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The transmission rate of coronavirus disease 2019 (COVID-19) was 1%-5% among 38,000 Chinese people in close contact with infected patients, according to the chief epidemiologist of the Chinese Centers for Disease Control and Prevention, Beijing, Zunyou Wu, MD, PhD, who gave an update on the epidemic at the Conference on Retroviruses & Opportunistic Infections.

The rate of spread to family members – the driver of the infection in China – was 10% early in the outbreak, but fell to 3% with quicker recognition and isolation. The overall numbers are lower than might have been expected, and an important insight for clinicians trying to contain the outbreak in the United States.

Patients were most infectious at the onset of symptoms, when they spiked a fever and started coughing, but their ability to spread the infection dropped after that, Dr. Wu and others said at a special COVID-19 session at the meeting, which was scheduled to be in Boston, but was held online instead because of concerns about spreading the virus. The session has been posted.

Transmission from presymptomatic people is rare. Shedding persists to some degree for 7-12 days in mild/moderate cases, but 2 weeks or more in severe cases.

Dr. Wu said the numbers in China are moving in the right direction, which means that containment efforts there have worked.

The virus emerged in Wuhan, the capital of Hubei province in central China, in connection with a wildlife food market in December 2019. Bats are thought to be the reservoir, with perhaps an intermediate step between civet cats and raccoon dogs. Officials shut down the market.

Essentially, the entire population of China, more than a billion people, was told to stay home for 10 days to interrupt the transmission cycle after the virus spread throughout the country in a few weeks, and almost 60 million people in Hubei were put behind a cordon sanitaire, where they have been for 50 days and will remain “for a while,” Dr. Wu said.

It’s led to a steep drop in new cases and deaths in China since mid-February; both are now more common outside China than inside, and international numbers are lower than they were at the peak in China.

aotto@mdedge.com

The transmission rate of coronavirus disease 2019 (COVID-19) was 1%-5% among 38,000 Chinese people in close contact with infected patients, according to the chief epidemiologist of the Chinese Centers for Disease Control and Prevention, Beijing, Zunyou Wu, MD, PhD, who gave an update on the epidemic at the Conference on Retroviruses & Opportunistic Infections.

The rate of spread to family members – the driver of the infection in China – was 10% early in the outbreak, but fell to 3% with quicker recognition and isolation. The overall numbers are lower than might have been expected, and an important insight for clinicians trying to contain the outbreak in the United States.

Patients were most infectious at the onset of symptoms, when they spiked a fever and started coughing, but their ability to spread the infection dropped after that, Dr. Wu and others said at a special COVID-19 session at the meeting, which was scheduled to be in Boston, but was held online instead because of concerns about spreading the virus. The session has been posted.

Transmission from presymptomatic people is rare. Shedding persists to some degree for 7-12 days in mild/moderate cases, but 2 weeks or more in severe cases.

Dr. Wu said the numbers in China are moving in the right direction, which means that containment efforts there have worked.

The virus emerged in Wuhan, the capital of Hubei province in central China, in connection with a wildlife food market in December 2019. Bats are thought to be the reservoir, with perhaps an intermediate step between civet cats and raccoon dogs. Officials shut down the market.

Essentially, the entire population of China, more than a billion people, was told to stay home for 10 days to interrupt the transmission cycle after the virus spread throughout the country in a few weeks, and almost 60 million people in Hubei were put behind a cordon sanitaire, where they have been for 50 days and will remain “for a while,” Dr. Wu said.

It’s led to a steep drop in new cases and deaths in China since mid-February; both are now more common outside China than inside, and international numbers are lower than they were at the peak in China.

aotto@mdedge.com

The transmission rate of coronavirus disease 2019 (COVID-19) was 1%-5% among 38,000 Chinese people in close contact with infected patients, according to the chief epidemiologist of the Chinese Centers for Disease Control and Prevention, Beijing, Zunyou Wu, MD, PhD, who gave an update on the epidemic at the Conference on Retroviruses & Opportunistic Infections.

The rate of spread to family members – the driver of the infection in China – was 10% early in the outbreak, but fell to 3% with quicker recognition and isolation. The overall numbers are lower than might have been expected, and an important insight for clinicians trying to contain the outbreak in the United States.

Patients were most infectious at the onset of symptoms, when they spiked a fever and started coughing, but their ability to spread the infection dropped after that, Dr. Wu and others said at a special COVID-19 session at the meeting, which was scheduled to be in Boston, but was held online instead because of concerns about spreading the virus. The session has been posted.

Transmission from presymptomatic people is rare. Shedding persists to some degree for 7-12 days in mild/moderate cases, but 2 weeks or more in severe cases.

Dr. Wu said the numbers in China are moving in the right direction, which means that containment efforts there have worked.

The virus emerged in Wuhan, the capital of Hubei province in central China, in connection with a wildlife food market in December 2019. Bats are thought to be the reservoir, with perhaps an intermediate step between civet cats and raccoon dogs. Officials shut down the market.

Essentially, the entire population of China, more than a billion people, was told to stay home for 10 days to interrupt the transmission cycle after the virus spread throughout the country in a few weeks, and almost 60 million people in Hubei were put behind a cordon sanitaire, where they have been for 50 days and will remain “for a while,” Dr. Wu said.

It’s led to a steep drop in new cases and deaths in China since mid-February; both are now more common outside China than inside, and international numbers are lower than they were at the peak in China.

aotto@mdedge.com

Officials at the Food and Drug Administration’s Center for Drug Evaluation and Research are taking the precautionary step of canceling or postponing advisory committee meetings and limiting staff travel in an effort to help curb the spread of the COVID-19.

Wikimedia Commons/FitzColinGerald/ Creative Commons License

“The outbreak of respiratory illness caused by a novel coronavirus, COVID-19, that started in China is spreading to other countries, including the United States,” CDER Director Janet Woodcock, MD, said in a memo to CDER staff. “As a precaution, FDA is canceling foreign official agency travel and limiting domestic travel to mission critical only, effective immediately and through April.”

Additionally, the memo notes that “CDER-organized external meetings, conferences, and workshops will be postponed or canceled from March 10 through April.”

“To mitigate the impact on our work, I encourage you to hold meetings with external stakeholders through teleconference, when possible,” she wrote.

Thus far, only a few CDER events on the FDA’s meeting webpage are listed as being canceled or postponed. Some of the affected meetings include a March 10 public meeting on patient-focused drug development for stimulant-use disorder, a March 11 meeting of the Nonprescription Drug Advisory Committee, and a March 30 public meeting on patient-focused drug development for vitiligo, all of which are postponed until further notice. The Center for Biologics Evaluation and Research also has postponed until further notice its U.S.–Japan Cellular and Gene Therapy Conference, originally scheduled for March 12.

Dr. Woodcock also noted in the memo that in relation to inspections, “we plan to use technology and established agreements with our foreign counterparts to minimize disruptions to the drug supply chain and to applications under review, so that Americans can continue to get their medications.”

gtwachtman@mdedge.com

Officials at the Food and Drug Administration’s Center for Drug Evaluation and Research are taking the precautionary step of canceling or postponing advisory committee meetings and limiting staff travel in an effort to help curb the spread of the COVID-19.

Wikimedia Commons/FitzColinGerald/ Creative Commons License

“The outbreak of respiratory illness caused by a novel coronavirus, COVID-19, that started in China is spreading to other countries, including the United States,” CDER Director Janet Woodcock, MD, said in a memo to CDER staff. “As a precaution, FDA is canceling foreign official agency travel and limiting domestic travel to mission critical only, effective immediately and through April.”

Additionally, the memo notes that “CDER-organized external meetings, conferences, and workshops will be postponed or canceled from March 10 through April.”

“To mitigate the impact on our work, I encourage you to hold meetings with external stakeholders through teleconference, when possible,” she wrote.

Thus far, only a few CDER events on the FDA’s meeting webpage are listed as being canceled or postponed. Some of the affected meetings include a March 10 public meeting on patient-focused drug development for stimulant-use disorder, a March 11 meeting of the Nonprescription Drug Advisory Committee, and a March 30 public meeting on patient-focused drug development for vitiligo, all of which are postponed until further notice. The Center for Biologics Evaluation and Research also has postponed until further notice its U.S.–Japan Cellular and Gene Therapy Conference, originally scheduled for March 12.

Dr. Woodcock also noted in the memo that in relation to inspections, “we plan to use technology and established agreements with our foreign counterparts to minimize disruptions to the drug supply chain and to applications under review, so that Americans can continue to get their medications.”

gtwachtman@mdedge.com

Officials at the Food and Drug Administration’s Center for Drug Evaluation and Research are taking the precautionary step of canceling or postponing advisory committee meetings and limiting staff travel in an effort to help curb the spread of the COVID-19.

Wikimedia Commons/FitzColinGerald/ Creative Commons License

“The outbreak of respiratory illness caused by a novel coronavirus, COVID-19, that started in China is spreading to other countries, including the United States,” CDER Director Janet Woodcock, MD, said in a memo to CDER staff. “As a precaution, FDA is canceling foreign official agency travel and limiting domestic travel to mission critical only, effective immediately and through April.”

Additionally, the memo notes that “CDER-organized external meetings, conferences, and workshops will be postponed or canceled from March 10 through April.”

“To mitigate the impact on our work, I encourage you to hold meetings with external stakeholders through teleconference, when possible,” she wrote.

Thus far, only a few CDER events on the FDA’s meeting webpage are listed as being canceled or postponed. Some of the affected meetings include a March 10 public meeting on patient-focused drug development for stimulant-use disorder, a March 11 meeting of the Nonprescription Drug Advisory Committee, and a March 30 public meeting on patient-focused drug development for vitiligo, all of which are postponed until further notice. The Center for Biologics Evaluation and Research also has postponed until further notice its U.S.–Japan Cellular and Gene Therapy Conference, originally scheduled for March 12.

Dr. Woodcock also noted in the memo that in relation to inspections, “we plan to use technology and established agreements with our foreign counterparts to minimize disruptions to the drug supply chain and to applications under review, so that Americans can continue to get their medications.”

gtwachtman@mdedge.com

Although a 14-day quarantine after exposure to novel coronavirus is “well supported” by evidence, some infected individuals will not become symptomatic until after that period, according to authors of a recent analysis published in Annals of Internal Medicine.

Most individuals infected with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) will develop symptoms by day 12 of the infection, which is within the 14-day period of active monitoring currently recommended by the Centers for Disease Control and Prevention, the authors wrote.

However, an estimated 101 out of 10,000 cases could become symptomatic after the end of that 14-day monitoring period, they cautioned.

“Our analyses do not preclude that estimate from being higher,” said the investigators, led by Stephen A. Lauer, PhD, MD, of Johns Hopkins Bloomberg School of Public Health, Baltimore.

The analysis, based on 181 confirmed cases of coronavirus disease 2019 (COVID-19) that were documented outside of the outbreak epicenter, Wuhan, China, makes “more conservative assumptions” about the window of symptom onset and potential for continued exposure, compared with analyses in previous studies, the researchers wrote.

The estimated incubation period for SARS-CoV-2 in the 181-patient study was a median of 5.1 days, which is comparable with previous estimates based on COVID-19 cases outside of Wuhan and consistent with other known human coronavirus diseases, such as SARS, which had a reported mean incubation period of 5 days, Dr. Lauer and colleagues noted.

Symptoms developed within 11.5 days for 97.5% of patients in the study.

Whether it’s acceptable to have 101 out of 10,000 cases becoming symptomatic beyond the recommended quarantine window depends on two factors, according to the authors. The first is the expected infection risk in the population that is being monitored, and the second is “judgment about the cost of missing cases,” wrote the authors.

In an interview, Aaron Eli Glatt, MD, chair of medicine at Mount Sinai South Nassau, Oceanside, N.Y., said that in practical terms, the results suggest that the majority of patients with COVID-19 will be identified within 14 days, with an “outside chance” of an infected individual leaving quarantine and transmitting virus for a short period of time before becoming symptomatic.

“I think the proper message to give those patients [who are asymptomatic upon leaving quarantine] is, ‘after 14 days, we’re pretty sure you’re out of the woods, but should you get any symptoms, immediately requarantine yourself and seek medical care,” he said.

Study coauthor Kyra H. Grantz, a doctoral graduate student at the Johns Hopkins Bloomberg School of Public Health, said that extending a quarantine beyond 14 days might be considered in the highest-risk scenarios, though the benefits of doing so would have to be weighed against the costs to public health and to the individuals under quarantine.

“Our estimate of the incubation period definitely supports the 14-day recommendation that the CDC has been using,” she said in an interview.

Dr. Grantz emphasized that the estimate of 101 out of 10,000 cases developing symptoms after day 14 of active monitoring – representing the 99th percentile of cases – assumes the “most conservative, worst-case scenario” in a population that is fully infected.

“If you’re looking at a following a cohort of 1,000 people whom you think may have been exposed, only a certain percentage will be infected, and only a certain percentage of those will even develop symptoms – before we get to this idea of how many people would we miss,” she said.

