The Hospitalist

The Food and Drug Administration has issued a Safety Alert warning of the potential for SARS-CoV-2 transmission through fecal microbiota transplantation and that additional safety procedures may be required.

Wikimedia Commons/FitzColinGerald/ Creative Commons License

The risk of SARS-CoV-2 transmission through fecal microbiota transplant is unknown, but “several recent studies have documented the presence of SARS-CoV-2 ribonucleic acid (RNA) and/or SARS-CoV-2 virus in stool of infected individuals,” the FDA said in the press release. The testing of nasopharyngeal specimens from stool donors may not be available, and the availability and sensitivity of direct testing of stool for SARS-CoV-2 is currently unknown.

Because of the risk of serious adverse events, the FDA has issued several recommendations for any medically necessary usage of fecal microbiota transplantation involving stool samples donated after Dec. 1, 2019.

• Donor screening with questions directed at identifying those currently or recently infected with SARS-CoV-2.
• Testing donors and/or donor stool for SARS-CoV-2, as feasible.
• Development of criteria for exclusion of donors and donor stool based on screening and testing.
• Informed consent that includes information about the potential for transmission of SARS-CoV-2 via fecal microbiota transplantation, including transplantation prepared from stool from donors who are asymptomatic for COVID-19.

“As the scientific community learns more about SARS-CoV-2 and COVID-19, FDA will provide further information as warranted,” the agency said.

[email protected]

The Food and Drug Administration has issued a Safety Alert warning of the potential for SARS-CoV-2 transmission through fecal microbiota transplantation and that additional safety procedures may be required.

Wikimedia Commons/FitzColinGerald/ Creative Commons License

The risk of SARS-CoV-2 transmission through fecal microbiota transplant is unknown, but “several recent studies have documented the presence of SARS-CoV-2 ribonucleic acid (RNA) and/or SARS-CoV-2 virus in stool of infected individuals,” the FDA said in the press release. The testing of nasopharyngeal specimens from stool donors may not be available, and the availability and sensitivity of direct testing of stool for SARS-CoV-2 is currently unknown.

Because of the risk of serious adverse events, the FDA has issued several recommendations for any medically necessary usage of fecal microbiota transplantation involving stool samples donated after Dec. 1, 2019.

• Donor screening with questions directed at identifying those currently or recently infected with SARS-CoV-2.
• Testing donors and/or donor stool for SARS-CoV-2, as feasible.
• Development of criteria for exclusion of donors and donor stool based on screening and testing.
• Informed consent that includes information about the potential for transmission of SARS-CoV-2 via fecal microbiota transplantation, including transplantation prepared from stool from donors who are asymptomatic for COVID-19.

“As the scientific community learns more about SARS-CoV-2 and COVID-19, FDA will provide further information as warranted,” the agency said.

[email protected]

The Food and Drug Administration has issued a Safety Alert warning of the potential for SARS-CoV-2 transmission through fecal microbiota transplantation and that additional safety procedures may be required.

Wikimedia Commons/FitzColinGerald/ Creative Commons License

The risk of SARS-CoV-2 transmission through fecal microbiota transplant is unknown, but “several recent studies have documented the presence of SARS-CoV-2 ribonucleic acid (RNA) and/or SARS-CoV-2 virus in stool of infected individuals,” the FDA said in the press release. The testing of nasopharyngeal specimens from stool donors may not be available, and the availability and sensitivity of direct testing of stool for SARS-CoV-2 is currently unknown.

Because of the risk of serious adverse events, the FDA has issued several recommendations for any medically necessary usage of fecal microbiota transplantation involving stool samples donated after Dec. 1, 2019.

• Donor screening with questions directed at identifying those currently or recently infected with SARS-CoV-2.
• Testing donors and/or donor stool for SARS-CoV-2, as feasible.
• Development of criteria for exclusion of donors and donor stool based on screening and testing.
• Informed consent that includes information about the potential for transmission of SARS-CoV-2 via fecal microbiota transplantation, including transplantation prepared from stool from donors who are asymptomatic for COVID-19.

“As the scientific community learns more about SARS-CoV-2 and COVID-19, FDA will provide further information as warranted,” the agency said.

[email protected]

The Society of Critical Care Medicine released its first set of guidelines for managing critically ill patients with novel coronavirus disease (COVID-19) on March 20, 2020.

The 49 recommendations and statements it included are geared to “support hospital clinicians managing critically ill adults with COVID-19 in the ICU. The target users of this guideline are frontline clinicians, allied health professionals, and policy makers involved in the care of patients with COVID-19 in the ICU,” said the document, written by a panel of 36 experts organized by the Surviving Sepsis Campaign, a joint program of the Society of Critical Care Medicine and the European Society of Intensive Care Medicine.

