Covid ICYMI

The Florida Department of Health will investigate the state’s 16,000 coronavirus deaths due to questions about the integrity of the data, according to an announcement issued Wednesday.

State health department officials said the “fatality data reported to the state consistently presents confusion and warrants a rigorous review.” The review is meant to “ensure data integrity.”

“During a pandemic, the public must be able to rely on accurate public health data to make informed decisions,” Scott Rivkees, the surgeon general for Florida, said in the statement.

Among the 95 deaths reported Wednesday for instance, 16 had more than a 2-month separation between the time of testing positive for COVID-19 and passing away, and 5 cases had a 3-month gap. In addition, 11 of the deaths occurred more than a month ago.

The health department then listed data for all 95 cases, including the age, gender, county and the dates of test positivity and death. Palm Beach County had 50 of the COVID-19 deaths.

“To ensure the accuracy of COVID-19 related deaths, the department will be performing additional reviews of all deaths,” Rivkees said. “Timely and accurate data remains a top priority of the Department of Health.”

Last week, Jose Oliva, speaker of the Florida House of Representatives, said medical examiner reports were “often lacking in rigor.” House Democrats then said Republicans were trying to “downplay the death toll,” according to the South Florida Sun Sentinel .

Fred Piccolo Jr., a spokesman for Florida Gov. Ron DeSantis, told the newspaper Wednesday that officials have struggled to obtain timely data. Labs sometimes report test results from weeks before, he added.

“It’s really one of those things that you gotta know if someone is dying of COVID or if they’re not,” Piccolo said. “Then you can legitimately say, here are the numbers.”

Sources

Florida Department of Health, “Florida Surgeon General Implements Additional Review Process for Fatalities Attributed to COVID-19 to Ensure Data Integrity.”

South Florida Sun Sentinel, “Florida to investigate all COVID-19 deaths after questions about ‘integrity’ of data.”

WebMD Health News © 2020 

This article first appeared on Medscape.com.

The Florida Department of Health will investigate the state’s 16,000 coronavirus deaths due to questions about the integrity of the data, according to an announcement issued Wednesday.

State health department officials said the “fatality data reported to the state consistently presents confusion and warrants a rigorous review.” The review is meant to “ensure data integrity.”

“During a pandemic, the public must be able to rely on accurate public health data to make informed decisions,” Scott Rivkees, the surgeon general for Florida, said in the statement.

Among the 95 deaths reported Wednesday for instance, 16 had more than a 2-month separation between the time of testing positive for COVID-19 and passing away, and 5 cases had a 3-month gap. In addition, 11 of the deaths occurred more than a month ago.

The health department then listed data for all 95 cases, including the age, gender, county and the dates of test positivity and death. Palm Beach County had 50 of the COVID-19 deaths.

“To ensure the accuracy of COVID-19 related deaths, the department will be performing additional reviews of all deaths,” Rivkees said. “Timely and accurate data remains a top priority of the Department of Health.”

Last week, Jose Oliva, speaker of the Florida House of Representatives, said medical examiner reports were “often lacking in rigor.” House Democrats then said Republicans were trying to “downplay the death toll,” according to the South Florida Sun Sentinel .

Fred Piccolo Jr., a spokesman for Florida Gov. Ron DeSantis, told the newspaper Wednesday that officials have struggled to obtain timely data. Labs sometimes report test results from weeks before, he added.

“It’s really one of those things that you gotta know if someone is dying of COVID or if they’re not,” Piccolo said. “Then you can legitimately say, here are the numbers.”

Sources

Florida Department of Health, “Florida Surgeon General Implements Additional Review Process for Fatalities Attributed to COVID-19 to Ensure Data Integrity.”

South Florida Sun Sentinel, “Florida to investigate all COVID-19 deaths after questions about ‘integrity’ of data.”

WebMD Health News © 2020 

This article first appeared on Medscape.com.

The Florida Department of Health will investigate the state’s 16,000 coronavirus deaths due to questions about the integrity of the data, according to an announcement issued Wednesday.

State health department officials said the “fatality data reported to the state consistently presents confusion and warrants a rigorous review.” The review is meant to “ensure data integrity.”

“During a pandemic, the public must be able to rely on accurate public health data to make informed decisions,” Scott Rivkees, the surgeon general for Florida, said in the statement.

Among the 95 deaths reported Wednesday for instance, 16 had more than a 2-month separation between the time of testing positive for COVID-19 and passing away, and 5 cases had a 3-month gap. In addition, 11 of the deaths occurred more than a month ago.

The health department then listed data for all 95 cases, including the age, gender, county and the dates of test positivity and death. Palm Beach County had 50 of the COVID-19 deaths.

“To ensure the accuracy of COVID-19 related deaths, the department will be performing additional reviews of all deaths,” Rivkees said. “Timely and accurate data remains a top priority of the Department of Health.”

Last week, Jose Oliva, speaker of the Florida House of Representatives, said medical examiner reports were “often lacking in rigor.” House Democrats then said Republicans were trying to “downplay the death toll,” according to the South Florida Sun Sentinel .

Fred Piccolo Jr., a spokesman for Florida Gov. Ron DeSantis, told the newspaper Wednesday that officials have struggled to obtain timely data. Labs sometimes report test results from weeks before, he added.

“It’s really one of those things that you gotta know if someone is dying of COVID or if they’re not,” Piccolo said. “Then you can legitimately say, here are the numbers.”

Sources

Florida Department of Health, “Florida Surgeon General Implements Additional Review Process for Fatalities Attributed to COVID-19 to Ensure Data Integrity.”

South Florida Sun Sentinel, “Florida to investigate all COVID-19 deaths after questions about ‘integrity’ of data.”

WebMD Health News © 2020 

This article first appeared on Medscape.com.

Many student athletes who test positive for COVID-19 likely can have an uneventful return to their sports after they have rested for 2 weeks in quarantine, doctors suggest.

Canberk Sezer/Getty Images

There are reasons for caution, however, especially when a patient has symptoms that indicate possible cardiac involvement. In these cases, patients should undergo cardiac testing before a physician clears them to return to play, according to guidance from professional associations. Reports of myocarditis in college athletes who tested positive for SARS-CoV-2 but were asymptomatic are among the reasons for concern. Myocarditis may increase the risk of sudden death during exercise.

“The thing that you need to keep in mind is that this is not just a respiratory illness,” David T. Bernhardt, MD, professor of pediatrics, orthopedics, and rehabilitation at the University of Wisconsin in Madison, said in a presentation at the annual meeting of the American Academy of Pediatrics, held virtually this year. High school and college athletes have had cardiac, neurologic, hematologic, and renal problems that “can complicate their recovery and their return to sport.”

Still, children who test positive for COVID-19 tend to have mild illness and often are asymptomatic. “It is more than likely going to be safe for the majority of the student athletes who are in the elementary and middle school age to return to sport,” said Dr. Bernhardt. Given that 18-year-old college freshmen have had cardiac complications, there may be reason for more caution with high school students.
 

Limited data

The AAP has released interim guidance on returning to sports and recommends that primary care physicians clear all patients with COVID-19 before they resume training. Physicians should screen for cardiac symptoms such as chest pain, shortness of breath, fatigue, palpitations, or syncope.

Those with severe illness should be restricted from exercise and participation for 3-6 months. Primary care physicians, preferably in consultation with pediatric cardiologists, should clear athletes who experience severe illness.

“Most of the recommendations come from the fact that we simply do not know what we do not know with COVID-19,” Susannah Briskin, MD, a coauthor of the interim guidance, said in an interview. “We have to be cautious in returning individuals to play and closely monitor them as we learn more about the disease process and its effect on kids.”

Patients with severe illness could include those who were hospitalized and experienced hypotension or arrhythmias, required intubation or extracorporeal membrane oxygenation (ECMO) support, had kidney or cardiac failure, or developed multisystem inflammatory syndrome in children (MIS-C), said Dr. Briskin, a specialist in pediatric sports medicine at Case Western Reserve University, Cleveland.

“The majority of COVID-19 cases will not present like this in kids. We have no idea how common myocarditis is in kids post infection. We do know that, if anyone has chest pain, shortness of breath, excessive fatigue, syncope [passing out], or arrhythmia [feeling of their heart skipping beats], they should undergo further evaluation for myocarditis,” Dr. Briskin said.

Patients who are asymptomatic or have mild symptoms should rest for 14 days after their positive test. After their infectious period has passed, a doctor should assess for any concerning cardiac symptoms. “Anyone with prolonged fever or moderate symptoms should see their pediatrician and have an EKG performed, at a minimum, prior to return to sports,” Dr. Briskin said. “Anyone with an abnormal EKG or concerning signs or symptoms should be referred on to pediatric cardiology for a further assessment.”

Most patients who Dr. Briskin has seen have been asymptomatic or mildly symptomatic. “They have done well with a gradual return to physical activity,” she said. “We recommend a gradual return so individuals can be monitored for any signs or symptoms concerning for myocarditis. The far majority of individuals likely have an uneventful return to play.”

Mitigating risk

COVID-19 adds elements of uncertainty and complexity to the usual process of mitigating risk in sports, Dr. Bernhardt noted in his lecture. “You are dealing with an infection that we do not know a lot about,” he said. “And we are trying to mitigate risk not only for the individual who may or may not have underlying health problems, but you are also trying to mitigate risk for anybody else involved with the sport, including athletic trainers and team physicians, coaches, spectators, custodial staff, people working at a snack shack, and all the other people that can be involved in a typical sporting type of atmosphere.”

When patients do return to play after an illness, they should gradually increase the training load to avoid injury. In addition, clinicians should screen for depression and anxiety using tools such as the Four-Item Patient Health Questionnaire (PHQ-4) when they see patients. “The pandemic has been quite stressful for everybody, including our high school student athletes,” Dr. Bernhardt said. “Giving everybody a PHQ-4 when they come into clinic right now probably makes sense in terms of the stress levels that all of us are experiencing.”

If a patient screens positive, take additional history and refer for more in-depth mental health evaluation and treatment if warranted. Sharing breathing and relaxation exercises, promoting healthy behaviors, and paying attention to unhealthy strategies also may help, Dr. Bernhardt suggested.

Ultimately, determining when an athlete with COVID-19 can be medically cleared to return to play may be a challenge. There are limited data on epidemiology and clinical presentations that could help identify cardiac injury related to the disease, Dr. Bernhardt said. Guidance from the American College of Cardiology provides a framework for evaluating athletes for return to play, and pediatric cardiologists have discussed how the guidance relates to a pediatric population. Cardiac assessments may include measures of biomarkers such as troponin, B-type natriuretic peptide, and sedimentation rate, along with electrocardiograms, echocardiograms, and cardiac MRI.

Beyond return-to-play decisions, encourage the use of cloth face coverings on the sidelines and away from the playing field, and stress proper quarantining, Dr. Briskin added. Too often, she hears about children not quarantining properly. “Individuals with a known exposure should be quarantined in their house – ideally in a separate room from everyone else. ... When they come out of their room, they should wash their hands well and wear a cloth face covering. They should not be eating with other people.”

Dr. Bernhardt had no relevant disclosures.

jremaly@mdedge.com

Many student athletes who test positive for COVID-19 likely can have an uneventful return to their sports after they have rested for 2 weeks in quarantine, doctors suggest.

Canberk Sezer/Getty Images

There are reasons for caution, however, especially when a patient has symptoms that indicate possible cardiac involvement. In these cases, patients should undergo cardiac testing before a physician clears them to return to play, according to guidance from professional associations. Reports of myocarditis in college athletes who tested positive for SARS-CoV-2 but were asymptomatic are among the reasons for concern. Myocarditis may increase the risk of sudden death during exercise.

“The thing that you need to keep in mind is that this is not just a respiratory illness,” David T. Bernhardt, MD, professor of pediatrics, orthopedics, and rehabilitation at the University of Wisconsin in Madison, said in a presentation at the annual meeting of the American Academy of Pediatrics, held virtually this year. High school and college athletes have had cardiac, neurologic, hematologic, and renal problems that “can complicate their recovery and their return to sport.”

Still, children who test positive for COVID-19 tend to have mild illness and often are asymptomatic. “It is more than likely going to be safe for the majority of the student athletes who are in the elementary and middle school age to return to sport,” said Dr. Bernhardt. Given that 18-year-old college freshmen have had cardiac complications, there may be reason for more caution with high school students.
 

Limited data

The AAP has released interim guidance on returning to sports and recommends that primary care physicians clear all patients with COVID-19 before they resume training. Physicians should screen for cardiac symptoms such as chest pain, shortness of breath, fatigue, palpitations, or syncope.

Those with severe illness should be restricted from exercise and participation for 3-6 months. Primary care physicians, preferably in consultation with pediatric cardiologists, should clear athletes who experience severe illness.

“Most of the recommendations come from the fact that we simply do not know what we do not know with COVID-19,” Susannah Briskin, MD, a coauthor of the interim guidance, said in an interview. “We have to be cautious in returning individuals to play and closely monitor them as we learn more about the disease process and its effect on kids.”

Patients with severe illness could include those who were hospitalized and experienced hypotension or arrhythmias, required intubation or extracorporeal membrane oxygenation (ECMO) support, had kidney or cardiac failure, or developed multisystem inflammatory syndrome in children (MIS-C), said Dr. Briskin, a specialist in pediatric sports medicine at Case Western Reserve University, Cleveland.

“The majority of COVID-19 cases will not present like this in kids. We have no idea how common myocarditis is in kids post infection. We do know that, if anyone has chest pain, shortness of breath, excessive fatigue, syncope [passing out], or arrhythmia [feeling of their heart skipping beats], they should undergo further evaluation for myocarditis,” Dr. Briskin said.

Patients who are asymptomatic or have mild symptoms should rest for 14 days after their positive test. After their infectious period has passed, a doctor should assess for any concerning cardiac symptoms. “Anyone with prolonged fever or moderate symptoms should see their pediatrician and have an EKG performed, at a minimum, prior to return to sports,” Dr. Briskin said. “Anyone with an abnormal EKG or concerning signs or symptoms should be referred on to pediatric cardiology for a further assessment.”

Most patients who Dr. Briskin has seen have been asymptomatic or mildly symptomatic. “They have done well with a gradual return to physical activity,” she said. “We recommend a gradual return so individuals can be monitored for any signs or symptoms concerning for myocarditis. The far majority of individuals likely have an uneventful return to play.”

Mitigating risk

COVID-19 adds elements of uncertainty and complexity to the usual process of mitigating risk in sports, Dr. Bernhardt noted in his lecture. “You are dealing with an infection that we do not know a lot about,” he said. “And we are trying to mitigate risk not only for the individual who may or may not have underlying health problems, but you are also trying to mitigate risk for anybody else involved with the sport, including athletic trainers and team physicians, coaches, spectators, custodial staff, people working at a snack shack, and all the other people that can be involved in a typical sporting type of atmosphere.”

When patients do return to play after an illness, they should gradually increase the training load to avoid injury. In addition, clinicians should screen for depression and anxiety using tools such as the Four-Item Patient Health Questionnaire (PHQ-4) when they see patients. “The pandemic has been quite stressful for everybody, including our high school student athletes,” Dr. Bernhardt said. “Giving everybody a PHQ-4 when they come into clinic right now probably makes sense in terms of the stress levels that all of us are experiencing.”

If a patient screens positive, take additional history and refer for more in-depth mental health evaluation and treatment if warranted. Sharing breathing and relaxation exercises, promoting healthy behaviors, and paying attention to unhealthy strategies also may help, Dr. Bernhardt suggested.

Ultimately, determining when an athlete with COVID-19 can be medically cleared to return to play may be a challenge. There are limited data on epidemiology and clinical presentations that could help identify cardiac injury related to the disease, Dr. Bernhardt said. Guidance from the American College of Cardiology provides a framework for evaluating athletes for return to play, and pediatric cardiologists have discussed how the guidance relates to a pediatric population. Cardiac assessments may include measures of biomarkers such as troponin, B-type natriuretic peptide, and sedimentation rate, along with electrocardiograms, echocardiograms, and cardiac MRI.

Beyond return-to-play decisions, encourage the use of cloth face coverings on the sidelines and away from the playing field, and stress proper quarantining, Dr. Briskin added. Too often, she hears about children not quarantining properly. “Individuals with a known exposure should be quarantined in their house – ideally in a separate room from everyone else. ... When they come out of their room, they should wash their hands well and wear a cloth face covering. They should not be eating with other people.”

Dr. Bernhardt had no relevant disclosures.

jremaly@mdedge.com

Many student athletes who test positive for COVID-19 likely can have an uneventful return to their sports after they have rested for 2 weeks in quarantine, doctors suggest.

Canberk Sezer/Getty Images

There are reasons for caution, however, especially when a patient has symptoms that indicate possible cardiac involvement. In these cases, patients should undergo cardiac testing before a physician clears them to return to play, according to guidance from professional associations. Reports of myocarditis in college athletes who tested positive for SARS-CoV-2 but were asymptomatic are among the reasons for concern. Myocarditis may increase the risk of sudden death during exercise.