The study was supported by the Centers for Disease Control and Prevention, the National Institute of Allergy and Infectious Diseases, the National Institute of General Medical Sciences, and the Alexander von Humboldt Foundation. Four authors reported disclosures related to those entities, and the remaining five reported no conflicts of interest.
 

SOURCE: Lauer SA et al. Ann Intern Med. 2020 Mar 9. doi:10.1101/2020.02.02.20020016.

Although a 14-day quarantine after exposure to novel coronavirus is “well supported” by evidence, some infected individuals will not become symptomatic until after that period, according to authors of a recent analysis published in Annals of Internal Medicine.

Most individuals infected with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) will develop symptoms by day 12 of the infection, which is within the 14-day period of active monitoring currently recommended by the Centers for Disease Control and Prevention, the authors wrote.

However, an estimated 101 out of 10,000 cases could become symptomatic after the end of that 14-day monitoring period, they cautioned.

“Our analyses do not preclude that estimate from being higher,” said the investigators, led by Stephen A. Lauer, PhD, MD, of Johns Hopkins Bloomberg School of Public Health, Baltimore.

The analysis, based on 181 confirmed cases of coronavirus disease 2019 (COVID-19) that were documented outside of the outbreak epicenter, Wuhan, China, makes “more conservative assumptions” about the window of symptom onset and potential for continued exposure, compared with analyses in previous studies, the researchers wrote.

The estimated incubation period for SARS-CoV-2 in the 181-patient study was a median of 5.1 days, which is comparable with previous estimates based on COVID-19 cases outside of Wuhan and consistent with other known human coronavirus diseases, such as SARS, which had a reported mean incubation period of 5 days, Dr. Lauer and colleagues noted.

Symptoms developed within 11.5 days for 97.5% of patients in the study.

Whether it’s acceptable to have 101 out of 10,000 cases becoming symptomatic beyond the recommended quarantine window depends on two factors, according to the authors. The first is the expected infection risk in the population that is being monitored, and the second is “judgment about the cost of missing cases,” wrote the authors.

In an interview, Aaron Eli Glatt, MD, chair of medicine at Mount Sinai South Nassau, Oceanside, N.Y., said that in practical terms, the results suggest that the majority of patients with COVID-19 will be identified within 14 days, with an “outside chance” of an infected individual leaving quarantine and transmitting virus for a short period of time before becoming symptomatic.

“I think the proper message to give those patients [who are asymptomatic upon leaving quarantine] is, ‘after 14 days, we’re pretty sure you’re out of the woods, but should you get any symptoms, immediately requarantine yourself and seek medical care,” he said.

Study coauthor Kyra H. Grantz, a doctoral graduate student at the Johns Hopkins Bloomberg School of Public Health, said that extending a quarantine beyond 14 days might be considered in the highest-risk scenarios, though the benefits of doing so would have to be weighed against the costs to public health and to the individuals under quarantine.

“Our estimate of the incubation period definitely supports the 14-day recommendation that the CDC has been using,” she said in an interview.

Dr. Grantz emphasized that the estimate of 101 out of 10,000 cases developing symptoms after day 14 of active monitoring – representing the 99th percentile of cases – assumes the “most conservative, worst-case scenario” in a population that is fully infected.

“If you’re looking at a following a cohort of 1,000 people whom you think may have been exposed, only a certain percentage will be infected, and only a certain percentage of those will even develop symptoms – before we get to this idea of how many people would we miss,” she said.

The study was supported by the Centers for Disease Control and Prevention, the National Institute of Allergy and Infectious Diseases, the National Institute of General Medical Sciences, and the Alexander von Humboldt Foundation. Four authors reported disclosures related to those entities, and the remaining five reported no conflicts of interest.
 

SOURCE: Lauer SA et al. Ann Intern Med. 2020 Mar 9. doi:10.1101/2020.02.02.20020016.

Although a 14-day quarantine after exposure to novel coronavirus is “well supported” by evidence, some infected individuals will not become symptomatic until after that period, according to authors of a recent analysis published in Annals of Internal Medicine.

Most individuals infected with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) will develop symptoms by day 12 of the infection, which is within the 14-day period of active monitoring currently recommended by the Centers for Disease Control and Prevention, the authors wrote.

However, an estimated 101 out of 10,000 cases could become symptomatic after the end of that 14-day monitoring period, they cautioned.

“Our analyses do not preclude that estimate from being higher,” said the investigators, led by Stephen A. Lauer, PhD, MD, of Johns Hopkins Bloomberg School of Public Health, Baltimore.

The analysis, based on 181 confirmed cases of coronavirus disease 2019 (COVID-19) that were documented outside of the outbreak epicenter, Wuhan, China, makes “more conservative assumptions” about the window of symptom onset and potential for continued exposure, compared with analyses in previous studies, the researchers wrote.

The estimated incubation period for SARS-CoV-2 in the 181-patient study was a median of 5.1 days, which is comparable with previous estimates based on COVID-19 cases outside of Wuhan and consistent with other known human coronavirus diseases, such as SARS, which had a reported mean incubation period of 5 days, Dr. Lauer and colleagues noted.

Symptoms developed within 11.5 days for 97.5% of patients in the study.

Whether it’s acceptable to have 101 out of 10,000 cases becoming symptomatic beyond the recommended quarantine window depends on two factors, according to the authors. The first is the expected infection risk in the population that is being monitored, and the second is “judgment about the cost of missing cases,” wrote the authors.

In an interview, Aaron Eli Glatt, MD, chair of medicine at Mount Sinai South Nassau, Oceanside, N.Y., said that in practical terms, the results suggest that the majority of patients with COVID-19 will be identified within 14 days, with an “outside chance” of an infected individual leaving quarantine and transmitting virus for a short period of time before becoming symptomatic.

“I think the proper message to give those patients [who are asymptomatic upon leaving quarantine] is, ‘after 14 days, we’re pretty sure you’re out of the woods, but should you get any symptoms, immediately requarantine yourself and seek medical care,” he said.

Study coauthor Kyra H. Grantz, a doctoral graduate student at the Johns Hopkins Bloomberg School of Public Health, said that extending a quarantine beyond 14 days might be considered in the highest-risk scenarios, though the benefits of doing so would have to be weighed against the costs to public health and to the individuals under quarantine.

“Our estimate of the incubation period definitely supports the 14-day recommendation that the CDC has been using,” she said in an interview.

Dr. Grantz emphasized that the estimate of 101 out of 10,000 cases developing symptoms after day 14 of active monitoring – representing the 99th percentile of cases – assumes the “most conservative, worst-case scenario” in a population that is fully infected.

“If you’re looking at a following a cohort of 1,000 people whom you think may have been exposed, only a certain percentage will be infected, and only a certain percentage of those will even develop symptoms – before we get to this idea of how many people would we miss,” she said.

The study was supported by the Centers for Disease Control and Prevention, the National Institute of Allergy and Infectious Diseases, the National Institute of General Medical Sciences, and the Alexander von Humboldt Foundation. Four authors reported disclosures related to those entities, and the remaining five reported no conflicts of interest.
 

SOURCE: Lauer SA et al. Ann Intern Med. 2020 Mar 9. doi:10.1101/2020.02.02.20020016.

The toilet bowl, sink, and bathroom door handle of an isolation room housing a patient with the novel coronavirus tested positive for the virus, raising the possibility that viral shedding in the stool could represent another route of transmission, investigators reported.

CDC/ Dr. Fred Murphy; Sylvia Whitfield

Air outlet fans and other room sites also tested positive for severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), though an anteroom, a corridor, and most personal protective equipment (PPE) worn by health care providers tested negative, according to the researchers, led by Sean Wei Xiang Ong, MBBS, of the National Centre for Infectious Diseases, Singapore.

Taken together, these findings suggest a “need for strict adherence to environmental and hand hygiene” to combat significant environmental contamination through respiratory droplets and fecal shedding, Dr. Ong and colleagues wrote in JAMA.

Aaron Eli Glatt, MD, chair of medicine at Mount Sinai South Nassau in New York, said these results demonstrate that SARS-CoV-2 is “clearly capable” of contaminating bathroom sinks and toilets.

“That wouldn’t have been the first place I would have thought of, before this study,” he said in an interview. “You need to pay attention to cleaning the bathrooms, which we obviously do, but that’s an important reminder.”

The report by Dr. Ong and coauthors included a total of three patients housed in airborne infection isolation rooms in a dedicated SARS-CoV-2 outbreak center in Singapore. For each patient, surface samples were taken from 26 sites in the isolation room, an anteroom, and a bathroom. Samples were also taken from PPE on physicians as they left the patient rooms.

Samples for the first patient, taken right after routine cleaning, were all negative, according to researchers. That room was sampled twice, on days 4 and 10 of the illness, while the patient was still symptomatic. Likewise, for the second patient, postcleaning samples were negative; those samples were taken 2 days after cleaning.

However, for the third patient, samples were taken before routine cleaning. In this case, Dr. Ong and colleagues said 13 of 15 room sites (87%) were positive, including air outlet fans, while 3 of 5 toilet sites (60%) were positive as well, though no contamination was found in the anteroom, corridor, or in air samples.

That patient had two stool samples that were positive for SARS-CoV-2, but no diarrhea, authors said, and had upper respiratory tract involvement without pneumonia.

The fact that swabs of the air exhaust outlets tested positive suggests that virus-laden droplets could be “displaced by airflows” and end up on vents or other equipment, Dr. Ong and coauthors reported.

All PPE samples tested negative, except for the front of one shoe.

“The risk of transmission from contaminated footwear is likely low, as evidenced by negative results in the anteroom and corridor,” they wrote.

While this study included only a small number of patients, Dr. Glatt said the findings represent an important and useful contribution to the literature on coronavirus disease 2019 (COVID-19).

“Every day we’re getting more information, and each little piece of the puzzle helps us in the overall management of individuals with COVID-19,” he said in the interview. “They’re adding to our ability to manage, control, and mitigate further spread of the disease.”

Funding for the study came from the National Medical Research Council in Singapore and DSO National Laboratories. Dr. Ong and colleagues reported no conflicts of interest.

SOURCE: Ong SWX et al. JAMA. 2020 Mar 4. doi: 10.1001/jama.2020.3227.

The toilet bowl, sink, and bathroom door handle of an isolation room housing a patient with the novel coronavirus tested positive for the virus, raising the possibility that viral shedding in the stool could represent another route of transmission, investigators reported.

CDC/ Dr. Fred Murphy; Sylvia Whitfield

Air outlet fans and other room sites also tested positive for severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), though an anteroom, a corridor, and most personal protective equipment (PPE) worn by health care providers tested negative, according to the researchers, led by Sean Wei Xiang Ong, MBBS, of the National Centre for Infectious Diseases, Singapore.

Taken together, these findings suggest a “need for strict adherence to environmental and hand hygiene” to combat significant environmental contamination through respiratory droplets and fecal shedding, Dr. Ong and colleagues wrote in JAMA.

Aaron Eli Glatt, MD, chair of medicine at Mount Sinai South Nassau in New York, said these results demonstrate that SARS-CoV-2 is “clearly capable” of contaminating bathroom sinks and toilets.

“That wouldn’t have been the first place I would have thought of, before this study,” he said in an interview. “You need to pay attention to cleaning the bathrooms, which we obviously do, but that’s an important reminder.”

The report by Dr. Ong and coauthors included a total of three patients housed in airborne infection isolation rooms in a dedicated SARS-CoV-2 outbreak center in Singapore. For each patient, surface samples were taken from 26 sites in the isolation room, an anteroom, and a bathroom. Samples were also taken from PPE on physicians as they left the patient rooms.

Samples for the first patient, taken right after routine cleaning, were all negative, according to researchers. That room was sampled twice, on days 4 and 10 of the illness, while the patient was still symptomatic. Likewise, for the second patient, postcleaning samples were negative; those samples were taken 2 days after cleaning.

However, for the third patient, samples were taken before routine cleaning. In this case, Dr. Ong and colleagues said 13 of 15 room sites (87%) were positive, including air outlet fans, while 3 of 5 toilet sites (60%) were positive as well, though no contamination was found in the anteroom, corridor, or in air samples.

That patient had two stool samples that were positive for SARS-CoV-2, but no diarrhea, authors said, and had upper respiratory tract involvement without pneumonia.

The fact that swabs of the air exhaust outlets tested positive suggests that virus-laden droplets could be “displaced by airflows” and end up on vents or other equipment, Dr. Ong and coauthors reported.

All PPE samples tested negative, except for the front of one shoe.

“The risk of transmission from contaminated footwear is likely low, as evidenced by negative results in the anteroom and corridor,” they wrote.

While this study included only a small number of patients, Dr. Glatt said the findings represent an important and useful contribution to the literature on coronavirus disease 2019 (COVID-19).

“Every day we’re getting more information, and each little piece of the puzzle helps us in the overall management of individuals with COVID-19,” he said in the interview. “They’re adding to our ability to manage, control, and mitigate further spread of the disease.”