The document divides the recommendations into four categories: infection control, which includes 3 “best-practice” statements and 5 “weak” recommendations; hemodynamics with 2 “strong” recommendations and 13 weak ones; ventilation, with 1 best-practice statement, 6 strong recommendations, and 12 weak recommendations; and therapy with 7 weak recommendations. The guidelines also included five management questions considered by the writing panel without arriving at a recommendation because of insufficient evidence.

Useful guide nonspecialists

Some critical care medicine physicians saw the new guidelines as offering no surprises, but providing a very useful resource to guide management, especially for clinicians who may become involved in caring for COVID-19 patients despite having little experience caring for patients with acute respiratory distress syndrome (ARDS).

“For those of us who manage ARDS patients all the time, this is not a lot of new information, but many critically ill COVID-19 patients are now being cared for by physicians who have not cared for these patients before,” commented Mangala Narasimhan, DO, FCCP, a critical care medicine physician at Long Island Jewish Medical Center in New Hyde Park, N.Y. In fact, Dr, Narasimhan and associates took the new guidelines soon after their release and used them to create a one-page summary sheet to give to all their colleagues who are now seeing COVID-19 patients, she said in an interview. “The guidelines are very important for clinicians who are suddenly taking care of a roomful of patients with ARDS.”

“A lot of people want to know this information,” agreed David M. Ferraro, MD, FCCP, a pulmonologist and critical care medicine physician at National Jewish Health in Denver.

He also highlighted the value of quickly forgoing continued use of either of these ventilatory approaches in a declining patient and having a low threshold to switch to intubation. “Many clinicians now favor erring on the side of early intubation,” he noted, an approach that the new guidelines endorsed in a best-practice statement: “In adults with COVID-19 receiving NIPPV or HFNC we recommend close monitoring for worsening respiratory status and early intubation in a controlled setting if worsening occurs.”

One aspect of the COVID-19 pandemic that the new guidelines don’t address are some of the challenges being faced from skyrocketing numbers of patients and inadequate supplies and manpower to meet their acute clinical needs. “We need recommendations on how systems should manage when they are overwhelmed,” commented Dr. Ferraro, an omission that he also saw in the COVID-19 management guidance released on March 13, 2020, by the World Health Organization.

“Neither document gets into this in depth, but that wasn’t in their scope,” Dr. Ferraro acknowledged. He said that recommendations on how to deal with scarce resources, inadequate staffing, and the health of clinicians are probably best handled on a state or local level rather than trying to create recommendations that are applicable to the entire U.S. health system.

Dr. Narasimhan and Dr. Ferraro reported that they had no disclosures.

[email protected]

The Society of Critical Care Medicine released its first set of guidelines for managing critically ill patients with novel coronavirus disease (COVID-19) on March 20, 2020.

The 49 recommendations and statements it included are geared to “support hospital clinicians managing critically ill adults with COVID-19 in the ICU. The target users of this guideline are frontline clinicians, allied health professionals, and policy makers involved in the care of patients with COVID-19 in the ICU,” said the document, written by a panel of 36 experts organized by the Surviving Sepsis Campaign, a joint program of the Society of Critical Care Medicine and the European Society of Intensive Care Medicine.

The document divides the recommendations into four categories: infection control, which includes 3 “best-practice” statements and 5 “weak” recommendations; hemodynamics with 2 “strong” recommendations and 13 weak ones; ventilation, with 1 best-practice statement, 6 strong recommendations, and 12 weak recommendations; and therapy with 7 weak recommendations. The guidelines also included five management questions considered by the writing panel without arriving at a recommendation because of insufficient evidence.

Useful guide nonspecialists

Some critical care medicine physicians saw the new guidelines as offering no surprises, but providing a very useful resource to guide management, especially for clinicians who may become involved in caring for COVID-19 patients despite having little experience caring for patients with acute respiratory distress syndrome (ARDS).

“For those of us who manage ARDS patients all the time, this is not a lot of new information, but many critically ill COVID-19 patients are now being cared for by physicians who have not cared for these patients before,” commented Mangala Narasimhan, DO, FCCP, a critical care medicine physician at Long Island Jewish Medical Center in New Hyde Park, N.Y. In fact, Dr, Narasimhan and associates took the new guidelines soon after their release and used them to create a one-page summary sheet to give to all their colleagues who are now seeing COVID-19 patients, she said in an interview. “The guidelines are very important for clinicians who are suddenly taking care of a roomful of patients with ARDS.”

