researchers corroborate a growing body of evidence suggesting that immunosuppressive treatments can be continued in patients with dermatologic and rheumatic conditions.

In recent guidance from the National Psoriasis Foundation, released Sept. 4, an expert consensus panel cited 15 studies that they said suggested that treatments for psoriasis or psoriatic arthritis “do not meaningfully alter the risk of acquiring SARS-CoV-2 infection or having worse COVID-19 outcomes.”

That said, the data to date are mainly from small case series and registry studies based on spontaneously reported COVID-19 cases, which suggests a continued need for shared decision making. In addition, chronic systemic corticosteroids should be avoided for management of psoriatic arthritis, the guidance states, based on rheumatology and gastroenterology literature suggesting this treatment is linked to worse COVID-19 outcomes.

In the interview, Dr. Zinn noted that some previous studies of immunosuppressive treatments in patients who acquire COVID-19 have aggregated data on numerous classes of biologic medications, lessening the strength of data for each specific medication.

“By focusing specifically on TNF inhibitors and methotrexate, this study gives better guidance to prescribers of these medications,” he said.

To see whether TNFi or methotrexate increased risk of worsened COVID-19 outcomes, Dr. Zinn and coinvestigators evaluated data from TriNetX, a research network that includes approximately 53 million unique patient records, predominantly in the United States.

They identified 32,076 adult patients with COVID-19, of whom 214 had recent exposure to TNFi or methotrexate. The patients in the TNFi/methotrexate group were similar in age to those without exposure to those drugs, at 55.1 versus 53.2 years, respectively. However, patients in the drug exposure group were more frequently White, female, and had substantially more comorbidities, including diabetes and obesity, according to the investigators.

Nevertheless, the likelihood of hospitalization was not statistically different in the TNFi/methotrexate group versus the non-TNFi/methotrexate group, with a risk ratio of 0.91 (95% confidence interval, 0.68-1.22; P = .5260).

Likewise, the likelihood of death was not different between groups, with a RR of 0.87 (95% CI, 0.42-1.78; P = .6958). Looking at subgroups of patients exposed to TNFi or methotrexate only didn’t change the results, the investigators added.

Taken together, the findings argue against interruption of these treatments because of the fear of the possibly worse COVID-19 outcomes, the investigators concluded, although they emphasized the need for more research.

“Because the COVID-19 pandemic is ongoing, there is a desperate need for evidence-based data on biologic and immunomodulator exposure in the setting of COVID-19 infection,” they wrote.

Dr. Zinn and coauthors reported no conflicts of interest and no funding sources related to the study.

SOURCE: Zinn Z et al. J Am Acad Dermatol. 2020 Sep 11. doi: 10.1016/j.jaad.2020.09.009.

For the first time, researchers detected active and prolonged infection of SARS-CoV-2 virus in the gastrointestinal (GI) tracts of people with confirmed COVID-19. Stool tests were positive among people with no GI symptoms, and in some cases up to 6 days after nasopharyngeal swabs yielded negative results.

The small pilot study suggests a quiescent but active infection in the gut. Stool testing revealed genomic evidence of active infection in 7 of the 15 participants tested in one of two hospitals in Hong Kong.

“We found active and prolonged SARS-CoV-2 infection in the stool of patients with COVID-19, even after recovery, suggesting that coronavirus could remain in the gut of asymptomatic carriers,” senior author Siew C. Ng, MBBS, PhD, told Medscape Medical News.

“Due to the potential threat of fecal-oral transmission, it is important to maintain long-term coronavirus and health surveillance,” said Ng, Associate Director of the Centre for Gut Microbiota Research at the Chinese University of Hong Kong (CUHK).

“Discharged patients and their caretakers should remain vigilant and observe strict personal and toileting hygiene,” she added.

The prospective, observational study was published online July 20 in Gut.
 

Ramping up COVID-19 testing

As a follow-up to these and other findings – including the testing of more than 2,000 stool samples in children and the needy arriving at Hong Kong airports starting March 29 – the same investigators are establishing a CUHK Coronavirus Testing Center.

As of Aug. 31, the detection rate in tested children was 0.28%. The Center plans to offer as many as 2,000 COVID-19 tests daily going forward to help identify asymptomatic carriers, the investigators announced in a Sept. 7 news release.

In contrast to nasopharyngeal sampling, stool specimens are “more convenient, safe and non-invasive to collect in the pediatric population,” professor Paul Chan, chairman of the Department of Microbiology, CU Medicine, said in the release. “This makes the stool test a better option for COVID-19 screening in babies, young children and those whose respiratory samples are difficult to collect.”

Even though previous researchers identified SARS-CoV-2 in the stool, the activity and infectivity of the virus in the gastrointestinal tract during and after COVID-19 respiratory positivity remained largely unknown.
 

Active infection detected in stool

This prospective study involved 15 people hospitalized with COVID-19 in March and April. Participants were a median 55 years old (range, 22-71 years) and all presented with respiratory symptoms. Only one patient had concurrent GI symptoms at admission. Median length of stay was 21 days.

Investigators collected fecal samples serially until discharge. They extracted viral DNA to test for transcriptional genetic evidence of active infection, which they detected in 7 of 15 patients. The patient with GI symptoms was not in this positive group.

The findings suggest a “quiescent but active GI infection,” the researchers note.

Three of the seven patients continued to test positive for active infection in their stool up to 6 days after respiratory clearance of SARS-CoV-2.
 

Microbiome matters

The investigators also extracted, amplified, and sequenced DNA from the stool samples. Their “metagenomic” profile revealed the type and amounts of bacterial strains in each patient’s gut microbiome.

Interestingly, bacterial strains differed between people with high SARS-CoV-2 infectivity versus participants with low to no evidence of active infection.

“Stool with high viral activity had higher abundance of pathogenic bacteria,” Ng said. In contrast, people with low or no infectivity had more beneficial bacterial strains, including bacteria that play critical roles in boosting host immunity.

Each patient’s microbiome composition changed during the course of the study. Whether the microbiome alters the course of COVID-19 or COVID-19 alters the composition of the microbiome requires further study, the authors note.

The U.S. Food and Drug Administration and officials in other countries have contacted the Hong Kong investigators for more details on their stool testing strategy, professor Francis K.L. Chan, dean of the faculty of medicine and director of the Centre for Gut Microbiota Research at CUHK, stated in the news release.

Further research into revealing the infectivity and pathogenesis of SARS-CoV-2 in the GI tract is warranted. The value of modulating the human gut microbiome in this patient population could be worthwhile to investigate as well, the researchers said.
 

Novel finding

“Some of it is not-so-new news and some is new,” David A. Johnson, MD, told Medscape Medical News when asked to comment on the study.

For example, previous researchers have detected SARS-CoV-2 virus in the stool. However, this study takes it a step further and shows that the virus present in stool can remain infectious on the basis of metagenomic signatures.

Furthermore, the virus can remain infectious in the gut even after a patient tests negative for COVID-19 through nasopharyngeal sampling – in this report up to 6 days later, said Johnson, professor of medicine, chief of gastroenterology, Eastern Virginia Medical School in Norfolk, Va.

The study carries important implications for people who currently test negative following active COVID-19 infection, he added. Centers for Disease Control and Prevention criteria clear a person as negative after two nasopharyngeal swabs at least 24 hours apart.

People in this category could believe they are no longer infectious and might return to a setting where they could infect others, Johnson said.

One potential means for spreading SARS-CoV-2 from the gut is from a toilet plume, as Johnson previously highlighted in a video report for Medscape Medical News.

The study authors disclosed no relevant financial relationships. Johnson serves as an adviser to WebMD/Medscape.
 

This article first appeared on Medscape.com.

For the first time, researchers detected active and prolonged infection of SARS-CoV-2 virus in the gastrointestinal (GI) tracts of people with confirmed COVID-19. Stool tests were positive among people with no GI symptoms, and in some cases up to 6 days after nasopharyngeal swabs yielded negative results.

The small pilot study suggests a quiescent but active infection in the gut. Stool testing revealed genomic evidence of active infection in 7 of the 15 participants tested in one of two hospitals in Hong Kong.

“We found active and prolonged SARS-CoV-2 infection in the stool of patients with COVID-19, even after recovery, suggesting that coronavirus could remain in the gut of asymptomatic carriers,” senior author Siew C. Ng, MBBS, PhD, told Medscape Medical News.

“Due to the potential threat of fecal-oral transmission, it is important to maintain long-term coronavirus and health surveillance,” said Ng, Associate Director of the Centre for Gut Microbiota Research at the Chinese University of Hong Kong (CUHK).

“Discharged patients and their caretakers should remain vigilant and observe strict personal and toileting hygiene,” she added.

The prospective, observational study was published online July 20 in Gut.
 

Ramping up COVID-19 testing

As a follow-up to these and other findings – including the testing of more than 2,000 stool samples in children and the needy arriving at Hong Kong airports starting March 29 – the same investigators are establishing a CUHK Coronavirus Testing Center.

As of Aug. 31, the detection rate in tested children was 0.28%. The Center plans to offer as many as 2,000 COVID-19 tests daily going forward to help identify asymptomatic carriers, the investigators announced in a Sept. 7 news release.

In contrast to nasopharyngeal sampling, stool specimens are “more convenient, safe and non-invasive to collect in the pediatric population,” professor Paul Chan, chairman of the Department of Microbiology, CU Medicine, said in the release. “This makes the stool test a better option for COVID-19 screening in babies, young children and those whose respiratory samples are difficult to collect.”

Even though previous researchers identified SARS-CoV-2 in the stool, the activity and infectivity of the virus in the gastrointestinal tract during and after COVID-19 respiratory positivity remained largely unknown.
 

Active infection detected in stool

This prospective study involved 15 people hospitalized with COVID-19 in March and April. Participants were a median 55 years old (range, 22-71 years) and all presented with respiratory symptoms. Only one patient had concurrent GI symptoms at admission. Median length of stay was 21 days.

Investigators collected fecal samples serially until discharge. They extracted viral DNA to test for transcriptional genetic evidence of active infection, which they detected in 7 of 15 patients. The patient with GI symptoms was not in this positive group.

The findings suggest a “quiescent but active GI infection,” the researchers note.

Three of the seven patients continued to test positive for active infection in their stool up to 6 days after respiratory clearance of SARS-CoV-2.
 

Microbiome matters

The investigators also extracted, amplified, and sequenced DNA from the stool samples. Their “metagenomic” profile revealed the type and amounts of bacterial strains in each patient’s gut microbiome.

Interestingly, bacterial strains differed between people with high SARS-CoV-2 infectivity versus participants with low to no evidence of active infection.

“Stool with high viral activity had higher abundance of pathogenic bacteria,” Ng said. In contrast, people with low or no infectivity had more beneficial bacterial strains, including bacteria that play critical roles in boosting host immunity.

Each patient’s microbiome composition changed during the course of the study. Whether the microbiome alters the course of COVID-19 or COVID-19 alters the composition of the microbiome requires further study, the authors note.

The U.S. Food and Drug Administration and officials in other countries have contacted the Hong Kong investigators for more details on their stool testing strategy, professor Francis K.L. Chan, dean of the faculty of medicine and director of the Centre for Gut Microbiota Research at CUHK, stated in the news release.

Further research into revealing the infectivity and pathogenesis of SARS-CoV-2 in the GI tract is warranted. The value of modulating the human gut microbiome in this patient population could be worthwhile to investigate as well, the researchers said.
 

Novel finding

“Some of it is not-so-new news and some is new,” David A. Johnson, MD, told Medscape Medical News when asked to comment on the study.

For example, previous researchers have detected SARS-CoV-2 virus in the stool. However, this study takes it a step further and shows that the virus present in stool can remain infectious on the basis of metagenomic signatures.

Furthermore, the virus can remain infectious in the gut even after a patient tests negative for COVID-19 through nasopharyngeal sampling – in this report up to 6 days later, said Johnson, professor of medicine, chief of gastroenterology, Eastern Virginia Medical School in Norfolk, Va.

The study carries important implications for people who currently test negative following active COVID-19 infection, he added. Centers for Disease Control and Prevention criteria clear a person as negative after two nasopharyngeal swabs at least 24 hours apart.

People in this category could believe they are no longer infectious and might return to a setting where they could infect others, Johnson said.

One potential means for spreading SARS-CoV-2 from the gut is from a toilet plume, as Johnson previously highlighted in a video report for Medscape Medical News.

The study authors disclosed no relevant financial relationships. Johnson serves as an adviser to WebMD/Medscape.
 

This article first appeared on Medscape.com.

For the first time, researchers detected active and prolonged infection of SARS-CoV-2 virus in the gastrointestinal (GI) tracts of people with confirmed COVID-19. Stool tests were positive among people with no GI symptoms, and in some cases up to 6 days after nasopharyngeal swabs yielded negative results.

The small pilot study suggests a quiescent but active infection in the gut. Stool testing revealed genomic evidence of active infection in 7 of the 15 participants tested in one of two hospitals in Hong Kong.

“We found active and prolonged SARS-CoV-2 infection in the stool of patients with COVID-19, even after recovery, suggesting that coronavirus could remain in the gut of asymptomatic carriers,” senior author Siew C. Ng, MBBS, PhD, told Medscape Medical News.

“Due to the potential threat of fecal-oral transmission, it is important to maintain long-term coronavirus and health surveillance,” said Ng, Associate Director of the Centre for Gut Microbiota Research at the Chinese University of Hong Kong (CUHK).

“Discharged patients and their caretakers should remain vigilant and observe strict personal and toileting hygiene,” she added.

The prospective, observational study was published online July 20 in Gut.
 

Ramping up COVID-19 testing

As a follow-up to these and other findings – including the testing of more than 2,000 stool samples in children and the needy arriving at Hong Kong airports starting March 29 – the same investigators are establishing a CUHK Coronavirus Testing Center.

As of Aug. 31, the detection rate in tested children was 0.28%. The Center plans to offer as many as 2,000 COVID-19 tests daily going forward to help identify asymptomatic carriers, the investigators announced in a Sept. 7 news release.

In contrast to nasopharyngeal sampling, stool specimens are “more convenient, safe and non-invasive to collect in the pediatric population,” professor Paul Chan, chairman of the Department of Microbiology, CU Medicine, said in the release. “This makes the stool test a better option for COVID-19 screening in babies, young children and those whose respiratory samples are difficult to collect.”

Even though previous researchers identified SARS-CoV-2 in the stool, the activity and infectivity of the virus in the gastrointestinal tract during and after COVID-19 respiratory positivity remained largely unknown.
 

Active infection detected in stool

This prospective study involved 15 people hospitalized with COVID-19 in March and April. Participants were a median 55 years old (range, 22-71 years) and all presented with respiratory symptoms. Only one patient had concurrent GI symptoms at admission. Median length of stay was 21 days.

Investigators collected fecal samples serially until discharge. They extracted viral DNA to test for transcriptional genetic evidence of active infection, which they detected in 7 of 15 patients. The patient with GI symptoms was not in this positive group.

The findings suggest a “quiescent but active GI infection,” the researchers note.

Three of the seven patients continued to test positive for active infection in their stool up to 6 days after respiratory clearance of SARS-CoV-2.
 

Microbiome matters

The investigators also extracted, amplified, and sequenced DNA from the stool samples. Their “metagenomic” profile revealed the type and amounts of bacterial strains in each patient’s gut microbiome.

Interestingly, bacterial strains differed between people with high SARS-CoV-2 infectivity versus participants with low to no evidence of active infection.

“Stool with high viral activity had higher abundance of pathogenic bacteria,” Ng said. In contrast, people with low or no infectivity had more beneficial bacterial strains, including bacteria that play critical roles in boosting host immunity.

Each patient’s microbiome composition changed during the course of the study. Whether the microbiome alters the course of COVID-19 or COVID-19 alters the composition of the microbiome requires further study, the authors note.

The U.S. Food and Drug Administration and officials in other countries have contacted the Hong Kong investigators for more details on their stool testing strategy, professor Francis K.L. Chan, dean of the faculty of medicine and director of the Centre for Gut Microbiota Research at CUHK, stated in the news release.

Further research into revealing the infectivity and pathogenesis of SARS-CoV-2 in the GI tract is warranted. The value of modulating the human gut microbiome in this patient population could be worthwhile to investigate as well, the researchers said.
 

Novel finding

“Some of it is not-so-new news and some is new,” David A. Johnson, MD, told Medscape Medical News when asked to comment on the study.

For example, previous researchers have detected SARS-CoV-2 virus in the stool. However, this study takes it a step further and shows that the virus present in stool can remain infectious on the basis of metagenomic signatures.