“The thing that you need to keep in mind is that this is not just a respiratory illness,” David T. Bernhardt, MD, professor of pediatrics, orthopedics, and rehabilitation at the University of Wisconsin in Madison, said in a presentation at the annual meeting of the American Academy of Pediatrics, held virtually this year. High school and college athletes have had cardiac, neurologic, hematologic, and renal problems that “can complicate their recovery and their return to sport.”

Still, children who test positive for COVID-19 tend to have mild illness and often are asymptomatic. “It is more than likely going to be safe for the majority of the student athletes who are in the elementary and middle school age to return to sport,” said Dr. Bernhardt. Given that 18-year-old college freshmen have had cardiac complications, there may be reason for more caution with high school students.
 

Limited data

The AAP has released interim guidance on returning to sports and recommends that primary care physicians clear all patients with COVID-19 before they resume training. Physicians should screen for cardiac symptoms such as chest pain, shortness of breath, fatigue, palpitations, or syncope.

Those with severe illness should be restricted from exercise and participation for 3-6 months. Primary care physicians, preferably in consultation with pediatric cardiologists, should clear athletes who experience severe illness.

“Most of the recommendations come from the fact that we simply do not know what we do not know with COVID-19,” Susannah Briskin, MD, a coauthor of the interim guidance, said in an interview. “We have to be cautious in returning individuals to play and closely monitor them as we learn more about the disease process and its effect on kids.”

Patients with severe illness could include those who were hospitalized and experienced hypotension or arrhythmias, required intubation or extracorporeal membrane oxygenation (ECMO) support, had kidney or cardiac failure, or developed multisystem inflammatory syndrome in children (MIS-C), said Dr. Briskin, a specialist in pediatric sports medicine at Case Western Reserve University, Cleveland.

“The majority of COVID-19 cases will not present like this in kids. We have no idea how common myocarditis is in kids post infection. We do know that, if anyone has chest pain, shortness of breath, excessive fatigue, syncope [passing out], or arrhythmia [feeling of their heart skipping beats], they should undergo further evaluation for myocarditis,” Dr. Briskin said.

Patients who are asymptomatic or have mild symptoms should rest for 14 days after their positive test. After their infectious period has passed, a doctor should assess for any concerning cardiac symptoms. “Anyone with prolonged fever or moderate symptoms should see their pediatrician and have an EKG performed, at a minimum, prior to return to sports,” Dr. Briskin said. “Anyone with an abnormal EKG or concerning signs or symptoms should be referred on to pediatric cardiology for a further assessment.”

Most patients who Dr. Briskin has seen have been asymptomatic or mildly symptomatic. “They have done well with a gradual return to physical activity,” she said. “We recommend a gradual return so individuals can be monitored for any signs or symptoms concerning for myocarditis. The far majority of individuals likely have an uneventful return to play.”

Mitigating risk

COVID-19 adds elements of uncertainty and complexity to the usual process of mitigating risk in sports, Dr. Bernhardt noted in his lecture. “You are dealing with an infection that we do not know a lot about,” he said. “And we are trying to mitigate risk not only for the individual who may or may not have underlying health problems, but you are also trying to mitigate risk for anybody else involved with the sport, including athletic trainers and team physicians, coaches, spectators, custodial staff, people working at a snack shack, and all the other people that can be involved in a typical sporting type of atmosphere.”

When patients do return to play after an illness, they should gradually increase the training load to avoid injury. In addition, clinicians should screen for depression and anxiety using tools such as the Four-Item Patient Health Questionnaire (PHQ-4) when they see patients. “The pandemic has been quite stressful for everybody, including our high school student athletes,” Dr. Bernhardt said. “Giving everybody a PHQ-4 when they come into clinic right now probably makes sense in terms of the stress levels that all of us are experiencing.”

If a patient screens positive, take additional history and refer for more in-depth mental health evaluation and treatment if warranted. Sharing breathing and relaxation exercises, promoting healthy behaviors, and paying attention to unhealthy strategies also may help, Dr. Bernhardt suggested.

Ultimately, determining when an athlete with COVID-19 can be medically cleared to return to play may be a challenge. There are limited data on epidemiology and clinical presentations that could help identify cardiac injury related to the disease, Dr. Bernhardt said. Guidance from the American College of Cardiology provides a framework for evaluating athletes for return to play, and pediatric cardiologists have discussed how the guidance relates to a pediatric population. Cardiac assessments may include measures of biomarkers such as troponin, B-type natriuretic peptide, and sedimentation rate, along with electrocardiograms, echocardiograms, and cardiac MRI.

Beyond return-to-play decisions, encourage the use of cloth face coverings on the sidelines and away from the playing field, and stress proper quarantining, Dr. Briskin added. Too often, she hears about children not quarantining properly. “Individuals with a known exposure should be quarantined in their house – ideally in a separate room from everyone else. ... When they come out of their room, they should wash their hands well and wear a cloth face covering. They should not be eating with other people.”

Dr. Bernhardt had no relevant disclosures.

jremaly@mdedge.com

Researchers and several medical groups on Oct. 23 pressed for changes to the US Food and Drug Administration’s (FDA) current plans for deciding how to eventually clear vaccines for COVID-19, arguing tougher standards would help bolster confidence in these critical medicines.

The FDA’s Vaccines and Related Biological Products Advisory Committee met for a wide-ranging discussion beginning around 10 am. The FDA did not ask the panel to weigh in on any particular vaccine. Instead, the FDA asked for the panel’s feedback on a series of questions, including considerations for continuing phase 3 trials if a product were to get an interim clearance known as an emergency use authorization (EUA).

Speakers at the hearing made a variety of requests, including asking for data showing COVID-19 vaccines can prevent serious illness and urging transparency about the agency’s deliberations for each product to be considered.

FDA staff are closely tracking the crop of experimental vaccines that have made it into advanced stages of testing, including products from Pfizer Inc, AstraZeneca, Johnson & Johnson, and Moderna.
 

‘Time for a reset’

Among the speakers at the public hearing was Peter Lurie, MD, who served as an FDA associate commissioner from 2014 to 2017. Now the president of the Center for Science in the Public Interest, Lurie was among the speakers who asked the agency to make its independence clear.

President Donald Trump has for months been making predictions about COVID-19 vaccine approvals that have been overly optimistic. In one example, the president, who is seeking re-election on November 3, last month spoke about being able to begin distributing a vaccine in October.

“Until now the process of developing candidate vaccines has been inappropriately politicized with an eye on the election calendar, rather than the deliberate timeframe science requires,” Lurie told the FDA advisory panel. “Now is the time for a reset. This committee has a unique opportunity to set a new tone for vaccine deliberations going forward.”

Lurie asked the panel to press the FDA to commit to hold an advisory committee meeting on requests by drugmakers for EUAs. He also asked the panel to demand that informed consent forms and minutes from institutional review board (IRB) discussions of COVID-19 vaccines trials be made public.

Also among the speakers at the public hearing was Peter Doshi, PhD, an associate professor at the University of Maryland School of Pharmacy, who argued that the current trials won’t answer the right questions about the COVID-19 vaccines.

“We could end up with approved vaccines that reduce the risk of mild infection, but do not decrease the risk of hospitalization, ICU use, or death — either at all or by a clinically relevant amount,” Doshi told the panel.

In his presentation, he reiterated points he had made previously, including in an October 21 article in the BMJ, for which he is an associate editor. Doshi also raised these concerns in a September opinion article in The New York Times, co-authored with Eric Topol, MD, director of the Scripps Research Translational Institute and editor-in-chief of Medscape.
 

Risks of a ‘rushed vaccine’

Other complaints about the FDA’s approach included criticism of a 2-month follow-up time after vaccination, which was seen as too short. ECRI, a nonprofit organization that seeks to improve the safety, quality, and cost-effectiveness of medicines, has argued that approving a weak COVID-19 vaccine might worsen the pandemic.

In an October 21 statement, ECRI noted the risk of a partially effective vaccine, which could be welcomed as a means of slowing transmission of the virus. But public response and attitudes over the past 9 months in the United States suggest that people would relax their precautions as soon as a vaccine is available.

“Resulting infections may offset the vaccine’s impact and end up increasing the mortality and morbidity burden,” ECRI said in the brief.

“The risks and consequences of a rushed vaccine could be very severe if the review is anything shy of thorough,” ECRI Chief Executive Officer Marcus Schabacker, MD, PhD, said in a statement prepared for the hearing.

This article first appeared on Medscape.com.

Researchers and several medical groups on Oct. 23 pressed for changes to the US Food and Drug Administration’s (FDA) current plans for deciding how to eventually clear vaccines for COVID-19, arguing tougher standards would help bolster confidence in these critical medicines.

The FDA’s Vaccines and Related Biological Products Advisory Committee met for a wide-ranging discussion beginning around 10 am. The FDA did not ask the panel to weigh in on any particular vaccine. Instead, the FDA asked for the panel’s feedback on a series of questions, including considerations for continuing phase 3 trials if a product were to get an interim clearance known as an emergency use authorization (EUA).

Speakers at the hearing made a variety of requests, including asking for data showing COVID-19 vaccines can prevent serious illness and urging transparency about the agency’s deliberations for each product to be considered.

FDA staff are closely tracking the crop of experimental vaccines that have made it into advanced stages of testing, including products from Pfizer Inc, AstraZeneca, Johnson & Johnson, and Moderna.
 

‘Time for a reset’

Among the speakers at the public hearing was Peter Lurie, MD, who served as an FDA associate commissioner from 2014 to 2017. Now the president of the Center for Science in the Public Interest, Lurie was among the speakers who asked the agency to make its independence clear.

President Donald Trump has for months been making predictions about COVID-19 vaccine approvals that have been overly optimistic. In one example, the president, who is seeking re-election on November 3, last month spoke about being able to begin distributing a vaccine in October.

“Until now the process of developing candidate vaccines has been inappropriately politicized with an eye on the election calendar, rather than the deliberate timeframe science requires,” Lurie told the FDA advisory panel. “Now is the time for a reset. This committee has a unique opportunity to set a new tone for vaccine deliberations going forward.”

Lurie asked the panel to press the FDA to commit to hold an advisory committee meeting on requests by drugmakers for EUAs. He also asked the panel to demand that informed consent forms and minutes from institutional review board (IRB) discussions of COVID-19 vaccines trials be made public.

Also among the speakers at the public hearing was Peter Doshi, PhD, an associate professor at the University of Maryland School of Pharmacy, who argued that the current trials won’t answer the right questions about the COVID-19 vaccines.

“We could end up with approved vaccines that reduce the risk of mild infection, but do not decrease the risk of hospitalization, ICU use, or death — either at all or by a clinically relevant amount,” Doshi told the panel.

In his presentation, he reiterated points he had made previously, including in an October 21 article in the BMJ, for which he is an associate editor. Doshi also raised these concerns in a September opinion article in The New York Times, co-authored with Eric Topol, MD, director of the Scripps Research Translational Institute and editor-in-chief of Medscape.
 

Risks of a ‘rushed vaccine’

Other complaints about the FDA’s approach included criticism of a 2-month follow-up time after vaccination, which was seen as too short. ECRI, a nonprofit organization that seeks to improve the safety, quality, and cost-effectiveness of medicines, has argued that approving a weak COVID-19 vaccine might worsen the pandemic.

In an October 21 statement, ECRI noted the risk of a partially effective vaccine, which could be welcomed as a means of slowing transmission of the virus. But public response and attitudes over the past 9 months in the United States suggest that people would relax their precautions as soon as a vaccine is available.

“Resulting infections may offset the vaccine’s impact and end up increasing the mortality and morbidity burden,” ECRI said in the brief.

“The risks and consequences of a rushed vaccine could be very severe if the review is anything shy of thorough,” ECRI Chief Executive Officer Marcus Schabacker, MD, PhD, said in a statement prepared for the hearing.

This article first appeared on Medscape.com.

Researchers and several medical groups on Oct. 23 pressed for changes to the US Food and Drug Administration’s (FDA) current plans for deciding how to eventually clear vaccines for COVID-19, arguing tougher standards would help bolster confidence in these critical medicines.

The FDA’s Vaccines and Related Biological Products Advisory Committee met for a wide-ranging discussion beginning around 10 am. The FDA did not ask the panel to weigh in on any particular vaccine. Instead, the FDA asked for the panel’s feedback on a series of questions, including considerations for continuing phase 3 trials if a product were to get an interim clearance known as an emergency use authorization (EUA).

Speakers at the hearing made a variety of requests, including asking for data showing COVID-19 vaccines can prevent serious illness and urging transparency about the agency’s deliberations for each product to be considered.

FDA staff are closely tracking the crop of experimental vaccines that have made it into advanced stages of testing, including products from Pfizer Inc, AstraZeneca, Johnson & Johnson, and Moderna.
 

‘Time for a reset’

Among the speakers at the public hearing was Peter Lurie, MD, who served as an FDA associate commissioner from 2014 to 2017. Now the president of the Center for Science in the Public Interest, Lurie was among the speakers who asked the agency to make its independence clear.

President Donald Trump has for months been making predictions about COVID-19 vaccine approvals that have been overly optimistic. In one example, the president, who is seeking re-election on November 3, last month spoke about being able to begin distributing a vaccine in October.

“Until now the process of developing candidate vaccines has been inappropriately politicized with an eye on the election calendar, rather than the deliberate timeframe science requires,” Lurie told the FDA advisory panel. “Now is the time for a reset. This committee has a unique opportunity to set a new tone for vaccine deliberations going forward.”

Lurie asked the panel to press the FDA to commit to hold an advisory committee meeting on requests by drugmakers for EUAs. He also asked the panel to demand that informed consent forms and minutes from institutional review board (IRB) discussions of COVID-19 vaccines trials be made public.

Also among the speakers at the public hearing was Peter Doshi, PhD, an associate professor at the University of Maryland School of Pharmacy, who argued that the current trials won’t answer the right questions about the COVID-19 vaccines.

“We could end up with approved vaccines that reduce the risk of mild infection, but do not decrease the risk of hospitalization, ICU use, or death — either at all or by a clinically relevant amount,” Doshi told the panel.

In his presentation, he reiterated points he had made previously, including in an October 21 article in the BMJ, for which he is an associate editor. Doshi also raised these concerns in a September opinion article in The New York Times, co-authored with Eric Topol, MD, director of the Scripps Research Translational Institute and editor-in-chief of Medscape.
 

Risks of a ‘rushed vaccine’

Other complaints about the FDA’s approach included criticism of a 2-month follow-up time after vaccination, which was seen as too short. ECRI, a nonprofit organization that seeks to improve the safety, quality, and cost-effectiveness of medicines, has argued that approving a weak COVID-19 vaccine might worsen the pandemic.

In an October 21 statement, ECRI noted the risk of a partially effective vaccine, which could be welcomed as a means of slowing transmission of the virus. But public response and attitudes over the past 9 months in the United States suggest that people would relax their precautions as soon as a vaccine is available.

“Resulting infections may offset the vaccine’s impact and end up increasing the mortality and morbidity burden,” ECRI said in the brief.

“The risks and consequences of a rushed vaccine could be very severe if the review is anything shy of thorough,” ECRI Chief Executive Officer Marcus Schabacker, MD, PhD, said in a statement prepared for the hearing.

This article first appeared on Medscape.com.

The available data suggest that the risks posed by COVID-19 infection to patients with psoriasis, including those on therapies that affect immune function, are modest at most, according to a summary of published studies and expert opinions summarized at the annual Coastal Dermatology Symposium, held virtually.

For patients with psoriasis concerned about their outcome if infected with COVID-19, “there is no evidence to support stopping biologics or systemic agents, so I am asking my patients to continue,” Kristina C. Duffin, MD, professor and chair of dermatology at the University of Utah, Salt Lake City, said at the meeting.

The National Psoriasis Foundation, which created a COVID-19 task force and maintains a COVID-19 Resource Center on its website, has provided similar advice. Many statements are phrased cautiously and clinicians are encouraged to practice shared decision-making, but the NPF guidance supports continuing effective therapy – or, in newly diagnosed patients, starting effective therapy – among those who are not infected with SARS-CoV2.

Patients with a new diagnosis of psoriasis “should be aware that untreated psoriatic disease is associated with serious impact on physical and emotional health, and in the case of psoriatic arthritis, can lead to permanent joint damage and disability,” according to the NPF guidance.

Overall, the “existing data generally suggest” that most treatments for psoriasis and psoriatic arthritis “do not meaningfully alter the risks of contracting SARS-CoV2 or having a worse course of COVID-19 illness,” the current guidance states. Yet, because of limited data this “is not known with certainty.”

Chronic systemic steroids are an exception. In a review of recently published studies evaluating whether psoriasis or its therapies increase risk of adverse outcomes in patients with COVID-19 infection, Dr. Duffin pointed to several that associated systemic steroids with hospitalization or other markers of severe disease.