“A lot of people want to know this information,” agreed David M. Ferraro, MD, FCCP, a pulmonologist and critical care medicine physician at National Jewish Health in Denver.

He also highlighted the value of quickly forgoing continued use of either of these ventilatory approaches in a declining patient and having a low threshold to switch to intubation. “Many clinicians now favor erring on the side of early intubation,” he noted, an approach that the new guidelines endorsed in a best-practice statement: “In adults with COVID-19 receiving NIPPV or HFNC we recommend close monitoring for worsening respiratory status and early intubation in a controlled setting if worsening occurs.”

One aspect of the COVID-19 pandemic that the new guidelines don’t address are some of the challenges being faced from skyrocketing numbers of patients and inadequate supplies and manpower to meet their acute clinical needs. “We need recommendations on how systems should manage when they are overwhelmed,” commented Dr. Ferraro, an omission that he also saw in the COVID-19 management guidance released on March 13, 2020, by the World Health Organization.

“Neither document gets into this in depth, but that wasn’t in their scope,” Dr. Ferraro acknowledged. He said that recommendations on how to deal with scarce resources, inadequate staffing, and the health of clinicians are probably best handled on a state or local level rather than trying to create recommendations that are applicable to the entire U.S. health system.

Dr. Narasimhan and Dr. Ferraro reported that they had no disclosures.

[email protected]

The Society of Critical Care Medicine released its first set of guidelines for managing critically ill patients with novel coronavirus disease (COVID-19) on March 20, 2020.

The 49 recommendations and statements it included are geared to “support hospital clinicians managing critically ill adults with COVID-19 in the ICU. The target users of this guideline are frontline clinicians, allied health professionals, and policy makers involved in the care of patients with COVID-19 in the ICU,” said the document, written by a panel of 36 experts organized by the Surviving Sepsis Campaign, a joint program of the Society of Critical Care Medicine and the European Society of Intensive Care Medicine.

The document divides the recommendations into four categories: infection control, which includes 3 “best-practice” statements and 5 “weak” recommendations; hemodynamics with 2 “strong” recommendations and 13 weak ones; ventilation, with 1 best-practice statement, 6 strong recommendations, and 12 weak recommendations; and therapy with 7 weak recommendations. The guidelines also included five management questions considered by the writing panel without arriving at a recommendation because of insufficient evidence.

Useful guide nonspecialists

Some critical care medicine physicians saw the new guidelines as offering no surprises, but providing a very useful resource to guide management, especially for clinicians who may become involved in caring for COVID-19 patients despite having little experience caring for patients with acute respiratory distress syndrome (ARDS).

“For those of us who manage ARDS patients all the time, this is not a lot of new information, but many critically ill COVID-19 patients are now being cared for by physicians who have not cared for these patients before,” commented Mangala Narasimhan, DO, FCCP, a critical care medicine physician at Long Island Jewish Medical Center in New Hyde Park, N.Y. In fact, Dr, Narasimhan and associates took the new guidelines soon after their release and used them to create a one-page summary sheet to give to all their colleagues who are now seeing COVID-19 patients, she said in an interview. “The guidelines are very important for clinicians who are suddenly taking care of a roomful of patients with ARDS.”

“A lot of people want to know this information,” agreed David M. Ferraro, MD, FCCP, a pulmonologist and critical care medicine physician at National Jewish Health in Denver.

He also highlighted the value of quickly forgoing continued use of either of these ventilatory approaches in a declining patient and having a low threshold to switch to intubation. “Many clinicians now favor erring on the side of early intubation,” he noted, an approach that the new guidelines endorsed in a best-practice statement: “In adults with COVID-19 receiving NIPPV or HFNC we recommend close monitoring for worsening respiratory status and early intubation in a controlled setting if worsening occurs.”

One aspect of the COVID-19 pandemic that the new guidelines don’t address are some of the challenges being faced from skyrocketing numbers of patients and inadequate supplies and manpower to meet their acute clinical needs. “We need recommendations on how systems should manage when they are overwhelmed,” commented Dr. Ferraro, an omission that he also saw in the COVID-19 management guidance released on March 13, 2020, by the World Health Organization.

“Neither document gets into this in depth, but that wasn’t in their scope,” Dr. Ferraro acknowledged. He said that recommendations on how to deal with scarce resources, inadequate staffing, and the health of clinicians are probably best handled on a state or local level rather than trying to create recommendations that are applicable to the entire U.S. health system.

Dr. Narasimhan and Dr. Ferraro reported that they had no disclosures.

[email protected]

The Food and Drug Administration has issued Emergency Use Authorizations for three products offering rapid, point-of-care diagnostic tests for COVID-19.