Furthermore, the virus can remain infectious in the gut even after a patient tests negative for COVID-19 through nasopharyngeal sampling – in this report up to 6 days later, said Johnson, professor of medicine, chief of gastroenterology, Eastern Virginia Medical School in Norfolk, Va.

The study carries important implications for people who currently test negative following active COVID-19 infection, he added. Centers for Disease Control and Prevention criteria clear a person as negative after two nasopharyngeal swabs at least 24 hours apart.

People in this category could believe they are no longer infectious and might return to a setting where they could infect others, Johnson said.

One potential means for spreading SARS-CoV-2 from the gut is from a toilet plume, as Johnson previously highlighted in a video report for Medscape Medical News.

The study authors disclosed no relevant financial relationships. Johnson serves as an adviser to WebMD/Medscape.
 

This article first appeared on Medscape.com.

Two important lessons about managing patients with multiple sclerosis (MS) and COVID-19 have emerged from a hospital clinic in Madrid that managed COVID-infected patients with MS through the peak of the pandemic: Combined polymeric chain reaction and serology testing helped avoid disease reactivation in asymptomatic carriers during the pandemic peak, although after the peak PCR alone proved just as effective; and infected MS patients could stay on their MS medications while being treated for COVID-19, as fewer than one in five required hospitalization.

Virginia Meca-Lallana, MD, a neurologist and coordinator of the demyelinating diseases unit at the Hospital of the University of the Princess in Madrid, and colleagues presented their findings in two posters at the Joint European Committee for Treatment and Research in Multiple Sclerosis-Americas Committee for Treatment and Research in Multiple Sclerosis (ECTRIMS-ACTRIMS) 2020, this year known as MSVirtual2020.

“MS treatments don’t seem to make the prognosis of COVID-19 worse, but it is very important to evaluate other risk factors,” Dr. Meca-Lallana said in an interview. “MS treatments prevent the patients’ disability, and it is very important not to stop them if it isn’t necessary.”

The results arose from a multidisciplinary safety protocol involving neurology, microbiology, and preventive medicine that the University of Princess physicians developed to keep MS stable in patients diagnosed with SARS-CoV-2.

The researchers obtained 152 PCR nasopharyngeal swabs and 140 serology tests in 90 patients with MS over 3 months before starting a variety of MS treatments: Natalizumab (96 tests), ocrelizumab (36), rituximab (3), methylprednisolone (7), cladribine (4), and dimethyl fumarate (3). The protocol identified 7 asymptomatic carriers—7.8% of the total population—5 of whom had positive immunoglobulin M and G serology. The study also confirmed 5 patients with positive IgM+IgG serology post-infection, but no COVID-19 reactivations were detected after implementation of the protocol.

“The safety protocol reached its objective of avoiding disease reactivation and clinical activation in asymptomatic carriers,” Dr. Meca-Lallana said.

The second poster she presented reported on the real-world experience with SARS-CoV-2 in the MS unit at her hospital. The observational, prospective study included 41 cases, 38 of which were relapsing-remitting MS and the remainder progressive MS. The patients had MS for an average of 9 years.

“We need more patients to draw more robust conclusions, but in our patients, MS treatments seem safe in this situation,” Dr. Meca-Lallana said. “We did not discontinue treatments, and after our first results, we only delayed treatments in patients with any additional comorbidity or when coming to the hospital was not safe.”

A total of 39 patients were taking disease-modifying therapies (DMTs): 46.3% with oral agents, 39% with monoclonal antibodies, and 10% with injectable agents; 27 patients were previously treated with other DMTs. The median Expanded Disability Status Scale (EDSS) was 2.5, and 11 patients had clinical activity the previous year. Eighteen cases were confirmed by PCR or serology, or both, and 23 were diagnosed clinically.

Among the patients with MS and COVID-19, 17% were admitted to the hospital. Six patients had pneumonia, but none required admission to the intensive care unit, and no deaths occurred. Three patients had other comorbidities. Admitted patients tended to be older and had higher EDSS scores, although the difference was not statistically significant. MS worsened in 7 patients, and 10 patients stopped or paused DMTs because of the infection.

“Multiple sclerosis is a weakening illness,” Dr. Meca-Lallana said. “MS treatments do not seem to make the prognosis of COVID-19 worse, but it is very important to evaluate other risk factors.”

The SARS-CoV-2 infection does not seem to result in a more aggressive form of the disease in MS patients, and selective immunosuppression may improve their outcomes, she noted.

“MS treatments avoid the patient’s disability,” the investigator added, “and it is very important not to stop them if it isn’t necessary.”

Dr. Meca-Lallana had no relevant financial disclosures.

Two important lessons about managing patients with multiple sclerosis (MS) and COVID-19 have emerged from a hospital clinic in Madrid that managed COVID-infected patients with MS through the peak of the pandemic: Combined polymeric chain reaction and serology testing helped avoid disease reactivation in asymptomatic carriers during the pandemic peak, although after the peak PCR alone proved just as effective; and infected MS patients could stay on their MS medications while being treated for COVID-19, as fewer than one in five required hospitalization.

Virginia Meca-Lallana, MD, a neurologist and coordinator of the demyelinating diseases unit at the Hospital of the University of the Princess in Madrid, and colleagues presented their findings in two posters at the Joint European Committee for Treatment and Research in Multiple Sclerosis-Americas Committee for Treatment and Research in Multiple Sclerosis (ECTRIMS-ACTRIMS) 2020, this year known as MSVirtual2020.

“MS treatments don’t seem to make the prognosis of COVID-19 worse, but it is very important to evaluate other risk factors,” Dr. Meca-Lallana said in an interview. “MS treatments prevent the patients’ disability, and it is very important not to stop them if it isn’t necessary.”

The results arose from a multidisciplinary safety protocol involving neurology, microbiology, and preventive medicine that the University of Princess physicians developed to keep MS stable in patients diagnosed with SARS-CoV-2.

The researchers obtained 152 PCR nasopharyngeal swabs and 140 serology tests in 90 patients with MS over 3 months before starting a variety of MS treatments: Natalizumab (96 tests), ocrelizumab (36), rituximab (3), methylprednisolone (7), cladribine (4), and dimethyl fumarate (3). The protocol identified 7 asymptomatic carriers—7.8% of the total population—5 of whom had positive immunoglobulin M and G serology. The study also confirmed 5 patients with positive IgM+IgG serology post-infection, but no COVID-19 reactivations were detected after implementation of the protocol.

“The safety protocol reached its objective of avoiding disease reactivation and clinical activation in asymptomatic carriers,” Dr. Meca-Lallana said.

The second poster she presented reported on the real-world experience with SARS-CoV-2 in the MS unit at her hospital. The observational, prospective study included 41 cases, 38 of which were relapsing-remitting MS and the remainder progressive MS. The patients had MS for an average of 9 years.

“We need more patients to draw more robust conclusions, but in our patients, MS treatments seem safe in this situation,” Dr. Meca-Lallana said. “We did not discontinue treatments, and after our first results, we only delayed treatments in patients with any additional comorbidity or when coming to the hospital was not safe.”

A total of 39 patients were taking disease-modifying therapies (DMTs): 46.3% with oral agents, 39% with monoclonal antibodies, and 10% with injectable agents; 27 patients were previously treated with other DMTs. The median Expanded Disability Status Scale (EDSS) was 2.5, and 11 patients had clinical activity the previous year. Eighteen cases were confirmed by PCR or serology, or both, and 23 were diagnosed clinically.

Among the patients with MS and COVID-19, 17% were admitted to the hospital. Six patients had pneumonia, but none required admission to the intensive care unit, and no deaths occurred. Three patients had other comorbidities. Admitted patients tended to be older and had higher EDSS scores, although the difference was not statistically significant. MS worsened in 7 patients, and 10 patients stopped or paused DMTs because of the infection.

“Multiple sclerosis is a weakening illness,” Dr. Meca-Lallana said. “MS treatments do not seem to make the prognosis of COVID-19 worse, but it is very important to evaluate other risk factors.”

The SARS-CoV-2 infection does not seem to result in a more aggressive form of the disease in MS patients, and selective immunosuppression may improve their outcomes, she noted.

“MS treatments avoid the patient’s disability,” the investigator added, “and it is very important not to stop them if it isn’t necessary.”

Dr. Meca-Lallana had no relevant financial disclosures.

Two important lessons about managing patients with multiple sclerosis (MS) and COVID-19 have emerged from a hospital clinic in Madrid that managed COVID-infected patients with MS through the peak of the pandemic: Combined polymeric chain reaction and serology testing helped avoid disease reactivation in asymptomatic carriers during the pandemic peak, although after the peak PCR alone proved just as effective; and infected MS patients could stay on their MS medications while being treated for COVID-19, as fewer than one in five required hospitalization.

Virginia Meca-Lallana, MD, a neurologist and coordinator of the demyelinating diseases unit at the Hospital of the University of the Princess in Madrid, and colleagues presented their findings in two posters at the Joint European Committee for Treatment and Research in Multiple Sclerosis-Americas Committee for Treatment and Research in Multiple Sclerosis (ECTRIMS-ACTRIMS) 2020, this year known as MSVirtual2020.

“MS treatments don’t seem to make the prognosis of COVID-19 worse, but it is very important to evaluate other risk factors,” Dr. Meca-Lallana said in an interview. “MS treatments prevent the patients’ disability, and it is very important not to stop them if it isn’t necessary.”

The results arose from a multidisciplinary safety protocol involving neurology, microbiology, and preventive medicine that the University of Princess physicians developed to keep MS stable in patients diagnosed with SARS-CoV-2.

The researchers obtained 152 PCR nasopharyngeal swabs and 140 serology tests in 90 patients with MS over 3 months before starting a variety of MS treatments: Natalizumab (96 tests), ocrelizumab (36), rituximab (3), methylprednisolone (7), cladribine (4), and dimethyl fumarate (3). The protocol identified 7 asymptomatic carriers—7.8% of the total population—5 of whom had positive immunoglobulin M and G serology. The study also confirmed 5 patients with positive IgM+IgG serology post-infection, but no COVID-19 reactivations were detected after implementation of the protocol.

“The safety protocol reached its objective of avoiding disease reactivation and clinical activation in asymptomatic carriers,” Dr. Meca-Lallana said.

The second poster she presented reported on the real-world experience with SARS-CoV-2 in the MS unit at her hospital. The observational, prospective study included 41 cases, 38 of which were relapsing-remitting MS and the remainder progressive MS. The patients had MS for an average of 9 years.

“We need more patients to draw more robust conclusions, but in our patients, MS treatments seem safe in this situation,” Dr. Meca-Lallana said. “We did not discontinue treatments, and after our first results, we only delayed treatments in patients with any additional comorbidity or when coming to the hospital was not safe.”

A total of 39 patients were taking disease-modifying therapies (DMTs): 46.3% with oral agents, 39% with monoclonal antibodies, and 10% with injectable agents; 27 patients were previously treated with other DMTs. The median Expanded Disability Status Scale (EDSS) was 2.5, and 11 patients had clinical activity the previous year. Eighteen cases were confirmed by PCR or serology, or both, and 23 were diagnosed clinically.

Among the patients with MS and COVID-19, 17% were admitted to the hospital. Six patients had pneumonia, but none required admission to the intensive care unit, and no deaths occurred. Three patients had other comorbidities. Admitted patients tended to be older and had higher EDSS scores, although the difference was not statistically significant. MS worsened in 7 patients, and 10 patients stopped or paused DMTs because of the infection.

“Multiple sclerosis is a weakening illness,” Dr. Meca-Lallana said. “MS treatments do not seem to make the prognosis of COVID-19 worse, but it is very important to evaluate other risk factors.”

The SARS-CoV-2 infection does not seem to result in a more aggressive form of the disease in MS patients, and selective immunosuppression may improve their outcomes, she noted.

“MS treatments avoid the patient’s disability,” the investigator added, “and it is very important not to stop them if it isn’t necessary.”

Dr. Meca-Lallana had no relevant financial disclosures.

The nation’s largest physician association is seeking to establish a path to payment for extra practice expenses required to care for patients during the COVID pandemic and possible future public health emergencies.

The American Medical Association on Sept. 8 announced that a new code, 99072, is intended to cover additional supplies, materials, and clinical staff time over and above those usually included in an office visit when performed during a declared public health emergency, as defined by law, attributable to respiratory-transmitted infectious disease, the AMA said in a release.

Fifty national medical specialty societies and other organizations worked with the AMA’s Specialty Society RVS Update Committee over the summer to collect data on the costs of maintaining safe medical offices during the public health emergency. It has submitted recommendations to the Centers for Medicare & Medicaid Services seeking to persuade the federal agencies to recognize the new 99072 payment code.

The intention is to recognize the extra expenses involved in steps now routinely taken to reduce the risk for COVID transmission from office visits, Current Procedural Terminology Editorial Panel Chair Mark S. Synovec, MD, said in an interview. Some practices have adapted by having staff screen patients before they enter offices and making arrangements to keep patients at a safe distance from others during their visits, he said.

“Everyone’s life has significantly changed because of COVID and the health care system has dramatically changed,” Dr. Synovec said. “It was pretty clear that the status quo was not going to work.”

Physician practices will welcome this change, said Veronica Bradley, CPC, a senior industry adviser to the Medical Group Management Association. An office visit that in the past may have involved only basic infection control measures, such as donning a pair of gloves, now may involve clinicians taking the time to put on more extensive protective gear, she said.

“Now they are taking a heck of a lot more precautions, and there’s more time and more supplies being consumed,” Ms. Bradley said in an interview.
 

Code looks ahead to future use

The AMA explained how this new code differs from CPT code 99070, which is typically reported for supplies and materials that may be used or provided to patients during an office visit.

The new 99072 code applies only during declared public health emergencies and applies only to additional items required to support “a safe in-person provision” of evaluation, treatment, and procedures, the AMA said.

“These items contrast with those typically reported with code 99070, which focuses on additional supplies provided over and above those usually included with a specific service, such as drugs, intravenous catheters, or trays,” the AMA said.

The CPT panel sought to structure the new code for covering COVID practice expenses so that it could not be abused, and also looked ahead to the future, Dr. Synovec said.

“It’s a code that you would put on during a public health emergency as defined by law that would be related to a respiratory-transmitted infectious disease. Obviously we meant it for SARS-CoV-2,” he said. “Hopefully we can go another 100 years before we have another pandemic, but we also wanted to prepare something where if we have another airborne respiratory virus that requires additional practice expenses as seen this time, it would be available for use.”

The AMA also announced a second addition, CPT code 86413, that anticipates greater use of quantitative measurements of SARS-CoV-2 antibodies, as opposed to a qualitative assessment (positive/negative) provided by laboratory tests reported by other CPT codes.

More information is available on the AMA website.

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

The nation’s largest physician association is seeking to establish a path to payment for extra practice expenses required to care for patients during the COVID pandemic and possible future public health emergencies.

The American Medical Association on Sept. 8 announced that a new code, 99072, is intended to cover additional supplies, materials, and clinical staff time over and above those usually included in an office visit when performed during a declared public health emergency, as defined by law, attributable to respiratory-transmitted infectious disease, the AMA said in a release.

Fifty national medical specialty societies and other organizations worked with the AMA’s Specialty Society RVS Update Committee over the summer to collect data on the costs of maintaining safe medical offices during the public health emergency. It has submitted recommendations to the Centers for Medicare & Medicaid Services seeking to persuade the federal agencies to recognize the new 99072 payment code.

The intention is to recognize the extra expenses involved in steps now routinely taken to reduce the risk for COVID transmission from office visits, Current Procedural Terminology Editorial Panel Chair Mark S. Synovec, MD, said in an interview. Some practices have adapted by having staff screen patients before they enter offices and making arrangements to keep patients at a safe distance from others during their visits, he said.

“Everyone’s life has significantly changed because of COVID and the health care system has dramatically changed,” Dr. Synovec said. “It was pretty clear that the status quo was not going to work.”

Physician practices will welcome this change, said Veronica Bradley, CPC, a senior industry adviser to the Medical Group Management Association. An office visit that in the past may have involved only basic infection control measures, such as donning a pair of gloves, now may involve clinicians taking the time to put on more extensive protective gear, she said.

“Now they are taking a heck of a lot more precautions, and there’s more time and more supplies being consumed,” Ms. Bradley said in an interview.
 

Code looks ahead to future use

The AMA explained how this new code differs from CPT code 99070, which is typically reported for supplies and materials that may be used or provided to patients during an office visit.

The new 99072 code applies only during declared public health emergencies and applies only to additional items required to support “a safe in-person provision” of evaluation, treatment, and procedures, the AMA said.