The NPF guidance also recommends avoiding chronic systemic steroids in patients with psoriasis during the current COVID-19 era “if possible.” In patients with psoriatic arthritis who require systemic steroids, the guidance recommends “the lowest dose necessary to achieve the desired therapeutic effect.”

This is not necessarily true in patients with psoriasis and COVID-19 infection. Based on the potential for systemic steroids to improve outcomes in hospitalized COVID-19 patients requiring oxygen, steroids “should not be withheld” even when the justification is concern about the potential risk of flares with withdrawal, according to the NPF guidance statement.

The NPF guidance specifically cautions against use of hydroxychloroquine or chloroquine for prevention or treatment of COVID-19. In addition to an uncertain benefit, these antimalarial drugs have been associated previously with flares of psoriasis.

Dr. Duffin agreed and went on to warn that COVID-19 infection itself is a potential trigger for flares. She cited two published case reports of flares associated with psoriasis. Although one patient had also been exposed to hydroxychloroquine, she said the risk of psoriasis-induced flare “makes sense” based on previous associations made between flares and other viral infections and stress.

In patients with psoriasis who contract COVID-19 infection, Dr. Duffin concurred with the NPF guidance that management decisions should be made on a “case-by-case basis.” Although the NPF guidance states that “most patients can restart psoriasis and/or psoriatic arthritis treatments after complete resolution of COVID-19 symptoms,” no specific advice was offered on the decision to stop treatments.

For protecting psoriasis patients from infection and managing COVID-19 in those who become infected, much of the NPF advice is consistent with that offered to patients without psoriasis. This involves practicing infection control that reduces risk of transmission. Both the NPF guidance and Dr. Duffin suggested telemedicine is appropriate for limiting in-patient visits under pandemic conditions.

Although patients with psoriasis are more likely than the general population to have the comorbidities associated with bad COVID-19 infection outcomes, according to the NPF guidance, Dr. Duffin called the overall data evaluating susceptibility among psoriasis patients “reassuring.” She cautioned that the data are still limited, but the evidence so far suggests that neither psoriasis nor biologics are independent risk factors for acquiring COVID-19 or having a worse outcome if infected.

Yet, more definitive data are needed, and Dr. Duffin advised clinicians and patients to consult the NPF website for updates. “More up-to-date information will certainly be added as we go forward,” she said at the meeting, jointly presented by the University of Louisville and Global Academy for Medical Education.

This NPF task force on COVID-19 is meeting every 2 weeks, according to Joel M. Gelfand, MD, professor of dermatology, University of Pennsylvania, Philadelphia, and cochair of the task force. Dr. Gelfand reported that updates are based on a discussion of the available data.

“We will be releasing additional recommendations as necessary based on the developments,” he said in an interview. Updates are not necessarily required at this frequency but can be if appropriate. The goal is to keep recommendations current and evidence-based.

Dr. Duffin reported financial relationships with Amgen, AbbVie, Bristol-Myers Squibb, Boehringer-Ingelheim, Celgene, Eli Lilly, Janssen, Novartis, Pfizer, Siena, and UCB. Dr. Gelfand reported financial relationships with AbbVie, Bristol-Myers Squibb, GlaxoSmithKline, Lilly, Pfizer, Roche, and UCB.

This publication and Global Academy for Medical Education are owned by the same parent company.
 

The available data suggest that the risks posed by COVID-19 infection to patients with psoriasis, including those on therapies that affect immune function, are modest at most, according to a summary of published studies and expert opinions summarized at the annual Coastal Dermatology Symposium, held virtually.

For patients with psoriasis concerned about their outcome if infected with COVID-19, “there is no evidence to support stopping biologics or systemic agents, so I am asking my patients to continue,” Kristina C. Duffin, MD, professor and chair of dermatology at the University of Utah, Salt Lake City, said at the meeting.

The National Psoriasis Foundation, which created a COVID-19 task force and maintains a COVID-19 Resource Center on its website, has provided similar advice. Many statements are phrased cautiously and clinicians are encouraged to practice shared decision-making, but the NPF guidance supports continuing effective therapy – or, in newly diagnosed patients, starting effective therapy – among those who are not infected with SARS-CoV2.

Patients with a new diagnosis of psoriasis “should be aware that untreated psoriatic disease is associated with serious impact on physical and emotional health, and in the case of psoriatic arthritis, can lead to permanent joint damage and disability,” according to the NPF guidance.

Overall, the “existing data generally suggest” that most treatments for psoriasis and psoriatic arthritis “do not meaningfully alter the risks of contracting SARS-CoV2 or having a worse course of COVID-19 illness,” the current guidance states. Yet, because of limited data this “is not known with certainty.”

Chronic systemic steroids are an exception. In a review of recently published studies evaluating whether psoriasis or its therapies increase risk of adverse outcomes in patients with COVID-19 infection, Dr. Duffin pointed to several that associated systemic steroids with hospitalization or other markers of severe disease.

The NPF guidance also recommends avoiding chronic systemic steroids in patients with psoriasis during the current COVID-19 era “if possible.” In patients with psoriatic arthritis who require systemic steroids, the guidance recommends “the lowest dose necessary to achieve the desired therapeutic effect.”

This is not necessarily true in patients with psoriasis and COVID-19 infection. Based on the potential for systemic steroids to improve outcomes in hospitalized COVID-19 patients requiring oxygen, steroids “should not be withheld” even when the justification is concern about the potential risk of flares with withdrawal, according to the NPF guidance statement.

The NPF guidance specifically cautions against use of hydroxychloroquine or chloroquine for prevention or treatment of COVID-19. In addition to an uncertain benefit, these antimalarial drugs have been associated previously with flares of psoriasis.

Dr. Duffin agreed and went on to warn that COVID-19 infection itself is a potential trigger for flares. She cited two published case reports of flares associated with psoriasis. Although one patient had also been exposed to hydroxychloroquine, she said the risk of psoriasis-induced flare “makes sense” based on previous associations made between flares and other viral infections and stress.

In patients with psoriasis who contract COVID-19 infection, Dr. Duffin concurred with the NPF guidance that management decisions should be made on a “case-by-case basis.” Although the NPF guidance states that “most patients can restart psoriasis and/or psoriatic arthritis treatments after complete resolution of COVID-19 symptoms,” no specific advice was offered on the decision to stop treatments.

For protecting psoriasis patients from infection and managing COVID-19 in those who become infected, much of the NPF advice is consistent with that offered to patients without psoriasis. This involves practicing infection control that reduces risk of transmission. Both the NPF guidance and Dr. Duffin suggested telemedicine is appropriate for limiting in-patient visits under pandemic conditions.

Although patients with psoriasis are more likely than the general population to have the comorbidities associated with bad COVID-19 infection outcomes, according to the NPF guidance, Dr. Duffin called the overall data evaluating susceptibility among psoriasis patients “reassuring.” She cautioned that the data are still limited, but the evidence so far suggests that neither psoriasis nor biologics are independent risk factors for acquiring COVID-19 or having a worse outcome if infected.

Yet, more definitive data are needed, and Dr. Duffin advised clinicians and patients to consult the NPF website for updates. “More up-to-date information will certainly be added as we go forward,” she said at the meeting, jointly presented by the University of Louisville and Global Academy for Medical Education.

This NPF task force on COVID-19 is meeting every 2 weeks, according to Joel M. Gelfand, MD, professor of dermatology, University of Pennsylvania, Philadelphia, and cochair of the task force. Dr. Gelfand reported that updates are based on a discussion of the available data.

“We will be releasing additional recommendations as necessary based on the developments,” he said in an interview. Updates are not necessarily required at this frequency but can be if appropriate. The goal is to keep recommendations current and evidence-based.

Dr. Duffin reported financial relationships with Amgen, AbbVie, Bristol-Myers Squibb, Boehringer-Ingelheim, Celgene, Eli Lilly, Janssen, Novartis, Pfizer, Siena, and UCB. Dr. Gelfand reported financial relationships with AbbVie, Bristol-Myers Squibb, GlaxoSmithKline, Lilly, Pfizer, Roche, and UCB.

This publication and Global Academy for Medical Education are owned by the same parent company.
 

The available data suggest that the risks posed by COVID-19 infection to patients with psoriasis, including those on therapies that affect immune function, are modest at most, according to a summary of published studies and expert opinions summarized at the annual Coastal Dermatology Symposium, held virtually.

For patients with psoriasis concerned about their outcome if infected with COVID-19, “there is no evidence to support stopping biologics or systemic agents, so I am asking my patients to continue,” Kristina C. Duffin, MD, professor and chair of dermatology at the University of Utah, Salt Lake City, said at the meeting.

The National Psoriasis Foundation, which created a COVID-19 task force and maintains a COVID-19 Resource Center on its website, has provided similar advice. Many statements are phrased cautiously and clinicians are encouraged to practice shared decision-making, but the NPF guidance supports continuing effective therapy – or, in newly diagnosed patients, starting effective therapy – among those who are not infected with SARS-CoV2.

Patients with a new diagnosis of psoriasis “should be aware that untreated psoriatic disease is associated with serious impact on physical and emotional health, and in the case of psoriatic arthritis, can lead to permanent joint damage and disability,” according to the NPF guidance.

Overall, the “existing data generally suggest” that most treatments for psoriasis and psoriatic arthritis “do not meaningfully alter the risks of contracting SARS-CoV2 or having a worse course of COVID-19 illness,” the current guidance states. Yet, because of limited data this “is not known with certainty.”

Chronic systemic steroids are an exception. In a review of recently published studies evaluating whether psoriasis or its therapies increase risk of adverse outcomes in patients with COVID-19 infection, Dr. Duffin pointed to several that associated systemic steroids with hospitalization or other markers of severe disease.

The NPF guidance also recommends avoiding chronic systemic steroids in patients with psoriasis during the current COVID-19 era “if possible.” In patients with psoriatic arthritis who require systemic steroids, the guidance recommends “the lowest dose necessary to achieve the desired therapeutic effect.”

This is not necessarily true in patients with psoriasis and COVID-19 infection. Based on the potential for systemic steroids to improve outcomes in hospitalized COVID-19 patients requiring oxygen, steroids “should not be withheld” even when the justification is concern about the potential risk of flares with withdrawal, according to the NPF guidance statement.

The NPF guidance specifically cautions against use of hydroxychloroquine or chloroquine for prevention or treatment of COVID-19. In addition to an uncertain benefit, these antimalarial drugs have been associated previously with flares of psoriasis.

Dr. Duffin agreed and went on to warn that COVID-19 infection itself is a potential trigger for flares. She cited two published case reports of flares associated with psoriasis. Although one patient had also been exposed to hydroxychloroquine, she said the risk of psoriasis-induced flare “makes sense” based on previous associations made between flares and other viral infections and stress.

In patients with psoriasis who contract COVID-19 infection, Dr. Duffin concurred with the NPF guidance that management decisions should be made on a “case-by-case basis.” Although the NPF guidance states that “most patients can restart psoriasis and/or psoriatic arthritis treatments after complete resolution of COVID-19 symptoms,” no specific advice was offered on the decision to stop treatments.

For protecting psoriasis patients from infection and managing COVID-19 in those who become infected, much of the NPF advice is consistent with that offered to patients without psoriasis. This involves practicing infection control that reduces risk of transmission. Both the NPF guidance and Dr. Duffin suggested telemedicine is appropriate for limiting in-patient visits under pandemic conditions.

Although patients with psoriasis are more likely than the general population to have the comorbidities associated with bad COVID-19 infection outcomes, according to the NPF guidance, Dr. Duffin called the overall data evaluating susceptibility among psoriasis patients “reassuring.” She cautioned that the data are still limited, but the evidence so far suggests that neither psoriasis nor biologics are independent risk factors for acquiring COVID-19 or having a worse outcome if infected.

Yet, more definitive data are needed, and Dr. Duffin advised clinicians and patients to consult the NPF website for updates. “More up-to-date information will certainly be added as we go forward,” she said at the meeting, jointly presented by the University of Louisville and Global Academy for Medical Education.

This NPF task force on COVID-19 is meeting every 2 weeks, according to Joel M. Gelfand, MD, professor of dermatology, University of Pennsylvania, Philadelphia, and cochair of the task force. Dr. Gelfand reported that updates are based on a discussion of the available data.

“We will be releasing additional recommendations as necessary based on the developments,” he said in an interview. Updates are not necessarily required at this frequency but can be if appropriate. The goal is to keep recommendations current and evidence-based.

Dr. Duffin reported financial relationships with Amgen, AbbVie, Bristol-Myers Squibb, Boehringer-Ingelheim, Celgene, Eli Lilly, Janssen, Novartis, Pfizer, Siena, and UCB. Dr. Gelfand reported financial relationships with AbbVie, Bristol-Myers Squibb, GlaxoSmithKline, Lilly, Pfizer, Roche, and UCB.

This publication and Global Academy for Medical Education are owned by the same parent company.
 

The Centers for Disease Control and Prevention updated its recommendations for likely person-to-person spread of SARS-CoV-2 to warn about the risk of multiple, brief, “close contact” encounters with others who are positive for COVID-19.

New data suggest each close encounter – coming within 6 feet of an infected person – can increase the risk for transmission, CDC director Robert Redfield, MD, said during a media briefing.

“As we get more data and understand the science of COVID, we’re going to continue to incorporate that in our recommendations,” Dr. Redfield said in response to a reporter’s question about a recent study.

Previously, the CDC cautioned against spending 15 minutes or longer in close proximity to an infected person, particularly in enclosed indoor spaces.

In a new report published online Oct. 21 in Morbidity and Mortality Weekly Report, however, investigators “determined that an individual who had a series of shorter contacts that over time added up to more than 15 minutes became infected.”
 

Beware of brief encounters?

On July 28, a 20-year-old male correctional officer in Vermont had multiple brief encounters with six transferred incarcerated or detained people while their SARS-CoV-2 test results were pending. The six were asymptomatic at the time and were housed in a quarantine unit, reported CDC researcher Julia Pringle, PhD, and colleagues.

The following day, all six inmates tested polymerase chain reaction (PCR) positive for COVID-19. The correctional officer did not spend 15 minutes or more within 6 feet of any of the inmates, according to video surveillance footage, and he continued to work.

On Aug. 4, however, he developed symptoms that included loss of smell and taste, myalgia, runny nose, cough, shortness of breath, headache, loss of appetite, and gastrointestinal symptoms. He stayed home starting the next day and tested PCR positive for COVID-19 on Aug. 11.

Further review of the surveillance video showed that the officer had numerous brief encounters of approximately 1 minute each that cumulatively exceeded 15 minutes over a 24-hour period, the researchers reported.

During all the interactions with inmates, the correctional officer wore a cloth mask, gown, and eye protection. The inmates wore masks while in their cells but did not have them on during brief cell doorway interactions or in the recreation room, according to the report.
 

No interaction is 100% safe

“We know that every activity that involves interacting with others has some degree of risk right now,” said Jay Butler, MD, CDC deputy director for infectious diseases.

“Unfortunately, we’re seeing a distressing trend here in the United States with COVID-19 cases increasing in nearly 75% of the country,” he said. “We’ve confirmed 8.1 million cases and, sadly, over 220,000 deaths since January.

“I know these are numbers, but these are also people,” Dr. Butler added.

“The pandemic is not over,” Dr. Redfield said. “Earlier this week, COVID virus cases reached over 40 million globally. Here in the United States we are approaching a critical phase.”

Four factors associated with higher risk for transmission are the proximity of each encounter, its duration, whether an interaction takes place indoors or outdoors, and the number of people encountered, Dr. Butler said.

Dr. Butler acknowledged widespread fatigue with adherence to personal protection measures, but added that social distancing, mask-wearing, and other measures are more important now than ever. He noted that more Americans will be spending time indoors with the onset of cooler weather and the upcoming holidays.
 

A note of optimism

Dr. Redfield remains optimistic about the limited availability of a vaccine or vaccines by year’s end but added that “it’s important for all of us to remain diligent in our efforts to defeat this virus.”

“There is hope on the way, in the form of safe and effective vaccines in a matter of weeks or months. To bridge to that next phase, we have to take steps to keep ourselves, our families, and our communities safe,” said Alex Azar, secretary of the Department of Health & Human Services.

“I know it’s been a difficult year for Americans, but we are going to come through this on the other side,” Dr. Redfield said.

The Centers for Disease Control and Prevention updated its recommendations for likely person-to-person spread of SARS-CoV-2 to warn about the risk of multiple, brief, “close contact” encounters with others who are positive for COVID-19.

New data suggest each close encounter – coming within 6 feet of an infected person – can increase the risk for transmission, CDC director Robert Redfield, MD, said during a media briefing.

“As we get more data and understand the science of COVID, we’re going to continue to incorporate that in our recommendations,” Dr. Redfield said in response to a reporter’s question about a recent study.