Funding for the study came from the National Medical Research Council in Singapore and DSO National Laboratories. Dr. Ong and colleagues reported no conflicts of interest.

SOURCE: Ong SWX et al. JAMA. 2020 Mar 4. doi: 10.1001/jama.2020.3227.

The toilet bowl, sink, and bathroom door handle of an isolation room housing a patient with the novel coronavirus tested positive for the virus, raising the possibility that viral shedding in the stool could represent another route of transmission, investigators reported.

CDC/ Dr. Fred Murphy; Sylvia Whitfield

Air outlet fans and other room sites also tested positive for severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), though an anteroom, a corridor, and most personal protective equipment (PPE) worn by health care providers tested negative, according to the researchers, led by Sean Wei Xiang Ong, MBBS, of the National Centre for Infectious Diseases, Singapore.

Taken together, these findings suggest a “need for strict adherence to environmental and hand hygiene” to combat significant environmental contamination through respiratory droplets and fecal shedding, Dr. Ong and colleagues wrote in JAMA.

Aaron Eli Glatt, MD, chair of medicine at Mount Sinai South Nassau in New York, said these results demonstrate that SARS-CoV-2 is “clearly capable” of contaminating bathroom sinks and toilets.

“That wouldn’t have been the first place I would have thought of, before this study,” he said in an interview. “You need to pay attention to cleaning the bathrooms, which we obviously do, but that’s an important reminder.”

The report by Dr. Ong and coauthors included a total of three patients housed in airborne infection isolation rooms in a dedicated SARS-CoV-2 outbreak center in Singapore. For each patient, surface samples were taken from 26 sites in the isolation room, an anteroom, and a bathroom. Samples were also taken from PPE on physicians as they left the patient rooms.

Samples for the first patient, taken right after routine cleaning, were all negative, according to researchers. That room was sampled twice, on days 4 and 10 of the illness, while the patient was still symptomatic. Likewise, for the second patient, postcleaning samples were negative; those samples were taken 2 days after cleaning.

However, for the third patient, samples were taken before routine cleaning. In this case, Dr. Ong and colleagues said 13 of 15 room sites (87%) were positive, including air outlet fans, while 3 of 5 toilet sites (60%) were positive as well, though no contamination was found in the anteroom, corridor, or in air samples.

That patient had two stool samples that were positive for SARS-CoV-2, but no diarrhea, authors said, and had upper respiratory tract involvement without pneumonia.

The fact that swabs of the air exhaust outlets tested positive suggests that virus-laden droplets could be “displaced by airflows” and end up on vents or other equipment, Dr. Ong and coauthors reported.

All PPE samples tested negative, except for the front of one shoe.

“The risk of transmission from contaminated footwear is likely low, as evidenced by negative results in the anteroom and corridor,” they wrote.

While this study included only a small number of patients, Dr. Glatt said the findings represent an important and useful contribution to the literature on coronavirus disease 2019 (COVID-19).

“Every day we’re getting more information, and each little piece of the puzzle helps us in the overall management of individuals with COVID-19,” he said in the interview. “They’re adding to our ability to manage, control, and mitigate further spread of the disease.”

Funding for the study came from the National Medical Research Council in Singapore and DSO National Laboratories. Dr. Ong and colleagues reported no conflicts of interest.

SOURCE: Ong SWX et al. JAMA. 2020 Mar 4. doi: 10.1001/jama.2020.3227.

Telehealth is increasingly being viewed as a key way to help fight the COVID-19 outbreak in the United States. Recognizing the potential of this technology to slow the spread of the disease, the House of Representatives included a provision in an $8.3 billion emergency response bill it approved today that would temporarily lift restrictions on Medicare telehealth coverage to assist in the efforts to contain the virus.

Nancy Messonnier, MD, director of the National Center for Immunization and Respiratory Diseases at the Centers for Disease Control and Prevention (CDC), said that hospitals should be prepared to use telehealth as one of their tools in fighting the outbreak, according to a recent news release from the American Hospital Association (AHA).

Congress is responding to that need by including the service in the new coronavirus legislation now headed to the Senate, after the funding bill was approved in a 415-2 vote by the House.

The bill empowers the Secretary of Health and Human Services (HHS) to “waive or modify application of certain Medicare requirements with respect to telehealth services furnished during certain emergency periods.”

While the measure adds telehealth to the waiver authority that the HHS secretary currently has during national emergencies, it’s only for the coronavirus crisis in this case, Krista Drobac, executive director of the Alliance for Connected Care, told Medscape Medical News.

The waiver would apply to originating sites of telehealth visits, she noted. Thus Medicare coverage of telemedicine would be expanded beyond rural areas.

In addition, the waiver would allow coverage of virtual visits conducted on smartphones with audio and video capabilities. A “qualified provider,” as defined by the legislation, would be a practitioner who has an established relationship with the patient or who is in the same practice as the provider who has that relationship.

An advantage of telehealth, proponents say, is that it can enable people who believe they have COVID-19 to be seen at home rather than visit offices or emergency departments (EDs) where they might spread the disease or be in proximity to others who have it.

In an editorial published March 2 in Modern Healthcare, medical directors from Stanford Medicine, MedStar Health, and Intermountain Healthcare also noted that telehealth can give patients 24/7 access to care, allow surveillance of patients at risk while keeping them at home, ensure that treatment in hospitals is reserved for high-need patients, and enable providers to triage and screen more patients than can be handled in brick-and-mortar care settings.

However, telehealth screening would allow physicians only to judge whether a patient’s symptoms might be indicative of COVID-19, the Alliance for Connected Care, a telehealth advocacy group, noted in a letter to Congressional leaders. Patients would still have to be seen in person to be tested for the disease.

The group, which represents technology companies, health insurers, pharmacies, and other healthcare players, has been lobbying Congress to include telehealth in federal funds to combat the outbreak.

The American Telemedicine Association (ATA) also supports this goal, ATA President Joseph Kvedar, MD, told Medscape Medical News. And the authors of the Modern Healthcare editorial also advocated for this legislative solution. Because the fatality rate for COVID-19 is significantly higher for older people than for other age groups, they noted, telehealth should be an economically viable option for all seniors.

The Centers for Medicare and Medicaid Services (CMS) long covered telemedicine only in rural areas and only when initiated in healthcare settings. Recently, however, CMS loosened its approach to some extent. Virtual “check-in visits” can now be initiated from any location, including home, to determine whether a Medicare patient needs to be seen in the office. In addition, CMS allows Medicare Advantage plans to offer telemedicine as a core benefit.

Are healthcare systems prepared?

Some large healthcare systems such as Stanford, MedStar, and Intermountain are already using telehealth to diagnose and treat patients who have traditional influenza. Telehealth providers at Stanford estimate that almost 50% of these patients are being prescribed the antiviral drug Tamiflu.

It’s unclear whether other healthcare systems are this well prepared to offer telehealth on a large scale. But, according to an AHA survey, Kvedar noted, three quarters of AHA members are engaged in some form of telehealth.

Drobac said “it wouldn’t require too much effort” to ramp up a wide-scale telehealth program that could help reduce the impact of the outbreak. “The technology is there,” she noted. “You need a HIPAA-compliant telehealth platform, but there are so many out there.”

Kvedar agreed. To begin with, he said, hospitals might sequester patients who visit the ED with COVID-19 symptoms in a video-equipped “isolation room.” Staff members could then do the patient intake from a different location in the hospital.

He admitted that this approach would be infeasible if a lot of patients arrived in EDs with coronavirus symptoms. However, Kvedar noted, “All the tools are in place to go well beyond that. American Well, Teladoc, and others are all offering ways to get out in front of this. There are plenty of vendors out there, and most people have a connected cell phone that you can do a video call on.”

Hospital leaders would have to decide whether to embrace telehealth, which would mean less use of services in their institutions, he said. “But it would be for the greater good of the public.”

Kvedar recalled that there was some use of telehealth in the New York area after 9/11. Telehealth was also used in the aftermath of Hurricane Katrina in 2005. But the ATA president, who is also vice president of connected health at Partners HealthCare in Boston, noted that the COVID-19 outbreak is the first public health emergency to occur in the era of Skype and smartphones.

If Congress does ultimately authorize CMS to cover telehealth across the board during this emergency, might that lead to a permanent change in Medicare coverage policy? Kvedar wouldn’t venture an opinion. “However, the current CMS leadership has been incredibly telehealth friendly,” he said. “So it’s possible they would [embrace a lifting of restrictions]. As patients get a sense of this modality of care and how convenient it is for them, they’ll start asking for more.”

Meanwhile, he said, the telehealth opportunity goes beyond video visits with doctors to mitigate the outbreak. Telehealth data could also be used to track disease spread, similar to how researchers have studied Google searches to predict the spread of the flu, he noted.

Teladoc, a major telehealth vendor, recently told stock analysts it’s already working with the CDC on disease surveillance, according to a report in FierceHealthcare.

This article first appeared on Medscape.com.

Telehealth is increasingly being viewed as a key way to help fight the COVID-19 outbreak in the United States. Recognizing the potential of this technology to slow the spread of the disease, the House of Representatives included a provision in an $8.3 billion emergency response bill it approved today that would temporarily lift restrictions on Medicare telehealth coverage to assist in the efforts to contain the virus.

Nancy Messonnier, MD, director of the National Center for Immunization and Respiratory Diseases at the Centers for Disease Control and Prevention (CDC), said that hospitals should be prepared to use telehealth as one of their tools in fighting the outbreak, according to a recent news release from the American Hospital Association (AHA).

Congress is responding to that need by including the service in the new coronavirus legislation now headed to the Senate, after the funding bill was approved in a 415-2 vote by the House.

The bill empowers the Secretary of Health and Human Services (HHS) to “waive or modify application of certain Medicare requirements with respect to telehealth services furnished during certain emergency periods.”

While the measure adds telehealth to the waiver authority that the HHS secretary currently has during national emergencies, it’s only for the coronavirus crisis in this case, Krista Drobac, executive director of the Alliance for Connected Care, told Medscape Medical News.

The waiver would apply to originating sites of telehealth visits, she noted. Thus Medicare coverage of telemedicine would be expanded beyond rural areas.

In addition, the waiver would allow coverage of virtual visits conducted on smartphones with audio and video capabilities. A “qualified provider,” as defined by the legislation, would be a practitioner who has an established relationship with the patient or who is in the same practice as the provider who has that relationship.

An advantage of telehealth, proponents say, is that it can enable people who believe they have COVID-19 to be seen at home rather than visit offices or emergency departments (EDs) where they might spread the disease or be in proximity to others who have it.

In an editorial published March 2 in Modern Healthcare, medical directors from Stanford Medicine, MedStar Health, and Intermountain Healthcare also noted that telehealth can give patients 24/7 access to care, allow surveillance of patients at risk while keeping them at home, ensure that treatment in hospitals is reserved for high-need patients, and enable providers to triage and screen more patients than can be handled in brick-and-mortar care settings.

However, telehealth screening would allow physicians only to judge whether a patient’s symptoms might be indicative of COVID-19, the Alliance for Connected Care, a telehealth advocacy group, noted in a letter to Congressional leaders. Patients would still have to be seen in person to be tested for the disease.

The group, which represents technology companies, health insurers, pharmacies, and other healthcare players, has been lobbying Congress to include telehealth in federal funds to combat the outbreak.

The American Telemedicine Association (ATA) also supports this goal, ATA President Joseph Kvedar, MD, told Medscape Medical News. And the authors of the Modern Healthcare editorial also advocated for this legislative solution. Because the fatality rate for COVID-19 is significantly higher for older people than for other age groups, they noted, telehealth should be an economically viable option for all seniors.

The Centers for Medicare and Medicaid Services (CMS) long covered telemedicine only in rural areas and only when initiated in healthcare settings. Recently, however, CMS loosened its approach to some extent. Virtual “check-in visits” can now be initiated from any location, including home, to determine whether a Medicare patient needs to be seen in the office. In addition, CMS allows Medicare Advantage plans to offer telemedicine as a core benefit.

Are healthcare systems prepared?

Some large healthcare systems such as Stanford, MedStar, and Intermountain are already using telehealth to diagnose and treat patients who have traditional influenza. Telehealth providers at Stanford estimate that almost 50% of these patients are being prescribed the antiviral drug Tamiflu.

It’s unclear whether other healthcare systems are this well prepared to offer telehealth on a large scale. But, according to an AHA survey, Kvedar noted, three quarters of AHA members are engaged in some form of telehealth.

Drobac said “it wouldn’t require too much effort” to ramp up a wide-scale telehealth program that could help reduce the impact of the outbreak. “The technology is there,” she noted. “You need a HIPAA-compliant telehealth platform, but there are so many out there.”

Kvedar agreed. To begin with, he said, hospitals might sequester patients who visit the ED with COVID-19 symptoms in a video-equipped “isolation room.” Staff members could then do the patient intake from a different location in the hospital.