“These items contrast with those typically reported with code 99070, which focuses on additional supplies provided over and above those usually included with a specific service, such as drugs, intravenous catheters, or trays,” the AMA said.

The CPT panel sought to structure the new code for covering COVID practice expenses so that it could not be abused, and also looked ahead to the future, Dr. Synovec said.

“It’s a code that you would put on during a public health emergency as defined by law that would be related to a respiratory-transmitted infectious disease. Obviously we meant it for SARS-CoV-2,” he said. “Hopefully we can go another 100 years before we have another pandemic, but we also wanted to prepare something where if we have another airborne respiratory virus that requires additional practice expenses as seen this time, it would be available for use.”

The AMA also announced a second addition, CPT code 86413, that anticipates greater use of quantitative measurements of SARS-CoV-2 antibodies, as opposed to a qualitative assessment (positive/negative) provided by laboratory tests reported by other CPT codes.

More information is available on the AMA website.

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

The nation’s largest physician association is seeking to establish a path to payment for extra practice expenses required to care for patients during the COVID pandemic and possible future public health emergencies.

The American Medical Association on Sept. 8 announced that a new code, 99072, is intended to cover additional supplies, materials, and clinical staff time over and above those usually included in an office visit when performed during a declared public health emergency, as defined by law, attributable to respiratory-transmitted infectious disease, the AMA said in a release.

Fifty national medical specialty societies and other organizations worked with the AMA’s Specialty Society RVS Update Committee over the summer to collect data on the costs of maintaining safe medical offices during the public health emergency. It has submitted recommendations to the Centers for Medicare & Medicaid Services seeking to persuade the federal agencies to recognize the new 99072 payment code.

The intention is to recognize the extra expenses involved in steps now routinely taken to reduce the risk for COVID transmission from office visits, Current Procedural Terminology Editorial Panel Chair Mark S. Synovec, MD, said in an interview. Some practices have adapted by having staff screen patients before they enter offices and making arrangements to keep patients at a safe distance from others during their visits, he said.

“Everyone’s life has significantly changed because of COVID and the health care system has dramatically changed,” Dr. Synovec said. “It was pretty clear that the status quo was not going to work.”

Physician practices will welcome this change, said Veronica Bradley, CPC, a senior industry adviser to the Medical Group Management Association. An office visit that in the past may have involved only basic infection control measures, such as donning a pair of gloves, now may involve clinicians taking the time to put on more extensive protective gear, she said.

“Now they are taking a heck of a lot more precautions, and there’s more time and more supplies being consumed,” Ms. Bradley said in an interview.
 

Code looks ahead to future use

The AMA explained how this new code differs from CPT code 99070, which is typically reported for supplies and materials that may be used or provided to patients during an office visit.

The new 99072 code applies only during declared public health emergencies and applies only to additional items required to support “a safe in-person provision” of evaluation, treatment, and procedures, the AMA said.

“These items contrast with those typically reported with code 99070, which focuses on additional supplies provided over and above those usually included with a specific service, such as drugs, intravenous catheters, or trays,” the AMA said.

The CPT panel sought to structure the new code for covering COVID practice expenses so that it could not be abused, and also looked ahead to the future, Dr. Synovec said.

“It’s a code that you would put on during a public health emergency as defined by law that would be related to a respiratory-transmitted infectious disease. Obviously we meant it for SARS-CoV-2,” he said. “Hopefully we can go another 100 years before we have another pandemic, but we also wanted to prepare something where if we have another airborne respiratory virus that requires additional practice expenses as seen this time, it would be available for use.”

The AMA also announced a second addition, CPT code 86413, that anticipates greater use of quantitative measurements of SARS-CoV-2 antibodies, as opposed to a qualitative assessment (positive/negative) provided by laboratory tests reported by other CPT codes.

More information is available on the AMA website.

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

For children with COVID-19, rates of hospitalization, ICU admission, and ventilator use were similar to those of children with influenza, but rates differed in other respects, according to results of a study published online Sept. 11 in JAMA Network Open.

As winter approaches, distinguishing patients with COVID-19 from those with influenza will become a problem. To assist with that, Xiaoyan Song, PhD, director of the office of infection control and epidemiology at Children’s National Hospital in Washington, D.C., and colleagues investigated commonalities and differences between the clinical symptoms of COVID-19 and influenza in children.

“Distinguishing COVID-19 from flu and other respiratory viral infections remains a challenge to clinicians. Although our study showed that patients with COVID-19 were more likely than patients with flu to report fever, gastrointestinal, and other clinical symptoms at the time of diagnosis, the two groups do have many overlapping clinical symptoms,” Dr. Song said. “Until future data show us otherwise, clinicians need to prepare for managing coinfections of COVID-19 with flu and/or other respiratory viral infections in the upcoming flu season.”

The retrospective cohort study included 315 children diagnosed with laboratory-confirmed COVID-19 between March 25 and May 15, 2020, and 1,402 children diagnosed with laboratory-confirmed seasonal influenza A or influenza B between Oct. 1, 2019, and June 6, 2020, at Children’s National Hospital. The investigation excluded asymptomatic patients who tested positive for COVID-19.

Patients with COVID-19 and patients with influenza were similar with respect to rates of hospitalization (17% vs. 21%; odds ratio, 0.8; 95% confidence interval, 0.6-1.1; P = .15), admission to the ICU (6% vs. 7%; OR, 0.8; 95% CI, 0.5-1.3; P = .42), and use of mechanical ventilation (3% vs. 2%; OR, 1.5; 95% CI, 0.9-2.6; P =.17).

The difference in the duration of ventilation for the two groups was not statistically significant. None of the patients who had COVID-19 or influenza B died, but two patients with influenza A did.

No patients had coinfections, which the researchers attribute to the mid-March shutdown of many schools, which they believe limited the spread of seasonal influenza.

Patients who were hospitalized with COVID-19 were older (median age, 9.7 years; range, 0.06-23.2 years) than those hospitalized with either type of influenza (median age, 4.2 years; range, 0.04-23.1). Patients older than 15 years made up 37% of patients with COVID-19 but only 6% of those with influenza.

Among patients hospitalized with COVID-19, 65% had at least one underlying medical condition, compared with 42% of those hospitalized for either type of influenza (OR, 2.6; 95% CI, 1.4-4.7; P = .002).

The most common underlying condition was neurologic problems from global developmental delay or seizures, identified in 11 patients (20%) hospitalized with COVID-19 and in 24 patients (8%) hospitalized with influenza (OR, 2.8; 95% CI, 1.3-6.2; P = .002). There was no significant difference between the two groups with respect to a history of asthma, cardiac disease, hematologic disease, and cancer.

For both groups, fever and cough were the most frequently reported symptoms at the time of diagnosis. However, more patients hospitalized with COVID-19 reported fever (76% vs. 55%; OR, 2.6; 95% CI, 1.4-5.1; P = 01), diarrhea or vomiting (26% vs. 12%; OR, 2.5; 95% CI, 1.2-5.0; P = .01), headache (11% vs. 3%; OR, 3.9; 95% CI, 1.3-11.5; P = .01), myalgia (22% vs. 7%; OR, 3.9; 95% CI, 1.8-8.5; P = .001), or chest pain (11% vs. 3%; OR, 3.9; 95% CI, 1.3-11.5; P = .01).

The researchers found no statistically significant differences between the two groups in rates of cough, congestion, sore throat, or shortness of breath.

Comparison of the symptom spectrum between COVID-19 and flu differed with respect to influenza type. More patients with COVID-19 reported fever, cough, diarrhea and vomiting, and myalgia than patients hospitalized with influenza A. But rates of fever, cough, diarrhea or vomiting, headache, or chest pain didn’t differ significantly in patients with COVID-19 and those with influenza B.

Larry K. Kociolek, MD, medical director of infection prevention and control at Ann and Robert H. Lurie Children’s Hospital of Chicago, noted the lower age of patients with flu. “Differentiating the two infections, which is difficult if not impossible based on symptoms alone, may have prognostic implications, depending on the age of the child. Because this study was performed outside peak influenza season, when coinfections would be less likely to occur, we must be vigilant about the potential clinical implications of influenza and SARS-CoV-2 coinfection this fall and winter.”

Clinicians will still have to use a combination of symptoms, examinations, and testing to distinguish the two diseases, said Aimee Sznewajs, MD, medical director of the pediatric hospital medicine department at Children’s Minnesota, Minneapolis. “We will continue to test for influenza and COVID-19 prior to hospitalizations and make decisions about whether to hospitalize based on other clinical factors, such as dehydration, oxygen requirement, and vital sign changes.”

Dr. Sznewajs stressed the importance of maintaining public health strategies, including “ensuring all children get the flu vaccine, encouraging mask wearing and hand hygiene, adequate testing to determine which virus is present, and other mitigation measures if the prevalence of COVID-19 is increasing in the community.”

Dr. Song reiterated those points, noting that clinicians need to make the most of the options they have. “Clinicians already have many great tools on hand. It is extremely important to get the flu vaccine now, especially for kids with underlying medical conditions. Diagnostic tests are available for both COVID-19 and flu. Antiviral treatment for flu is available. Judicious use of these tools will protect the health of providers, kids, and well-being at large.”

The authors noted several limitations for the study, including its retrospective design, that the data came from a single center, and that different platforms were used to detect the viruses.

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

For children with COVID-19, rates of hospitalization, ICU admission, and ventilator use were similar to those of children with influenza, but rates differed in other respects, according to results of a study published online Sept. 11 in JAMA Network Open.

As winter approaches, distinguishing patients with COVID-19 from those with influenza will become a problem. To assist with that, Xiaoyan Song, PhD, director of the office of infection control and epidemiology at Children’s National Hospital in Washington, D.C., and colleagues investigated commonalities and differences between the clinical symptoms of COVID-19 and influenza in children.

“Distinguishing COVID-19 from flu and other respiratory viral infections remains a challenge to clinicians. Although our study showed that patients with COVID-19 were more likely than patients with flu to report fever, gastrointestinal, and other clinical symptoms at the time of diagnosis, the two groups do have many overlapping clinical symptoms,” Dr. Song said. “Until future data show us otherwise, clinicians need to prepare for managing coinfections of COVID-19 with flu and/or other respiratory viral infections in the upcoming flu season.”

The retrospective cohort study included 315 children diagnosed with laboratory-confirmed COVID-19 between March 25 and May 15, 2020, and 1,402 children diagnosed with laboratory-confirmed seasonal influenza A or influenza B between Oct. 1, 2019, and June 6, 2020, at Children’s National Hospital. The investigation excluded asymptomatic patients who tested positive for COVID-19.

Patients with COVID-19 and patients with influenza were similar with respect to rates of hospitalization (17% vs. 21%; odds ratio, 0.8; 95% confidence interval, 0.6-1.1; P = .15), admission to the ICU (6% vs. 7%; OR, 0.8; 95% CI, 0.5-1.3; P = .42), and use of mechanical ventilation (3% vs. 2%; OR, 1.5; 95% CI, 0.9-2.6; P =.17).

The difference in the duration of ventilation for the two groups was not statistically significant. None of the patients who had COVID-19 or influenza B died, but two patients with influenza A did.

No patients had coinfections, which the researchers attribute to the mid-March shutdown of many schools, which they believe limited the spread of seasonal influenza.

Patients who were hospitalized with COVID-19 were older (median age, 9.7 years; range, 0.06-23.2 years) than those hospitalized with either type of influenza (median age, 4.2 years; range, 0.04-23.1). Patients older than 15 years made up 37% of patients with COVID-19 but only 6% of those with influenza.

Among patients hospitalized with COVID-19, 65% had at least one underlying medical condition, compared with 42% of those hospitalized for either type of influenza (OR, 2.6; 95% CI, 1.4-4.7; P = .002).

The most common underlying condition was neurologic problems from global developmental delay or seizures, identified in 11 patients (20%) hospitalized with COVID-19 and in 24 patients (8%) hospitalized with influenza (OR, 2.8; 95% CI, 1.3-6.2; P = .002). There was no significant difference between the two groups with respect to a history of asthma, cardiac disease, hematologic disease, and cancer.

For both groups, fever and cough were the most frequently reported symptoms at the time of diagnosis. However, more patients hospitalized with COVID-19 reported fever (76% vs. 55%; OR, 2.6; 95% CI, 1.4-5.1; P = 01), diarrhea or vomiting (26% vs. 12%; OR, 2.5; 95% CI, 1.2-5.0; P = .01), headache (11% vs. 3%; OR, 3.9; 95% CI, 1.3-11.5; P = .01), myalgia (22% vs. 7%; OR, 3.9; 95% CI, 1.8-8.5; P = .001), or chest pain (11% vs. 3%; OR, 3.9; 95% CI, 1.3-11.5; P = .01).

The researchers found no statistically significant differences between the two groups in rates of cough, congestion, sore throat, or shortness of breath.

Comparison of the symptom spectrum between COVID-19 and flu differed with respect to influenza type. More patients with COVID-19 reported fever, cough, diarrhea and vomiting, and myalgia than patients hospitalized with influenza A. But rates of fever, cough, diarrhea or vomiting, headache, or chest pain didn’t differ significantly in patients with COVID-19 and those with influenza B.

Larry K. Kociolek, MD, medical director of infection prevention and control at Ann and Robert H. Lurie Children’s Hospital of Chicago, noted the lower age of patients with flu. “Differentiating the two infections, which is difficult if not impossible based on symptoms alone, may have prognostic implications, depending on the age of the child. Because this study was performed outside peak influenza season, when coinfections would be less likely to occur, we must be vigilant about the potential clinical implications of influenza and SARS-CoV-2 coinfection this fall and winter.”

Clinicians will still have to use a combination of symptoms, examinations, and testing to distinguish the two diseases, said Aimee Sznewajs, MD, medical director of the pediatric hospital medicine department at Children’s Minnesota, Minneapolis. “We will continue to test for influenza and COVID-19 prior to hospitalizations and make decisions about whether to hospitalize based on other clinical factors, such as dehydration, oxygen requirement, and vital sign changes.”

Dr. Sznewajs stressed the importance of maintaining public health strategies, including “ensuring all children get the flu vaccine, encouraging mask wearing and hand hygiene, adequate testing to determine which virus is present, and other mitigation measures if the prevalence of COVID-19 is increasing in the community.”

Dr. Song reiterated those points, noting that clinicians need to make the most of the options they have. “Clinicians already have many great tools on hand. It is extremely important to get the flu vaccine now, especially for kids with underlying medical conditions. Diagnostic tests are available for both COVID-19 and flu. Antiviral treatment for flu is available. Judicious use of these tools will protect the health of providers, kids, and well-being at large.”

The authors noted several limitations for the study, including its retrospective design, that the data came from a single center, and that different platforms were used to detect the viruses.

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

For children with COVID-19, rates of hospitalization, ICU admission, and ventilator use were similar to those of children with influenza, but rates differed in other respects, according to results of a study published online Sept. 11 in JAMA Network Open.

As winter approaches, distinguishing patients with COVID-19 from those with influenza will become a problem. To assist with that, Xiaoyan Song, PhD, director of the office of infection control and epidemiology at Children’s National Hospital in Washington, D.C., and colleagues investigated commonalities and differences between the clinical symptoms of COVID-19 and influenza in children.

“Distinguishing COVID-19 from flu and other respiratory viral infections remains a challenge to clinicians. Although our study showed that patients with COVID-19 were more likely than patients with flu to report fever, gastrointestinal, and other clinical symptoms at the time of diagnosis, the two groups do have many overlapping clinical symptoms,” Dr. Song said. “Until future data show us otherwise, clinicians need to prepare for managing coinfections of COVID-19 with flu and/or other respiratory viral infections in the upcoming flu season.”

The retrospective cohort study included 315 children diagnosed with laboratory-confirmed COVID-19 between March 25 and May 15, 2020, and 1,402 children diagnosed with laboratory-confirmed seasonal influenza A or influenza B between Oct. 1, 2019, and June 6, 2020, at Children’s National Hospital. The investigation excluded asymptomatic patients who tested positive for COVID-19.

Patients with COVID-19 and patients with influenza were similar with respect to rates of hospitalization (17% vs. 21%; odds ratio, 0.8; 95% confidence interval, 0.6-1.1; P = .15), admission to the ICU (6% vs. 7%; OR, 0.8; 95% CI, 0.5-1.3; P = .42), and use of mechanical ventilation (3% vs. 2%; OR, 1.5; 95% CI, 0.9-2.6; P =.17).

The difference in the duration of ventilation for the two groups was not statistically significant. None of the patients who had COVID-19 or influenza B died, but two patients with influenza A did.