Previously, the CDC cautioned against spending 15 minutes or longer in close proximity to an infected person, particularly in enclosed indoor spaces.

In a new report published online Oct. 21 in Morbidity and Mortality Weekly Report, however, investigators “determined that an individual who had a series of shorter contacts that over time added up to more than 15 minutes became infected.”
 

Beware of brief encounters?

On July 28, a 20-year-old male correctional officer in Vermont had multiple brief encounters with six transferred incarcerated or detained people while their SARS-CoV-2 test results were pending. The six were asymptomatic at the time and were housed in a quarantine unit, reported CDC researcher Julia Pringle, PhD, and colleagues.

The following day, all six inmates tested polymerase chain reaction (PCR) positive for COVID-19. The correctional officer did not spend 15 minutes or more within 6 feet of any of the inmates, according to video surveillance footage, and he continued to work.

On Aug. 4, however, he developed symptoms that included loss of smell and taste, myalgia, runny nose, cough, shortness of breath, headache, loss of appetite, and gastrointestinal symptoms. He stayed home starting the next day and tested PCR positive for COVID-19 on Aug. 11.

Further review of the surveillance video showed that the officer had numerous brief encounters of approximately 1 minute each that cumulatively exceeded 15 minutes over a 24-hour period, the researchers reported.

During all the interactions with inmates, the correctional officer wore a cloth mask, gown, and eye protection. The inmates wore masks while in their cells but did not have them on during brief cell doorway interactions or in the recreation room, according to the report.
 

No interaction is 100% safe

“We know that every activity that involves interacting with others has some degree of risk right now,” said Jay Butler, MD, CDC deputy director for infectious diseases.

“Unfortunately, we’re seeing a distressing trend here in the United States with COVID-19 cases increasing in nearly 75% of the country,” he said. “We’ve confirmed 8.1 million cases and, sadly, over 220,000 deaths since January.

“I know these are numbers, but these are also people,” Dr. Butler added.

“The pandemic is not over,” Dr. Redfield said. “Earlier this week, COVID virus cases reached over 40 million globally. Here in the United States we are approaching a critical phase.”

Four factors associated with higher risk for transmission are the proximity of each encounter, its duration, whether an interaction takes place indoors or outdoors, and the number of people encountered, Dr. Butler said.

Dr. Butler acknowledged widespread fatigue with adherence to personal protection measures, but added that social distancing, mask-wearing, and other measures are more important now than ever. He noted that more Americans will be spending time indoors with the onset of cooler weather and the upcoming holidays.
 

A note of optimism

Dr. Redfield remains optimistic about the limited availability of a vaccine or vaccines by year’s end but added that “it’s important for all of us to remain diligent in our efforts to defeat this virus.”

“There is hope on the way, in the form of safe and effective vaccines in a matter of weeks or months. To bridge to that next phase, we have to take steps to keep ourselves, our families, and our communities safe,” said Alex Azar, secretary of the Department of Health & Human Services.

“I know it’s been a difficult year for Americans, but we are going to come through this on the other side,” Dr. Redfield said.

The Centers for Disease Control and Prevention updated its recommendations for likely person-to-person spread of SARS-CoV-2 to warn about the risk of multiple, brief, “close contact” encounters with others who are positive for COVID-19.

New data suggest each close encounter – coming within 6 feet of an infected person – can increase the risk for transmission, CDC director Robert Redfield, MD, said during a media briefing.

“As we get more data and understand the science of COVID, we’re going to continue to incorporate that in our recommendations,” Dr. Redfield said in response to a reporter’s question about a recent study.

Previously, the CDC cautioned against spending 15 minutes or longer in close proximity to an infected person, particularly in enclosed indoor spaces.

In a new report published online Oct. 21 in Morbidity and Mortality Weekly Report, however, investigators “determined that an individual who had a series of shorter contacts that over time added up to more than 15 minutes became infected.”
 

Beware of brief encounters?

On July 28, a 20-year-old male correctional officer in Vermont had multiple brief encounters with six transferred incarcerated or detained people while their SARS-CoV-2 test results were pending. The six were asymptomatic at the time and were housed in a quarantine unit, reported CDC researcher Julia Pringle, PhD, and colleagues.

The following day, all six inmates tested polymerase chain reaction (PCR) positive for COVID-19. The correctional officer did not spend 15 minutes or more within 6 feet of any of the inmates, according to video surveillance footage, and he continued to work.

On Aug. 4, however, he developed symptoms that included loss of smell and taste, myalgia, runny nose, cough, shortness of breath, headache, loss of appetite, and gastrointestinal symptoms. He stayed home starting the next day and tested PCR positive for COVID-19 on Aug. 11.

Further review of the surveillance video showed that the officer had numerous brief encounters of approximately 1 minute each that cumulatively exceeded 15 minutes over a 24-hour period, the researchers reported.

During all the interactions with inmates, the correctional officer wore a cloth mask, gown, and eye protection. The inmates wore masks while in their cells but did not have them on during brief cell doorway interactions or in the recreation room, according to the report.
 

No interaction is 100% safe

“We know that every activity that involves interacting with others has some degree of risk right now,” said Jay Butler, MD, CDC deputy director for infectious diseases.

“Unfortunately, we’re seeing a distressing trend here in the United States with COVID-19 cases increasing in nearly 75% of the country,” he said. “We’ve confirmed 8.1 million cases and, sadly, over 220,000 deaths since January.

“I know these are numbers, but these are also people,” Dr. Butler added.

“The pandemic is not over,” Dr. Redfield said. “Earlier this week, COVID virus cases reached over 40 million globally. Here in the United States we are approaching a critical phase.”

Four factors associated with higher risk for transmission are the proximity of each encounter, its duration, whether an interaction takes place indoors or outdoors, and the number of people encountered, Dr. Butler said.

Dr. Butler acknowledged widespread fatigue with adherence to personal protection measures, but added that social distancing, mask-wearing, and other measures are more important now than ever. He noted that more Americans will be spending time indoors with the onset of cooler weather and the upcoming holidays.
 

A note of optimism

Dr. Redfield remains optimistic about the limited availability of a vaccine or vaccines by year’s end but added that “it’s important for all of us to remain diligent in our efforts to defeat this virus.”

“There is hope on the way, in the form of safe and effective vaccines in a matter of weeks or months. To bridge to that next phase, we have to take steps to keep ourselves, our families, and our communities safe,” said Alex Azar, secretary of the Department of Health & Human Services.

“I know it’s been a difficult year for Americans, but we are going to come through this on the other side,” Dr. Redfield said.

Convalescent plasma may not prevent progression to severe disease or reduce mortality risk in hospitalized patients with moderate COVID-19, based on a phase 2 trial involving more than 400 patients in India.

The PLACID trial offers real-world data with “high generalizability,” according to lead author Anup Agarwal, MD, of the Indian Council of Medical Research, New Delhi, and colleagues.

“Evidence suggests that convalescent plasma collected from survivors of COVID-19 contains receptor binding domain specific antibodies with potent antiviral activity,” the investigators wrote in the BMJ. “However, effective titers of antiviral neutralizing antibodies, optimal timing for convalescent plasma treatment, optimal timing for plasma donation, and the severity class of patients who are likely to benefit from convalescent plasma remain unclear.”

According to Dr. Agarwal and colleagues, case series and observational studies have suggested that convalescent plasma may reduce viral load, hospital stay, and mortality, but randomized controlled trials to date have ended prematurely because of issues with enrollment and design, making PLACID the first randomized controlled trial of its kind to reach completion.

The open-label, multicenter study involved 464 hospitalized adults who tested positive for SARS-CoV-2 via reverse transcription polymerase chain reaction (RT-PCR). Enrollment also required a respiratory rate of more than 24 breaths/min with an oxygen saturation (SpO₂) of 93% or less on room air, or a partial pressure of oxygen in arterial blood/fraction of inspired oxygen (PaO₂ /FiO₂ ) ratio between 200 and 300 mm Hg.

Patients were randomly assigned in a 1:1 ratio to receive either best standard of care (control), or best standard of care plus convalescent plasma, which was given in two doses of 200 mL, 24 hours apart. Patients were assessed via clinical examination, chest imaging, and serial laboratory testing, the latter of which included neutralizing antibody titers on days 0, 3, and 7.

The primary outcome was a 28-day composite of progression to severe disease (PaO₂/FiO₂ ratio < 100 mm Hg) and all-cause mortality. An array of secondary outcomes were also reported, including symptom resolution, total duration of respiratory support, change in oxygen requirement, and others.

In the convalescent plasma group, 19% of patients progressed to severe disease or died within 28 days, compared with 18% of those in the control group (risk ratio, 1.04; 95% confidence interval, 0.71-1.54), suggesting no statistically significant benefit from the intervention. This lack of benefit was also found in a subgroup analysis of patients with detectable titers of antibodies to SARS-CoV-2, and when progression to severe disease and all-cause mortality were analyzed independently across all patients.

Still, at day 7, patients treated with convalescent plasma were significantly more likely to have resolution of fatigue (RR, 1.21; 95% CI, 1.02-1.42) and shortness of breath (RR, 1.16; 95% CI, 1.02-1.32). And at the same time point, patients treated with convalescent plasma were 20% more likely to test negative for SARS-CoV-2 RNA (RR, 1.2; 95% CI, 1.04-1.5).

In an accompanying editorial, Elizabeth B. Pathak, PhD, of the Women’s Institute for Independent Social Enquiry, Olney, Md., suggested that the reported symptom improvements need to be viewed with skepticism.

“These results should be interpreted with caution, because the trial was not blinded, so knowledge of treatment status could have influenced the reporting of subjective symptoms by patients who survived to day 7,” Dr. Pathak wrote.

Dr. Pathak noted that convalescent plasma did appear to have an antiviral effect, based on the higher rate of negative RNA test results at day 7. She hypothesized that the lack of major corresponding clinical benefit could be explained by detrimental thrombotic processes.

“The net effect of plasma is prothrombotic,” Dr. Pathak wrote, which should raise safety concerns, since “COVID-19 is a life-threatening thrombotic disorder.”

According to Dr. Pathak, large-scale datasets may be giving a false sense of security. She cited a recent safety analysis of 20,000 U.S. patients who received convalescent plasma, in which the investigators excluded 88.2% of cardiac events and 66.3% of thrombotic events, as these were deemed unrelated to transfusion; but this decision was made by the treating physician, without independent review or a defined protocol.

Michael J. Joyner, MD, of the Mayo Clinic in Rochester, Minn., was the lead author of the above safety study, and is leading the Food and Drug Administration expanded access program for convalescent plasma in patients with COVID-19. He suggested that the study by Dr. Agarwal and colleagues was admirable, but flaws in the treatment protocol cast doubt upon the efficacy findings.

“It is very impressive that these investigators performed a large trial of convalescent plasma in the midst of a pandemic,” Dr. Joyner said. “Unfortunately it is unclear how generalizable the findings are because many of the units of plasma had either very low or no antibody titers and because the plasma was given late in the course of the disease. It has been known since at least the 1930s that antibody therapy works best when enough product is given either prophylactically or early in the course of disease.”

Dr. Joyner had a more positive interpretation of the reported symptom improvements.

“It is also interesting to note that while there was no mortality benefit, that – even with the limitations of the study – there was some evidence of improved patient physiology at 7 days,” he said. “So, at one level, [this is] a negative study, but at least [there are] some hints of efficacy given the suboptimal use case in the patients studied.”

The study was funded by the Indian Council of Medical Research, which employs several of the authors and PLACID Trial Collaborators. Dr. Pathak and Dr. Joyner reported no conflicts of interest.

SOURCE: Agarwal A et al. BMJ. 2020 Oct 23. doi: 10.1136/bmj.m3939 .

Convalescent plasma may not prevent progression to severe disease or reduce mortality risk in hospitalized patients with moderate COVID-19, based on a phase 2 trial involving more than 400 patients in India.

The PLACID trial offers real-world data with “high generalizability,” according to lead author Anup Agarwal, MD, of the Indian Council of Medical Research, New Delhi, and colleagues.

“Evidence suggests that convalescent plasma collected from survivors of COVID-19 contains receptor binding domain specific antibodies with potent antiviral activity,” the investigators wrote in the BMJ. “However, effective titers of antiviral neutralizing antibodies, optimal timing for convalescent plasma treatment, optimal timing for plasma donation, and the severity class of patients who are likely to benefit from convalescent plasma remain unclear.”

According to Dr. Agarwal and colleagues, case series and observational studies have suggested that convalescent plasma may reduce viral load, hospital stay, and mortality, but randomized controlled trials to date have ended prematurely because of issues with enrollment and design, making PLACID the first randomized controlled trial of its kind to reach completion.

The open-label, multicenter study involved 464 hospitalized adults who tested positive for SARS-CoV-2 via reverse transcription polymerase chain reaction (RT-PCR). Enrollment also required a respiratory rate of more than 24 breaths/min with an oxygen saturation (SpO₂) of 93% or less on room air, or a partial pressure of oxygen in arterial blood/fraction of inspired oxygen (PaO₂ /FiO₂ ) ratio between 200 and 300 mm Hg.

Patients were randomly assigned in a 1:1 ratio to receive either best standard of care (control), or best standard of care plus convalescent plasma, which was given in two doses of 200 mL, 24 hours apart. Patients were assessed via clinical examination, chest imaging, and serial laboratory testing, the latter of which included neutralizing antibody titers on days 0, 3, and 7.

The primary outcome was a 28-day composite of progression to severe disease (PaO₂/FiO₂ ratio < 100 mm Hg) and all-cause mortality. An array of secondary outcomes were also reported, including symptom resolution, total duration of respiratory support, change in oxygen requirement, and others.

In the convalescent plasma group, 19% of patients progressed to severe disease or died within 28 days, compared with 18% of those in the control group (risk ratio, 1.04; 95% confidence interval, 0.71-1.54), suggesting no statistically significant benefit from the intervention. This lack of benefit was also found in a subgroup analysis of patients with detectable titers of antibodies to SARS-CoV-2, and when progression to severe disease and all-cause mortality were analyzed independently across all patients.

Still, at day 7, patients treated with convalescent plasma were significantly more likely to have resolution of fatigue (RR, 1.21; 95% CI, 1.02-1.42) and shortness of breath (RR, 1.16; 95% CI, 1.02-1.32). And at the same time point, patients treated with convalescent plasma were 20% more likely to test negative for SARS-CoV-2 RNA (RR, 1.2; 95% CI, 1.04-1.5).

In an accompanying editorial, Elizabeth B. Pathak, PhD, of the Women’s Institute for Independent Social Enquiry, Olney, Md., suggested that the reported symptom improvements need to be viewed with skepticism.

“These results should be interpreted with caution, because the trial was not blinded, so knowledge of treatment status could have influenced the reporting of subjective symptoms by patients who survived to day 7,” Dr. Pathak wrote.

Dr. Pathak noted that convalescent plasma did appear to have an antiviral effect, based on the higher rate of negative RNA test results at day 7. She hypothesized that the lack of major corresponding clinical benefit could be explained by detrimental thrombotic processes.

“The net effect of plasma is prothrombotic,” Dr. Pathak wrote, which should raise safety concerns, since “COVID-19 is a life-threatening thrombotic disorder.”

According to Dr. Pathak, large-scale datasets may be giving a false sense of security. She cited a recent safety analysis of 20,000 U.S. patients who received convalescent plasma, in which the investigators excluded 88.2% of cardiac events and 66.3% of thrombotic events, as these were deemed unrelated to transfusion; but this decision was made by the treating physician, without independent review or a defined protocol.

Michael J. Joyner, MD, of the Mayo Clinic in Rochester, Minn., was the lead author of the above safety study, and is leading the Food and Drug Administration expanded access program for convalescent plasma in patients with COVID-19. He suggested that the study by Dr. Agarwal and colleagues was admirable, but flaws in the treatment protocol cast doubt upon the efficacy findings.

“It is very impressive that these investigators performed a large trial of convalescent plasma in the midst of a pandemic,” Dr. Joyner said. “Unfortunately it is unclear how generalizable the findings are because many of the units of plasma had either very low or no antibody titers and because the plasma was given late in the course of the disease. It has been known since at least the 1930s that antibody therapy works best when enough product is given either prophylactically or early in the course of disease.”

Dr. Joyner had a more positive interpretation of the reported symptom improvements.

“It is also interesting to note that while there was no mortality benefit, that – even with the limitations of the study – there was some evidence of improved patient physiology at 7 days,” he said. “So, at one level, [this is] a negative study, but at least [there are] some hints of efficacy given the suboptimal use case in the patients studied.”

The study was funded by the Indian Council of Medical Research, which employs several of the authors and PLACID Trial Collaborators. Dr. Pathak and Dr. Joyner reported no conflicts of interest.

SOURCE: Agarwal A et al. BMJ. 2020 Oct 23. doi: 10.1136/bmj.m3939 .