He admitted that this approach would be infeasible if a lot of patients arrived in EDs with coronavirus symptoms. However, Kvedar noted, “All the tools are in place to go well beyond that. American Well, Teladoc, and others are all offering ways to get out in front of this. There are plenty of vendors out there, and most people have a connected cell phone that you can do a video call on.”

Hospital leaders would have to decide whether to embrace telehealth, which would mean less use of services in their institutions, he said. “But it would be for the greater good of the public.”

Kvedar recalled that there was some use of telehealth in the New York area after 9/11. Telehealth was also used in the aftermath of Hurricane Katrina in 2005. But the ATA president, who is also vice president of connected health at Partners HealthCare in Boston, noted that the COVID-19 outbreak is the first public health emergency to occur in the era of Skype and smartphones.

If Congress does ultimately authorize CMS to cover telehealth across the board during this emergency, might that lead to a permanent change in Medicare coverage policy? Kvedar wouldn’t venture an opinion. “However, the current CMS leadership has been incredibly telehealth friendly,” he said. “So it’s possible they would [embrace a lifting of restrictions]. As patients get a sense of this modality of care and how convenient it is for them, they’ll start asking for more.”

Meanwhile, he said, the telehealth opportunity goes beyond video visits with doctors to mitigate the outbreak. Telehealth data could also be used to track disease spread, similar to how researchers have studied Google searches to predict the spread of the flu, he noted.

Teladoc, a major telehealth vendor, recently told stock analysts it’s already working with the CDC on disease surveillance, according to a report in FierceHealthcare.

This article first appeared on Medscape.com.

Telehealth is increasingly being viewed as a key way to help fight the COVID-19 outbreak in the United States. Recognizing the potential of this technology to slow the spread of the disease, the House of Representatives included a provision in an $8.3 billion emergency response bill it approved today that would temporarily lift restrictions on Medicare telehealth coverage to assist in the efforts to contain the virus.

Nancy Messonnier, MD, director of the National Center for Immunization and Respiratory Diseases at the Centers for Disease Control and Prevention (CDC), said that hospitals should be prepared to use telehealth as one of their tools in fighting the outbreak, according to a recent news release from the American Hospital Association (AHA).

Congress is responding to that need by including the service in the new coronavirus legislation now headed to the Senate, after the funding bill was approved in a 415-2 vote by the House.

The bill empowers the Secretary of Health and Human Services (HHS) to “waive or modify application of certain Medicare requirements with respect to telehealth services furnished during certain emergency periods.”

While the measure adds telehealth to the waiver authority that the HHS secretary currently has during national emergencies, it’s only for the coronavirus crisis in this case, Krista Drobac, executive director of the Alliance for Connected Care, told Medscape Medical News.

The waiver would apply to originating sites of telehealth visits, she noted. Thus Medicare coverage of telemedicine would be expanded beyond rural areas.

In addition, the waiver would allow coverage of virtual visits conducted on smartphones with audio and video capabilities. A “qualified provider,” as defined by the legislation, would be a practitioner who has an established relationship with the patient or who is in the same practice as the provider who has that relationship.

An advantage of telehealth, proponents say, is that it can enable people who believe they have COVID-19 to be seen at home rather than visit offices or emergency departments (EDs) where they might spread the disease or be in proximity to others who have it.

In an editorial published March 2 in Modern Healthcare, medical directors from Stanford Medicine, MedStar Health, and Intermountain Healthcare also noted that telehealth can give patients 24/7 access to care, allow surveillance of patients at risk while keeping them at home, ensure that treatment in hospitals is reserved for high-need patients, and enable providers to triage and screen more patients than can be handled in brick-and-mortar care settings.

However, telehealth screening would allow physicians only to judge whether a patient’s symptoms might be indicative of COVID-19, the Alliance for Connected Care, a telehealth advocacy group, noted in a letter to Congressional leaders. Patients would still have to be seen in person to be tested for the disease.

The group, which represents technology companies, health insurers, pharmacies, and other healthcare players, has been lobbying Congress to include telehealth in federal funds to combat the outbreak.

The American Telemedicine Association (ATA) also supports this goal, ATA President Joseph Kvedar, MD, told Medscape Medical News. And the authors of the Modern Healthcare editorial also advocated for this legislative solution. Because the fatality rate for COVID-19 is significantly higher for older people than for other age groups, they noted, telehealth should be an economically viable option for all seniors.

The Centers for Medicare and Medicaid Services (CMS) long covered telemedicine only in rural areas and only when initiated in healthcare settings. Recently, however, CMS loosened its approach to some extent. Virtual “check-in visits” can now be initiated from any location, including home, to determine whether a Medicare patient needs to be seen in the office. In addition, CMS allows Medicare Advantage plans to offer telemedicine as a core benefit.

Are healthcare systems prepared?

Some large healthcare systems such as Stanford, MedStar, and Intermountain are already using telehealth to diagnose and treat patients who have traditional influenza. Telehealth providers at Stanford estimate that almost 50% of these patients are being prescribed the antiviral drug Tamiflu.

It’s unclear whether other healthcare systems are this well prepared to offer telehealth on a large scale. But, according to an AHA survey, Kvedar noted, three quarters of AHA members are engaged in some form of telehealth.

Drobac said “it wouldn’t require too much effort” to ramp up a wide-scale telehealth program that could help reduce the impact of the outbreak. “The technology is there,” she noted. “You need a HIPAA-compliant telehealth platform, but there are so many out there.”

Kvedar agreed. To begin with, he said, hospitals might sequester patients who visit the ED with COVID-19 symptoms in a video-equipped “isolation room.” Staff members could then do the patient intake from a different location in the hospital.

He admitted that this approach would be infeasible if a lot of patients arrived in EDs with coronavirus symptoms. However, Kvedar noted, “All the tools are in place to go well beyond that. American Well, Teladoc, and others are all offering ways to get out in front of this. There are plenty of vendors out there, and most people have a connected cell phone that you can do a video call on.”

Hospital leaders would have to decide whether to embrace telehealth, which would mean less use of services in their institutions, he said. “But it would be for the greater good of the public.”

Kvedar recalled that there was some use of telehealth in the New York area after 9/11. Telehealth was also used in the aftermath of Hurricane Katrina in 2005. But the ATA president, who is also vice president of connected health at Partners HealthCare in Boston, noted that the COVID-19 outbreak is the first public health emergency to occur in the era of Skype and smartphones.

If Congress does ultimately authorize CMS to cover telehealth across the board during this emergency, might that lead to a permanent change in Medicare coverage policy? Kvedar wouldn’t venture an opinion. “However, the current CMS leadership has been incredibly telehealth friendly,” he said. “So it’s possible they would [embrace a lifting of restrictions]. As patients get a sense of this modality of care and how convenient it is for them, they’ll start asking for more.”

Meanwhile, he said, the telehealth opportunity goes beyond video visits with doctors to mitigate the outbreak. Telehealth data could also be used to track disease spread, similar to how researchers have studied Google searches to predict the spread of the flu, he noted.

Teladoc, a major telehealth vendor, recently told stock analysts it’s already working with the CDC on disease surveillance, according to a report in FierceHealthcare.

This article first appeared on Medscape.com.

A team of researchers has discovered important commonalities between SARS-CoV-2 and SARS-CoV infection that could lead to a potential targets for antiviral intervention.

Courtesy NIAID-RML

Markus Hoffmann, of the Leibniz Institute for Primate Research, Göttingen, Germany, and a team of investigators also found that antibody responses raised against SARS-S during infection or vaccination might offer some level of protection against SARS-CoV-2 infection. Their findings were published in Cell.

In order for coronaviruses to enter a cell, they must first bind their viral spike (S) proteins to cellular receptors and depend on S protein priming by host cell proteases. The study found that the SARS-CoV-2, causal agent for COVID-19, uses the same SARS-CoV receptor, ACE2, for entry and uses the serine protease TMPRSS2 for S protein priming as the original SARS-CoV-1 (SARS). Importantly, the researchers also found that the cellular serine protease TMPRSS2 primes SARS-CoV-2-S for entry and that a serine protease inhibitor blocks SARS-CoV-2 infection of lung cells, providing opportunities for potential therapeutic intervention.

The researchers performed a sequence analysis that showed SARS-CoV-2 clusters with SARS-CoV–related viruses from bats, of which some – but not all – can use ACE2 for host cell entry. Further analysis of the receptor binding motif known to make contact with ACE2 showed that most amino acid residues essential for ACE2 binding by SARS-S were conserved in SARS-2-S but were absent from S proteins of those SARS-related coronaviruses previously found not to use ACE2.

In addition, the researchers found that SARS-CoV-2–infected BHK-21 cells transfected to express ACE2 with high efficiency, but not the parental BHK-21 cells indicating that SARS-CoV-2-S, like the original SARS virus S protein, uses ACE2 for cellular entry.

Using cultured cells, the researchers found that the protease inhibitor, camostat mesylate, inhibited SARS-S and SARS-2-S entry into primary human lung cells, demonstrating that SARS-CoV-2 can use TMPRSS2 for S protein priming and that camostat mesylate can block SARS-CoV-2 infection of lung cells. Camostat mesylate has been used as a therapy for some forms of cancer and other viral infections.

In addition to their research on the protease inhibitor, the researchers also found that sera from convalescent SARS patients cross-neutralized SARS-2-S–driven entry. They found that four sera obtained from three convalescent SARS patients inhibited SARS-S entry into cell lines in a concentration dependent fashion.

“We demonstrate that SARS-CoV-2 uses the SARS55 CoV receptor, ACE2, for entry and the serine protease TMPRSS2 for S protein priming. A TMPRSS2 inhibitor approved for clinical use blocked entry and might constitute a treatment option. Finally, we show that the sera from convalescent SARS patients cross-neutralized SARS-2-S–driven entry,” the authors concluded.

The study was supported by BMBF (RAPID Consortium) and German Research Foundation (DFG). The authors reported that they had no conflicts.
 

mlesney@mdedge.com

SOURCE: Hoffmann M et al. Cell 2020. doi: 10.1016/j.cell.2020.02.052.

A team of researchers has discovered important commonalities between SARS-CoV-2 and SARS-CoV infection that could lead to a potential targets for antiviral intervention.

Courtesy NIAID-RML

Markus Hoffmann, of the Leibniz Institute for Primate Research, Göttingen, Germany, and a team of investigators also found that antibody responses raised against SARS-S during infection or vaccination might offer some level of protection against SARS-CoV-2 infection. Their findings were published in Cell.

In order for coronaviruses to enter a cell, they must first bind their viral spike (S) proteins to cellular receptors and depend on S protein priming by host cell proteases. The study found that the SARS-CoV-2, causal agent for COVID-19, uses the same SARS-CoV receptor, ACE2, for entry and uses the serine protease TMPRSS2 for S protein priming as the original SARS-CoV-1 (SARS). Importantly, the researchers also found that the cellular serine protease TMPRSS2 primes SARS-CoV-2-S for entry and that a serine protease inhibitor blocks SARS-CoV-2 infection of lung cells, providing opportunities for potential therapeutic intervention.

The researchers performed a sequence analysis that showed SARS-CoV-2 clusters with SARS-CoV–related viruses from bats, of which some – but not all – can use ACE2 for host cell entry. Further analysis of the receptor binding motif known to make contact with ACE2 showed that most amino acid residues essential for ACE2 binding by SARS-S were conserved in SARS-2-S but were absent from S proteins of those SARS-related coronaviruses previously found not to use ACE2.

In addition, the researchers found that SARS-CoV-2–infected BHK-21 cells transfected to express ACE2 with high efficiency, but not the parental BHK-21 cells indicating that SARS-CoV-2-S, like the original SARS virus S protein, uses ACE2 for cellular entry.

Using cultured cells, the researchers found that the protease inhibitor, camostat mesylate, inhibited SARS-S and SARS-2-S entry into primary human lung cells, demonstrating that SARS-CoV-2 can use TMPRSS2 for S protein priming and that camostat mesylate can block SARS-CoV-2 infection of lung cells. Camostat mesylate has been used as a therapy for some forms of cancer and other viral infections.

In addition to their research on the protease inhibitor, the researchers also found that sera from convalescent SARS patients cross-neutralized SARS-2-S–driven entry. They found that four sera obtained from three convalescent SARS patients inhibited SARS-S entry into cell lines in a concentration dependent fashion.

“We demonstrate that SARS-CoV-2 uses the SARS55 CoV receptor, ACE2, for entry and the serine protease TMPRSS2 for S protein priming. A TMPRSS2 inhibitor approved for clinical use blocked entry and might constitute a treatment option. Finally, we show that the sera from convalescent SARS patients cross-neutralized SARS-2-S–driven entry,” the authors concluded.

The study was supported by BMBF (RAPID Consortium) and German Research Foundation (DFG). The authors reported that they had no conflicts.
 

mlesney@mdedge.com

SOURCE: Hoffmann M et al. Cell 2020. doi: 10.1016/j.cell.2020.02.052.