Wikimedia Commons/FitzColinGerald/ Creative Commons License

The first authorization, announced by the agency on March 21, was for the Xpert Xpress SARS-CoV-2 test, a rapid molecular diagnostic test for qualitative detection of SARS-CoV-2, the virus causing COVID-19.

The test, manufactured by Cepheid, has a detection time of 45 minutes and has been designed to operate on any of the company’s more than 23,000 automated GeneXpert Systems worldwide, according to a statement from the company.

The agency said in its EUA approval document the test is for a “qualitative detection of nucleic acid from the SARS-CoV-2 in nasopharyngeal swab and/or nasal wash/aspirate specimens collected from patients who are suspected of having COVID-19 infection.” Positive results are indicative of an infection but do not rule out other potential infections, it noted.

The company plans to roll out the test by March 30, according to the FDA.

Cepheid said in a statement that it has almost 5,000 GeneXpert systems in the United States that are capable of point-of-care testing and ready for use in hospitals. “Our automated systems do not require users to have specialty training to perform testing – they are capable of running 24/7, with many systems already doing so today,” Warren Kocmond, the company’s president, said in the statement.

FDA Commissioner Stephen Hahn, MD said in a statement that the authorization marked “an important step in expanding the availability of testing and, importantly, rapid results. Point-of-care testing means that results are delivered to the patient in the patient-care settings, like hospitals, urgent care centers, and emergency rooms, instead of samples being sent to a laboratory. With today’s authorization, there is now an option for testing at the point of care, which enables patient access to more immediate results.”

On March 23, the agency issued an emergency use authorization to bioMerieux subsidiary BioFire Defense LLC for its BIOFIRE COVID-19 test, which detects SARS-CoV-2 from a nasopharyngeal swab in about 45 minutes.

The test was developed with funding from the U.S. Department of Defense.

“Positive results are indicative of the presence of SARS-CoV-2 RNA; clinical correlation with patient history and other diagnostic information is necessary to determine patient infection status,” the agency said in its approval document. It again noted that positive results did not rule out bacterial infection or coinfection with other viruses.

Also on March 23, the agency issued an EUA to Mesa Biotech for its Accula SARS-CoV-2 test, which gives COVID-19 diagnostic results in 30 minutes.

The test is indicated for “qualitative, visual detection of nucleic acid from the SARS-CoV-2 in throat swab and nasal swab specimens combined, collected from patients suspected of COVID-19 by their health care provider,” according to the FDA approval document. “The SARS-CoV-2 nucleic acid is generally detectable in throat and nasal swab specimens during the acute phase of infection. Positive results are indicative of the presence of SARS-CoV-2 nucleic acid; clinical correlation with patient history and other diagnostic information is necessary to determine patient infection status. Positive results do not rule out bacterial infection or coinfection with other viruses.”

Mesa Biotech said in a statement that the test is designed for point-of-care use, including at temporary screening facilities, physician office labs, urgent care, and long-term nursing facilities.

“Our test will provide a highly accessible means for health care professionals to access laboratory quality results close in their office to aid in the decision to isolate, treat, or dismiss potential carriers of the virus,” Hong Cai, the CEO and cofounder of Mesa Biotech, said in a statement. “The potential to reduce the growing strain on our nation’s hospitals is tremendous.”

In separate letters to the three companies notifying them of the authorizations, the FDA said the emergency use of the products met the criteria for issuances of authorization because the SARS-CoV-2 can cause a serious or life-threatening disease or condition; it was “reasonable to believe

that [the] product may be effective in diagnosing COVID-19; and there is no “adequate, approved, and available alternative” to the emergency use of the three products.

[email protected]

The Food and Drug Administration has issued Emergency Use Authorizations for three products offering rapid, point-of-care diagnostic tests for COVID-19.

Wikimedia Commons/FitzColinGerald/ Creative Commons License

The first authorization, announced by the agency on March 21, was for the Xpert Xpress SARS-CoV-2 test, a rapid molecular diagnostic test for qualitative detection of SARS-CoV-2, the virus causing COVID-19.

The test, manufactured by Cepheid, has a detection time of 45 minutes and has been designed to operate on any of the company’s more than 23,000 automated GeneXpert Systems worldwide, according to a statement from the company.

The agency said in its EUA approval document the test is for a “qualitative detection of nucleic acid from the SARS-CoV-2 in nasopharyngeal swab and/or nasal wash/aspirate specimens collected from patients who are suspected of having COVID-19 infection.” Positive results are indicative of an infection but do not rule out other potential infections, it noted.