No patients had coinfections, which the researchers attribute to the mid-March shutdown of many schools, which they believe limited the spread of seasonal influenza.

Patients who were hospitalized with COVID-19 were older (median age, 9.7 years; range, 0.06-23.2 years) than those hospitalized with either type of influenza (median age, 4.2 years; range, 0.04-23.1). Patients older than 15 years made up 37% of patients with COVID-19 but only 6% of those with influenza.

Among patients hospitalized with COVID-19, 65% had at least one underlying medical condition, compared with 42% of those hospitalized for either type of influenza (OR, 2.6; 95% CI, 1.4-4.7; P = .002).

The most common underlying condition was neurologic problems from global developmental delay or seizures, identified in 11 patients (20%) hospitalized with COVID-19 and in 24 patients (8%) hospitalized with influenza (OR, 2.8; 95% CI, 1.3-6.2; P = .002). There was no significant difference between the two groups with respect to a history of asthma, cardiac disease, hematologic disease, and cancer.

For both groups, fever and cough were the most frequently reported symptoms at the time of diagnosis. However, more patients hospitalized with COVID-19 reported fever (76% vs. 55%; OR, 2.6; 95% CI, 1.4-5.1; P = 01), diarrhea or vomiting (26% vs. 12%; OR, 2.5; 95% CI, 1.2-5.0; P = .01), headache (11% vs. 3%; OR, 3.9; 95% CI, 1.3-11.5; P = .01), myalgia (22% vs. 7%; OR, 3.9; 95% CI, 1.8-8.5; P = .001), or chest pain (11% vs. 3%; OR, 3.9; 95% CI, 1.3-11.5; P = .01).

The researchers found no statistically significant differences between the two groups in rates of cough, congestion, sore throat, or shortness of breath.

Comparison of the symptom spectrum between COVID-19 and flu differed with respect to influenza type. More patients with COVID-19 reported fever, cough, diarrhea and vomiting, and myalgia than patients hospitalized with influenza A. But rates of fever, cough, diarrhea or vomiting, headache, or chest pain didn’t differ significantly in patients with COVID-19 and those with influenza B.

Larry K. Kociolek, MD, medical director of infection prevention and control at Ann and Robert H. Lurie Children’s Hospital of Chicago, noted the lower age of patients with flu. “Differentiating the two infections, which is difficult if not impossible based on symptoms alone, may have prognostic implications, depending on the age of the child. Because this study was performed outside peak influenza season, when coinfections would be less likely to occur, we must be vigilant about the potential clinical implications of influenza and SARS-CoV-2 coinfection this fall and winter.”

Clinicians will still have to use a combination of symptoms, examinations, and testing to distinguish the two diseases, said Aimee Sznewajs, MD, medical director of the pediatric hospital medicine department at Children’s Minnesota, Minneapolis. “We will continue to test for influenza and COVID-19 prior to hospitalizations and make decisions about whether to hospitalize based on other clinical factors, such as dehydration, oxygen requirement, and vital sign changes.”

Dr. Sznewajs stressed the importance of maintaining public health strategies, including “ensuring all children get the flu vaccine, encouraging mask wearing and hand hygiene, adequate testing to determine which virus is present, and other mitigation measures if the prevalence of COVID-19 is increasing in the community.”

Dr. Song reiterated those points, noting that clinicians need to make the most of the options they have. “Clinicians already have many great tools on hand. It is extremely important to get the flu vaccine now, especially for kids with underlying medical conditions. Diagnostic tests are available for both COVID-19 and flu. Antiviral treatment for flu is available. Judicious use of these tools will protect the health of providers, kids, and well-being at large.”

The authors noted several limitations for the study, including its retrospective design, that the data came from a single center, and that different platforms were used to detect the viruses.

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

Conventional chest x-rays combined with artificial intelligence (AI) can identify lung damage from COVID-19 and differentiate coronavirus patients from other patients, improving triage efforts, new research suggests.

The AI tool – developed by Jason Fleischer, PhD, and graduate student Mohammad Tariqul Islam, both from Princeton (N.J.) University – can distinguish COVID-19 patients from those with pneumonia or normal lung tissue with an accuracy of more than 95%.

“We were able to separate the COVID-19 patients with very high fidelity,” Dr. Fleischer said in an interview. “If you give me an x-ray now, I can say with very high confidence whether a patient has COVID-19.”

The diagnostic tool pinpoints patterns on x-ray images that are too subtle for even trained experts to notice. The precision of CT scanning is similar to that of the AI tool, but CT costs much more and has other disadvantages, said Dr. Fleischer, who presented his findings at the virtual European Respiratory Society International Congress 2020.

“CT is more expensive and uses higher doses of radiation,” he said. “Another big thing is that not everyone has tomography facilities – including a lot of rural places and developing countries – so you need something that’s on the spot.”

With machine learning, Dr. Fleischer analyzed 2,300 x-ray images: 1,018 “normal” images from patients who had neither pneumonia nor COVID-19, 1,011 from patients with pneumonia, and 271 from patients with COVID-19.

The AI tool uses a neural network to refine the number and type of lung features being tracked. A UMAP (Uniform Manifold Approximation and Projection) clustering algorithm then looks for similarities and differences in those images, he explained.

“We, as users, knew which type each x-ray was – normal, pneumonia positive, or COVID-19 positive – but the network did not,” he added.

Clinicians have observed two basic types of lung problems in COVID-19 patients: pneumonia that fills lung air sacs with fluid and dangerously low blood-oxygen levels despite nearly normal breathing patterns. Because treatment can vary according to type, it would be beneficial to quickly distinguish between them, Dr. Fleischer said.

The AI tool showed that there is a distinct difference in chest x-rays from pneumonia-positive patients and healthy people, he said. It also demonstrated two distinct clusters of COVID-19–positive chest x-rays: those that looked like pneumonia and those with a more normal presentation.

The fact that “the AI system recognizes something unique in chest x-rays from COVID-19–positive patients” indicates that the computer is able to identify visual markers for coronavirus, he explained. “We currently do not know what these markers are.”

Dr. Fleischer said his goal is not to replace physician decision-making, but to supplement it.

“I’m uncomfortable with having computers make the final decision,” he said. “They often have a narrow focus, whereas doctors have the big picture in mind.”

This AI tool is “very interesting,” especially in the context of expanding AI applications in various specialties, said Thierry Fumeaux, MD, from Nyon (Switzerland) Hospital. Some physicians currently disagree on whether a chest x-ray or CT scan is the better tool to help diagnose COVID-19.

“It seems better than the human eye and brain” to pinpoint COVID-19 lung damage, “so it’s very attractive as a technology,” Dr. Fumeaux said in an interview.

And AI can be used to supplement the efforts of busy and fatigued clinicians who might be stretched thin by large caseloads. “I cannot read 200 chest x-rays in a day, but a computer can do that in 2 minutes,” he said.

But Dr. Fumeaux offered a caveat: “Pattern recognition is promising, but at the moment I’m not aware of papers showing that, by using AI, you’re changing anything in the outcome of a patient.”

Ideally, Dr. Fleischer said he hopes that AI will soon be able to accurately indicate which treatments are most effective for individual COVID-19 patients. And the technology might eventually be used to help with treatment decisions for patients with asthma or chronic obstructive pulmonary disease, he noted.

But he needs more data before results indicate whether a COVID-19 patient would benefit from ventilator support, for example, and the tool can be used more widely. To contribute data or collaborate with Dr. Fleischer’s efforts, contact him.

“Machine learning is all about data, so you can find these correlations,” he said. “It would be nice to be able to use it to reassure a worried patient that their prognosis is good; to say that most of the people with symptoms like yours will be just fine.”

Dr. Fleischer and Dr. Fumeaux have declared no relevant financial relationships.

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

Conventional chest x-rays combined with artificial intelligence (AI) can identify lung damage from COVID-19 and differentiate coronavirus patients from other patients, improving triage efforts, new research suggests.

The AI tool – developed by Jason Fleischer, PhD, and graduate student Mohammad Tariqul Islam, both from Princeton (N.J.) University – can distinguish COVID-19 patients from those with pneumonia or normal lung tissue with an accuracy of more than 95%.

“We were able to separate the COVID-19 patients with very high fidelity,” Dr. Fleischer said in an interview. “If you give me an x-ray now, I can say with very high confidence whether a patient has COVID-19.”

The diagnostic tool pinpoints patterns on x-ray images that are too subtle for even trained experts to notice. The precision of CT scanning is similar to that of the AI tool, but CT costs much more and has other disadvantages, said Dr. Fleischer, who presented his findings at the virtual European Respiratory Society International Congress 2020.

“CT is more expensive and uses higher doses of radiation,” he said. “Another big thing is that not everyone has tomography facilities – including a lot of rural places and developing countries – so you need something that’s on the spot.”

With machine learning, Dr. Fleischer analyzed 2,300 x-ray images: 1,018 “normal” images from patients who had neither pneumonia nor COVID-19, 1,011 from patients with pneumonia, and 271 from patients with COVID-19.

The AI tool uses a neural network to refine the number and type of lung features being tracked. A UMAP (Uniform Manifold Approximation and Projection) clustering algorithm then looks for similarities and differences in those images, he explained.

“We, as users, knew which type each x-ray was – normal, pneumonia positive, or COVID-19 positive – but the network did not,” he added.

Clinicians have observed two basic types of lung problems in COVID-19 patients: pneumonia that fills lung air sacs with fluid and dangerously low blood-oxygen levels despite nearly normal breathing patterns. Because treatment can vary according to type, it would be beneficial to quickly distinguish between them, Dr. Fleischer said.

The AI tool showed that there is a distinct difference in chest x-rays from pneumonia-positive patients and healthy people, he said. It also demonstrated two distinct clusters of COVID-19–positive chest x-rays: those that looked like pneumonia and those with a more normal presentation.

The fact that “the AI system recognizes something unique in chest x-rays from COVID-19–positive patients” indicates that the computer is able to identify visual markers for coronavirus, he explained. “We currently do not know what these markers are.”

Dr. Fleischer said his goal is not to replace physician decision-making, but to supplement it.

“I’m uncomfortable with having computers make the final decision,” he said. “They often have a narrow focus, whereas doctors have the big picture in mind.”

This AI tool is “very interesting,” especially in the context of expanding AI applications in various specialties, said Thierry Fumeaux, MD, from Nyon (Switzerland) Hospital. Some physicians currently disagree on whether a chest x-ray or CT scan is the better tool to help diagnose COVID-19.

“It seems better than the human eye and brain” to pinpoint COVID-19 lung damage, “so it’s very attractive as a technology,” Dr. Fumeaux said in an interview.

And AI can be used to supplement the efforts of busy and fatigued clinicians who might be stretched thin by large caseloads. “I cannot read 200 chest x-rays in a day, but a computer can do that in 2 minutes,” he said.

But Dr. Fumeaux offered a caveat: “Pattern recognition is promising, but at the moment I’m not aware of papers showing that, by using AI, you’re changing anything in the outcome of a patient.”

Ideally, Dr. Fleischer said he hopes that AI will soon be able to accurately indicate which treatments are most effective for individual COVID-19 patients. And the technology might eventually be used to help with treatment decisions for patients with asthma or chronic obstructive pulmonary disease, he noted.

But he needs more data before results indicate whether a COVID-19 patient would benefit from ventilator support, for example, and the tool can be used more widely. To contribute data or collaborate with Dr. Fleischer’s efforts, contact him.

“Machine learning is all about data, so you can find these correlations,” he said. “It would be nice to be able to use it to reassure a worried patient that their prognosis is good; to say that most of the people with symptoms like yours will be just fine.”

Dr. Fleischer and Dr. Fumeaux have declared no relevant financial relationships.

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

Conventional chest x-rays combined with artificial intelligence (AI) can identify lung damage from COVID-19 and differentiate coronavirus patients from other patients, improving triage efforts, new research suggests.

The AI tool – developed by Jason Fleischer, PhD, and graduate student Mohammad Tariqul Islam, both from Princeton (N.J.) University – can distinguish COVID-19 patients from those with pneumonia or normal lung tissue with an accuracy of more than 95%.

“We were able to separate the COVID-19 patients with very high fidelity,” Dr. Fleischer said in an interview. “If you give me an x-ray now, I can say with very high confidence whether a patient has COVID-19.”

The diagnostic tool pinpoints patterns on x-ray images that are too subtle for even trained experts to notice. The precision of CT scanning is similar to that of the AI tool, but CT costs much more and has other disadvantages, said Dr. Fleischer, who presented his findings at the virtual European Respiratory Society International Congress 2020.

“CT is more expensive and uses higher doses of radiation,” he said. “Another big thing is that not everyone has tomography facilities – including a lot of rural places and developing countries – so you need something that’s on the spot.”

With machine learning, Dr. Fleischer analyzed 2,300 x-ray images: 1,018 “normal” images from patients who had neither pneumonia nor COVID-19, 1,011 from patients with pneumonia, and 271 from patients with COVID-19.

The AI tool uses a neural network to refine the number and type of lung features being tracked. A UMAP (Uniform Manifold Approximation and Projection) clustering algorithm then looks for similarities and differences in those images, he explained.

“We, as users, knew which type each x-ray was – normal, pneumonia positive, or COVID-19 positive – but the network did not,” he added.

Clinicians have observed two basic types of lung problems in COVID-19 patients: pneumonia that fills lung air sacs with fluid and dangerously low blood-oxygen levels despite nearly normal breathing patterns. Because treatment can vary according to type, it would be beneficial to quickly distinguish between them, Dr. Fleischer said.

The AI tool showed that there is a distinct difference in chest x-rays from pneumonia-positive patients and healthy people, he said. It also demonstrated two distinct clusters of COVID-19–positive chest x-rays: those that looked like pneumonia and those with a more normal presentation.

The fact that “the AI system recognizes something unique in chest x-rays from COVID-19–positive patients” indicates that the computer is able to identify visual markers for coronavirus, he explained. “We currently do not know what these markers are.”

Dr. Fleischer said his goal is not to replace physician decision-making, but to supplement it.

“I’m uncomfortable with having computers make the final decision,” he said. “They often have a narrow focus, whereas doctors have the big picture in mind.”

This AI tool is “very interesting,” especially in the context of expanding AI applications in various specialties, said Thierry Fumeaux, MD, from Nyon (Switzerland) Hospital. Some physicians currently disagree on whether a chest x-ray or CT scan is the better tool to help diagnose COVID-19.

“It seems better than the human eye and brain” to pinpoint COVID-19 lung damage, “so it’s very attractive as a technology,” Dr. Fumeaux said in an interview.

And AI can be used to supplement the efforts of busy and fatigued clinicians who might be stretched thin by large caseloads. “I cannot read 200 chest x-rays in a day, but a computer can do that in 2 minutes,” he said.

But Dr. Fumeaux offered a caveat: “Pattern recognition is promising, but at the moment I’m not aware of papers showing that, by using AI, you’re changing anything in the outcome of a patient.”

Ideally, Dr. Fleischer said he hopes that AI will soon be able to accurately indicate which treatments are most effective for individual COVID-19 patients. And the technology might eventually be used to help with treatment decisions for patients with asthma or chronic obstructive pulmonary disease, he noted.

But he needs more data before results indicate whether a COVID-19 patient would benefit from ventilator support, for example, and the tool can be used more widely. To contribute data or collaborate with Dr. Fleischer’s efforts, contact him.

“Machine learning is all about data, so you can find these correlations,” he said. “It would be nice to be able to use it to reassure a worried patient that their prognosis is good; to say that most of the people with symptoms like yours will be just fine.”

Dr. Fleischer and Dr. Fumeaux have declared no relevant financial relationships.

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

Diagnoses of 12 common pediatric infectious diseases in a large pediatric primary care network declined significantly in the weeks after COVID-19 social distancing (SD) was enacted in Massachusetts, compared with the same time period in 2019, an analysis of EHR data has shown.

ArtMarie/E+

While declines in infectious disease transmission with SD are not surprising, “these data demonstrate the extent to which transmission of common pediatric infections can be altered when close contact with other children is eliminated,” Jonathan Hatoun, MD, MPH of the Pediatric Physicians’ Organization at Children’s in Brookline, Mass., and coauthors wrote in Pediatrics . “Notably, three of the studied diseases, namely, influenza, croup, and bronchiolitis, essentially disappeared with [social distancing].”

The researchers analyzed the weekly incidence of each diagnosis for similar calendar periods in 2019 and 2020. A pre-SD period was defined as week 1-9, starting on Jan. 1, and a post-SD period was defined as week 13-18. (The several-week gap represented an implementation period as social distancing was enacted in the state earlier in 2020, from a declared statewide state of emergency through school closures and stay-at-home advisories.)