Convalescent plasma may not prevent progression to severe disease or reduce mortality risk in hospitalized patients with moderate COVID-19, based on a phase 2 trial involving more than 400 patients in India.

The PLACID trial offers real-world data with “high generalizability,” according to lead author Anup Agarwal, MD, of the Indian Council of Medical Research, New Delhi, and colleagues.

“Evidence suggests that convalescent plasma collected from survivors of COVID-19 contains receptor binding domain specific antibodies with potent antiviral activity,” the investigators wrote in the BMJ. “However, effective titers of antiviral neutralizing antibodies, optimal timing for convalescent plasma treatment, optimal timing for plasma donation, and the severity class of patients who are likely to benefit from convalescent plasma remain unclear.”

According to Dr. Agarwal and colleagues, case series and observational studies have suggested that convalescent plasma may reduce viral load, hospital stay, and mortality, but randomized controlled trials to date have ended prematurely because of issues with enrollment and design, making PLACID the first randomized controlled trial of its kind to reach completion.

The open-label, multicenter study involved 464 hospitalized adults who tested positive for SARS-CoV-2 via reverse transcription polymerase chain reaction (RT-PCR). Enrollment also required a respiratory rate of more than 24 breaths/min with an oxygen saturation (SpO₂) of 93% or less on room air, or a partial pressure of oxygen in arterial blood/fraction of inspired oxygen (PaO₂ /FiO₂ ) ratio between 200 and 300 mm Hg.

Patients were randomly assigned in a 1:1 ratio to receive either best standard of care (control), or best standard of care plus convalescent plasma, which was given in two doses of 200 mL, 24 hours apart. Patients were assessed via clinical examination, chest imaging, and serial laboratory testing, the latter of which included neutralizing antibody titers on days 0, 3, and 7.

The primary outcome was a 28-day composite of progression to severe disease (PaO₂/FiO₂ ratio < 100 mm Hg) and all-cause mortality. An array of secondary outcomes were also reported, including symptom resolution, total duration of respiratory support, change in oxygen requirement, and others.

In the convalescent plasma group, 19% of patients progressed to severe disease or died within 28 days, compared with 18% of those in the control group (risk ratio, 1.04; 95% confidence interval, 0.71-1.54), suggesting no statistically significant benefit from the intervention. This lack of benefit was also found in a subgroup analysis of patients with detectable titers of antibodies to SARS-CoV-2, and when progression to severe disease and all-cause mortality were analyzed independently across all patients.

Still, at day 7, patients treated with convalescent plasma were significantly more likely to have resolution of fatigue (RR, 1.21; 95% CI, 1.02-1.42) and shortness of breath (RR, 1.16; 95% CI, 1.02-1.32). And at the same time point, patients treated with convalescent plasma were 20% more likely to test negative for SARS-CoV-2 RNA (RR, 1.2; 95% CI, 1.04-1.5).

In an accompanying editorial, Elizabeth B. Pathak, PhD, of the Women’s Institute for Independent Social Enquiry, Olney, Md., suggested that the reported symptom improvements need to be viewed with skepticism.

“These results should be interpreted with caution, because the trial was not blinded, so knowledge of treatment status could have influenced the reporting of subjective symptoms by patients who survived to day 7,” Dr. Pathak wrote.

Dr. Pathak noted that convalescent plasma did appear to have an antiviral effect, based on the higher rate of negative RNA test results at day 7. She hypothesized that the lack of major corresponding clinical benefit could be explained by detrimental thrombotic processes.

“The net effect of plasma is prothrombotic,” Dr. Pathak wrote, which should raise safety concerns, since “COVID-19 is a life-threatening thrombotic disorder.”

According to Dr. Pathak, large-scale datasets may be giving a false sense of security. She cited a recent safety analysis of 20,000 U.S. patients who received convalescent plasma, in which the investigators excluded 88.2% of cardiac events and 66.3% of thrombotic events, as these were deemed unrelated to transfusion; but this decision was made by the treating physician, without independent review or a defined protocol.

Michael J. Joyner, MD, of the Mayo Clinic in Rochester, Minn., was the lead author of the above safety study, and is leading the Food and Drug Administration expanded access program for convalescent plasma in patients with COVID-19. He suggested that the study by Dr. Agarwal and colleagues was admirable, but flaws in the treatment protocol cast doubt upon the efficacy findings.

“It is very impressive that these investigators performed a large trial of convalescent plasma in the midst of a pandemic,” Dr. Joyner said. “Unfortunately it is unclear how generalizable the findings are because many of the units of plasma had either very low or no antibody titers and because the plasma was given late in the course of the disease. It has been known since at least the 1930s that antibody therapy works best when enough product is given either prophylactically or early in the course of disease.”

Dr. Joyner had a more positive interpretation of the reported symptom improvements.

“It is also interesting to note that while there was no mortality benefit, that – even with the limitations of the study – there was some evidence of improved patient physiology at 7 days,” he said. “So, at one level, [this is] a negative study, but at least [there are] some hints of efficacy given the suboptimal use case in the patients studied.”

The study was funded by the Indian Council of Medical Research, which employs several of the authors and PLACID Trial Collaborators. Dr. Pathak and Dr. Joyner reported no conflicts of interest.

SOURCE: Agarwal A et al. BMJ. 2020 Oct 23. doi: 10.1136/bmj.m3939 .

The U.S. Food and Drug Administration approved remdesivir (Veklury) Oct. 22 as a treatment for hospitalized COVID-19 patients aged 12 and up, making it the first and only approved treatment for COVID-19, according to a release from drug manufacturer Gilead Sciences.

The FDA’s initial Emergency Use Authorization (EUA) of the antiviral, issued in May, allowed the drug to be used only for patients with severe COVID-19, specifically, COVID-19 patients with low blood oxygen levels or who needed oxygen therapy or mechanical ventilation.

An August EUA expanded treatment to include all adult and pediatric hospitalized COVID-19 patients, regardless of the severity of their disease. The FDA also issued a new EUA for remdesivir Oct. 22 allowing treatment of hospitalized pediatric patients younger than 12 weighing at least 3.5 kg.

Today’s approval is based on three randomized controlled trials, according to Gilead.

Final trial results from one of them, the National Institute of Allergy and Infectious Disease–funded ACTT-1 trial, published earlier in October, showed that hospitalized patients with COVID-19 who received remdesivir had a shorter median recovery time than those who received a placebo – 10 days versus 15 days.

This difference and some related secondary endpoints were statistically significant in the randomized trial, but there was not a statistically significant difference in mortality between the treatment and placebo groups.

The other two trials used for the approval, the SIMPLE trials, were open-label phase 3 trials conducted in countries with a high prevalence of COVID-19 infections, according to Gilead.

The SIMPLE-Severe trial was a randomized, multicenter study that evaluated the efficacy and safety of 5-day and 10-day dosing plus standard of care in 397 hospitalized adult patients with severe COVID-19. The primary endpoint was clinical status on day 14 assessed on a 7-point ordinal scale, according to Gilead.

The trial found that a 5-day or a 10-day treatment course of Veklury achieved similar clinical outcomes to the ACTT-1 trial (odds ratio, 0.75; 95% confidence interval, 0.51-1.12).

The SIMPLE-Moderate trial was a randomized, controlled, multicenter study that evaluated the efficacy and safety of 5-day and 10-day dosing durations of Veklury plus standard of care, compared with standard of care alone in 600 hospitalized adult patients with moderate COVID-19, Gilead stated in its release.

The primary endpoint was clinical status on day 11 assessed on a 7-point ordinal scale.

The results showed statistically improved clinical outcomes with a 5-day treatment course of Veklury, compared with standard of care (OR, 1.65; 95% CI, 1.0-2.48; P = .017), according to Gilead.

This article first appeared on Medscape.com.

The U.S. Food and Drug Administration approved remdesivir (Veklury) Oct. 22 as a treatment for hospitalized COVID-19 patients aged 12 and up, making it the first and only approved treatment for COVID-19, according to a release from drug manufacturer Gilead Sciences.

The FDA’s initial Emergency Use Authorization (EUA) of the antiviral, issued in May, allowed the drug to be used only for patients with severe COVID-19, specifically, COVID-19 patients with low blood oxygen levels or who needed oxygen therapy or mechanical ventilation.

An August EUA expanded treatment to include all adult and pediatric hospitalized COVID-19 patients, regardless of the severity of their disease. The FDA also issued a new EUA for remdesivir Oct. 22 allowing treatment of hospitalized pediatric patients younger than 12 weighing at least 3.5 kg.

Today’s approval is based on three randomized controlled trials, according to Gilead.

Final trial results from one of them, the National Institute of Allergy and Infectious Disease–funded ACTT-1 trial, published earlier in October, showed that hospitalized patients with COVID-19 who received remdesivir had a shorter median recovery time than those who received a placebo – 10 days versus 15 days.

This difference and some related secondary endpoints were statistically significant in the randomized trial, but there was not a statistically significant difference in mortality between the treatment and placebo groups.

The other two trials used for the approval, the SIMPLE trials, were open-label phase 3 trials conducted in countries with a high prevalence of COVID-19 infections, according to Gilead.

The SIMPLE-Severe trial was a randomized, multicenter study that evaluated the efficacy and safety of 5-day and 10-day dosing plus standard of care in 397 hospitalized adult patients with severe COVID-19. The primary endpoint was clinical status on day 14 assessed on a 7-point ordinal scale, according to Gilead.

The trial found that a 5-day or a 10-day treatment course of Veklury achieved similar clinical outcomes to the ACTT-1 trial (odds ratio, 0.75; 95% confidence interval, 0.51-1.12).

The SIMPLE-Moderate trial was a randomized, controlled, multicenter study that evaluated the efficacy and safety of 5-day and 10-day dosing durations of Veklury plus standard of care, compared with standard of care alone in 600 hospitalized adult patients with moderate COVID-19, Gilead stated in its release.

The primary endpoint was clinical status on day 11 assessed on a 7-point ordinal scale.

The results showed statistically improved clinical outcomes with a 5-day treatment course of Veklury, compared with standard of care (OR, 1.65; 95% CI, 1.0-2.48; P = .017), according to Gilead.

This article first appeared on Medscape.com.

The U.S. Food and Drug Administration approved remdesivir (Veklury) Oct. 22 as a treatment for hospitalized COVID-19 patients aged 12 and up, making it the first and only approved treatment for COVID-19, according to a release from drug manufacturer Gilead Sciences.

The FDA’s initial Emergency Use Authorization (EUA) of the antiviral, issued in May, allowed the drug to be used only for patients with severe COVID-19, specifically, COVID-19 patients with low blood oxygen levels or who needed oxygen therapy or mechanical ventilation.

An August EUA expanded treatment to include all adult and pediatric hospitalized COVID-19 patients, regardless of the severity of their disease. The FDA also issued a new EUA for remdesivir Oct. 22 allowing treatment of hospitalized pediatric patients younger than 12 weighing at least 3.5 kg.

Today’s approval is based on three randomized controlled trials, according to Gilead.

Final trial results from one of them, the National Institute of Allergy and Infectious Disease–funded ACTT-1 trial, published earlier in October, showed that hospitalized patients with COVID-19 who received remdesivir had a shorter median recovery time than those who received a placebo – 10 days versus 15 days.

This difference and some related secondary endpoints were statistically significant in the randomized trial, but there was not a statistically significant difference in mortality between the treatment and placebo groups.

The other two trials used for the approval, the SIMPLE trials, were open-label phase 3 trials conducted in countries with a high prevalence of COVID-19 infections, according to Gilead.

The SIMPLE-Severe trial was a randomized, multicenter study that evaluated the efficacy and safety of 5-day and 10-day dosing plus standard of care in 397 hospitalized adult patients with severe COVID-19. The primary endpoint was clinical status on day 14 assessed on a 7-point ordinal scale, according to Gilead.

The trial found that a 5-day or a 10-day treatment course of Veklury achieved similar clinical outcomes to the ACTT-1 trial (odds ratio, 0.75; 95% confidence interval, 0.51-1.12).

The SIMPLE-Moderate trial was a randomized, controlled, multicenter study that evaluated the efficacy and safety of 5-day and 10-day dosing durations of Veklury plus standard of care, compared with standard of care alone in 600 hospitalized adult patients with moderate COVID-19, Gilead stated in its release.

The primary endpoint was clinical status on day 11 assessed on a 7-point ordinal scale.

The results showed statistically improved clinical outcomes with a 5-day treatment course of Veklury, compared with standard of care (OR, 1.65; 95% CI, 1.0-2.48; P = .017), according to Gilead.

This article first appeared on Medscape.com.

Multiple mouthwash and oral rinse products wiped out a human coronavirus closely related to the SARS-CoV-2 virus in a laboratory comparison study.

Listerine Antiseptic led the list of most effective mouthwashes for inactivating the coronavirus. Interestingly, a 1% nasal rinse solution of Johnson’s Baby Shampoo also worked, eliminating up to 99.9% of the viral load in the in vitro experiments.

In contrast, use of a neti pot nasal solution yielded no decrease in virus levels.

The study was published in the Journal of Medical Virology.

Because the mouthwash and hydrogen peroxide oral rinses in the study are widely available and easy to use, “I would recommend the use of the rinses on top of wearing mask and social distancing. This could add a layer of protection for yourself and others,” lead study author Craig Meyers, PhD, professor of microbiology and immunology and obstetrics and gynecology, Penn State College of Medicine in Hershey, Pennsylvania, told Medscape Medical News.

Meyers and colleagues found that efficacy aligned with duration of time the cell cultures were exposed to each mouthwash or rinse product. Although it varied, the products required at least 30 seconds to kill most of the virus. Waiting 1 or 2 minutes tended to fortify results.

“This study adds to and further confirms the recently published evidence from virologists in Germany that mouthwashes can inactivate the virus that causes COVID-19 in a test tube,” Valerie O’Donnell, PhD, co-director of the Systems Immunity Research Institute of Cardiff University, Cardiff, Wales, said when asked to comment on the study.

“While this is great to see, what is still lacking is in vivo evidence, since we know the virus will be continually shed in the mouth,” O’Donnell said. “So, the question now becomes, by how much could mouthwashes reduce viral load in the oropharynx of infected people, and if so, then for how long?”

Meyers noted that studies of people positive for COVID-19 using each product would be informative. It remains unknown, for example, if swishing, gargling, and/or spitting out mouthwash would add or decrease the efficacy demonstrated in the lab.

The investigators used the human coronavirus HCoV‐229e as a surrogate for SARS-CoV-2. They noted HCoV-229e is analogous, and SARS-CoV-2 would have been more expensive, less available, and would have required biosafety level 3 laboratory conditions.
 

Listerine Antiseptic leads the way

“Surprisingly, we found that several of these common products had strong virucidal properties, inactivating from 2 log10 [or 99%] to greater than 4 log10 [or 99.99%] of infectious human coronavirus,” the researchers note.

Timing of the essence?

Meyers and colleagues also tested a nasal rinse solution of 1% baby shampoo because it is sometimes used to treat people with chronic rhinosinusitis. They found 30 seconds led to < 90% to < 99.99% effectiveness, but that, by 2 minutes, efficacy climbed to > 99.9% to > 99.99%.

“Thirty seconds for some products just was not enough time for the efficacy to be observed,” Meyers said. “Whereas, after a minute or two the active ingredient had enough time to work. Thirty seconds may be at the border to see full efficacy.” More research is needed to confirm the timing and determine which active ingredients are driving the findings.

A future trial could test the efficacy of mouthwash products to reduce the viral load in people with COVID-19. “If we are able to get funding to continue, I would like to see a small clinical trial as the next step,” Meyers said.

Meyers and O’Donnell disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

Multiple mouthwash and oral rinse products wiped out a human coronavirus closely related to the SARS-CoV-2 virus in a laboratory comparison study.

Listerine Antiseptic led the list of most effective mouthwashes for inactivating the coronavirus. Interestingly, a 1% nasal rinse solution of Johnson’s Baby Shampoo also worked, eliminating up to 99.9% of the viral load in the in vitro experiments.

In contrast, use of a neti pot nasal solution yielded no decrease in virus levels.

The study was published in the Journal of Medical Virology.

Because the mouthwash and hydrogen peroxide oral rinses in the study are widely available and easy to use, “I would recommend the use of the rinses on top of wearing mask and social distancing. This could add a layer of protection for yourself and others,” lead study author Craig Meyers, PhD, professor of microbiology and immunology and obstetrics and gynecology, Penn State College of Medicine in Hershey, Pennsylvania, told Medscape Medical News.

Meyers and colleagues found that efficacy aligned with duration of time the cell cultures were exposed to each mouthwash or rinse product. Although it varied, the products required at least 30 seconds to kill most of the virus. Waiting 1 or 2 minutes tended to fortify results.

“This study adds to and further confirms the recently published evidence from virologists in Germany that mouthwashes can inactivate the virus that causes COVID-19 in a test tube,” Valerie O’Donnell, PhD, co-director of the Systems Immunity Research Institute of Cardiff University, Cardiff, Wales, said when asked to comment on the study.