A team of researchers has discovered important commonalities between SARS-CoV-2 and SARS-CoV infection that could lead to a potential targets for antiviral intervention.

Courtesy NIAID-RML

Markus Hoffmann, of the Leibniz Institute for Primate Research, Göttingen, Germany, and a team of investigators also found that antibody responses raised against SARS-S during infection or vaccination might offer some level of protection against SARS-CoV-2 infection. Their findings were published in Cell.

In order for coronaviruses to enter a cell, they must first bind their viral spike (S) proteins to cellular receptors and depend on S protein priming by host cell proteases. The study found that the SARS-CoV-2, causal agent for COVID-19, uses the same SARS-CoV receptor, ACE2, for entry and uses the serine protease TMPRSS2 for S protein priming as the original SARS-CoV-1 (SARS). Importantly, the researchers also found that the cellular serine protease TMPRSS2 primes SARS-CoV-2-S for entry and that a serine protease inhibitor blocks SARS-CoV-2 infection of lung cells, providing opportunities for potential therapeutic intervention.

The researchers performed a sequence analysis that showed SARS-CoV-2 clusters with SARS-CoV–related viruses from bats, of which some – but not all – can use ACE2 for host cell entry. Further analysis of the receptor binding motif known to make contact with ACE2 showed that most amino acid residues essential for ACE2 binding by SARS-S were conserved in SARS-2-S but were absent from S proteins of those SARS-related coronaviruses previously found not to use ACE2.

In addition, the researchers found that SARS-CoV-2–infected BHK-21 cells transfected to express ACE2 with high efficiency, but not the parental BHK-21 cells indicating that SARS-CoV-2-S, like the original SARS virus S protein, uses ACE2 for cellular entry.

Using cultured cells, the researchers found that the protease inhibitor, camostat mesylate, inhibited SARS-S and SARS-2-S entry into primary human lung cells, demonstrating that SARS-CoV-2 can use TMPRSS2 for S protein priming and that camostat mesylate can block SARS-CoV-2 infection of lung cells. Camostat mesylate has been used as a therapy for some forms of cancer and other viral infections.

In addition to their research on the protease inhibitor, the researchers also found that sera from convalescent SARS patients cross-neutralized SARS-2-S–driven entry. They found that four sera obtained from three convalescent SARS patients inhibited SARS-S entry into cell lines in a concentration dependent fashion.

“We demonstrate that SARS-CoV-2 uses the SARS55 CoV receptor, ACE2, for entry and the serine protease TMPRSS2 for S protein priming. A TMPRSS2 inhibitor approved for clinical use blocked entry and might constitute a treatment option. Finally, we show that the sera from convalescent SARS patients cross-neutralized SARS-2-S–driven entry,” the authors concluded.

The study was supported by BMBF (RAPID Consortium) and German Research Foundation (DFG). The authors reported that they had no conflicts.
 

mlesney@mdedge.com

SOURCE: Hoffmann M et al. Cell 2020. doi: 10.1016/j.cell.2020.02.052.

Hospital-related infections have been widely reported during the ongoing coronavirus outbreak, with healthcare professionals bearing a disproportionate risk. However, a proactive response in Hong Kong’s public hospital system appears to have bucked this trend and successfully protected both patients and staff from SARS-CoV-2, according to a study published online today in Infection Control & Hospital Epidemiology.

During the first 42 days of the outbreak, the 43 hospitals in the network tested 1275 suspected cases and treated 42 patients with confirmed COVID-19, the disease caused by SARS-CoV-2 infection. Yet, there were no nosocomial infections or infections among healthcare personnel, report Vincent C.C. Cheng, MD, FRCPath, the hospital’s infection control officer, and colleagues.

Cheng and colleagues note that 11 out of 413 healthcare workers who treat patients with confirmed infections had unprotected exposure and were in quarantine for 14 days, but none became ill.

In comparison, they note, the 2003 SARS outbreak saw almost 60% of nosocomial cases occurring in healthcare workers.

Proactive bundle

The Hong Kong success story may be due to a stepped-up proactive bundle of measures that included enhanced laboratory surveillance, early airborne infection isolation, and rapid-turnaround molecular diagnostics. Other strategies included staff forums and one-on-one discussions about infection control, employee training in protective equipment use, hand-hygiene compliance enforcement, and contact tracing for workers with unprotected exposure.

In addition, surgical masks were provided for all healthcare workers, patients, and visitors to clinical areas, a practice previously associated with reduced in-hospital transmission during influenza outbreaks, the authors note.

Hospitals also mandated use of personal protective equipment (PPE) for aerosol-generating procedures (AGPs), such as endotracheal intubation, open suctioning, and high-flow oxygen use, as AGPs had been linked to nosocomial transmission to healthcare workers during the 2003 SARS outbreak.

The infection control measures, which were part of a preparedness plan developed after the SARS outbreak, were initiated on December 31, when the first reports of a cluster of infections came from Wuhan, China.

As the outbreak evolved, the Hong Kong hospitals quickly widened the epidemiologic criteria for screening, from initially including only those who had been to a wet market in Wuhan within 14 days of symptom onset, to eventually including anyone who had been to Hubei province, been in a medical facility in mainland China, or in contact with a known case.  

All suspected cases were sent to an airborne-infection isolation room (AIIR) or a ward with at least a meter of space between patients.

“Appropriate hospital infection control measures could prevent nosocomial transmission of SARS-CoV-2,” the authors write. “Vigilance in hand hygiene practice, wearing of surgical mask in the hospital, and appropriate use of PPE in patient care, especially [when] performing AGPs, are the key infection control measures to prevent nosocomial transmission of SARS-CoV-2 even before the availability of effective antiviral agents and vaccine.”

Asked for his perspective on the report, Aaron E. Glatt, MD, chairman of the department of medicine and chief of infectious diseases at Mount Sinai South Nassau in Oceanside, New York, said that apart from the widespread issuing of surgical masks to workers, patients, and visitors, the measures taken in Hong Kong are not different from standard infection-control practices in American hospitals. Glatt, who is also a hospital epidemiologist, said it was unclear how much impact the masks would have.

“Although the infection control was impressive, I don’t see any evidence of a difference in care,” he told Medscape Medical News.

Could zero infection transmission be achieved in the more far-flung and variable settings of hospitals across the United States? “The ability to get zero transmission is only possible if people adhere to the strictest infection-control guidelines,” Glatt said. “That is clearly the goal, and it will take time to see if our existing strict guidelines are sufficient to maintain zero or close to zero contamination and transmission rates in our hospitals.”

Rather than looking to change US practices, he stressed adherence to widely established tenets of care. “It’s critically important to keep paying close attention to the basics, to the simple blocking and tackling, and to identify which patients are at risk, and therefore, when workers need protective equipment,” he said.

“Follow the recommended standards,” continued Glatt, who is also a spokesperson for the Infectious Diseases Society of America and did not participate in this study.

In a finding from an ancillary pilot experiment, the Hong Kong researchers found exhaled air from a patient with a moderate coronavirus load showed no evidence of the virus, whether the patient was breathing normally or heavily, speaking, or coughing. And spot tests around the room detected the virus in just one location.

“We may not be able to make a definite conclusion based on the analysis of a single patient,” the authors write. “However, it may help to reassure our staff that the exhaled air may be rapidly diluted inside the AIIR with 12 air changes per hour, or probably the SARS-CoV-2 may not be predominantly transmitted by [the] airborne route.”

However, a recent Singapore study showed widespread environmental contamination by SARS-CoV-2 through respiratory droplets and fecal shedding, underlining the need for strict adherence to environmental and hand hygiene. Post-cleaning samples tested negative, suggesting that standard decontamination practices are effective. 

This work was partly supported by the Consultancy Service for Enhancing Laboratory Surveillance of Emerging Infectious Diseases of the Department of Health, Hong Kong Special Administrative Region; and the Collaborative Innovation Center for Diagnosis and Treatment of Infectious Diseases, Ministry of Education of China. The authors and Glatt have disclosed no relevant financial relationships.
 

This article first appeared on Medscape.com.

Hospital-related infections have been widely reported during the ongoing coronavirus outbreak, with healthcare professionals bearing a disproportionate risk. However, a proactive response in Hong Kong’s public hospital system appears to have bucked this trend and successfully protected both patients and staff from SARS-CoV-2, according to a study published online today in Infection Control & Hospital Epidemiology.

During the first 42 days of the outbreak, the 43 hospitals in the network tested 1275 suspected cases and treated 42 patients with confirmed COVID-19, the disease caused by SARS-CoV-2 infection. Yet, there were no nosocomial infections or infections among healthcare personnel, report Vincent C.C. Cheng, MD, FRCPath, the hospital’s infection control officer, and colleagues.

Cheng and colleagues note that 11 out of 413 healthcare workers who treat patients with confirmed infections had unprotected exposure and were in quarantine for 14 days, but none became ill.

In comparison, they note, the 2003 SARS outbreak saw almost 60% of nosocomial cases occurring in healthcare workers.

Proactive bundle

The Hong Kong success story may be due to a stepped-up proactive bundle of measures that included enhanced laboratory surveillance, early airborne infection isolation, and rapid-turnaround molecular diagnostics. Other strategies included staff forums and one-on-one discussions about infection control, employee training in protective equipment use, hand-hygiene compliance enforcement, and contact tracing for workers with unprotected exposure.

In addition, surgical masks were provided for all healthcare workers, patients, and visitors to clinical areas, a practice previously associated with reduced in-hospital transmission during influenza outbreaks, the authors note.

Hospitals also mandated use of personal protective equipment (PPE) for aerosol-generating procedures (AGPs), such as endotracheal intubation, open suctioning, and high-flow oxygen use, as AGPs had been linked to nosocomial transmission to healthcare workers during the 2003 SARS outbreak.

The infection control measures, which were part of a preparedness plan developed after the SARS outbreak, were initiated on December 31, when the first reports of a cluster of infections came from Wuhan, China.

As the outbreak evolved, the Hong Kong hospitals quickly widened the epidemiologic criteria for screening, from initially including only those who had been to a wet market in Wuhan within 14 days of symptom onset, to eventually including anyone who had been to Hubei province, been in a medical facility in mainland China, or in contact with a known case.  

All suspected cases were sent to an airborne-infection isolation room (AIIR) or a ward with at least a meter of space between patients.

“Appropriate hospital infection control measures could prevent nosocomial transmission of SARS-CoV-2,” the authors write. “Vigilance in hand hygiene practice, wearing of surgical mask in the hospital, and appropriate use of PPE in patient care, especially [when] performing AGPs, are the key infection control measures to prevent nosocomial transmission of SARS-CoV-2 even before the availability of effective antiviral agents and vaccine.”

Asked for his perspective on the report, Aaron E. Glatt, MD, chairman of the department of medicine and chief of infectious diseases at Mount Sinai South Nassau in Oceanside, New York, said that apart from the widespread issuing of surgical masks to workers, patients, and visitors, the measures taken in Hong Kong are not different from standard infection-control practices in American hospitals. Glatt, who is also a hospital epidemiologist, said it was unclear how much impact the masks would have.

“Although the infection control was impressive, I don’t see any evidence of a difference in care,” he told Medscape Medical News.

Could zero infection transmission be achieved in the more far-flung and variable settings of hospitals across the United States? “The ability to get zero transmission is only possible if people adhere to the strictest infection-control guidelines,” Glatt said. “That is clearly the goal, and it will take time to see if our existing strict guidelines are sufficient to maintain zero or close to zero contamination and transmission rates in our hospitals.”

Rather than looking to change US practices, he stressed adherence to widely established tenets of care. “It’s critically important to keep paying close attention to the basics, to the simple blocking and tackling, and to identify which patients are at risk, and therefore, when workers need protective equipment,” he said.

“Follow the recommended standards,” continued Glatt, who is also a spokesperson for the Infectious Diseases Society of America and did not participate in this study.

In a finding from an ancillary pilot experiment, the Hong Kong researchers found exhaled air from a patient with a moderate coronavirus load showed no evidence of the virus, whether the patient was breathing normally or heavily, speaking, or coughing. And spot tests around the room detected the virus in just one location.

“We may not be able to make a definite conclusion based on the analysis of a single patient,” the authors write. “However, it may help to reassure our staff that the exhaled air may be rapidly diluted inside the AIIR with 12 air changes per hour, or probably the SARS-CoV-2 may not be predominantly transmitted by [the] airborne route.”

However, a recent Singapore study showed widespread environmental contamination by SARS-CoV-2 through respiratory droplets and fecal shedding, underlining the need for strict adherence to environmental and hand hygiene. Post-cleaning samples tested negative, suggesting that standard decontamination practices are effective. 

This work was partly supported by the Consultancy Service for Enhancing Laboratory Surveillance of Emerging Infectious Diseases of the Department of Health, Hong Kong Special Administrative Region; and the Collaborative Innovation Center for Diagnosis and Treatment of Infectious Diseases, Ministry of Education of China. The authors and Glatt have disclosed no relevant financial relationships.
 