To isolate the effect of widespread SD, they performed a “difference-in-differences regression analysis, with diagnosis count as a function of calendar year, time period (pre-SD versus post-SD) and the interaction between the two.” The Massachusetts pediatric network provides care for approximately 375,000 children in 100 locations around the state.

In their research brief, Dr. Hatoun and coauthors presented weekly rates expressed as diagnoses per 100,000 patients per day. The rate of bronchiolitis, for instance, was 18 and 8 in the pre- and post-SD–equivalent weeks of 2019, respectively, and 20 and 0.6 in the pre- and post-SD weeks of 2020. Their analysis showed the rate in the 2020 post-SD period to be 10 diagnoses per 100,000 patients per day lower than they would have expected based on the 2019 trend.

Rates of pneumonia, acute otitis media, and streptococcal pharyngitis were similarly 14, 85, and 31 diagnoses per 100,000 patients per day lower, respectively. The prevalence of each of the other conditions analyzed – the common cold, croup, gastroenteritis, nonstreptococcal pharyngitis, sinusitis, skin and soft tissue infections, and urinary tract infection (UTI) – also was significantly lower in the 2020 post-SD period than would be expected based on 2019 data (P < .001 for all diagnoses).
 

Putting things in perspective

“This study puts numbers to the sense that we have all had in pediatrics – that social distancing appears to have had a dramatic impact on the transmission of common childhood infectious diseases, especially other respiratory viral pathogens,” Audrey R. John, MD, PhD, chief of the division of pediatric infectious disease at Children’s Hospital of Philadelphia, said in an interview.

The authors acknowledged the possible role of families not seeking care, but said that a smaller decrease in diagnoses of UTI – generally not a contagious disease – “suggests that changes in care-seeking behavior had a relatively modest effect on the other observed declines.” (The rate of UTI for the pre- and post-SD periods was 3.3 and 3.7 per 100,000 patients per day in 2019, and 3.4 and 2.4 in 2020, for a difference in differences of –1.5).

In an accompanying editorial, David W. Kimberlin, MD and Erica C. Bjornstad, MD, PhD, MPH, of the University of Alabama at Birmingham, called the report “provocative” and wrote that similar observations of infections dropping during periods of isolation – namely, dramatic declines in influenza and other respiratory viruses in Seattle after a record snowstorm in 2019 – combined with findings from other modeling studies “suggest that the decline [reported in Boston] is indeed real” (Pediatrics 2020. doi: 10.1542/peds.2020-019232).

However, “we also now know that immunization rates for American children have plummeted since the onset of the SARS-CoV-2 pandemic [because of a] ... dramatic decrease in the use of health care during the first months of the pandemic,” they wrote. “Viewed through this lens,” the declines reported in Boston may reflect inflections going “undiagnosed and untreated.”

Ultimately, Dr. Kimberlin and Dr. Bjornstad said, “the verdict remains out.”

Dr. John said that she and others are “concerned about children not seeking care in a timely manner, and [concerned] that reductions in reported infections might be due to a lack of recognition rather than a lack of transmission.”

In Philadelphia, however, declines in admissions for asthma exacerbations, “which are often caused by respiratory viral infections, suggests that this may not be the case,” said Dr. John, who was asked to comment on the study.

In addition, she said, the Massachusetts data showing that UTI diagnoses “are nearly as common this year as in 2019” are “reassuring.”
 

Are there lessons for the future?

Coauthor Louis Vernacchio, MD, MSc, chief medical officer of the Pediatric Physicians’ Organization at Children’s network, said in an interview that beyond the pandemic, it’s likely that “more careful attention to proven infection control practices in daycares and schools could reduce the burden of common infectious diseases in children.”

Dr. John similarly sees a long-term value of quantifying the impact of social distancing. “We’ve always known [for instance] that bronchiolitis is the result of viral infection.” Findings like the Massachusetts data “will help us advise families who might be trying to protect their premature infants (at risk for severe bronchiolitis) through social distancing.”

The analysis covered both in-person and telemedicine encounters occurring on weekdays.

The authors of the research brief indicated they have no relevant financial disclosures and there was no external funding. The authors of the commentary also reported they have no relevant financial disclosures, and Dr. John said she had no relevant financial disclosures.

SOURCE: Hatoun J et al. Pediatrics. 2020. doi: 10.1542/peds.2020-006460.

Diagnoses of 12 common pediatric infectious diseases in a large pediatric primary care network declined significantly in the weeks after COVID-19 social distancing (SD) was enacted in Massachusetts, compared with the same time period in 2019, an analysis of EHR data has shown.

ArtMarie/E+

While declines in infectious disease transmission with SD are not surprising, “these data demonstrate the extent to which transmission of common pediatric infections can be altered when close contact with other children is eliminated,” Jonathan Hatoun, MD, MPH of the Pediatric Physicians’ Organization at Children’s in Brookline, Mass., and coauthors wrote in Pediatrics . “Notably, three of the studied diseases, namely, influenza, croup, and bronchiolitis, essentially disappeared with [social distancing].”

The researchers analyzed the weekly incidence of each diagnosis for similar calendar periods in 2019 and 2020. A pre-SD period was defined as week 1-9, starting on Jan. 1, and a post-SD period was defined as week 13-18. (The several-week gap represented an implementation period as social distancing was enacted in the state earlier in 2020, from a declared statewide state of emergency through school closures and stay-at-home advisories.)

To isolate the effect of widespread SD, they performed a “difference-in-differences regression analysis, with diagnosis count as a function of calendar year, time period (pre-SD versus post-SD) and the interaction between the two.” The Massachusetts pediatric network provides care for approximately 375,000 children in 100 locations around the state.

In their research brief, Dr. Hatoun and coauthors presented weekly rates expressed as diagnoses per 100,000 patients per day. The rate of bronchiolitis, for instance, was 18 and 8 in the pre- and post-SD–equivalent weeks of 2019, respectively, and 20 and 0.6 in the pre- and post-SD weeks of 2020. Their analysis showed the rate in the 2020 post-SD period to be 10 diagnoses per 100,000 patients per day lower than they would have expected based on the 2019 trend.

Rates of pneumonia, acute otitis media, and streptococcal pharyngitis were similarly 14, 85, and 31 diagnoses per 100,000 patients per day lower, respectively. The prevalence of each of the other conditions analyzed – the common cold, croup, gastroenteritis, nonstreptococcal pharyngitis, sinusitis, skin and soft tissue infections, and urinary tract infection (UTI) – also was significantly lower in the 2020 post-SD period than would be expected based on 2019 data (P < .001 for all diagnoses).
 

Putting things in perspective

“This study puts numbers to the sense that we have all had in pediatrics – that social distancing appears to have had a dramatic impact on the transmission of common childhood infectious diseases, especially other respiratory viral pathogens,” Audrey R. John, MD, PhD, chief of the division of pediatric infectious disease at Children’s Hospital of Philadelphia, said in an interview.

The authors acknowledged the possible role of families not seeking care, but said that a smaller decrease in diagnoses of UTI – generally not a contagious disease – “suggests that changes in care-seeking behavior had a relatively modest effect on the other observed declines.” (The rate of UTI for the pre- and post-SD periods was 3.3 and 3.7 per 100,000 patients per day in 2019, and 3.4 and 2.4 in 2020, for a difference in differences of –1.5).

In an accompanying editorial, David W. Kimberlin, MD and Erica C. Bjornstad, MD, PhD, MPH, of the University of Alabama at Birmingham, called the report “provocative” and wrote that similar observations of infections dropping during periods of isolation – namely, dramatic declines in influenza and other respiratory viruses in Seattle after a record snowstorm in 2019 – combined with findings from other modeling studies “suggest that the decline [reported in Boston] is indeed real” (Pediatrics 2020. doi: 10.1542/peds.2020-019232).

However, “we also now know that immunization rates for American children have plummeted since the onset of the SARS-CoV-2 pandemic [because of a] ... dramatic decrease in the use of health care during the first months of the pandemic,” they wrote. “Viewed through this lens,” the declines reported in Boston may reflect inflections going “undiagnosed and untreated.”

Ultimately, Dr. Kimberlin and Dr. Bjornstad said, “the verdict remains out.”

Dr. John said that she and others are “concerned about children not seeking care in a timely manner, and [concerned] that reductions in reported infections might be due to a lack of recognition rather than a lack of transmission.”

In Philadelphia, however, declines in admissions for asthma exacerbations, “which are often caused by respiratory viral infections, suggests that this may not be the case,” said Dr. John, who was asked to comment on the study.

In addition, she said, the Massachusetts data showing that UTI diagnoses “are nearly as common this year as in 2019” are “reassuring.”
 

Are there lessons for the future?

Coauthor Louis Vernacchio, MD, MSc, chief medical officer of the Pediatric Physicians’ Organization at Children’s network, said in an interview that beyond the pandemic, it’s likely that “more careful attention to proven infection control practices in daycares and schools could reduce the burden of common infectious diseases in children.”

Dr. John similarly sees a long-term value of quantifying the impact of social distancing. “We’ve always known [for instance] that bronchiolitis is the result of viral infection.” Findings like the Massachusetts data “will help us advise families who might be trying to protect their premature infants (at risk for severe bronchiolitis) through social distancing.”

The analysis covered both in-person and telemedicine encounters occurring on weekdays.

The authors of the research brief indicated they have no relevant financial disclosures and there was no external funding. The authors of the commentary also reported they have no relevant financial disclosures, and Dr. John said she had no relevant financial disclosures.

SOURCE: Hatoun J et al. Pediatrics. 2020. doi: 10.1542/peds.2020-006460.

Diagnoses of 12 common pediatric infectious diseases in a large pediatric primary care network declined significantly in the weeks after COVID-19 social distancing (SD) was enacted in Massachusetts, compared with the same time period in 2019, an analysis of EHR data has shown.

ArtMarie/E+

While declines in infectious disease transmission with SD are not surprising, “these data demonstrate the extent to which transmission of common pediatric infections can be altered when close contact with other children is eliminated,” Jonathan Hatoun, MD, MPH of the Pediatric Physicians’ Organization at Children’s in Brookline, Mass., and coauthors wrote in Pediatrics . “Notably, three of the studied diseases, namely, influenza, croup, and bronchiolitis, essentially disappeared with [social distancing].”

The researchers analyzed the weekly incidence of each diagnosis for similar calendar periods in 2019 and 2020. A pre-SD period was defined as week 1-9, starting on Jan. 1, and a post-SD period was defined as week 13-18. (The several-week gap represented an implementation period as social distancing was enacted in the state earlier in 2020, from a declared statewide state of emergency through school closures and stay-at-home advisories.)

To isolate the effect of widespread SD, they performed a “difference-in-differences regression analysis, with diagnosis count as a function of calendar year, time period (pre-SD versus post-SD) and the interaction between the two.” The Massachusetts pediatric network provides care for approximately 375,000 children in 100 locations around the state.

In their research brief, Dr. Hatoun and coauthors presented weekly rates expressed as diagnoses per 100,000 patients per day. The rate of bronchiolitis, for instance, was 18 and 8 in the pre- and post-SD–equivalent weeks of 2019, respectively, and 20 and 0.6 in the pre- and post-SD weeks of 2020. Their analysis showed the rate in the 2020 post-SD period to be 10 diagnoses per 100,000 patients per day lower than they would have expected based on the 2019 trend.

Rates of pneumonia, acute otitis media, and streptococcal pharyngitis were similarly 14, 85, and 31 diagnoses per 100,000 patients per day lower, respectively. The prevalence of each of the other conditions analyzed – the common cold, croup, gastroenteritis, nonstreptococcal pharyngitis, sinusitis, skin and soft tissue infections, and urinary tract infection (UTI) – also was significantly lower in the 2020 post-SD period than would be expected based on 2019 data (P < .001 for all diagnoses).
 

Putting things in perspective

“This study puts numbers to the sense that we have all had in pediatrics – that social distancing appears to have had a dramatic impact on the transmission of common childhood infectious diseases, especially other respiratory viral pathogens,” Audrey R. John, MD, PhD, chief of the division of pediatric infectious disease at Children’s Hospital of Philadelphia, said in an interview.

The authors acknowledged the possible role of families not seeking care, but said that a smaller decrease in diagnoses of UTI – generally not a contagious disease – “suggests that changes in care-seeking behavior had a relatively modest effect on the other observed declines.” (The rate of UTI for the pre- and post-SD periods was 3.3 and 3.7 per 100,000 patients per day in 2019, and 3.4 and 2.4 in 2020, for a difference in differences of –1.5).

In an accompanying editorial, David W. Kimberlin, MD and Erica C. Bjornstad, MD, PhD, MPH, of the University of Alabama at Birmingham, called the report “provocative” and wrote that similar observations of infections dropping during periods of isolation – namely, dramatic declines in influenza and other respiratory viruses in Seattle after a record snowstorm in 2019 – combined with findings from other modeling studies “suggest that the decline [reported in Boston] is indeed real” (Pediatrics 2020. doi: 10.1542/peds.2020-019232).

However, “we also now know that immunization rates for American children have plummeted since the onset of the SARS-CoV-2 pandemic [because of a] ... dramatic decrease in the use of health care during the first months of the pandemic,” they wrote. “Viewed through this lens,” the declines reported in Boston may reflect inflections going “undiagnosed and untreated.”

Ultimately, Dr. Kimberlin and Dr. Bjornstad said, “the verdict remains out.”

Dr. John said that she and others are “concerned about children not seeking care in a timely manner, and [concerned] that reductions in reported infections might be due to a lack of recognition rather than a lack of transmission.”

In Philadelphia, however, declines in admissions for asthma exacerbations, “which are often caused by respiratory viral infections, suggests that this may not be the case,” said Dr. John, who was asked to comment on the study.

In addition, she said, the Massachusetts data showing that UTI diagnoses “are nearly as common this year as in 2019” are “reassuring.”
 

Are there lessons for the future?

Coauthor Louis Vernacchio, MD, MSc, chief medical officer of the Pediatric Physicians’ Organization at Children’s network, said in an interview that beyond the pandemic, it’s likely that “more careful attention to proven infection control practices in daycares and schools could reduce the burden of common infectious diseases in children.”

Dr. John similarly sees a long-term value of quantifying the impact of social distancing. “We’ve always known [for instance] that bronchiolitis is the result of viral infection.” Findings like the Massachusetts data “will help us advise families who might be trying to protect their premature infants (at risk for severe bronchiolitis) through social distancing.”

The analysis covered both in-person and telemedicine encounters occurring on weekdays.

The authors of the research brief indicated they have no relevant financial disclosures and there was no external funding. The authors of the commentary also reported they have no relevant financial disclosures, and Dr. John said she had no relevant financial disclosures.

SOURCE: Hatoun J et al. Pediatrics. 2020. doi: 10.1542/peds.2020-006460.

Niket Sonpal, MD, thought he’d heard most of the myths about wearing masks during the pandemic, but the recent claim from a patient was a new one for the New York City gastroenterologist.

iStock/Getty Images Plus/skynesher

The patient refused to wear a mask because she heard inhaling bad breath through a mask could be toxic. The woman said the rumor was circulating on Facebook. Sonpal calmly explained that breathing your own breath is not going to cause health problems, he said.

“There’s a lot of controversy on masks,” he said. “Unfortunately, it’s really just a lack of education and buy-in. Social media is the primary source of all this misinformation. These kinds of over-the-top hyperbole has basically led to a disbelief that masks are effective. The disbelief is hard to break up.”

As mask requirements have tightened amid the ongoing pandemic, debates about face coverings have emerged front and center, with a growing number of people opposing mask usage. So-called antimaskers dispute the benefits of wearing masks and many contend that face coverings decrease oxygen flow and can lead to illness. Sentiment against masks have led to protests nationwide, ignited public conflicts in some areas, and even generated lawsuits over mask mandates.

The issue presents an ongoing challenge for physicians as they strive to educate patients about the significance of masking against the flood of antimask messages on social media and beyond. Opposition to masks is particularly frustrating for health professionals who have witnessed patients, family, or friends become ill or die from the virus. Refusing to mask and failing to social distance have been linked to the rapid spread of the coronavirus and subsequent deaths.

“I have had colleagues pass away, and it’s extremely disheartening and frustrating to see science so easily disregarded,” Sonpal said. “Masks save lives and protect people and not wearing them is simply a lack of respect, not just for your fellow colleagues, but for a member of your species.”

Michael Rebresh, who helped create the antimask group Million Unmasked Patriots, says his group’s objections to masks are rational and reasonable. The group, which has more than 8,000 members, formed in response to guidance by Illinois state officials that children would only be allowed to return to school wearing a mask.