“While this is great to see, what is still lacking is in vivo evidence, since we know the virus will be continually shed in the mouth,” O’Donnell said. “So, the question now becomes, by how much could mouthwashes reduce viral load in the oropharynx of infected people, and if so, then for how long?”

Meyers noted that studies of people positive for COVID-19 using each product would be informative. It remains unknown, for example, if swishing, gargling, and/or spitting out mouthwash would add or decrease the efficacy demonstrated in the lab.

The investigators used the human coronavirus HCoV‐229e as a surrogate for SARS-CoV-2. They noted HCoV-229e is analogous, and SARS-CoV-2 would have been more expensive, less available, and would have required biosafety level 3 laboratory conditions.
 

Listerine Antiseptic leads the way

“Surprisingly, we found that several of these common products had strong virucidal properties, inactivating from 2 log10 [or 99%] to greater than 4 log10 [or 99.99%] of infectious human coronavirus,” the researchers note.

Timing of the essence?

Meyers and colleagues also tested a nasal rinse solution of 1% baby shampoo because it is sometimes used to treat people with chronic rhinosinusitis. They found 30 seconds led to < 90% to < 99.99% effectiveness, but that, by 2 minutes, efficacy climbed to > 99.9% to > 99.99%.

“Thirty seconds for some products just was not enough time for the efficacy to be observed,” Meyers said. “Whereas, after a minute or two the active ingredient had enough time to work. Thirty seconds may be at the border to see full efficacy.” More research is needed to confirm the timing and determine which active ingredients are driving the findings.

A future trial could test the efficacy of mouthwash products to reduce the viral load in people with COVID-19. “If we are able to get funding to continue, I would like to see a small clinical trial as the next step,” Meyers said.

Meyers and O’Donnell disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

Multiple mouthwash and oral rinse products wiped out a human coronavirus closely related to the SARS-CoV-2 virus in a laboratory comparison study.

Listerine Antiseptic led the list of most effective mouthwashes for inactivating the coronavirus. Interestingly, a 1% nasal rinse solution of Johnson’s Baby Shampoo also worked, eliminating up to 99.9% of the viral load in the in vitro experiments.

In contrast, use of a neti pot nasal solution yielded no decrease in virus levels.

The study was published in the Journal of Medical Virology.

Because the mouthwash and hydrogen peroxide oral rinses in the study are widely available and easy to use, “I would recommend the use of the rinses on top of wearing mask and social distancing. This could add a layer of protection for yourself and others,” lead study author Craig Meyers, PhD, professor of microbiology and immunology and obstetrics and gynecology, Penn State College of Medicine in Hershey, Pennsylvania, told Medscape Medical News.

Meyers and colleagues found that efficacy aligned with duration of time the cell cultures were exposed to each mouthwash or rinse product. Although it varied, the products required at least 30 seconds to kill most of the virus. Waiting 1 or 2 minutes tended to fortify results.

“This study adds to and further confirms the recently published evidence from virologists in Germany that mouthwashes can inactivate the virus that causes COVID-19 in a test tube,” Valerie O’Donnell, PhD, co-director of the Systems Immunity Research Institute of Cardiff University, Cardiff, Wales, said when asked to comment on the study.

“While this is great to see, what is still lacking is in vivo evidence, since we know the virus will be continually shed in the mouth,” O’Donnell said. “So, the question now becomes, by how much could mouthwashes reduce viral load in the oropharynx of infected people, and if so, then for how long?”

Meyers noted that studies of people positive for COVID-19 using each product would be informative. It remains unknown, for example, if swishing, gargling, and/or spitting out mouthwash would add or decrease the efficacy demonstrated in the lab.

The investigators used the human coronavirus HCoV‐229e as a surrogate for SARS-CoV-2. They noted HCoV-229e is analogous, and SARS-CoV-2 would have been more expensive, less available, and would have required biosafety level 3 laboratory conditions.
 

Listerine Antiseptic leads the way

“Surprisingly, we found that several of these common products had strong virucidal properties, inactivating from 2 log10 [or 99%] to greater than 4 log10 [or 99.99%] of infectious human coronavirus,” the researchers note.

Timing of the essence?

Meyers and colleagues also tested a nasal rinse solution of 1% baby shampoo because it is sometimes used to treat people with chronic rhinosinusitis. They found 30 seconds led to < 90% to < 99.99% effectiveness, but that, by 2 minutes, efficacy climbed to > 99.9% to > 99.99%.

“Thirty seconds for some products just was not enough time for the efficacy to be observed,” Meyers said. “Whereas, after a minute or two the active ingredient had enough time to work. Thirty seconds may be at the border to see full efficacy.” More research is needed to confirm the timing and determine which active ingredients are driving the findings.

A future trial could test the efficacy of mouthwash products to reduce the viral load in people with COVID-19. “If we are able to get funding to continue, I would like to see a small clinical trial as the next step,” Meyers said.

Meyers and O’Donnell disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

Fifteen days. That’s how much time the American College of Cardiology (ACC) had to convert its annual conference, scheduled for the end of March this year in Chicago, into a virtual meeting for the estimated 17,000 people who had planned to attend.

Because of the coronavirus pandemic, Illinois announced restrictions on the size of gatherings on March 13, causing the ACC to pivot to an online-only model.

“One big advantage was that we already had all of our content planned,” Janice Sibley, the ACC’s executive vice president of education, told Medscape Medical News. “We knew who the faculty would be for different sessions, and many of them had already planned their slides.”

But determining how to present those hundreds of presentations at an online conference, not to mention addressing the logistics related to registrations, tech platforms, exhibit hall sponsors, and other aspects of an annual meeting, would be no small task.

As medical societies have pivoted from in-person annual conferences to online meetings during the COVID-19 pandemic, they have found that they are mostly up to the challenge of disseminating research results and clinical education on par with in-person presentations. But according to a Medscape poll, many physicians think that, while the virtual experience is worthwhile and getting better, it’s never going to be the same as spending several days on site, immersed in the experience of an annual meeting.

As one respondent commented, “I miss the intellectual excitement, the electricity in the room, when there is a live presentation that announces a major breakthrough.”
 

Large medical societies have an advantage

As ACC rapidly prepared for its virtual conference, the society first refunded all registration and expo fees and worked with the vendor partners to resolve the cancellation of rental space, food and beverage services, and decorating. Then they organized a team of 15 people split into three groups. One group focused on the intellectual, scientific, and educational elements of the virtual conference. They chose 24 sessions to livestream and decided to prerecord the rest for on-demand access, limiting the number of presenters they needed to train for online presentation.

A second team focused on business and worked with industry partners on how to translate a large expo into digital offerings. They developed virtual pages, advertisements, promotions, and industry-sponsored education.

The third team’s focus, Ms. Sibley said, was most critical, and the hardest: addressing socio-emotional needs.

“That group was responsible for trying to create the buzz and excitement we would have had at the event,” she said, “pivoting that experience we would have had in a live event to a virtual environment. What we were worried about was, would anyone even come?”

But ACC built it, and they did indeed come. Within a half hour of the opening session, nearly 13,000 people logged on from around the world. “It worked beautifully,” Ms. Sibley said.

By the end of the 3-day event, approximately 34,000 unique visitors had logged in for live or prerecorded sessions. Although ACC worried at first about technical glitches and bandwidth needs, everything ran smoothly. By 90 days after the meeting, 63,000 unique users had logged in to access the conference content.

ACC was among the first organizations forced to switch from an in-person to all-online meeting, but dozens of other organizations have now done the same, discovering the benefits and drawbacks of a virtual environment while experimenting with different formats and offerings. Talks with a few large medical societies about the experience revealed several common themes, including the following:

• Finding new ways to attract and measure attendance.
• Ensuring the actual scientific content was as robust online as in person.
• Realizing the value of social media in enhancing the socio-emotional experience.
• Believing that virtual meetings will become a permanent fixture in a future of “hybrid” conferences.

New ways of attracting and measuring attendance

Previous ways to measure meeting attendance were straightforward: number of registrations and number of people physically walking into sessions. An online conference, however, offers dozens of ways to measure attendance. While the number of registrations remained one tool – and all the organizations interviewed reported record numbers of registrations – organizations also used other metrics to measure success, such as “participation,” “engagement,” and “viewing time.”

ACC defined “participation” as a unique user logging in, and it defined “engagement” as sticking around for a while, possibly using chat functions or discussing the content on social media. The American Society of Clinical Oncology (ASCO) annual conference in May, which attracted more than 44,000 registered attendees, also measured total content views – more than 2.5 million during the meeting – and monitored social media. More than 8,800 Twitter users posted more than 45,000 tweets with the #ASCO20 hashtag during the meeting, generating 750 million likes, shares, and comments. The European League Against Rheumatism (EULAR) annual congress registered a record 18,700 delegates – up from 14,500 in 2019 – but it also measured attendance by average viewing time and visits by congress day and by category.

Organizations shifted fee structures as well. While ACC refunded fees for its first online meeting, it has since developed tiers to match fees to anticipated value, such as charging more for livestreamed sessions that allow interactivity than for viewing recordings. ASCO offered a one-time fee waiver for members plus free registration to cancer survivors and caregivers, discounted registration for patient advocates, and reduced fees for other categories. But adjusting how to measure attendance and charge for events were the easy parts of transitioning to online.
 

Priority for having robust content

The biggest difficulty for most organizations was the short time they had to move online, with a host of challenges accompanying the switch, said the executive director of EULAR, Julia Rautenstrauch, DrMed. These included technical requirements, communication, training, finances, legal issues, compliance rules, and other logistics.

“The year 2020 will be remembered for being the year of unexpected transformation,” said a spokesperson from European Society for Medical Oncology (ESMO), who declined to be named. “The number of fundamental questions we had to ask ourselves is pages long. The solutions we have implemented so far have been successful, but we won’t rest on our laurels.”

ASCO had an advantage in the pivot, despite only 6 weeks to make the switch, because they already had a robust online platform to build on. “We weren’t starting from scratch, but we were sure changing the way we prepared,” ASCO CEO Clifford Hudis, MD, said.

All of the organizations made the breadth and quality of scientific and educational content a top priority, and those who have already hosted meetings this year report positive feedback.

“The rating of the scientific content was excellent, and the event did indeed fulfill the educational goals and expected learning outcomes for the vast majority of delegates,” EULAR’s Dr. Rautenstrauch said.

“Our goal, when we went into this, was that, in the future when somebody looks back at ASCO20, they should not be able to tell that it was a different year from any other in terms of the science,” Dr. Hudis said.
 

Missing out on networking and social interaction

Even when logistics run smoothly, virtual conferences must overcome two other challenges: the loss of in-person interactions and the potential for “Zoom burnout.”

“You do miss that human contact, the unsaid reactions in the room when you’re speaking or providing a controversial statement, even the facial expression or seeing people lean in or being distracted,” Ms. Sibley said.

Taher Modarressi, MD, an endocrinologist with Diabetes and Endocrine Associates of Hunterdon in Flemington, N.J., said all the digital conferences he has attended were missing those key social elements: “seeing old friends, sideline discussions that generate new ideas, and meeting new colleagues. However, this has been partly alleviated with the robust rise of social media and ‘MedTwitter,’ in particular, where these discussions and interactions continue.”

To attempt to meet that need for social interaction, societies came up with a variety of options. EULAR offered chatrooms, “Meet the Expert” sessions, and other virtual opportunities for live interaction. ASCO hosted discussion groups with subsets of participants, such as virtual meetings with oncology fellows, and it plans to offer networking sessions and “poster walks” during future meetings.

“The value of an in-person meeting is connecting with people, exchanging ideas over coffee, and making new contacts,” ASCO’s Dr. Hudis said. While virtual meetings lose many of those personal interactions, knowledge can also be shared with more people, he said.

The key to combating digital fatigue is focusing on opportunities for interactivity, ACC’s Ms. Sibley said. “When you are creating a virtual environment, it’s important that you offer choices.” Online learners tend to have shorter attention spans than in-person learners, so people need opportunities to flip between sessions, like flipping between TV channels. Different engagement options are also essential, such as chat functions on the video platforms, asking questions of presenters orally or in writing, and using the familiar hashtags for social media discussion.

“We set up all those different ways to interact, and you allow the user to choose,” Ms. Sibley said.

Some conferences, however, had less time or fewer resources to adjust to a virtual format and couldn’t make up for the lost social interaction. Andy Bowman, MD, a neonatologist in Lubbock, Tex., was supposed to attend the Neonatal & Pediatric Airborne Transport Conference sponsored by International Biomed in the spring, but it was canceled at the last minute. Several weeks later, the organizers released videos of scheduled speakers giving their talks, but it was less engaging and too easy to get distracted, Dr. Bowman said.

“There is a noticeable decrease in energy – you can’t look around to feed off other’s reactions when a speaker says something off the wall, or new, or contrary to expectations,” he said. He also especially missed the social interactions, such as “missing out on the chance encounters in the hallway or seeing the same face in back-to-back sessions and figuring out you have shared interest.” He was also sorry to miss the expo because neonatal transport requires a lot of specialty equipment, and he appreciates the chance to actually touch and see it in person.
 

Advantages of an online meeting

Despite the challenges, online meetings can overcome obstacles of in-person meetings, particularly for those in low- and middle-income countries, such as travel and registration costs, the hardships of being away from practice, and visa restrictions.

“You really have the potential to broaden your reach,” Ms. Sibley said, noting that people in 157 countries participated in ACC.20.

Another advantage is keeping the experience available to people after the livestreamed event.

“Virtual events have demonstrated the potential for a more democratic conference world, expanding the dissemination of information to a much wider community of stakeholders,” ESMO’s spokesperson said.

Not traveling can actually mean getting more out of the conference, said Atisha Patel Manhas, MD, a hematologist/oncologist in Dallas, who attended ASCO. “I have really enjoyed the access aspect – on the virtual platform there is so much more content available to you, and travel time doesn’t cut into conference time,” she said, though she also missed the interaction with colleagues.

Others found that virtual conferences provided more engagement than in-person conferences. Marwah Abdalla, MD, MPH, an assistant professor of medicine and director of education for the Cardiac Intensive Care Unit at Columbia University Medical Center, New York, felt that moderated Q&A sessions offered more interaction among participants. She attended and spoke on a panel during virtual SLEEP 2020, a joint meeting of the American Academy of Sleep Medicine (AASM) and the Sleep Research Society (SRS).

“Usually during in-person sessions, only a few questions are possible, and participants rarely have an opportunity to discuss the presentations within the session due to time limits,” Dr. Abdalla said. “Because the conference presentations can also be viewed asynchronously, participants have been able to comment on lectures and continue the discussion offline, either via social media or via email.” She acknowledged drawbacks of the virtual experience, such as an inability to socialize in person and participate in activities but appreciated the new opportunities to network and learn from international colleagues who would not have been able to attend in person.

Ritu Thamman, MD, assistant professor of medicine at the University of Pittsburgh School of Medicine, pointed out that many institutions have cut their travel budgets, and physicians would be unable to attend in-person conferences for financial or other reasons. She especially appreciated that the European Society of Cardiology had no registration fee for ESC 2020 and made their content free for all of September, which led to more than 100,000 participants.

“That meant anyone anywhere could learn,” she said. “It makes it much more diverse and more egalitarian. That feels like a good step in the right direction for all of us.”

Dr. Modarressi, who found ESC “exhilarating,” similarly noted the benefit of such an equitably accessible conference. “Decreasing barriers and improving access to top-line results and up-to-date information has always been a challenge to the global health community,” he said, noting that the map of attendance for the virtual meeting was “astonishing.”

Given these benefits, organizers said they expect a future of hybrid conferences: physical meetings for those able to attend in person and virtual ones for those who cannot.

“We also expect that the hybrid congress will cater to the needs of people on-site by allowing them additional access to more scientific content than by physical attendance alone,” Dr. Rautenstrauch said.

Everyone has been in reactive mode this year, Ms. Sibley said, but the future looks bright as they seek ways to overcome challenges such as socio-emotional needs and virtual expo spaces.

“We’ve been thrust into the virtual world much faster than we expected, but we’re finding it’s opening more opportunities than we had live,” Ms. Sibley said. “This has catapulted us, for better or worse, into a new way to deliver education and other types of information.

“I think, if we’re smart, we’ll continue to think of ways this can augment our live environment and not replace it.”
 

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

Fifteen days. That’s how much time the American College of Cardiology (ACC) had to convert its annual conference, scheduled for the end of March this year in Chicago, into a virtual meeting for the estimated 17,000 people who had planned to attend.

Because of the coronavirus pandemic, Illinois announced restrictions on the size of gatherings on March 13, causing the ACC to pivot to an online-only model.

“One big advantage was that we already had all of our content planned,” Janice Sibley, the ACC’s executive vice president of education, told Medscape Medical News. “We knew who the faculty would be for different sessions, and many of them had already planned their slides.”