This article first appeared on Medscape.com.

Hospital-related infections have been widely reported during the ongoing coronavirus outbreak, with healthcare professionals bearing a disproportionate risk. However, a proactive response in Hong Kong’s public hospital system appears to have bucked this trend and successfully protected both patients and staff from SARS-CoV-2, according to a study published online today in Infection Control & Hospital Epidemiology.

During the first 42 days of the outbreak, the 43 hospitals in the network tested 1275 suspected cases and treated 42 patients with confirmed COVID-19, the disease caused by SARS-CoV-2 infection. Yet, there were no nosocomial infections or infections among healthcare personnel, report Vincent C.C. Cheng, MD, FRCPath, the hospital’s infection control officer, and colleagues.

Cheng and colleagues note that 11 out of 413 healthcare workers who treat patients with confirmed infections had unprotected exposure and were in quarantine for 14 days, but none became ill.

In comparison, they note, the 2003 SARS outbreak saw almost 60% of nosocomial cases occurring in healthcare workers.

Proactive bundle

The Hong Kong success story may be due to a stepped-up proactive bundle of measures that included enhanced laboratory surveillance, early airborne infection isolation, and rapid-turnaround molecular diagnostics. Other strategies included staff forums and one-on-one discussions about infection control, employee training in protective equipment use, hand-hygiene compliance enforcement, and contact tracing for workers with unprotected exposure.

In addition, surgical masks were provided for all healthcare workers, patients, and visitors to clinical areas, a practice previously associated with reduced in-hospital transmission during influenza outbreaks, the authors note.

Hospitals also mandated use of personal protective equipment (PPE) for aerosol-generating procedures (AGPs), such as endotracheal intubation, open suctioning, and high-flow oxygen use, as AGPs had been linked to nosocomial transmission to healthcare workers during the 2003 SARS outbreak.

The infection control measures, which were part of a preparedness plan developed after the SARS outbreak, were initiated on December 31, when the first reports of a cluster of infections came from Wuhan, China.

As the outbreak evolved, the Hong Kong hospitals quickly widened the epidemiologic criteria for screening, from initially including only those who had been to a wet market in Wuhan within 14 days of symptom onset, to eventually including anyone who had been to Hubei province, been in a medical facility in mainland China, or in contact with a known case.  

All suspected cases were sent to an airborne-infection isolation room (AIIR) or a ward with at least a meter of space between patients.

“Appropriate hospital infection control measures could prevent nosocomial transmission of SARS-CoV-2,” the authors write. “Vigilance in hand hygiene practice, wearing of surgical mask in the hospital, and appropriate use of PPE in patient care, especially [when] performing AGPs, are the key infection control measures to prevent nosocomial transmission of SARS-CoV-2 even before the availability of effective antiviral agents and vaccine.”

Asked for his perspective on the report, Aaron E. Glatt, MD, chairman of the department of medicine and chief of infectious diseases at Mount Sinai South Nassau in Oceanside, New York, said that apart from the widespread issuing of surgical masks to workers, patients, and visitors, the measures taken in Hong Kong are not different from standard infection-control practices in American hospitals. Glatt, who is also a hospital epidemiologist, said it was unclear how much impact the masks would have.

“Although the infection control was impressive, I don’t see any evidence of a difference in care,” he told Medscape Medical News.

Could zero infection transmission be achieved in the more far-flung and variable settings of hospitals across the United States? “The ability to get zero transmission is only possible if people adhere to the strictest infection-control guidelines,” Glatt said. “That is clearly the goal, and it will take time to see if our existing strict guidelines are sufficient to maintain zero or close to zero contamination and transmission rates in our hospitals.”

Rather than looking to change US practices, he stressed adherence to widely established tenets of care. “It’s critically important to keep paying close attention to the basics, to the simple blocking and tackling, and to identify which patients are at risk, and therefore, when workers need protective equipment,” he said.

“Follow the recommended standards,” continued Glatt, who is also a spokesperson for the Infectious Diseases Society of America and did not participate in this study.

In a finding from an ancillary pilot experiment, the Hong Kong researchers found exhaled air from a patient with a moderate coronavirus load showed no evidence of the virus, whether the patient was breathing normally or heavily, speaking, or coughing. And spot tests around the room detected the virus in just one location.

“We may not be able to make a definite conclusion based on the analysis of a single patient,” the authors write. “However, it may help to reassure our staff that the exhaled air may be rapidly diluted inside the AIIR with 12 air changes per hour, or probably the SARS-CoV-2 may not be predominantly transmitted by [the] airborne route.”

However, a recent Singapore study showed widespread environmental contamination by SARS-CoV-2 through respiratory droplets and fecal shedding, underlining the need for strict adherence to environmental and hand hygiene. Post-cleaning samples tested negative, suggesting that standard decontamination practices are effective. 

This work was partly supported by the Consultancy Service for Enhancing Laboratory Surveillance of Emerging Infectious Diseases of the Department of Health, Hong Kong Special Administrative Region; and the Collaborative Innovation Center for Diagnosis and Treatment of Infectious Diseases, Ministry of Education of China. The authors and Glatt have disclosed no relevant financial relationships.
 

This article first appeared on Medscape.com.

The Centers for Medicare & Medicaid Services issued two guidance documents related to helping contain the spread of the coronavirus, primarily aimed at ensuring that health care providers are implementing proper infection control procedures.

The first guidance document, “Guidance for Infection Control and Prevention Concerning Coronavirus Disease (COVID-19): FAQs and Considerations for Patient Triage, Placement and Hospital Discharge,” issued March 4, provides some basic guidance, including identifying which patients are at risk, how facilities should screen for COVID-19, how facilities should monitor or restrict health care facility staff, and other recommendations for infection prevention and control.

“Hospitals should identify visitors and patients at risk for having COVID-19 infection before or immediately upon arrival to the healthcare facility,” the guidance document notes. “For patients, implement respiratory hygiene and cough etiquette (i.e., placing a face mask over the patient’s nose and mouth if that has not already been done) and isolate the patient in an examination room with the door closed. If the patient cannot be immediately moved to an examination room, ensure they are not allowed to wait among other patients seeking care.”

The document offers further information regarding the care of patients and provides numerous links to existing guidance from the Centers for Disease Control and Prevention.

The second document, “Guidance for Infection Control and Prevention of Coronavirus Disease 2019 (COVID-19) in Nursing Homes,” issued the same day, provides information on how to limit and monitor visitors as well as monitor and restrict health staff. It details when to transfer residents with suspected or confirmed coronavirus infection, and when a nursing home should accept a resident diagnosed with COVID-19.

Facilities “should contact their local health department if they have questions or suspect a resident of a nursing home has COVID-19,” the document states. “Per CDC, prompt detection, triage and isolation of potentially infectious patients are essential to prevent unnecessary exposure among patients, healthcare personnel, and visitors at the facility.”

The CMS also announced that it is suspending all nonemergency survey activity.

“CMS is suspending nonemergency inspections across the country, allowing inspectors to turn their focus on the most serious health and safety threats like infectious diseases and abuse,” the agency stated in a March 4 memo. “This shift in approach will also allow inspectors to focus on addressing the spread of ... COVID-19. CMS is issuing this memorandum to State Survey Agencies to provide important guidelines for the inspection process in situations in which a COVID-19 is suspected.”

In a statement, CMS Administrator Seema Verma said these actions “represent a call to action across the health care system. All health care providers must immediately review their procedures to ensure compliance with CMS’ infection control requirements, as well as the guidelines from the Centers for Disease Control and Prevention.”

gtwachtman@mdedge.com

The Centers for Medicare & Medicaid Services issued two guidance documents related to helping contain the spread of the coronavirus, primarily aimed at ensuring that health care providers are implementing proper infection control procedures.

The first guidance document, “Guidance for Infection Control and Prevention Concerning Coronavirus Disease (COVID-19): FAQs and Considerations for Patient Triage, Placement and Hospital Discharge,” issued March 4, provides some basic guidance, including identifying which patients are at risk, how facilities should screen for COVID-19, how facilities should monitor or restrict health care facility staff, and other recommendations for infection prevention and control.

“Hospitals should identify visitors and patients at risk for having COVID-19 infection before or immediately upon arrival to the healthcare facility,” the guidance document notes. “For patients, implement respiratory hygiene and cough etiquette (i.e., placing a face mask over the patient’s nose and mouth if that has not already been done) and isolate the patient in an examination room with the door closed. If the patient cannot be immediately moved to an examination room, ensure they are not allowed to wait among other patients seeking care.”

The document offers further information regarding the care of patients and provides numerous links to existing guidance from the Centers for Disease Control and Prevention.

The second document, “Guidance for Infection Control and Prevention of Coronavirus Disease 2019 (COVID-19) in Nursing Homes,” issued the same day, provides information on how to limit and monitor visitors as well as monitor and restrict health staff. It details when to transfer residents with suspected or confirmed coronavirus infection, and when a nursing home should accept a resident diagnosed with COVID-19.

Facilities “should contact their local health department if they have questions or suspect a resident of a nursing home has COVID-19,” the document states. “Per CDC, prompt detection, triage and isolation of potentially infectious patients are essential to prevent unnecessary exposure among patients, healthcare personnel, and visitors at the facility.”

The CMS also announced that it is suspending all nonemergency survey activity.

“CMS is suspending nonemergency inspections across the country, allowing inspectors to turn their focus on the most serious health and safety threats like infectious diseases and abuse,” the agency stated in a March 4 memo. “This shift in approach will also allow inspectors to focus on addressing the spread of ... COVID-19. CMS is issuing this memorandum to State Survey Agencies to provide important guidelines for the inspection process in situations in which a COVID-19 is suspected.”

In a statement, CMS Administrator Seema Verma said these actions “represent a call to action across the health care system. All health care providers must immediately review their procedures to ensure compliance with CMS’ infection control requirements, as well as the guidelines from the Centers for Disease Control and Prevention.”

gtwachtman@mdedge.com

The Centers for Medicare & Medicaid Services issued two guidance documents related to helping contain the spread of the coronavirus, primarily aimed at ensuring that health care providers are implementing proper infection control procedures.

The first guidance document, “Guidance for Infection Control and Prevention Concerning Coronavirus Disease (COVID-19): FAQs and Considerations for Patient Triage, Placement and Hospital Discharge,” issued March 4, provides some basic guidance, including identifying which patients are at risk, how facilities should screen for COVID-19, how facilities should monitor or restrict health care facility staff, and other recommendations for infection prevention and control.

“Hospitals should identify visitors and patients at risk for having COVID-19 infection before or immediately upon arrival to the healthcare facility,” the guidance document notes. “For patients, implement respiratory hygiene and cough etiquette (i.e., placing a face mask over the patient’s nose and mouth if that has not already been done) and isolate the patient in an examination room with the door closed. If the patient cannot be immediately moved to an examination room, ensure they are not allowed to wait among other patients seeking care.”

The document offers further information regarding the care of patients and provides numerous links to existing guidance from the Centers for Disease Control and Prevention.

The second document, “Guidance for Infection Control and Prevention of Coronavirus Disease 2019 (COVID-19) in Nursing Homes,” issued the same day, provides information on how to limit and monitor visitors as well as monitor and restrict health staff. It details when to transfer residents with suspected or confirmed coronavirus infection, and when a nursing home should accept a resident diagnosed with COVID-19.

Facilities “should contact their local health department if they have questions or suspect a resident of a nursing home has COVID-19,” the document states. “Per CDC, prompt detection, triage and isolation of potentially infectious patients are essential to prevent unnecessary exposure among patients, healthcare personnel, and visitors at the facility.”

The CMS also announced that it is suspending all nonemergency survey activity.

“CMS is suspending nonemergency inspections across the country, allowing inspectors to turn their focus on the most serious health and safety threats like infectious diseases and abuse,” the agency stated in a March 4 memo. “This shift in approach will also allow inspectors to focus on addressing the spread of ... COVID-19. CMS is issuing this memorandum to State Survey Agencies to provide important guidelines for the inspection process in situations in which a COVID-19 is suspected.”

In a statement, CMS Administrator Seema Verma said these actions “represent a call to action across the health care system. All health care providers must immediately review their procedures to ensure compliance with CMS’ infection control requirements, as well as the guidelines from the Centers for Disease Control and Prevention.”

gtwachtman@mdedge.com

The White House Coronavirus Task Force appeared at a press briefing March 2 to provide updates about testing strategies and public health coordination to address the current outbreak of the coronavirus COVID-19. Speaking at the briefing, led by Vice President Mike Pence, Centers for Disease Control and Prevention (CDC) director Robert Redfield, MD, said, “Working with our public health partners we continue to be able to identify new community cases and use our public health efforts to aggressively confirm, isolate, and do contact tracking.” Calling state, local, tribal, and territorial public health departments “the backbone of the public health system in our country,” Dr. Redfield noted that he expected many more confirmed COVID-19 cases to emerge.