“Our objections are to the fact that masks on children in school have a greater propensity to make children sick from breathing in bacteria that forms on the inner layer of a mask worn for hours on end,” Rebresh said. “We have an objection to the increase of CO₂ intake and a decrease in oxygen flow for kids who need all the oxygen they can get during a learning environment. We recognized the masking of ourselves and kids for what it is: A political move to separate the two parties in our November election and define and create division between the two.”

Million Unmasked Patriots is one of dozens of antimask groups on social media platforms such as Facebook, Instagram, and TikTok. In July, Facebook suspended one such group, Unmasking America, which boasts 9,600 members, for posting repeated claims that face masks obstruct oxygen flow and have negative mental health effects.

Experts say the antiscience rhetoric is far from new. The antimask movement in many ways, shares similarities with that of the anti-vaccine movement, says Todd Wolynn, MD, a Pittsburgh pediatrician and cofounder of Shots Heard Round the World, an organization that defends vaccine advocates against coordinated online attacks by antivaxxers. Those espousing antimask views often relay similar or the same disinformation pushed by those with antivaccine views, Wolynn said.

“A lot of it is conspiracy-laden,” said Wolynn of the disinformation. “That Dr. [Anthony] Fauci somehow helped construct the pandemic and that it’s not real. That Bill Gates is funding the vaccine so he can inject people with microchips. All sorts of really out-there, ungrounded conspiracy theories. If you had Venn diagram of antimask and antivaxx, I would say there’s clearly overlap.”
 

Parallels between antimaskers, antivaxxers

Opponents to masks fall on a spectrum, explains Vineet Arora, MD, a hospitalist and associate chief medical officer–clinical learning environment at University of Chicago Medicine. People who believe conspiracy theories and push misinformation are on one end, she said. There are also those who generally don’t believe the seriousness of the pandemic, feel their risk is minimal, or doubt the benefits of masks.

The two trains of thought resemble the distinction among parents who are antivaccine and those who are simply “vaccine hesitant,” says Arora, who co-authored a recent article about masking and misinformation that addresses antivaccine attitudes.

“While the antimask sentiment gets a lot of attention, I think it’s important to highlight there’s a lot of vocal anti-mask sentiment since most people are supportive of masks,” she said. “There might be people sitting on the fence who are just unsure about wearing a mask. That’s understandable because the science and the communication has evolved. There was a lot of early mixed messages about masking. Anytime you have confusion about the science or the science is evolving, it’s easy to have misinformation and then have that take off as myth.”

Just as antivaxxers work to swing the opinion of the vaccine hesitant, antimaskers are vying with public health advocates for the support of the mask hesitant, she said. Creating doubt in public health authorities is one way they are gaining followers. Anti-maskers often question and scrutinize past messaging about masks by public health officials, claiming that because guidance on masks has changed over time, the science behind masks and current guidance can’t be trusted, Wolynn said. Similarly, antivaxxers frequently question past actions by public health officials, such as the Tuskegee Experiment (which began in 1932), to try to poke holes in the credibility of public health officials and their advice.

Both the antimask and antivaccine movements also tend to base their resistance on a personal liberties argument, adds Jacqueline Winfield Fincher, MD, president for the American College of Physicians and an internist based in Thomson, Georgia. Antimaskers contend they should be free to decide whether to wear face coverings and that rules requiring masks infringe upon their civil liberties. Similarly, antivaxxers argue they should be free to decide whether to vaccinate their children and contend vaccine mandates violate their personal liberties.

Taking a deeper look, fear and control are two likely drivers of antimasking and antivaccine attitudes, Fincher said. Those refusing to wear masks may feel they have no control over the pandemic or its impacts, but they can control how they respond to mask-wearing requirements, she said.

Antivaccine parents often want more control over their children’s healthcare and falsely believe that vaccines are injecting something harmful into their children or may lead to harmful reactions.

“It’s a control issue and a defense mechanism,” she said. “Some people may feel helpless to deal with the pandemic or believe since it is not affecting them or their family, that it is not real. ‘If I just deny it and I don’t acknowledge facts, I don’t have to worry about it or do anything about it, and therefore I will have more control over my day-to-day life.’”
 

Groups fueling each other

In some cases, antimask and antivaxx groups are joining forces or adopting dual causes.

In California for instance, longtime opponents to vaccines are now objecting to mask policies as similar infringement to their bodily autonomy. Demonstrations in Texas, Idaho, and Michigan against mask mandates and other COVID-19 requirements have drawn support from anti-vaccine activists and incorporated antivaccine propaganda.

In Illinois, Million Unmasked Patriots, formally the Million Unmasked March, has received widespread attention for protesting both masks for returning schoolchildren and a future COVID-19 vaccine requirement.

A July protest planned by the antimask group triggered a letter by Arora and 500 other healthcare professionals to Illinois lawmakers decrying the group’s views and urging the state to move forward with universal masking in schools.

“What’s happening is those who are distrustful of government and public health and science are joining together,” said Arora, who coauthored a piece about the problem on KevinMD.com. “It’s important to address both movements together because they can quickly feed off each other and build in momentum. At the heart of both is really this deep skepticism of science.”

Rebresh of Million Unmasked Patriots said most of his members are not opposed to all vaccines, but rather they are opposed to “untested vaccines.” The primary concern is the inability to research long-term effects of a COVID-19 vaccine before its approval, he said.

Rebresh disagrees with the antimask movement being compared with the antivaccine movement. The two groups are “motivated by different things and a different set of circumstances drive their opinions,” he said. However, Rebresh believes that potential harm resulting from “mass vaccinations” is a valid concern. For this reason, he and his wife chose for their children to receive their vaccinations individually over a series of weeks, rather than the “kiddie cocktail of vaccines,” at a single visit, he said.

Vaccine scientist Peter Hotez, MD, PhD, said the antivaccine movement appears to have grown stronger from the pandemic fueled by fresh conspiracies and new alliances. Antivaccine sentiment has been gaining steam over the last several years and collecting more allies from the far-right, said Hotez, dean for the National School of Tropical Medicine and codirector for the Texas Children’s Hospital Center for Vaccine Development.

“Now what you’re seeing is yet another expansion this year, with antivaccine groups, under the banner of ‘health freedom,’ campaigning against social distancing and wearing masks and contact tracing,” he said. “What was an antivaccine movement has now become a full-blown antiscience movement and an anti-public health movement. It’s causing a lot of damage and I believe costing a lot of American lives.”

Neil F. Johnson, PhD, who has studied the antivaccine movement and its social media proliferation during the pandemic, said online comments by antivaxxers frequently condemn mask usage and showcase memes making fun of masks.

“In those same narratives about opposing vaccines for COVID, we see a lot of discussion against masks,” said Johnson, a physics professor at George Washington University in Washington, D.C. “If you don’t believe in the official picture of COVID, you don’t believe the policies or the advice that’s given about COVID.”

An analysis by Johnson that examined 1,300 Facebook pages found that, while antivaxxers have fewer followers than provaccine pages, antivaccine pages are more numerous, faster growing, and are more often connected to unrelated, undecided pages. Conversely, pages that advocate the benefits of vaccinations and explain the science behind immunizations are largely disconnected from such undecided communities, according to the study, published May 13 in Nature.

The study suggests the antivaccine movement is making influential strides during the pandemic and connecting with people who are undecided, while public health advocates are not building the same bridges, Johnson said.

“I think it’s hugely dangerous, because I don’t know any other moment in science or in public health when there was so much uncertainty in something affecting everybody,” he said. “Every policy that will be coming, everything depends on people buying into the official message. Once you have the seeds of doubt, that’s a very difficult thing to overcome. It’s an unprecedented challenge.”
 

How physicians and clinicians can help

A more aggressive approach is necessary when it comes to taking down antiscience content on social media, says Hotez. Too often, misinformation and antiscience rhetoric is allowed to linger on popular sites such as Facebook and Amazon.

Wolynn agrees. On personal or business platforms, it’s crucial to ban, hide, and delete such comments as quickly as possible, he said. On public sites, purposeful disinformation should be immediately reported to the platform.

At the same time, Wolynn said it’s essential to support those who make sound, science-based comments in social media forums.

“If you see someone who is pushing accurate, evidence-based information, and they come under attack, they should be supported and defended and empowered,” Wolynn said. “Shots Heard Round the World is doing all of those things, including galvanizing and recruiting more people to help get their voices out there.”

Expanded visibility by physicians and scientists would greatly help counter the spread of antiscience sentiment, adds Hotez.

“Too often, antiscience movements are able to flourish because scientists and physicians are invisible,” he said. “They’re too focused on either clinical practices or in the case of physician scientists, on grants and papers and not enough attention to public engagement. We’re going to have to change that around. We need to hear more from scientists directly.”

To that end, Wolynn said health care professionals, including medical students and residents, need to have formal training in communications, media, and social media as part of their education – and more support from employers to engage through social media.

“That’s where the fight is,” Wolynn said. “You can be the best diagnostician, the best clinician. You can make the right diagnosis and prescribe the right medication, but if families don’t hear what you’re saying, you’re not going to be effective. If you can’t be on the platform where they’re being influenced, we’re losing the battle.”
 

Speaking to your mask-hesitant patients

Concentrating on those who are uncertain about masks is particularly key for physicians and public health advocates as the pandemic continues, says Arora.

“It’s important for us to focus on the mask-hesitant who often don’t get the attention they need,” she said.

She suggests bringing up the subject of masks with patients during visits, asking about mask usage, discussing rumors they’ve heard, and emphasizing why masks are important. Be a role model by wearing a mask in your community and on social media, she added.

Some patients have real concerns about not being able to breathe through masks or anxiety disorders that can be aggravated even by the thought of wearing a mask, noted Susan R. Bailey, MD, president for the American Medical Association. Bailey, an immunologist, recently counseled a patient with a deviated nasal septum in addition to a panic disorder who was worried about wearing a mask, she said. Bailey listened to the patient’s concerns, discussed his health conditions, and proposed an alternative face covering that might make him more comfortable.

“Every patient is different,” Bailey said. “It’s important for us to remember that each person who is reluctant to wear a mask has their own reasons. It’s important for us to express some empathy – to agree with them, yes, masks are hot and inconvenient – and help understand their questions, which you may be able to answer to their satisfaction. There are patients that have legitimate questions and a physician caring about how they feel, can make all the difference.”

Physicians can also get involved with the AMA’s #MaskUp campaign, an effort to normalize mask wearing and debunk myths associated with masks. The campaign includes social media materials, slogans doctors can tweet, and profile pictures they can use on social media. The campaign’s toolkit includes images, videos, and information that physicians can share with patients and the public.

Enforcing strong mask policies at your practice and ensuring all staff are modeling appropriate mask behavior is also important, adds Fincher of the ACP. The college recently issued a policy supporting mask usage in community settings.

If a patient conveys an antimask belief, Fincher suggests not directly challenging the person’s views, but listening to them and offering objective data, discussing the science behind masks, and directing them to credible sources.

“Doctors are used to this. We recommend a lot of things to patients that they don’t want to do,” Fincher said. “If a patient feels attacked, they act defensively. But if you base your explanation in more objective terms with data, numbers, and personalize the risks and benefits of a vaccine, a healthy change in behavior, or a medication, then patients are more likely to hear your concerns and do the right thing. Having a long-term relationship with a trusted physician makes all of these issues much easier to discuss and to implement the best plan for the individual patient.”

This article first appeared on Medscape.com.

Niket Sonpal, MD, thought he’d heard most of the myths about wearing masks during the pandemic, but the recent claim from a patient was a new one for the New York City gastroenterologist.

iStock/Getty Images Plus/skynesher

The patient refused to wear a mask because she heard inhaling bad breath through a mask could be toxic. The woman said the rumor was circulating on Facebook. Sonpal calmly explained that breathing your own breath is not going to cause health problems, he said.

“There’s a lot of controversy on masks,” he said. “Unfortunately, it’s really just a lack of education and buy-in. Social media is the primary source of all this misinformation. These kinds of over-the-top hyperbole has basically led to a disbelief that masks are effective. The disbelief is hard to break up.”

As mask requirements have tightened amid the ongoing pandemic, debates about face coverings have emerged front and center, with a growing number of people opposing mask usage. So-called antimaskers dispute the benefits of wearing masks and many contend that face coverings decrease oxygen flow and can lead to illness. Sentiment against masks have led to protests nationwide, ignited public conflicts in some areas, and even generated lawsuits over mask mandates.

The issue presents an ongoing challenge for physicians as they strive to educate patients about the significance of masking against the flood of antimask messages on social media and beyond. Opposition to masks is particularly frustrating for health professionals who have witnessed patients, family, or friends become ill or die from the virus. Refusing to mask and failing to social distance have been linked to the rapid spread of the coronavirus and subsequent deaths.

“I have had colleagues pass away, and it’s extremely disheartening and frustrating to see science so easily disregarded,” Sonpal said. “Masks save lives and protect people and not wearing them is simply a lack of respect, not just for your fellow colleagues, but for a member of your species.”

Michael Rebresh, who helped create the antimask group Million Unmasked Patriots, says his group’s objections to masks are rational and reasonable. The group, which has more than 8,000 members, formed in response to guidance by Illinois state officials that children would only be allowed to return to school wearing a mask.

“Our objections are to the fact that masks on children in school have a greater propensity to make children sick from breathing in bacteria that forms on the inner layer of a mask worn for hours on end,” Rebresh said. “We have an objection to the increase of CO₂ intake and a decrease in oxygen flow for kids who need all the oxygen they can get during a learning environment. We recognized the masking of ourselves and kids for what it is: A political move to separate the two parties in our November election and define and create division between the two.”

Million Unmasked Patriots is one of dozens of antimask groups on social media platforms such as Facebook, Instagram, and TikTok. In July, Facebook suspended one such group, Unmasking America, which boasts 9,600 members, for posting repeated claims that face masks obstruct oxygen flow and have negative mental health effects.

Experts say the antiscience rhetoric is far from new. The antimask movement in many ways, shares similarities with that of the anti-vaccine movement, says Todd Wolynn, MD, a Pittsburgh pediatrician and cofounder of Shots Heard Round the World, an organization that defends vaccine advocates against coordinated online attacks by antivaxxers. Those espousing antimask views often relay similar or the same disinformation pushed by those with antivaccine views, Wolynn said.

“A lot of it is conspiracy-laden,” said Wolynn of the disinformation. “That Dr. [Anthony] Fauci somehow helped construct the pandemic and that it’s not real. That Bill Gates is funding the vaccine so he can inject people with microchips. All sorts of really out-there, ungrounded conspiracy theories. If you had Venn diagram of antimask and antivaxx, I would say there’s clearly overlap.”
 

Parallels between antimaskers, antivaxxers

Opponents to masks fall on a spectrum, explains Vineet Arora, MD, a hospitalist and associate chief medical officer–clinical learning environment at University of Chicago Medicine. People who believe conspiracy theories and push misinformation are on one end, she said. There are also those who generally don’t believe the seriousness of the pandemic, feel their risk is minimal, or doubt the benefits of masks.

The two trains of thought resemble the distinction among parents who are antivaccine and those who are simply “vaccine hesitant,” says Arora, who co-authored a recent article about masking and misinformation that addresses antivaccine attitudes.

“While the antimask sentiment gets a lot of attention, I think it’s important to highlight there’s a lot of vocal anti-mask sentiment since most people are supportive of masks,” she said. “There might be people sitting on the fence who are just unsure about wearing a mask. That’s understandable because the science and the communication has evolved. There was a lot of early mixed messages about masking. Anytime you have confusion about the science or the science is evolving, it’s easy to have misinformation and then have that take off as myth.”

Just as antivaxxers work to swing the opinion of the vaccine hesitant, antimaskers are vying with public health advocates for the support of the mask hesitant, she said. Creating doubt in public health authorities is one way they are gaining followers. Anti-maskers often question and scrutinize past messaging about masks by public health officials, claiming that because guidance on masks has changed over time, the science behind masks and current guidance can’t be trusted, Wolynn said. Similarly, antivaxxers frequently question past actions by public health officials, such as the Tuskegee Experiment (which began in 1932), to try to poke holes in the credibility of public health officials and their advice.

Both the antimask and antivaccine movements also tend to base their resistance on a personal liberties argument, adds Jacqueline Winfield Fincher, MD, president for the American College of Physicians and an internist based in Thomson, Georgia. Antimaskers contend they should be free to decide whether to wear face coverings and that rules requiring masks infringe upon their civil liberties. Similarly, antivaxxers argue they should be free to decide whether to vaccinate their children and contend vaccine mandates violate their personal liberties.