But determining how to present those hundreds of presentations at an online conference, not to mention addressing the logistics related to registrations, tech platforms, exhibit hall sponsors, and other aspects of an annual meeting, would be no small task.

As medical societies have pivoted from in-person annual conferences to online meetings during the COVID-19 pandemic, they have found that they are mostly up to the challenge of disseminating research results and clinical education on par with in-person presentations. But according to a Medscape poll, many physicians think that, while the virtual experience is worthwhile and getting better, it’s never going to be the same as spending several days on site, immersed in the experience of an annual meeting.

As one respondent commented, “I miss the intellectual excitement, the electricity in the room, when there is a live presentation that announces a major breakthrough.”
 

Large medical societies have an advantage

As ACC rapidly prepared for its virtual conference, the society first refunded all registration and expo fees and worked with the vendor partners to resolve the cancellation of rental space, food and beverage services, and decorating. Then they organized a team of 15 people split into three groups. One group focused on the intellectual, scientific, and educational elements of the virtual conference. They chose 24 sessions to livestream and decided to prerecord the rest for on-demand access, limiting the number of presenters they needed to train for online presentation.

A second team focused on business and worked with industry partners on how to translate a large expo into digital offerings. They developed virtual pages, advertisements, promotions, and industry-sponsored education.

The third team’s focus, Ms. Sibley said, was most critical, and the hardest: addressing socio-emotional needs.

“That group was responsible for trying to create the buzz and excitement we would have had at the event,” she said, “pivoting that experience we would have had in a live event to a virtual environment. What we were worried about was, would anyone even come?”

But ACC built it, and they did indeed come. Within a half hour of the opening session, nearly 13,000 people logged on from around the world. “It worked beautifully,” Ms. Sibley said.

By the end of the 3-day event, approximately 34,000 unique visitors had logged in for live or prerecorded sessions. Although ACC worried at first about technical glitches and bandwidth needs, everything ran smoothly. By 90 days after the meeting, 63,000 unique users had logged in to access the conference content.

ACC was among the first organizations forced to switch from an in-person to all-online meeting, but dozens of other organizations have now done the same, discovering the benefits and drawbacks of a virtual environment while experimenting with different formats and offerings. Talks with a few large medical societies about the experience revealed several common themes, including the following:

• Finding new ways to attract and measure attendance.
• Ensuring the actual scientific content was as robust online as in person.
• Realizing the value of social media in enhancing the socio-emotional experience.
• Believing that virtual meetings will become a permanent fixture in a future of “hybrid” conferences.

New ways of attracting and measuring attendance

Previous ways to measure meeting attendance were straightforward: number of registrations and number of people physically walking into sessions. An online conference, however, offers dozens of ways to measure attendance. While the number of registrations remained one tool – and all the organizations interviewed reported record numbers of registrations – organizations also used other metrics to measure success, such as “participation,” “engagement,” and “viewing time.”

ACC defined “participation” as a unique user logging in, and it defined “engagement” as sticking around for a while, possibly using chat functions or discussing the content on social media. The American Society of Clinical Oncology (ASCO) annual conference in May, which attracted more than 44,000 registered attendees, also measured total content views – more than 2.5 million during the meeting – and monitored social media. More than 8,800 Twitter users posted more than 45,000 tweets with the #ASCO20 hashtag during the meeting, generating 750 million likes, shares, and comments. The European League Against Rheumatism (EULAR) annual congress registered a record 18,700 delegates – up from 14,500 in 2019 – but it also measured attendance by average viewing time and visits by congress day and by category.

Organizations shifted fee structures as well. While ACC refunded fees for its first online meeting, it has since developed tiers to match fees to anticipated value, such as charging more for livestreamed sessions that allow interactivity than for viewing recordings. ASCO offered a one-time fee waiver for members plus free registration to cancer survivors and caregivers, discounted registration for patient advocates, and reduced fees for other categories. But adjusting how to measure attendance and charge for events were the easy parts of transitioning to online.
 

Priority for having robust content

The biggest difficulty for most organizations was the short time they had to move online, with a host of challenges accompanying the switch, said the executive director of EULAR, Julia Rautenstrauch, DrMed. These included technical requirements, communication, training, finances, legal issues, compliance rules, and other logistics.

“The year 2020 will be remembered for being the year of unexpected transformation,” said a spokesperson from European Society for Medical Oncology (ESMO), who declined to be named. “The number of fundamental questions we had to ask ourselves is pages long. The solutions we have implemented so far have been successful, but we won’t rest on our laurels.”

ASCO had an advantage in the pivot, despite only 6 weeks to make the switch, because they already had a robust online platform to build on. “We weren’t starting from scratch, but we were sure changing the way we prepared,” ASCO CEO Clifford Hudis, MD, said.

All of the organizations made the breadth and quality of scientific and educational content a top priority, and those who have already hosted meetings this year report positive feedback.

“The rating of the scientific content was excellent, and the event did indeed fulfill the educational goals and expected learning outcomes for the vast majority of delegates,” EULAR’s Dr. Rautenstrauch said.

“Our goal, when we went into this, was that, in the future when somebody looks back at ASCO20, they should not be able to tell that it was a different year from any other in terms of the science,” Dr. Hudis said.
 

Missing out on networking and social interaction

Even when logistics run smoothly, virtual conferences must overcome two other challenges: the loss of in-person interactions and the potential for “Zoom burnout.”

“You do miss that human contact, the unsaid reactions in the room when you’re speaking or providing a controversial statement, even the facial expression or seeing people lean in or being distracted,” Ms. Sibley said.

Taher Modarressi, MD, an endocrinologist with Diabetes and Endocrine Associates of Hunterdon in Flemington, N.J., said all the digital conferences he has attended were missing those key social elements: “seeing old friends, sideline discussions that generate new ideas, and meeting new colleagues. However, this has been partly alleviated with the robust rise of social media and ‘MedTwitter,’ in particular, where these discussions and interactions continue.”

To attempt to meet that need for social interaction, societies came up with a variety of options. EULAR offered chatrooms, “Meet the Expert” sessions, and other virtual opportunities for live interaction. ASCO hosted discussion groups with subsets of participants, such as virtual meetings with oncology fellows, and it plans to offer networking sessions and “poster walks” during future meetings.

“The value of an in-person meeting is connecting with people, exchanging ideas over coffee, and making new contacts,” ASCO’s Dr. Hudis said. While virtual meetings lose many of those personal interactions, knowledge can also be shared with more people, he said.

The key to combating digital fatigue is focusing on opportunities for interactivity, ACC’s Ms. Sibley said. “When you are creating a virtual environment, it’s important that you offer choices.” Online learners tend to have shorter attention spans than in-person learners, so people need opportunities to flip between sessions, like flipping between TV channels. Different engagement options are also essential, such as chat functions on the video platforms, asking questions of presenters orally or in writing, and using the familiar hashtags for social media discussion.

“We set up all those different ways to interact, and you allow the user to choose,” Ms. Sibley said.

Some conferences, however, had less time or fewer resources to adjust to a virtual format and couldn’t make up for the lost social interaction. Andy Bowman, MD, a neonatologist in Lubbock, Tex., was supposed to attend the Neonatal & Pediatric Airborne Transport Conference sponsored by International Biomed in the spring, but it was canceled at the last minute. Several weeks later, the organizers released videos of scheduled speakers giving their talks, but it was less engaging and too easy to get distracted, Dr. Bowman said.

“There is a noticeable decrease in energy – you can’t look around to feed off other’s reactions when a speaker says something off the wall, or new, or contrary to expectations,” he said. He also especially missed the social interactions, such as “missing out on the chance encounters in the hallway or seeing the same face in back-to-back sessions and figuring out you have shared interest.” He was also sorry to miss the expo because neonatal transport requires a lot of specialty equipment, and he appreciates the chance to actually touch and see it in person.
 

Advantages of an online meeting

Despite the challenges, online meetings can overcome obstacles of in-person meetings, particularly for those in low- and middle-income countries, such as travel and registration costs, the hardships of being away from practice, and visa restrictions.

“You really have the potential to broaden your reach,” Ms. Sibley said, noting that people in 157 countries participated in ACC.20.

Another advantage is keeping the experience available to people after the livestreamed event.

“Virtual events have demonstrated the potential for a more democratic conference world, expanding the dissemination of information to a much wider community of stakeholders,” ESMO’s spokesperson said.

Not traveling can actually mean getting more out of the conference, said Atisha Patel Manhas, MD, a hematologist/oncologist in Dallas, who attended ASCO. “I have really enjoyed the access aspect – on the virtual platform there is so much more content available to you, and travel time doesn’t cut into conference time,” she said, though she also missed the interaction with colleagues.

Others found that virtual conferences provided more engagement than in-person conferences. Marwah Abdalla, MD, MPH, an assistant professor of medicine and director of education for the Cardiac Intensive Care Unit at Columbia University Medical Center, New York, felt that moderated Q&A sessions offered more interaction among participants. She attended and spoke on a panel during virtual SLEEP 2020, a joint meeting of the American Academy of Sleep Medicine (AASM) and the Sleep Research Society (SRS).

“Usually during in-person sessions, only a few questions are possible, and participants rarely have an opportunity to discuss the presentations within the session due to time limits,” Dr. Abdalla said. “Because the conference presentations can also be viewed asynchronously, participants have been able to comment on lectures and continue the discussion offline, either via social media or via email.” She acknowledged drawbacks of the virtual experience, such as an inability to socialize in person and participate in activities but appreciated the new opportunities to network and learn from international colleagues who would not have been able to attend in person.

Ritu Thamman, MD, assistant professor of medicine at the University of Pittsburgh School of Medicine, pointed out that many institutions have cut their travel budgets, and physicians would be unable to attend in-person conferences for financial or other reasons. She especially appreciated that the European Society of Cardiology had no registration fee for ESC 2020 and made their content free for all of September, which led to more than 100,000 participants.

“That meant anyone anywhere could learn,” she said. “It makes it much more diverse and more egalitarian. That feels like a good step in the right direction for all of us.”

Dr. Modarressi, who found ESC “exhilarating,” similarly noted the benefit of such an equitably accessible conference. “Decreasing barriers and improving access to top-line results and up-to-date information has always been a challenge to the global health community,” he said, noting that the map of attendance for the virtual meeting was “astonishing.”

Given these benefits, organizers said they expect a future of hybrid conferences: physical meetings for those able to attend in person and virtual ones for those who cannot.

“We also expect that the hybrid congress will cater to the needs of people on-site by allowing them additional access to more scientific content than by physical attendance alone,” Dr. Rautenstrauch said.

Everyone has been in reactive mode this year, Ms. Sibley said, but the future looks bright as they seek ways to overcome challenges such as socio-emotional needs and virtual expo spaces.

“We’ve been thrust into the virtual world much faster than we expected, but we’re finding it’s opening more opportunities than we had live,” Ms. Sibley said. “This has catapulted us, for better or worse, into a new way to deliver education and other types of information.

“I think, if we’re smart, we’ll continue to think of ways this can augment our live environment and not replace it.”
 

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

Fifteen days. That’s how much time the American College of Cardiology (ACC) had to convert its annual conference, scheduled for the end of March this year in Chicago, into a virtual meeting for the estimated 17,000 people who had planned to attend.

Because of the coronavirus pandemic, Illinois announced restrictions on the size of gatherings on March 13, causing the ACC to pivot to an online-only model.

“One big advantage was that we already had all of our content planned,” Janice Sibley, the ACC’s executive vice president of education, told Medscape Medical News. “We knew who the faculty would be for different sessions, and many of them had already planned their slides.”

But determining how to present those hundreds of presentations at an online conference, not to mention addressing the logistics related to registrations, tech platforms, exhibit hall sponsors, and other aspects of an annual meeting, would be no small task.

As medical societies have pivoted from in-person annual conferences to online meetings during the COVID-19 pandemic, they have found that they are mostly up to the challenge of disseminating research results and clinical education on par with in-person presentations. But according to a Medscape poll, many physicians think that, while the virtual experience is worthwhile and getting better, it’s never going to be the same as spending several days on site, immersed in the experience of an annual meeting.

As one respondent commented, “I miss the intellectual excitement, the electricity in the room, when there is a live presentation that announces a major breakthrough.”
 

Large medical societies have an advantage

As ACC rapidly prepared for its virtual conference, the society first refunded all registration and expo fees and worked with the vendor partners to resolve the cancellation of rental space, food and beverage services, and decorating. Then they organized a team of 15 people split into three groups. One group focused on the intellectual, scientific, and educational elements of the virtual conference. They chose 24 sessions to livestream and decided to prerecord the rest for on-demand access, limiting the number of presenters they needed to train for online presentation.

A second team focused on business and worked with industry partners on how to translate a large expo into digital offerings. They developed virtual pages, advertisements, promotions, and industry-sponsored education.

The third team’s focus, Ms. Sibley said, was most critical, and the hardest: addressing socio-emotional needs.

“That group was responsible for trying to create the buzz and excitement we would have had at the event,” she said, “pivoting that experience we would have had in a live event to a virtual environment. What we were worried about was, would anyone even come?”

But ACC built it, and they did indeed come. Within a half hour of the opening session, nearly 13,000 people logged on from around the world. “It worked beautifully,” Ms. Sibley said.

By the end of the 3-day event, approximately 34,000 unique visitors had logged in for live or prerecorded sessions. Although ACC worried at first about technical glitches and bandwidth needs, everything ran smoothly. By 90 days after the meeting, 63,000 unique users had logged in to access the conference content.

ACC was among the first organizations forced to switch from an in-person to all-online meeting, but dozens of other organizations have now done the same, discovering the benefits and drawbacks of a virtual environment while experimenting with different formats and offerings. Talks with a few large medical societies about the experience revealed several common themes, including the following:

• Finding new ways to attract and measure attendance.
• Ensuring the actual scientific content was as robust online as in person.
• Realizing the value of social media in enhancing the socio-emotional experience.
• Believing that virtual meetings will become a permanent fixture in a future of “hybrid” conferences.

New ways of attracting and measuring attendance

Previous ways to measure meeting attendance were straightforward: number of registrations and number of people physically walking into sessions. An online conference, however, offers dozens of ways to measure attendance. While the number of registrations remained one tool – and all the organizations interviewed reported record numbers of registrations – organizations also used other metrics to measure success, such as “participation,” “engagement,” and “viewing time.”

ACC defined “participation” as a unique user logging in, and it defined “engagement” as sticking around for a while, possibly using chat functions or discussing the content on social media. The American Society of Clinical Oncology (ASCO) annual conference in May, which attracted more than 44,000 registered attendees, also measured total content views – more than 2.5 million during the meeting – and monitored social media. More than 8,800 Twitter users posted more than 45,000 tweets with the #ASCO20 hashtag during the meeting, generating 750 million likes, shares, and comments. The European League Against Rheumatism (EULAR) annual congress registered a record 18,700 delegates – up from 14,500 in 2019 – but it also measured attendance by average viewing time and visits by congress day and by category.

Organizations shifted fee structures as well. While ACC refunded fees for its first online meeting, it has since developed tiers to match fees to anticipated value, such as charging more for livestreamed sessions that allow interactivity than for viewing recordings. ASCO offered a one-time fee waiver for members plus free registration to cancer survivors and caregivers, discounted registration for patient advocates, and reduced fees for other categories. But adjusting how to measure attendance and charge for events were the easy parts of transitioning to online.
 

Priority for having robust content

The biggest difficulty for most organizations was the short time they had to move online, with a host of challenges accompanying the switch, said the executive director of EULAR, Julia Rautenstrauch, DrMed. These included technical requirements, communication, training, finances, legal issues, compliance rules, and other logistics.

“The year 2020 will be remembered for being the year of unexpected transformation,” said a spokesperson from European Society for Medical Oncology (ESMO), who declined to be named. “The number of fundamental questions we had to ask ourselves is pages long. The solutions we have implemented so far have been successful, but we won’t rest on our laurels.”

ASCO had an advantage in the pivot, despite only 6 weeks to make the switch, because they already had a robust online platform to build on. “We weren’t starting from scratch, but we were sure changing the way we prepared,” ASCO CEO Clifford Hudis, MD, said.

All of the organizations made the breadth and quality of scientific and educational content a top priority, and those who have already hosted meetings this year report positive feedback.

“The rating of the scientific content was excellent, and the event did indeed fulfill the educational goals and expected learning outcomes for the vast majority of delegates,” EULAR’s Dr. Rautenstrauch said.

“Our goal, when we went into this, was that, in the future when somebody looks back at ASCO20, they should not be able to tell that it was a different year from any other in terms of the science,” Dr. Hudis said.
 

Missing out on networking and social interaction

Even when logistics run smoothly, virtual conferences must overcome two other challenges: the loss of in-person interactions and the potential for “Zoom burnout.”

“You do miss that human contact, the unsaid reactions in the room when you’re speaking or providing a controversial statement, even the facial expression or seeing people lean in or being distracted,” Ms. Sibley said.