At least some of the expected increase in confirmed cases of COVID-19 will occur because of expanded testing capacity, noted several of the task force members. On Feb. 29, the Food and Drug Administration issued a new policy to expedite the process for some laboratories to develop new diagnostic tests for SARS-CoV2, the virus that is causing the current outbreak of COVID-19.

Highly qualified laboratories, including both those run by public agencies and private labs, are now authorized to begin using their own validated test for the virus as long as they submit an Emergency Use Authorization (EUA) to the Food and Drug Administration within 15 days of notifying the agency of validation.

“To effectively respond to the COVID-19 outbreak, rapid detection of cases and contacts, appropriate clinical management and infection control, and implementation of community mitigation efforts are critical. This can best be achieved with wide availability of testing capabilities in health care settings, reference and commercial laboratories, and at the point of care,” the agency wrote in a press announcement of the expedited test expansion.

On Feb. 4, the Secretary of the Department of Health & Human Services declared a coronavirus public health emergency. The FDA was then authorized to allow individual laboratories with validated coronavirus tests to begin testing samples immediately. The goal is a more rapid and expanded testing capacity in the United States.

“The global emergence of COVID-19 is concerning, and we appreciate the efforts of the FDA to help bring more testing capability to the U.S.,” Nancy Messonnier, MD, director of the CDC’s National Center for Immunization and Respiratory Diseases (NCIRD), said in the press release.

The new guidance that permits the immediate use of clinical tests after individual development and validation, said the FDA, only applies to labs already certified to perform high complexity testing under Clinical Laboratory Improvement Amendments. Many governmental, academic, and private laboratories fall into this category, however.

“Under this policy, we expect certain laboratories who develop validated tests for coronavirus would begin using them right away prior to FDA review,” said Jeffrey Shuren, MD, JD, director of the FDA’s Center for Devices and Radiological Health. “We believe this action will support laboratories across the country working on this urgent public health situation,” he added in the press release.

“By the end of this week, close to a million tests will be available,” FDA Commissioner Stephen M. Hahn, MD, said during the March 2 briefing.*

Updated criteria

The CDC is maintaining updated criteria for the virus testing on its website. Testing criteria are based both on clinical features and epidemiologic risk.

Individuals with less severe clinical features – those who have either fever or signs and symptoms of lower respiratory disease such as cough or shortness of breath, but who don’t require hospitalization – should be tested if they have high epidemiologic risk. “High risk” is defined by the CDC as any individual, including health care workers, who has had close contact with a person with confirmed COVID-19 within the past 2 weeks. For health care workers, testing can be considered even if they have relatively mild respiratory symptoms or have had contact with a person who is suspected, but not yet confirmed, to have coronavirus.

In its testing guidance, the CDC recognizes that defining close contact is difficult. General guidelines are that individuals are considered to have been in close contact with a person who has COVID-19 if they were within about six feet of the person for a prolonged period, or cared for or have spent a prolonged amount of time in the same room or house as a person with confirmed COVID-19.

Individuals who have both fever and signs or symptoms of lower respiratory illness who require hospitalization should be tested if they have a history of travel from any affected geographic area within 14 days of the onset of their symptoms. The CDC now defines “affected geographic area” as any country or region that has at least a CDC Level 2 Travel Health Notice for COVID-19, so that the testing criteria themselves don’t need to be updated when new geographic areas are included in these alerts. As of March 3, China, Iran, Italy, Japan, and South Korea all have Level 2 or 3 travel alerts.

The CDC now recommends that any patient who has severe acute lower respiratory illness that requires hospitalization and doesn’t have an alternative diagnosis should be tested, even without any identified source of exposure.

“Despite seeing these new cases, the risk to the American people is low,” said the CDC’s Dr. Redfield. In response to a question from the press about how fast the coronavirus will spread across the United States, Dr. Redfield said, “From the beginning we’ve anticipated seeing community cases pop up.” He added that as these cases arise, testing and public health strategies will focus on unearthing linkages and contacts to learn how the virus is spreading. “We’ll use the public health strategies that we can to limit that transmission,” he said.

koakes@mdedge.com

*An earlier version of this article misattributed this quote.

The White House Coronavirus Task Force appeared at a press briefing March 2 to provide updates about testing strategies and public health coordination to address the current outbreak of the coronavirus COVID-19. Speaking at the briefing, led by Vice President Mike Pence, Centers for Disease Control and Prevention (CDC) director Robert Redfield, MD, said, “Working with our public health partners we continue to be able to identify new community cases and use our public health efforts to aggressively confirm, isolate, and do contact tracking.” Calling state, local, tribal, and territorial public health departments “the backbone of the public health system in our country,” Dr. Redfield noted that he expected many more confirmed COVID-19 cases to emerge.

At least some of the expected increase in confirmed cases of COVID-19 will occur because of expanded testing capacity, noted several of the task force members. On Feb. 29, the Food and Drug Administration issued a new policy to expedite the process for some laboratories to develop new diagnostic tests for SARS-CoV2, the virus that is causing the current outbreak of COVID-19.

Highly qualified laboratories, including both those run by public agencies and private labs, are now authorized to begin using their own validated test for the virus as long as they submit an Emergency Use Authorization (EUA) to the Food and Drug Administration within 15 days of notifying the agency of validation.

“To effectively respond to the COVID-19 outbreak, rapid detection of cases and contacts, appropriate clinical management and infection control, and implementation of community mitigation efforts are critical. This can best be achieved with wide availability of testing capabilities in health care settings, reference and commercial laboratories, and at the point of care,” the agency wrote in a press announcement of the expedited test expansion.

On Feb. 4, the Secretary of the Department of Health & Human Services declared a coronavirus public health emergency. The FDA was then authorized to allow individual laboratories with validated coronavirus tests to begin testing samples immediately. The goal is a more rapid and expanded testing capacity in the United States.

“The global emergence of COVID-19 is concerning, and we appreciate the efforts of the FDA to help bring more testing capability to the U.S.,” Nancy Messonnier, MD, director of the CDC’s National Center for Immunization and Respiratory Diseases (NCIRD), said in the press release.

The new guidance that permits the immediate use of clinical tests after individual development and validation, said the FDA, only applies to labs already certified to perform high complexity testing under Clinical Laboratory Improvement Amendments. Many governmental, academic, and private laboratories fall into this category, however.

“Under this policy, we expect certain laboratories who develop validated tests for coronavirus would begin using them right away prior to FDA review,” said Jeffrey Shuren, MD, JD, director of the FDA’s Center for Devices and Radiological Health. “We believe this action will support laboratories across the country working on this urgent public health situation,” he added in the press release.

“By the end of this week, close to a million tests will be available,” FDA Commissioner Stephen M. Hahn, MD, said during the March 2 briefing.*

Updated criteria

The CDC is maintaining updated criteria for the virus testing on its website. Testing criteria are based both on clinical features and epidemiologic risk.

Individuals with less severe clinical features – those who have either fever or signs and symptoms of lower respiratory disease such as cough or shortness of breath, but who don’t require hospitalization – should be tested if they have high epidemiologic risk. “High risk” is defined by the CDC as any individual, including health care workers, who has had close contact with a person with confirmed COVID-19 within the past 2 weeks. For health care workers, testing can be considered even if they have relatively mild respiratory symptoms or have had contact with a person who is suspected, but not yet confirmed, to have coronavirus.

In its testing guidance, the CDC recognizes that defining close contact is difficult. General guidelines are that individuals are considered to have been in close contact with a person who has COVID-19 if they were within about six feet of the person for a prolonged period, or cared for or have spent a prolonged amount of time in the same room or house as a person with confirmed COVID-19.

Individuals who have both fever and signs or symptoms of lower respiratory illness who require hospitalization should be tested if they have a history of travel from any affected geographic area within 14 days of the onset of their symptoms. The CDC now defines “affected geographic area” as any country or region that has at least a CDC Level 2 Travel Health Notice for COVID-19, so that the testing criteria themselves don’t need to be updated when new geographic areas are included in these alerts. As of March 3, China, Iran, Italy, Japan, and South Korea all have Level 2 or 3 travel alerts.

The CDC now recommends that any patient who has severe acute lower respiratory illness that requires hospitalization and doesn’t have an alternative diagnosis should be tested, even without any identified source of exposure.

“Despite seeing these new cases, the risk to the American people is low,” said the CDC’s Dr. Redfield. In response to a question from the press about how fast the coronavirus will spread across the United States, Dr. Redfield said, “From the beginning we’ve anticipated seeing community cases pop up.” He added that as these cases arise, testing and public health strategies will focus on unearthing linkages and contacts to learn how the virus is spreading. “We’ll use the public health strategies that we can to limit that transmission,” he said.

koakes@mdedge.com

*An earlier version of this article misattributed this quote.

The White House Coronavirus Task Force appeared at a press briefing March 2 to provide updates about testing strategies and public health coordination to address the current outbreak of the coronavirus COVID-19. Speaking at the briefing, led by Vice President Mike Pence, Centers for Disease Control and Prevention (CDC) director Robert Redfield, MD, said, “Working with our public health partners we continue to be able to identify new community cases and use our public health efforts to aggressively confirm, isolate, and do contact tracking.” Calling state, local, tribal, and territorial public health departments “the backbone of the public health system in our country,” Dr. Redfield noted that he expected many more confirmed COVID-19 cases to emerge.

At least some of the expected increase in confirmed cases of COVID-19 will occur because of expanded testing capacity, noted several of the task force members. On Feb. 29, the Food and Drug Administration issued a new policy to expedite the process for some laboratories to develop new diagnostic tests for SARS-CoV2, the virus that is causing the current outbreak of COVID-19.

Highly qualified laboratories, including both those run by public agencies and private labs, are now authorized to begin using their own validated test for the virus as long as they submit an Emergency Use Authorization (EUA) to the Food and Drug Administration within 15 days of notifying the agency of validation.

“To effectively respond to the COVID-19 outbreak, rapid detection of cases and contacts, appropriate clinical management and infection control, and implementation of community mitigation efforts are critical. This can best be achieved with wide availability of testing capabilities in health care settings, reference and commercial laboratories, and at the point of care,” the agency wrote in a press announcement of the expedited test expansion.

On Feb. 4, the Secretary of the Department of Health & Human Services declared a coronavirus public health emergency. The FDA was then authorized to allow individual laboratories with validated coronavirus tests to begin testing samples immediately. The goal is a more rapid and expanded testing capacity in the United States.

“The global emergence of COVID-19 is concerning, and we appreciate the efforts of the FDA to help bring more testing capability to the U.S.,” Nancy Messonnier, MD, director of the CDC’s National Center for Immunization and Respiratory Diseases (NCIRD), said in the press release.

The new guidance that permits the immediate use of clinical tests after individual development and validation, said the FDA, only applies to labs already certified to perform high complexity testing under Clinical Laboratory Improvement Amendments. Many governmental, academic, and private laboratories fall into this category, however.

“Under this policy, we expect certain laboratories who develop validated tests for coronavirus would begin using them right away prior to FDA review,” said Jeffrey Shuren, MD, JD, director of the FDA’s Center for Devices and Radiological Health. “We believe this action will support laboratories across the country working on this urgent public health situation,” he added in the press release.

“By the end of this week, close to a million tests will be available,” FDA Commissioner Stephen M. Hahn, MD, said during the March 2 briefing.*

Updated criteria

The CDC is maintaining updated criteria for the virus testing on its website. Testing criteria are based both on clinical features and epidemiologic risk.

Individuals with less severe clinical features – those who have either fever or signs and symptoms of lower respiratory disease such as cough or shortness of breath, but who don’t require hospitalization – should be tested if they have high epidemiologic risk. “High risk” is defined by the CDC as any individual, including health care workers, who has had close contact with a person with confirmed COVID-19 within the past 2 weeks. For health care workers, testing can be considered even if they have relatively mild respiratory symptoms or have had contact with a person who is suspected, but not yet confirmed, to have coronavirus.

In its testing guidance, the CDC recognizes that defining close contact is difficult. General guidelines are that individuals are considered to have been in close contact with a person who has COVID-19 if they were within about six feet of the person for a prolonged period, or cared for or have spent a prolonged amount of time in the same room or house as a person with confirmed COVID-19.

Individuals who have both fever and signs or symptoms of lower respiratory illness who require hospitalization should be tested if they have a history of travel from any affected geographic area within 14 days of the onset of their symptoms. The CDC now defines “affected geographic area” as any country or region that has at least a CDC Level 2 Travel Health Notice for COVID-19, so that the testing criteria themselves don’t need to be updated when new geographic areas are included in these alerts. As of March 3, China, Iran, Italy, Japan, and South Korea all have Level 2 or 3 travel alerts.

The CDC now recommends that any patient who has severe acute lower respiratory illness that requires hospitalization and doesn’t have an alternative diagnosis should be tested, even without any identified source of exposure.