Taking a deeper look, fear and control are two likely drivers of antimasking and antivaccine attitudes, Fincher said. Those refusing to wear masks may feel they have no control over the pandemic or its impacts, but they can control how they respond to mask-wearing requirements, she said.

Antivaccine parents often want more control over their children’s healthcare and falsely believe that vaccines are injecting something harmful into their children or may lead to harmful reactions.

“It’s a control issue and a defense mechanism,” she said. “Some people may feel helpless to deal with the pandemic or believe since it is not affecting them or their family, that it is not real. ‘If I just deny it and I don’t acknowledge facts, I don’t have to worry about it or do anything about it, and therefore I will have more control over my day-to-day life.’”
 

Groups fueling each other

In some cases, antimask and antivaxx groups are joining forces or adopting dual causes.

In California for instance, longtime opponents to vaccines are now objecting to mask policies as similar infringement to their bodily autonomy. Demonstrations in Texas, Idaho, and Michigan against mask mandates and other COVID-19 requirements have drawn support from anti-vaccine activists and incorporated antivaccine propaganda.

In Illinois, Million Unmasked Patriots, formally the Million Unmasked March, has received widespread attention for protesting both masks for returning schoolchildren and a future COVID-19 vaccine requirement.

A July protest planned by the antimask group triggered a letter by Arora and 500 other healthcare professionals to Illinois lawmakers decrying the group’s views and urging the state to move forward with universal masking in schools.

“What’s happening is those who are distrustful of government and public health and science are joining together,” said Arora, who coauthored a piece about the problem on KevinMD.com. “It’s important to address both movements together because they can quickly feed off each other and build in momentum. At the heart of both is really this deep skepticism of science.”

Rebresh of Million Unmasked Patriots said most of his members are not opposed to all vaccines, but rather they are opposed to “untested vaccines.” The primary concern is the inability to research long-term effects of a COVID-19 vaccine before its approval, he said.

Rebresh disagrees with the antimask movement being compared with the antivaccine movement. The two groups are “motivated by different things and a different set of circumstances drive their opinions,” he said. However, Rebresh believes that potential harm resulting from “mass vaccinations” is a valid concern. For this reason, he and his wife chose for their children to receive their vaccinations individually over a series of weeks, rather than the “kiddie cocktail of vaccines,” at a single visit, he said.

Vaccine scientist Peter Hotez, MD, PhD, said the antivaccine movement appears to have grown stronger from the pandemic fueled by fresh conspiracies and new alliances. Antivaccine sentiment has been gaining steam over the last several years and collecting more allies from the far-right, said Hotez, dean for the National School of Tropical Medicine and codirector for the Texas Children’s Hospital Center for Vaccine Development.

“Now what you’re seeing is yet another expansion this year, with antivaccine groups, under the banner of ‘health freedom,’ campaigning against social distancing and wearing masks and contact tracing,” he said. “What was an antivaccine movement has now become a full-blown antiscience movement and an anti-public health movement. It’s causing a lot of damage and I believe costing a lot of American lives.”

Neil F. Johnson, PhD, who has studied the antivaccine movement and its social media proliferation during the pandemic, said online comments by antivaxxers frequently condemn mask usage and showcase memes making fun of masks.

“In those same narratives about opposing vaccines for COVID, we see a lot of discussion against masks,” said Johnson, a physics professor at George Washington University in Washington, D.C. “If you don’t believe in the official picture of COVID, you don’t believe the policies or the advice that’s given about COVID.”

An analysis by Johnson that examined 1,300 Facebook pages found that, while antivaxxers have fewer followers than provaccine pages, antivaccine pages are more numerous, faster growing, and are more often connected to unrelated, undecided pages. Conversely, pages that advocate the benefits of vaccinations and explain the science behind immunizations are largely disconnected from such undecided communities, according to the study, published May 13 in Nature.

The study suggests the antivaccine movement is making influential strides during the pandemic and connecting with people who are undecided, while public health advocates are not building the same bridges, Johnson said.

“I think it’s hugely dangerous, because I don’t know any other moment in science or in public health when there was so much uncertainty in something affecting everybody,” he said. “Every policy that will be coming, everything depends on people buying into the official message. Once you have the seeds of doubt, that’s a very difficult thing to overcome. It’s an unprecedented challenge.”
 

How physicians and clinicians can help

A more aggressive approach is necessary when it comes to taking down antiscience content on social media, says Hotez. Too often, misinformation and antiscience rhetoric is allowed to linger on popular sites such as Facebook and Amazon.

Wolynn agrees. On personal or business platforms, it’s crucial to ban, hide, and delete such comments as quickly as possible, he said. On public sites, purposeful disinformation should be immediately reported to the platform.

At the same time, Wolynn said it’s essential to support those who make sound, science-based comments in social media forums.

“If you see someone who is pushing accurate, evidence-based information, and they come under attack, they should be supported and defended and empowered,” Wolynn said. “Shots Heard Round the World is doing all of those things, including galvanizing and recruiting more people to help get their voices out there.”

Expanded visibility by physicians and scientists would greatly help counter the spread of antiscience sentiment, adds Hotez.

“Too often, antiscience movements are able to flourish because scientists and physicians are invisible,” he said. “They’re too focused on either clinical practices or in the case of physician scientists, on grants and papers and not enough attention to public engagement. We’re going to have to change that around. We need to hear more from scientists directly.”

To that end, Wolynn said health care professionals, including medical students and residents, need to have formal training in communications, media, and social media as part of their education – and more support from employers to engage through social media.

“That’s where the fight is,” Wolynn said. “You can be the best diagnostician, the best clinician. You can make the right diagnosis and prescribe the right medication, but if families don’t hear what you’re saying, you’re not going to be effective. If you can’t be on the platform where they’re being influenced, we’re losing the battle.”
 

Speaking to your mask-hesitant patients

Concentrating on those who are uncertain about masks is particularly key for physicians and public health advocates as the pandemic continues, says Arora.

“It’s important for us to focus on the mask-hesitant who often don’t get the attention they need,” she said.

She suggests bringing up the subject of masks with patients during visits, asking about mask usage, discussing rumors they’ve heard, and emphasizing why masks are important. Be a role model by wearing a mask in your community and on social media, she added.

Some patients have real concerns about not being able to breathe through masks or anxiety disorders that can be aggravated even by the thought of wearing a mask, noted Susan R. Bailey, MD, president for the American Medical Association. Bailey, an immunologist, recently counseled a patient with a deviated nasal septum in addition to a panic disorder who was worried about wearing a mask, she said. Bailey listened to the patient’s concerns, discussed his health conditions, and proposed an alternative face covering that might make him more comfortable.

“Every patient is different,” Bailey said. “It’s important for us to remember that each person who is reluctant to wear a mask has their own reasons. It’s important for us to express some empathy – to agree with them, yes, masks are hot and inconvenient – and help understand their questions, which you may be able to answer to their satisfaction. There are patients that have legitimate questions and a physician caring about how they feel, can make all the difference.”

Physicians can also get involved with the AMA’s #MaskUp campaign, an effort to normalize mask wearing and debunk myths associated with masks. The campaign includes social media materials, slogans doctors can tweet, and profile pictures they can use on social media. The campaign’s toolkit includes images, videos, and information that physicians can share with patients and the public.

Enforcing strong mask policies at your practice and ensuring all staff are modeling appropriate mask behavior is also important, adds Fincher of the ACP. The college recently issued a policy supporting mask usage in community settings.

If a patient conveys an antimask belief, Fincher suggests not directly challenging the person’s views, but listening to them and offering objective data, discussing the science behind masks, and directing them to credible sources.

“Doctors are used to this. We recommend a lot of things to patients that they don’t want to do,” Fincher said. “If a patient feels attacked, they act defensively. But if you base your explanation in more objective terms with data, numbers, and personalize the risks and benefits of a vaccine, a healthy change in behavior, or a medication, then patients are more likely to hear your concerns and do the right thing. Having a long-term relationship with a trusted physician makes all of these issues much easier to discuss and to implement the best plan for the individual patient.”

This article first appeared on Medscape.com.

Niket Sonpal, MD, thought he’d heard most of the myths about wearing masks during the pandemic, but the recent claim from a patient was a new one for the New York City gastroenterologist.

iStock/Getty Images Plus/skynesher

The patient refused to wear a mask because she heard inhaling bad breath through a mask could be toxic. The woman said the rumor was circulating on Facebook. Sonpal calmly explained that breathing your own breath is not going to cause health problems, he said.

“There’s a lot of controversy on masks,” he said. “Unfortunately, it’s really just a lack of education and buy-in. Social media is the primary source of all this misinformation. These kinds of over-the-top hyperbole has basically led to a disbelief that masks are effective. The disbelief is hard to break up.”

As mask requirements have tightened amid the ongoing pandemic, debates about face coverings have emerged front and center, with a growing number of people opposing mask usage. So-called antimaskers dispute the benefits of wearing masks and many contend that face coverings decrease oxygen flow and can lead to illness. Sentiment against masks have led to protests nationwide, ignited public conflicts in some areas, and even generated lawsuits over mask mandates.

The issue presents an ongoing challenge for physicians as they strive to educate patients about the significance of masking against the flood of antimask messages on social media and beyond. Opposition to masks is particularly frustrating for health professionals who have witnessed patients, family, or friends become ill or die from the virus. Refusing to mask and failing to social distance have been linked to the rapid spread of the coronavirus and subsequent deaths.

“I have had colleagues pass away, and it’s extremely disheartening and frustrating to see science so easily disregarded,” Sonpal said. “Masks save lives and protect people and not wearing them is simply a lack of respect, not just for your fellow colleagues, but for a member of your species.”

Michael Rebresh, who helped create the antimask group Million Unmasked Patriots, says his group’s objections to masks are rational and reasonable. The group, which has more than 8,000 members, formed in response to guidance by Illinois state officials that children would only be allowed to return to school wearing a mask.

“Our objections are to the fact that masks on children in school have a greater propensity to make children sick from breathing in bacteria that forms on the inner layer of a mask worn for hours on end,” Rebresh said. “We have an objection to the increase of CO₂ intake and a decrease in oxygen flow for kids who need all the oxygen they can get during a learning environment. We recognized the masking of ourselves and kids for what it is: A political move to separate the two parties in our November election and define and create division between the two.”

Million Unmasked Patriots is one of dozens of antimask groups on social media platforms such as Facebook, Instagram, and TikTok. In July, Facebook suspended one such group, Unmasking America, which boasts 9,600 members, for posting repeated claims that face masks obstruct oxygen flow and have negative mental health effects.

Experts say the antiscience rhetoric is far from new. The antimask movement in many ways, shares similarities with that of the anti-vaccine movement, says Todd Wolynn, MD, a Pittsburgh pediatrician and cofounder of Shots Heard Round the World, an organization that defends vaccine advocates against coordinated online attacks by antivaxxers. Those espousing antimask views often relay similar or the same disinformation pushed by those with antivaccine views, Wolynn said.

“A lot of it is conspiracy-laden,” said Wolynn of the disinformation. “That Dr. [Anthony] Fauci somehow helped construct the pandemic and that it’s not real. That Bill Gates is funding the vaccine so he can inject people with microchips. All sorts of really out-there, ungrounded conspiracy theories. If you had Venn diagram of antimask and antivaxx, I would say there’s clearly overlap.”
 

Parallels between antimaskers, antivaxxers

Opponents to masks fall on a spectrum, explains Vineet Arora, MD, a hospitalist and associate chief medical officer–clinical learning environment at University of Chicago Medicine. People who believe conspiracy theories and push misinformation are on one end, she said. There are also those who generally don’t believe the seriousness of the pandemic, feel their risk is minimal, or doubt the benefits of masks.

The two trains of thought resemble the distinction among parents who are antivaccine and those who are simply “vaccine hesitant,” says Arora, who co-authored a recent article about masking and misinformation that addresses antivaccine attitudes.

“While the antimask sentiment gets a lot of attention, I think it’s important to highlight there’s a lot of vocal anti-mask sentiment since most people are supportive of masks,” she said. “There might be people sitting on the fence who are just unsure about wearing a mask. That’s understandable because the science and the communication has evolved. There was a lot of early mixed messages about masking. Anytime you have confusion about the science or the science is evolving, it’s easy to have misinformation and then have that take off as myth.”

Just as antivaxxers work to swing the opinion of the vaccine hesitant, antimaskers are vying with public health advocates for the support of the mask hesitant, she said. Creating doubt in public health authorities is one way they are gaining followers. Anti-maskers often question and scrutinize past messaging about masks by public health officials, claiming that because guidance on masks has changed over time, the science behind masks and current guidance can’t be trusted, Wolynn said. Similarly, antivaxxers frequently question past actions by public health officials, such as the Tuskegee Experiment (which began in 1932), to try to poke holes in the credibility of public health officials and their advice.

Both the antimask and antivaccine movements also tend to base their resistance on a personal liberties argument, adds Jacqueline Winfield Fincher, MD, president for the American College of Physicians and an internist based in Thomson, Georgia. Antimaskers contend they should be free to decide whether to wear face coverings and that rules requiring masks infringe upon their civil liberties. Similarly, antivaxxers argue they should be free to decide whether to vaccinate their children and contend vaccine mandates violate their personal liberties.

Taking a deeper look, fear and control are two likely drivers of antimasking and antivaccine attitudes, Fincher said. Those refusing to wear masks may feel they have no control over the pandemic or its impacts, but they can control how they respond to mask-wearing requirements, she said.

Antivaccine parents often want more control over their children’s healthcare and falsely believe that vaccines are injecting something harmful into their children or may lead to harmful reactions.

“It’s a control issue and a defense mechanism,” she said. “Some people may feel helpless to deal with the pandemic or believe since it is not affecting them or their family, that it is not real. ‘If I just deny it and I don’t acknowledge facts, I don’t have to worry about it or do anything about it, and therefore I will have more control over my day-to-day life.’”
 

Groups fueling each other

In some cases, antimask and antivaxx groups are joining forces or adopting dual causes.

In California for instance, longtime opponents to vaccines are now objecting to mask policies as similar infringement to their bodily autonomy. Demonstrations in Texas, Idaho, and Michigan against mask mandates and other COVID-19 requirements have drawn support from anti-vaccine activists and incorporated antivaccine propaganda.

In Illinois, Million Unmasked Patriots, formally the Million Unmasked March, has received widespread attention for protesting both masks for returning schoolchildren and a future COVID-19 vaccine requirement.

A July protest planned by the antimask group triggered a letter by Arora and 500 other healthcare professionals to Illinois lawmakers decrying the group’s views and urging the state to move forward with universal masking in schools.

“What’s happening is those who are distrustful of government and public health and science are joining together,” said Arora, who coauthored a piece about the problem on KevinMD.com. “It’s important to address both movements together because they can quickly feed off each other and build in momentum. At the heart of both is really this deep skepticism of science.”

Rebresh of Million Unmasked Patriots said most of his members are not opposed to all vaccines, but rather they are opposed to “untested vaccines.” The primary concern is the inability to research long-term effects of a COVID-19 vaccine before its approval, he said.

Rebresh disagrees with the antimask movement being compared with the antivaccine movement. The two groups are “motivated by different things and a different set of circumstances drive their opinions,” he said. However, Rebresh believes that potential harm resulting from “mass vaccinations” is a valid concern. For this reason, he and his wife chose for their children to receive their vaccinations individually over a series of weeks, rather than the “kiddie cocktail of vaccines,” at a single visit, he said.

Vaccine scientist Peter Hotez, MD, PhD, said the antivaccine movement appears to have grown stronger from the pandemic fueled by fresh conspiracies and new alliances. Antivaccine sentiment has been gaining steam over the last several years and collecting more allies from the far-right, said Hotez, dean for the National School of Tropical Medicine and codirector for the Texas Children’s Hospital Center for Vaccine Development.

“Now what you’re seeing is yet another expansion this year, with antivaccine groups, under the banner of ‘health freedom,’ campaigning against social distancing and wearing masks and contact tracing,” he said. “What was an antivaccine movement has now become a full-blown antiscience movement and an anti-public health movement. It’s causing a lot of damage and I believe costing a lot of American lives.”

Neil F. Johnson, PhD, who has studied the antivaccine movement and its social media proliferation during the pandemic, said online comments by antivaxxers frequently condemn mask usage and showcase memes making fun of masks.

“In those same narratives about opposing vaccines for COVID, we see a lot of discussion against masks,” said Johnson, a physics professor at George Washington University in Washington, D.C. “If you don’t believe in the official picture of COVID, you don’t believe the policies or the advice that’s given about COVID.”