Taher Modarressi, MD, an endocrinologist with Diabetes and Endocrine Associates of Hunterdon in Flemington, N.J., said all the digital conferences he has attended were missing those key social elements: “seeing old friends, sideline discussions that generate new ideas, and meeting new colleagues. However, this has been partly alleviated with the robust rise of social media and ‘MedTwitter,’ in particular, where these discussions and interactions continue.”

To attempt to meet that need for social interaction, societies came up with a variety of options. EULAR offered chatrooms, “Meet the Expert” sessions, and other virtual opportunities for live interaction. ASCO hosted discussion groups with subsets of participants, such as virtual meetings with oncology fellows, and it plans to offer networking sessions and “poster walks” during future meetings.

“The value of an in-person meeting is connecting with people, exchanging ideas over coffee, and making new contacts,” ASCO’s Dr. Hudis said. While virtual meetings lose many of those personal interactions, knowledge can also be shared with more people, he said.

The key to combating digital fatigue is focusing on opportunities for interactivity, ACC’s Ms. Sibley said. “When you are creating a virtual environment, it’s important that you offer choices.” Online learners tend to have shorter attention spans than in-person learners, so people need opportunities to flip between sessions, like flipping between TV channels. Different engagement options are also essential, such as chat functions on the video platforms, asking questions of presenters orally or in writing, and using the familiar hashtags for social media discussion.

“We set up all those different ways to interact, and you allow the user to choose,” Ms. Sibley said.

Some conferences, however, had less time or fewer resources to adjust to a virtual format and couldn’t make up for the lost social interaction. Andy Bowman, MD, a neonatologist in Lubbock, Tex., was supposed to attend the Neonatal & Pediatric Airborne Transport Conference sponsored by International Biomed in the spring, but it was canceled at the last minute. Several weeks later, the organizers released videos of scheduled speakers giving their talks, but it was less engaging and too easy to get distracted, Dr. Bowman said.

“There is a noticeable decrease in energy – you can’t look around to feed off other’s reactions when a speaker says something off the wall, or new, or contrary to expectations,” he said. He also especially missed the social interactions, such as “missing out on the chance encounters in the hallway or seeing the same face in back-to-back sessions and figuring out you have shared interest.” He was also sorry to miss the expo because neonatal transport requires a lot of specialty equipment, and he appreciates the chance to actually touch and see it in person.
 

Advantages of an online meeting

Despite the challenges, online meetings can overcome obstacles of in-person meetings, particularly for those in low- and middle-income countries, such as travel and registration costs, the hardships of being away from practice, and visa restrictions.

“You really have the potential to broaden your reach,” Ms. Sibley said, noting that people in 157 countries participated in ACC.20.

Another advantage is keeping the experience available to people after the livestreamed event.

“Virtual events have demonstrated the potential for a more democratic conference world, expanding the dissemination of information to a much wider community of stakeholders,” ESMO’s spokesperson said.

Not traveling can actually mean getting more out of the conference, said Atisha Patel Manhas, MD, a hematologist/oncologist in Dallas, who attended ASCO. “I have really enjoyed the access aspect – on the virtual platform there is so much more content available to you, and travel time doesn’t cut into conference time,” she said, though she also missed the interaction with colleagues.

Others found that virtual conferences provided more engagement than in-person conferences. Marwah Abdalla, MD, MPH, an assistant professor of medicine and director of education for the Cardiac Intensive Care Unit at Columbia University Medical Center, New York, felt that moderated Q&A sessions offered more interaction among participants. She attended and spoke on a panel during virtual SLEEP 2020, a joint meeting of the American Academy of Sleep Medicine (AASM) and the Sleep Research Society (SRS).

“Usually during in-person sessions, only a few questions are possible, and participants rarely have an opportunity to discuss the presentations within the session due to time limits,” Dr. Abdalla said. “Because the conference presentations can also be viewed asynchronously, participants have been able to comment on lectures and continue the discussion offline, either via social media or via email.” She acknowledged drawbacks of the virtual experience, such as an inability to socialize in person and participate in activities but appreciated the new opportunities to network and learn from international colleagues who would not have been able to attend in person.

Ritu Thamman, MD, assistant professor of medicine at the University of Pittsburgh School of Medicine, pointed out that many institutions have cut their travel budgets, and physicians would be unable to attend in-person conferences for financial or other reasons. She especially appreciated that the European Society of Cardiology had no registration fee for ESC 2020 and made their content free for all of September, which led to more than 100,000 participants.

“That meant anyone anywhere could learn,” she said. “It makes it much more diverse and more egalitarian. That feels like a good step in the right direction for all of us.”

Dr. Modarressi, who found ESC “exhilarating,” similarly noted the benefit of such an equitably accessible conference. “Decreasing barriers and improving access to top-line results and up-to-date information has always been a challenge to the global health community,” he said, noting that the map of attendance for the virtual meeting was “astonishing.”

Given these benefits, organizers said they expect a future of hybrid conferences: physical meetings for those able to attend in person and virtual ones for those who cannot.

“We also expect that the hybrid congress will cater to the needs of people on-site by allowing them additional access to more scientific content than by physical attendance alone,” Dr. Rautenstrauch said.

Everyone has been in reactive mode this year, Ms. Sibley said, but the future looks bright as they seek ways to overcome challenges such as socio-emotional needs and virtual expo spaces.

“We’ve been thrust into the virtual world much faster than we expected, but we’re finding it’s opening more opportunities than we had live,” Ms. Sibley said. “This has catapulted us, for better or worse, into a new way to deliver education and other types of information.

“I think, if we’re smart, we’ll continue to think of ways this can augment our live environment and not replace it.”
 

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

COVID-19–positive patients undergoing an invasive strategy for acute coronary syndrome presented hours later than uninfected historical controls, had a far higher incidence of cardiogenic shock, and their in-hospital mortality rate was four- to fivefold greater, according to data from the Global Multicenter Prospective COVID–ACS Registry. These phenomena are probably interrelated, according to Anthony Gershlick, MBBS, who presented the registry results at the Transcatheter Cardiovascular Therapeutics virtual annual meeting.

“We know that increasing ischemic time leads to bigger infarcts. And we know that bigger infarcts lead to cardiogenic shock, with its known higher mortality,” said Dr. Gershlick, professor of interventional cardiology at the University of Leicester (England).

“These data suggest that patients may have presented late, likely due to COVID concerns, and they had worse outcomes. If these data are borne out, future public information strategies need to be reassuring, proactive, simple, and more effective because we think patients stayed away,” the cardiologist added. “There are important public information messages to be taken from these data about getting patients to come to hospital during such pandemics.”

He presented prospectively collected registry data on 144 patients with confirmed ST-elevation MI (STEMI) and 122 with non-ST–elevation MI (NSTEMI), all COVID-19 positive on presentation at 85 hospitals in the United Kingdom, Europe, and North America during March through August of 2020. Since the initial message to the public early in the pandemic in many places was to try to avoid the hospital, the investigators selected for their no-COVID comparison group the data on more than 22,000 STEMI and NSTEMI patients included in two British national databases covering 2018-2019.

The COVID-positive STEMI patients were significantly younger, had more comorbidities, and had a higher mean heart rate and lower systolic blood pressure at admission than the non-COVID STEMI control group. Their median time from symptom onset to admission was 339 minutes, compared with 178 minutes in controls. Their door-to-balloon time averaged 83 minutes, versus 37 minutes in the era before the pandemic.

“I suspect that’s got something to do with the donning and doffing of personal protective equipment,” he said at the meeting sponsored by the Cardiovascular Research Foundation.

The in-hospital mortality rates were strikingly different: 27.1% in COVID-positive STEMI patients versus 5.7% in controls. Bleeding Academic Research Consortium type 3-5 bleeding was increased as well, by a margin of 2.8% to 0.3%. So was stroke, with a 2.1% in-hospital incidence in COVID-positive STEMI patients and a 0.1% rate in the comparator arm.

“But the biggest headline here for me was that the cardiogenic shock rate was 20.1% in the COVID-positive patients versus 8.7% in the non-COVID STEMI patients,” the cardiologist continued.

The same pattern held true among the COVID-positive NSTEMI patients: They were younger, sicker, and slower to present to the hospital than the non-COVID group. The in-hospital mortality rate was 6.6% in the COVID-positive NSTEMI patients, compared with 1.2% in the reference group. The COVID-positive patients had a 2.5% bleeding rate versus 0.1% in the controls. And the incidence of cardiogenic shock was 5%, compared with 1.4% in the controls from before the pandemic.

“Even though NSTEMI is traditionally regarded as lower risk, this is really quite dramatic. These are sick patients,” Dr. Gershlick observed.

Nearly two-thirds of in-hospital deaths in COVID-positive ACS patients were cardiovascular, and three-quarters of those cardiovascular deaths occurred in patients with cardiogenic shock. Thirty-two percent of deaths in COVID-positive ACS patients were of respiratory causes, and 4.9% were neurologic.

Notably, the ischemic time of patients with cardiogenic shock who died – that is, the time from symptom onset to balloon deployment – averaged 1,271 minutes, compared with 441 minutes in those who died without being in cardiogenic shock.

Session comoderator Sahil A. Parikh, MD, director of endovascular services at Columbia University Medical Center in New York, commented, “One of the striking things that is resonating with me is the high incidence of cardiogenic shock and the mortality. It’s akin to what we’ve seen in New York.”

bjancin@mdedge.com

COVID-19–positive patients undergoing an invasive strategy for acute coronary syndrome presented hours later than uninfected historical controls, had a far higher incidence of cardiogenic shock, and their in-hospital mortality rate was four- to fivefold greater, according to data from the Global Multicenter Prospective COVID–ACS Registry. These phenomena are probably interrelated, according to Anthony Gershlick, MBBS, who presented the registry results at the Transcatheter Cardiovascular Therapeutics virtual annual meeting.

“We know that increasing ischemic time leads to bigger infarcts. And we know that bigger infarcts lead to cardiogenic shock, with its known higher mortality,” said Dr. Gershlick, professor of interventional cardiology at the University of Leicester (England).

“These data suggest that patients may have presented late, likely due to COVID concerns, and they had worse outcomes. If these data are borne out, future public information strategies need to be reassuring, proactive, simple, and more effective because we think patients stayed away,” the cardiologist added. “There are important public information messages to be taken from these data about getting patients to come to hospital during such pandemics.”

He presented prospectively collected registry data on 144 patients with confirmed ST-elevation MI (STEMI) and 122 with non-ST–elevation MI (NSTEMI), all COVID-19 positive on presentation at 85 hospitals in the United Kingdom, Europe, and North America during March through August of 2020. Since the initial message to the public early in the pandemic in many places was to try to avoid the hospital, the investigators selected for their no-COVID comparison group the data on more than 22,000 STEMI and NSTEMI patients included in two British national databases covering 2018-2019.

The COVID-positive STEMI patients were significantly younger, had more comorbidities, and had a higher mean heart rate and lower systolic blood pressure at admission than the non-COVID STEMI control group. Their median time from symptom onset to admission was 339 minutes, compared with 178 minutes in controls. Their door-to-balloon time averaged 83 minutes, versus 37 minutes in the era before the pandemic.

“I suspect that’s got something to do with the donning and doffing of personal protective equipment,” he said at the meeting sponsored by the Cardiovascular Research Foundation.

The in-hospital mortality rates were strikingly different: 27.1% in COVID-positive STEMI patients versus 5.7% in controls. Bleeding Academic Research Consortium type 3-5 bleeding was increased as well, by a margin of 2.8% to 0.3%. So was stroke, with a 2.1% in-hospital incidence in COVID-positive STEMI patients and a 0.1% rate in the comparator arm.

“But the biggest headline here for me was that the cardiogenic shock rate was 20.1% in the COVID-positive patients versus 8.7% in the non-COVID STEMI patients,” the cardiologist continued.

The same pattern held true among the COVID-positive NSTEMI patients: They were younger, sicker, and slower to present to the hospital than the non-COVID group. The in-hospital mortality rate was 6.6% in the COVID-positive NSTEMI patients, compared with 1.2% in the reference group. The COVID-positive patients had a 2.5% bleeding rate versus 0.1% in the controls. And the incidence of cardiogenic shock was 5%, compared with 1.4% in the controls from before the pandemic.

“Even though NSTEMI is traditionally regarded as lower risk, this is really quite dramatic. These are sick patients,” Dr. Gershlick observed.

Nearly two-thirds of in-hospital deaths in COVID-positive ACS patients were cardiovascular, and three-quarters of those cardiovascular deaths occurred in patients with cardiogenic shock. Thirty-two percent of deaths in COVID-positive ACS patients were of respiratory causes, and 4.9% were neurologic.

Notably, the ischemic time of patients with cardiogenic shock who died – that is, the time from symptom onset to balloon deployment – averaged 1,271 minutes, compared with 441 minutes in those who died without being in cardiogenic shock.

Session comoderator Sahil A. Parikh, MD, director of endovascular services at Columbia University Medical Center in New York, commented, “One of the striking things that is resonating with me is the high incidence of cardiogenic shock and the mortality. It’s akin to what we’ve seen in New York.”

bjancin@mdedge.com

COVID-19–positive patients undergoing an invasive strategy for acute coronary syndrome presented hours later than uninfected historical controls, had a far higher incidence of cardiogenic shock, and their in-hospital mortality rate was four- to fivefold greater, according to data from the Global Multicenter Prospective COVID–ACS Registry. These phenomena are probably interrelated, according to Anthony Gershlick, MBBS, who presented the registry results at the Transcatheter Cardiovascular Therapeutics virtual annual meeting.

“We know that increasing ischemic time leads to bigger infarcts. And we know that bigger infarcts lead to cardiogenic shock, with its known higher mortality,” said Dr. Gershlick, professor of interventional cardiology at the University of Leicester (England).

“These data suggest that patients may have presented late, likely due to COVID concerns, and they had worse outcomes. If these data are borne out, future public information strategies need to be reassuring, proactive, simple, and more effective because we think patients stayed away,” the cardiologist added. “There are important public information messages to be taken from these data about getting patients to come to hospital during such pandemics.”

He presented prospectively collected registry data on 144 patients with confirmed ST-elevation MI (STEMI) and 122 with non-ST–elevation MI (NSTEMI), all COVID-19 positive on presentation at 85 hospitals in the United Kingdom, Europe, and North America during March through August of 2020. Since the initial message to the public early in the pandemic in many places was to try to avoid the hospital, the investigators selected for their no-COVID comparison group the data on more than 22,000 STEMI and NSTEMI patients included in two British national databases covering 2018-2019.

The COVID-positive STEMI patients were significantly younger, had more comorbidities, and had a higher mean heart rate and lower systolic blood pressure at admission than the non-COVID STEMI control group. Their median time from symptom onset to admission was 339 minutes, compared with 178 minutes in controls. Their door-to-balloon time averaged 83 minutes, versus 37 minutes in the era before the pandemic.

“I suspect that’s got something to do with the donning and doffing of personal protective equipment,” he said at the meeting sponsored by the Cardiovascular Research Foundation.

The in-hospital mortality rates were strikingly different: 27.1% in COVID-positive STEMI patients versus 5.7% in controls. Bleeding Academic Research Consortium type 3-5 bleeding was increased as well, by a margin of 2.8% to 0.3%. So was stroke, with a 2.1% in-hospital incidence in COVID-positive STEMI patients and a 0.1% rate in the comparator arm.

“But the biggest headline here for me was that the cardiogenic shock rate was 20.1% in the COVID-positive patients versus 8.7% in the non-COVID STEMI patients,” the cardiologist continued.

The same pattern held true among the COVID-positive NSTEMI patients: They were younger, sicker, and slower to present to the hospital than the non-COVID group. The in-hospital mortality rate was 6.6% in the COVID-positive NSTEMI patients, compared with 1.2% in the reference group. The COVID-positive patients had a 2.5% bleeding rate versus 0.1% in the controls. And the incidence of cardiogenic shock was 5%, compared with 1.4% in the controls from before the pandemic.

“Even though NSTEMI is traditionally regarded as lower risk, this is really quite dramatic. These are sick patients,” Dr. Gershlick observed.

Nearly two-thirds of in-hospital deaths in COVID-positive ACS patients were cardiovascular, and three-quarters of those cardiovascular deaths occurred in patients with cardiogenic shock. Thirty-two percent of deaths in COVID-positive ACS patients were of respiratory causes, and 4.9% were neurologic.

Notably, the ischemic time of patients with cardiogenic shock who died – that is, the time from symptom onset to balloon deployment – averaged 1,271 minutes, compared with 441 minutes in those who died without being in cardiogenic shock.

Session comoderator Sahil A. Parikh, MD, director of endovascular services at Columbia University Medical Center in New York, commented, “One of the striking things that is resonating with me is the high incidence of cardiogenic shock and the mortality. It’s akin to what we’ve seen in New York.”

bjancin@mdedge.com