“Despite seeing these new cases, the risk to the American people is low,” said the CDC’s Dr. Redfield. In response to a question from the press about how fast the coronavirus will spread across the United States, Dr. Redfield said, “From the beginning we’ve anticipated seeing community cases pop up.” He added that as these cases arise, testing and public health strategies will focus on unearthing linkages and contacts to learn how the virus is spreading. “We’ll use the public health strategies that we can to limit that transmission,” he said.

koakes@mdedge.com

*An earlier version of this article misattributed this quote.

In a typical year, March marks the start of conference season, made all the more attractive by collegial gatherings and travel to warmer climes. But 2020 has already proven anything but typical as the number of novel coronavirus cases continues to increase around the globe. As a potential pandemic looms, these meetings – full of handshakes and crowded lecture halls – are also nirvana for opportunistic viruses. As are the airports, airplanes, and cabs required to get there.

So, as COVID-19 continues to spread, medical and scientific societies must make some difficult decisions. In Europe, at least a few societies have already suspended their upcoming meetings, while France has temporarily banned all gatherings over 5000 people.

In the United States, however, most medical conferences are moving forward as planned – at least for now. But one conference of 10,000 attendees, the American Physical Society annual meeting, which was scheduled for March 2-6 in Denver, was canceled the day before the meeting started. Although it’s not a medical conference, it speaks to the “rapidly escalating health concerns” that all conference organizers must grapple with.

APS Physics Meetings

@APSMeetings

Due to rapidly escalating health concerns relating to the spread of the coronavirus disease (COVID-19), the 2020 APS March Meeting in Denver, CO, has been canceled. Please do not travel to Denver to attend the March Meeting. More information will follow shortly. #apsmarch

734 9:59 PM - Feb 29, 2020

Just one smaller medical meeting, the Ataxia Conference, which was scheduled for March 6-7 in Denver, has been canceled.

Most societies hosting these meetings have put out statements to their attendees saying that they’re monitoring the situation and will adapt as necessary. The United States and Canadian Academy of Pathology, which is holding its annual meeting in Los Angeles this week, sent out an email beforehand asking international travelers to consider staying home. The Healthcare Information and Management Systems Society (HIMSS) Global Health Conference, which is slated to have about 50,000 attendees from around the world, has declared itself a “handshake-free” conference but otherwise intends to move ahead as planned.

All of these conferences will be pushing forward without at least one prominent group of attendees. New York University’s Langone Health has removed its employees from the decision-making process and instead is taking a proactive stance: The health system just declared a 60-day (minimum) ban preventing employees from attending any meetings or conferences and from all domestic and international work-related travel.

Here’s what some of the societies have said to attendees about their intent to proceed or modify their plans:

• Conference on Retroviruses and Opportunistic Infections (CROI), Boston, 3/8/20 - 3/11/20: Monitoring the situation and seeking input from local, state, and federal infectious-disease and public-health experts. Final decision expected by the evening of March 3.
• American Academy of Allergy, Asthma & Immunology (AAAAI), Philadelphia, 3/13/20 - 3/16/20: Monitoring developments but no plans to cancel or postpone at this time.
• American Academy of Orthopedic Surgeons (AAOS), Orlando, 3/24/20 - 3/28/20: Proceeding as planned.
• American Academy of Dermatology (AAD), Denver, 3/20/20 - 3/24/20: The AAD’s 2020 Annual Meeting is scheduled to take place as planned. The organization will increase the number of hand-sanitizing stations throughout the convention center, and it is adding a nursing station specifically designated for anyone with flu-like symptoms.
• American College of Cardiology (ACC), Chicago, 3/28/20 - 3/30/20: The organization is working with attendees, faculty, exhibitors, and other stakeholders in affected countries to ensure access to research and education from the meeting, but is otherwise proceeding as planned.
• Endocrine Society (ENDO), San Francisco, 3/28/20 - 3/31/20: ENDO 2020 will take place as scheduled, but this is an evolving situation worldwide. The society will continue to monitor and provide updates on its FAQ page.
• American College of Physicians Internal Medicine (ACP IM), Los Angeles, 4/23/20 - 4/25/20: ACP leadership is closely monitoring the COVID-19 situation and is actively working with the Centers for Disease Control and Prevention (CDC) to ensure authoritative communication of safety updates and recommendations as the situation evolves.
• American Association for Cancer Research (AACR), San Diego, 4/24/20 - 4/29/20: At this time, there is no plan to cancel or postpone any scheduled AACR meetings. The organization is tracking all travel restrictions as well as information and guidance from the CDC and World Health Organization.
• American Academy of Neurology (AAN), Toronto, 4/25/20 - 5/1/20: The group is continuing to closely monitor the situation in Toronto and will provide updates as the situation warrants.

This article originally appeared on Medscape.com.

In a typical year, March marks the start of conference season, made all the more attractive by collegial gatherings and travel to warmer climes. But 2020 has already proven anything but typical as the number of novel coronavirus cases continues to increase around the globe. As a potential pandemic looms, these meetings – full of handshakes and crowded lecture halls – are also nirvana for opportunistic viruses. As are the airports, airplanes, and cabs required to get there.

So, as COVID-19 continues to spread, medical and scientific societies must make some difficult decisions. In Europe, at least a few societies have already suspended their upcoming meetings, while France has temporarily banned all gatherings over 5000 people.

In the United States, however, most medical conferences are moving forward as planned – at least for now. But one conference of 10,000 attendees, the American Physical Society annual meeting, which was scheduled for March 2-6 in Denver, was canceled the day before the meeting started. Although it’s not a medical conference, it speaks to the “rapidly escalating health concerns” that all conference organizers must grapple with.

APS Physics Meetings

@APSMeetings

Due to rapidly escalating health concerns relating to the spread of the coronavirus disease (COVID-19), the 2020 APS March Meeting in Denver, CO, has been canceled. Please do not travel to Denver to attend the March Meeting. More information will follow shortly. #apsmarch

734 9:59 PM - Feb 29, 2020

Just one smaller medical meeting, the Ataxia Conference, which was scheduled for March 6-7 in Denver, has been canceled.

Most societies hosting these meetings have put out statements to their attendees saying that they’re monitoring the situation and will adapt as necessary. The United States and Canadian Academy of Pathology, which is holding its annual meeting in Los Angeles this week, sent out an email beforehand asking international travelers to consider staying home. The Healthcare Information and Management Systems Society (HIMSS) Global Health Conference, which is slated to have about 50,000 attendees from around the world, has declared itself a “handshake-free” conference but otherwise intends to move ahead as planned.

All of these conferences will be pushing forward without at least one prominent group of attendees. New York University’s Langone Health has removed its employees from the decision-making process and instead is taking a proactive stance: The health system just declared a 60-day (minimum) ban preventing employees from attending any meetings or conferences and from all domestic and international work-related travel.

Here’s what some of the societies have said to attendees about their intent to proceed or modify their plans:

• Conference on Retroviruses and Opportunistic Infections (CROI), Boston, 3/8/20 - 3/11/20: Monitoring the situation and seeking input from local, state, and federal infectious-disease and public-health experts. Final decision expected by the evening of March 3.
• American Academy of Allergy, Asthma & Immunology (AAAAI), Philadelphia, 3/13/20 - 3/16/20: Monitoring developments but no plans to cancel or postpone at this time.
• American Academy of Orthopedic Surgeons (AAOS), Orlando, 3/24/20 - 3/28/20: Proceeding as planned.
• American Academy of Dermatology (AAD), Denver, 3/20/20 - 3/24/20: The AAD’s 2020 Annual Meeting is scheduled to take place as planned. The organization will increase the number of hand-sanitizing stations throughout the convention center, and it is adding a nursing station specifically designated for anyone with flu-like symptoms.
• American College of Cardiology (ACC), Chicago, 3/28/20 - 3/30/20: The organization is working with attendees, faculty, exhibitors, and other stakeholders in affected countries to ensure access to research and education from the meeting, but is otherwise proceeding as planned.
• Endocrine Society (ENDO), San Francisco, 3/28/20 - 3/31/20: ENDO 2020 will take place as scheduled, but this is an evolving situation worldwide. The society will continue to monitor and provide updates on its FAQ page.
• American College of Physicians Internal Medicine (ACP IM), Los Angeles, 4/23/20 - 4/25/20: ACP leadership is closely monitoring the COVID-19 situation and is actively working with the Centers for Disease Control and Prevention (CDC) to ensure authoritative communication of safety updates and recommendations as the situation evolves.
• American Association for Cancer Research (AACR), San Diego, 4/24/20 - 4/29/20: At this time, there is no plan to cancel or postpone any scheduled AACR meetings. The organization is tracking all travel restrictions as well as information and guidance from the CDC and World Health Organization.
• American Academy of Neurology (AAN), Toronto, 4/25/20 - 5/1/20: The group is continuing to closely monitor the situation in Toronto and will provide updates as the situation warrants.

This article originally appeared on Medscape.com.

In a typical year, March marks the start of conference season, made all the more attractive by collegial gatherings and travel to warmer climes. But 2020 has already proven anything but typical as the number of novel coronavirus cases continues to increase around the globe. As a potential pandemic looms, these meetings – full of handshakes and crowded lecture halls – are also nirvana for opportunistic viruses. As are the airports, airplanes, and cabs required to get there.

So, as COVID-19 continues to spread, medical and scientific societies must make some difficult decisions. In Europe, at least a few societies have already suspended their upcoming meetings, while France has temporarily banned all gatherings over 5000 people.

In the United States, however, most medical conferences are moving forward as planned – at least for now. But one conference of 10,000 attendees, the American Physical Society annual meeting, which was scheduled for March 2-6 in Denver, was canceled the day before the meeting started. Although it’s not a medical conference, it speaks to the “rapidly escalating health concerns” that all conference organizers must grapple with.

APS Physics Meetings

@APSMeetings

Due to rapidly escalating health concerns relating to the spread of the coronavirus disease (COVID-19), the 2020 APS March Meeting in Denver, CO, has been canceled. Please do not travel to Denver to attend the March Meeting. More information will follow shortly. #apsmarch

734 9:59 PM - Feb 29, 2020

Just one smaller medical meeting, the Ataxia Conference, which was scheduled for March 6-7 in Denver, has been canceled.

Most societies hosting these meetings have put out statements to their attendees saying that they’re monitoring the situation and will adapt as necessary. The United States and Canadian Academy of Pathology, which is holding its annual meeting in Los Angeles this week, sent out an email beforehand asking international travelers to consider staying home. The Healthcare Information and Management Systems Society (HIMSS) Global Health Conference, which is slated to have about 50,000 attendees from around the world, has declared itself a “handshake-free” conference but otherwise intends to move ahead as planned.

All of these conferences will be pushing forward without at least one prominent group of attendees. New York University’s Langone Health has removed its employees from the decision-making process and instead is taking a proactive stance: The health system just declared a 60-day (minimum) ban preventing employees from attending any meetings or conferences and from all domestic and international work-related travel.

Here’s what some of the societies have said to attendees about their intent to proceed or modify their plans:

• Conference on Retroviruses and Opportunistic Infections (CROI), Boston, 3/8/20 - 3/11/20: Monitoring the situation and seeking input from local, state, and federal infectious-disease and public-health experts. Final decision expected by the evening of March 3.
• American Academy of Allergy, Asthma & Immunology (AAAAI), Philadelphia, 3/13/20 - 3/16/20: Monitoring developments but no plans to cancel or postpone at this time.
• American Academy of Orthopedic Surgeons (AAOS), Orlando, 3/24/20 - 3/28/20: Proceeding as planned.
• American Academy of Dermatology (AAD), Denver, 3/20/20 - 3/24/20: The AAD’s 2020 Annual Meeting is scheduled to take place as planned. The organization will increase the number of hand-sanitizing stations throughout the convention center, and it is adding a nursing station specifically designated for anyone with flu-like symptoms.
• American College of Cardiology (ACC), Chicago, 3/28/20 - 3/30/20: The organization is working with attendees, faculty, exhibitors, and other stakeholders in affected countries to ensure access to research and education from the meeting, but is otherwise proceeding as planned.
• Endocrine Society (ENDO), San Francisco, 3/28/20 - 3/31/20: ENDO 2020 will take place as scheduled, but this is an evolving situation worldwide. The society will continue to monitor and provide updates on its FAQ page.
• American College of Physicians Internal Medicine (ACP IM), Los Angeles, 4/23/20 - 4/25/20: ACP leadership is closely monitoring the COVID-19 situation and is actively working with the Centers for Disease Control and Prevention (CDC) to ensure authoritative communication of safety updates and recommendations as the situation evolves.
• American Association for Cancer Research (AACR), San Diego, 4/24/20 - 4/29/20: At this time, there is no plan to cancel or postpone any scheduled AACR meetings. The organization is tracking all travel restrictions as well as information and guidance from the CDC and World Health Organization.
• American Academy of Neurology (AAN), Toronto, 4/25/20 - 5/1/20: The group is continuing to closely monitor the situation in Toronto and will provide updates as the situation warrants.

This article originally appeared on Medscape.com.