An analysis by Johnson that examined 1,300 Facebook pages found that, while antivaxxers have fewer followers than provaccine pages, antivaccine pages are more numerous, faster growing, and are more often connected to unrelated, undecided pages. Conversely, pages that advocate the benefits of vaccinations and explain the science behind immunizations are largely disconnected from such undecided communities, according to the study, published May 13 in Nature.

The study suggests the antivaccine movement is making influential strides during the pandemic and connecting with people who are undecided, while public health advocates are not building the same bridges, Johnson said.

“I think it’s hugely dangerous, because I don’t know any other moment in science or in public health when there was so much uncertainty in something affecting everybody,” he said. “Every policy that will be coming, everything depends on people buying into the official message. Once you have the seeds of doubt, that’s a very difficult thing to overcome. It’s an unprecedented challenge.”
 

How physicians and clinicians can help

A more aggressive approach is necessary when it comes to taking down antiscience content on social media, says Hotez. Too often, misinformation and antiscience rhetoric is allowed to linger on popular sites such as Facebook and Amazon.

Wolynn agrees. On personal or business platforms, it’s crucial to ban, hide, and delete such comments as quickly as possible, he said. On public sites, purposeful disinformation should be immediately reported to the platform.

At the same time, Wolynn said it’s essential to support those who make sound, science-based comments in social media forums.

“If you see someone who is pushing accurate, evidence-based information, and they come under attack, they should be supported and defended and empowered,” Wolynn said. “Shots Heard Round the World is doing all of those things, including galvanizing and recruiting more people to help get their voices out there.”

Expanded visibility by physicians and scientists would greatly help counter the spread of antiscience sentiment, adds Hotez.

“Too often, antiscience movements are able to flourish because scientists and physicians are invisible,” he said. “They’re too focused on either clinical practices or in the case of physician scientists, on grants and papers and not enough attention to public engagement. We’re going to have to change that around. We need to hear more from scientists directly.”

To that end, Wolynn said health care professionals, including medical students and residents, need to have formal training in communications, media, and social media as part of their education – and more support from employers to engage through social media.

“That’s where the fight is,” Wolynn said. “You can be the best diagnostician, the best clinician. You can make the right diagnosis and prescribe the right medication, but if families don’t hear what you’re saying, you’re not going to be effective. If you can’t be on the platform where they’re being influenced, we’re losing the battle.”
 

Speaking to your mask-hesitant patients

Concentrating on those who are uncertain about masks is particularly key for physicians and public health advocates as the pandemic continues, says Arora.

“It’s important for us to focus on the mask-hesitant who often don’t get the attention they need,” she said.

She suggests bringing up the subject of masks with patients during visits, asking about mask usage, discussing rumors they’ve heard, and emphasizing why masks are important. Be a role model by wearing a mask in your community and on social media, she added.

Some patients have real concerns about not being able to breathe through masks or anxiety disorders that can be aggravated even by the thought of wearing a mask, noted Susan R. Bailey, MD, president for the American Medical Association. Bailey, an immunologist, recently counseled a patient with a deviated nasal septum in addition to a panic disorder who was worried about wearing a mask, she said. Bailey listened to the patient’s concerns, discussed his health conditions, and proposed an alternative face covering that might make him more comfortable.

“Every patient is different,” Bailey said. “It’s important for us to remember that each person who is reluctant to wear a mask has their own reasons. It’s important for us to express some empathy – to agree with them, yes, masks are hot and inconvenient – and help understand their questions, which you may be able to answer to their satisfaction. There are patients that have legitimate questions and a physician caring about how they feel, can make all the difference.”

Physicians can also get involved with the AMA’s #MaskUp campaign, an effort to normalize mask wearing and debunk myths associated with masks. The campaign includes social media materials, slogans doctors can tweet, and profile pictures they can use on social media. The campaign’s toolkit includes images, videos, and information that physicians can share with patients and the public.

Enforcing strong mask policies at your practice and ensuring all staff are modeling appropriate mask behavior is also important, adds Fincher of the ACP. The college recently issued a policy supporting mask usage in community settings.

If a patient conveys an antimask belief, Fincher suggests not directly challenging the person’s views, but listening to them and offering objective data, discussing the science behind masks, and directing them to credible sources.

“Doctors are used to this. We recommend a lot of things to patients that they don’t want to do,” Fincher said. “If a patient feels attacked, they act defensively. But if you base your explanation in more objective terms with data, numbers, and personalize the risks and benefits of a vaccine, a healthy change in behavior, or a medication, then patients are more likely to hear your concerns and do the right thing. Having a long-term relationship with a trusted physician makes all of these issues much easier to discuss and to implement the best plan for the individual patient.”

This article first appeared on Medscape.com.

Insomnia is “highly prevalent” in veterans with chronic pulmonary obstructive disease and is significantly associated with greater COPD-related health care utilization, according to an analysis of national Veterans Health Administration data.

“The study highlights the importance of exploring potential sleep disturbances and disorders in this population and suggests that a targeted treatment for insomnia may help to improve COPD outcomes in veterans with COPD and insomnia,” said Faith Luyster, PhD, assistant professor at the University of Pittsburgh, in an interview after the virtual annual meeting of the Associated Professional Sleep Societies, where she presented the findings.

Dr. Luyster and coinvestigators used an administrative database from the Veterans Affairs Corporate Data Warehouse to identify more than 1.5 million patients with COPD who used VHA services over a 6-year period (fiscal years 2011-2017). Insomnia was defined by ICD-9/10 diagnostic codes and/or a sedative-hypnotic prescription for at least 30 doses during any of these years.

Insomnia with COPD was prevalent in this sample of veterans at 37.3%. Compared with veterans without comorbid insomnia, those who had both COPD and insomnia (575,539 of the total 1,542,642) were older (69 vs. 64 years), more likely to be female (6.3% vs. 3.7%), more likely to be Black (14% vs. 11%) and more likely to be a current smoker (46.1% vs. 35.5%).

Those with both COPD and insomnia were also more likely to have a service-connected disability rating of 50% of greater; use supplemental oxygen; be divorced, widowed, or separated; have a higher body mass index; or have other medical or psychiatric conditions – in particular obstructive sleep apnea (39% vs. 7%), depression (21% vs. 5%), and PTSD (33% vs. 3%).

P values were < .001 for all of these demographic and clinical variables, Dr. Luyster reported at the meeting.

Comorbid insomnia clearly impacted health care utilization, she said. Veterans with insomnia in addition to COPD had more outpatient and ED visits (10.5 vs 6.9, and 1.6 vs. 1.4, respectively) and more hospitalizations (2.2 vs. 1.8) with a primary diagnostic code for COPD or COPD exacerbation (P < .001).

A negative binomial regression analysis (P < .001) showed that “even after controlling for demographic and other medical conditions, COPD patients with insomnia had greater rates of health care utilization relative to COPD patients without insomnia,” Dr. Luyster said in the interview.

Prior studies have suggested that disturbed sleep is a predictor of poorer longitudinal outcomes in COPD, even after controlling for COPD severity, but have not looked specifically at insomnia, she said.

Commenting on the study Octavian C. Ioachimescu, MD, PhD, of Emory University, Atlanta, and the Atlanta VA Medical Center in Decatur, said the criteria used to define insomnia – unadjudicated ICD diagnoses as well as sedative-hypnotic prescriptions – may explain part of the reported prevalence of insomnia. Even so, the findings add to existing literature demonstrating that COPD and insomnia are both common disorders among VHA patients, and that their frequent coexistence “could have adverse consequences on the overall health, functional status, long-term outcomes, and quality of life of these patients.”

Questions of causation are yet to be answered, he said. “Is it that uncontrolled or severe airflow obstruction causing frequent nocturnal arousals, dyspnea, orthopnea, overuse of inhaled sympathomimetics and heightened anxiety leads to insomnia? Or is it that insomnia – possibly in a cluster with other affective disorders such as depression, anxiety disorders, or PTSD – elicits more frequent or more severe symptoms of shortness of breath in those with smoking-induced airway and parenchymal lung disease, making the latter diagnosis more overt than in others?

“My bet is on a bidirectional causal relationship,” said Dr. Ioachimescu, an editorial board advisor of CHEST Physician.

“Regardless of the etiology [of insomnia in veterans with COPD],” Dr. Luyster said, “it’s important that [insomnia] be addressed and treated appropriately, whether that be through pharmacological treatment, or probably more ideally through [cognitive behavioral therapy] for insomnia.”

The study did not control for COPD severity, she said, because of the difficulty of extracting this data from the VA Corporate Data Warehouse. The study was funded by the VA Competitive Career Development Fund.Dr. Luyster reported that she had no disclosures. Dr. Ioachimescu also said he had no relevant disclosures.
 

Insomnia is “highly prevalent” in veterans with chronic pulmonary obstructive disease and is significantly associated with greater COPD-related health care utilization, according to an analysis of national Veterans Health Administration data.

“The study highlights the importance of exploring potential sleep disturbances and disorders in this population and suggests that a targeted treatment for insomnia may help to improve COPD outcomes in veterans with COPD and insomnia,” said Faith Luyster, PhD, assistant professor at the University of Pittsburgh, in an interview after the virtual annual meeting of the Associated Professional Sleep Societies, where she presented the findings.

Dr. Luyster and coinvestigators used an administrative database from the Veterans Affairs Corporate Data Warehouse to identify more than 1.5 million patients with COPD who used VHA services over a 6-year period (fiscal years 2011-2017). Insomnia was defined by ICD-9/10 diagnostic codes and/or a sedative-hypnotic prescription for at least 30 doses during any of these years.

Insomnia with COPD was prevalent in this sample of veterans at 37.3%. Compared with veterans without comorbid insomnia, those who had both COPD and insomnia (575,539 of the total 1,542,642) were older (69 vs. 64 years), more likely to be female (6.3% vs. 3.7%), more likely to be Black (14% vs. 11%) and more likely to be a current smoker (46.1% vs. 35.5%).

Those with both COPD and insomnia were also more likely to have a service-connected disability rating of 50% of greater; use supplemental oxygen; be divorced, widowed, or separated; have a higher body mass index; or have other medical or psychiatric conditions – in particular obstructive sleep apnea (39% vs. 7%), depression (21% vs. 5%), and PTSD (33% vs. 3%).

P values were < .001 for all of these demographic and clinical variables, Dr. Luyster reported at the meeting.

Comorbid insomnia clearly impacted health care utilization, she said. Veterans with insomnia in addition to COPD had more outpatient and ED visits (10.5 vs 6.9, and 1.6 vs. 1.4, respectively) and more hospitalizations (2.2 vs. 1.8) with a primary diagnostic code for COPD or COPD exacerbation (P < .001).

A negative binomial regression analysis (P < .001) showed that “even after controlling for demographic and other medical conditions, COPD patients with insomnia had greater rates of health care utilization relative to COPD patients without insomnia,” Dr. Luyster said in the interview.

Prior studies have suggested that disturbed sleep is a predictor of poorer longitudinal outcomes in COPD, even after controlling for COPD severity, but have not looked specifically at insomnia, she said.

Commenting on the study Octavian C. Ioachimescu, MD, PhD, of Emory University, Atlanta, and the Atlanta VA Medical Center in Decatur, said the criteria used to define insomnia – unadjudicated ICD diagnoses as well as sedative-hypnotic prescriptions – may explain part of the reported prevalence of insomnia. Even so, the findings add to existing literature demonstrating that COPD and insomnia are both common disorders among VHA patients, and that their frequent coexistence “could have adverse consequences on the overall health, functional status, long-term outcomes, and quality of life of these patients.”

Questions of causation are yet to be answered, he said. “Is it that uncontrolled or severe airflow obstruction causing frequent nocturnal arousals, dyspnea, orthopnea, overuse of inhaled sympathomimetics and heightened anxiety leads to insomnia? Or is it that insomnia – possibly in a cluster with other affective disorders such as depression, anxiety disorders, or PTSD – elicits more frequent or more severe symptoms of shortness of breath in those with smoking-induced airway and parenchymal lung disease, making the latter diagnosis more overt than in others?

“My bet is on a bidirectional causal relationship,” said Dr. Ioachimescu, an editorial board advisor of CHEST Physician.

“Regardless of the etiology [of insomnia in veterans with COPD],” Dr. Luyster said, “it’s important that [insomnia] be addressed and treated appropriately, whether that be through pharmacological treatment, or probably more ideally through [cognitive behavioral therapy] for insomnia.”

The study did not control for COPD severity, she said, because of the difficulty of extracting this data from the VA Corporate Data Warehouse. The study was funded by the VA Competitive Career Development Fund.Dr. Luyster reported that she had no disclosures. Dr. Ioachimescu also said he had no relevant disclosures.
 

Insomnia is “highly prevalent” in veterans with chronic pulmonary obstructive disease and is significantly associated with greater COPD-related health care utilization, according to an analysis of national Veterans Health Administration data.

“The study highlights the importance of exploring potential sleep disturbances and disorders in this population and suggests that a targeted treatment for insomnia may help to improve COPD outcomes in veterans with COPD and insomnia,” said Faith Luyster, PhD, assistant professor at the University of Pittsburgh, in an interview after the virtual annual meeting of the Associated Professional Sleep Societies, where she presented the findings.

Dr. Luyster and coinvestigators used an administrative database from the Veterans Affairs Corporate Data Warehouse to identify more than 1.5 million patients with COPD who used VHA services over a 6-year period (fiscal years 2011-2017). Insomnia was defined by ICD-9/10 diagnostic codes and/or a sedative-hypnotic prescription for at least 30 doses during any of these years.

Insomnia with COPD was prevalent in this sample of veterans at 37.3%. Compared with veterans without comorbid insomnia, those who had both COPD and insomnia (575,539 of the total 1,542,642) were older (69 vs. 64 years), more likely to be female (6.3% vs. 3.7%), more likely to be Black (14% vs. 11%) and more likely to be a current smoker (46.1% vs. 35.5%).

Those with both COPD and insomnia were also more likely to have a service-connected disability rating of 50% of greater; use supplemental oxygen; be divorced, widowed, or separated; have a higher body mass index; or have other medical or psychiatric conditions – in particular obstructive sleep apnea (39% vs. 7%), depression (21% vs. 5%), and PTSD (33% vs. 3%).

P values were < .001 for all of these demographic and clinical variables, Dr. Luyster reported at the meeting.

Comorbid insomnia clearly impacted health care utilization, she said. Veterans with insomnia in addition to COPD had more outpatient and ED visits (10.5 vs 6.9, and 1.6 vs. 1.4, respectively) and more hospitalizations (2.2 vs. 1.8) with a primary diagnostic code for COPD or COPD exacerbation (P < .001).

A negative binomial regression analysis (P < .001) showed that “even after controlling for demographic and other medical conditions, COPD patients with insomnia had greater rates of health care utilization relative to COPD patients without insomnia,” Dr. Luyster said in the interview.

Prior studies have suggested that disturbed sleep is a predictor of poorer longitudinal outcomes in COPD, even after controlling for COPD severity, but have not looked specifically at insomnia, she said.

Commenting on the study Octavian C. Ioachimescu, MD, PhD, of Emory University, Atlanta, and the Atlanta VA Medical Center in Decatur, said the criteria used to define insomnia – unadjudicated ICD diagnoses as well as sedative-hypnotic prescriptions – may explain part of the reported prevalence of insomnia. Even so, the findings add to existing literature demonstrating that COPD and insomnia are both common disorders among VHA patients, and that their frequent coexistence “could have adverse consequences on the overall health, functional status, long-term outcomes, and quality of life of these patients.”

Questions of causation are yet to be answered, he said. “Is it that uncontrolled or severe airflow obstruction causing frequent nocturnal arousals, dyspnea, orthopnea, overuse of inhaled sympathomimetics and heightened anxiety leads to insomnia? Or is it that insomnia – possibly in a cluster with other affective disorders such as depression, anxiety disorders, or PTSD – elicits more frequent or more severe symptoms of shortness of breath in those with smoking-induced airway and parenchymal lung disease, making the latter diagnosis more overt than in others?

“My bet is on a bidirectional causal relationship,” said Dr. Ioachimescu, an editorial board advisor of CHEST Physician.

“Regardless of the etiology [of insomnia in veterans with COPD],” Dr. Luyster said, “it’s important that [insomnia] be addressed and treated appropriately, whether that be through pharmacological treatment, or probably more ideally through [cognitive behavioral therapy] for insomnia.”

The study did not control for COPD severity, she said, because of the difficulty of extracting this data from the VA Corporate Data Warehouse. The study was funded by the VA Competitive Career Development Fund.Dr. Luyster reported that she had no disclosures. Dr. Ioachimescu also said he had no relevant disclosures.