The company plans to roll out the test by March 30, according to the FDA.

Cepheid said in a statement that it has almost 5,000 GeneXpert systems in the United States that are capable of point-of-care testing and ready for use in hospitals. “Our automated systems do not require users to have specialty training to perform testing – they are capable of running 24/7, with many systems already doing so today,” Warren Kocmond, the company’s president, said in the statement.

FDA Commissioner Stephen Hahn, MD said in a statement that the authorization marked “an important step in expanding the availability of testing and, importantly, rapid results. Point-of-care testing means that results are delivered to the patient in the patient-care settings, like hospitals, urgent care centers, and emergency rooms, instead of samples being sent to a laboratory. With today’s authorization, there is now an option for testing at the point of care, which enables patient access to more immediate results.”

On March 23, the agency issued an emergency use authorization to bioMerieux subsidiary BioFire Defense LLC for its BIOFIRE COVID-19 test, which detects SARS-CoV-2 from a nasopharyngeal swab in about 45 minutes.

The test was developed with funding from the U.S. Department of Defense.

“Positive results are indicative of the presence of SARS-CoV-2 RNA; clinical correlation with patient history and other diagnostic information is necessary to determine patient infection status,” the agency said in its approval document. It again noted that positive results did not rule out bacterial infection or coinfection with other viruses.

Also on March 23, the agency issued an EUA to Mesa Biotech for its Accula SARS-CoV-2 test, which gives COVID-19 diagnostic results in 30 minutes.

The test is indicated for “qualitative, visual detection of nucleic acid from the SARS-CoV-2 in throat swab and nasal swab specimens combined, collected from patients suspected of COVID-19 by their health care provider,” according to the FDA approval document. “The SARS-CoV-2 nucleic acid is generally detectable in throat and nasal swab specimens during the acute phase of infection. Positive results are indicative of the presence of SARS-CoV-2 nucleic acid; clinical correlation with patient history and other diagnostic information is necessary to determine patient infection status. Positive results do not rule out bacterial infection or coinfection with other viruses.”

Mesa Biotech said in a statement that the test is designed for point-of-care use, including at temporary screening facilities, physician office labs, urgent care, and long-term nursing facilities.

“Our test will provide a highly accessible means for health care professionals to access laboratory quality results close in their office to aid in the decision to isolate, treat, or dismiss potential carriers of the virus,” Hong Cai, the CEO and cofounder of Mesa Biotech, said in a statement. “The potential to reduce the growing strain on our nation’s hospitals is tremendous.”

In separate letters to the three companies notifying them of the authorizations, the FDA said the emergency use of the products met the criteria for issuances of authorization because the SARS-CoV-2 can cause a serious or life-threatening disease or condition; it was “reasonable to believe

that [the] product may be effective in diagnosing COVID-19; and there is no “adequate, approved, and available alternative” to the emergency use of the three products.

[email protected]

The Food and Drug Administration has issued Emergency Use Authorizations for three products offering rapid, point-of-care diagnostic tests for COVID-19.

Wikimedia Commons/FitzColinGerald/ Creative Commons License

The first authorization, announced by the agency on March 21, was for the Xpert Xpress SARS-CoV-2 test, a rapid molecular diagnostic test for qualitative detection of SARS-CoV-2, the virus causing COVID-19.

The test, manufactured by Cepheid, has a detection time of 45 minutes and has been designed to operate on any of the company’s more than 23,000 automated GeneXpert Systems worldwide, according to a statement from the company.

The agency said in its EUA approval document the test is for a “qualitative detection of nucleic acid from the SARS-CoV-2 in nasopharyngeal swab and/or nasal wash/aspirate specimens collected from patients who are suspected of having COVID-19 infection.” Positive results are indicative of an infection but do not rule out other potential infections, it noted.

The company plans to roll out the test by March 30, according to the FDA.

Cepheid said in a statement that it has almost 5,000 GeneXpert systems in the United States that are capable of point-of-care testing and ready for use in hospitals. “Our automated systems do not require users to have specialty training to perform testing – they are capable of running 24/7, with many systems already doing so today,” Warren Kocmond, the company’s president, said in the statement.

FDA Commissioner Stephen Hahn, MD said in a statement that the authorization marked “an important step in expanding the availability of testing and, importantly, rapid results. Point-of-care testing means that results are delivered to the patient in the patient-care settings, like hospitals, urgent care centers, and emergency rooms, instead of samples being sent to a laboratory. With today’s authorization, there is now an option for testing at the point of care, which enables patient access to more immediate results.”

On March 23, the agency issued an emergency use authorization to bioMerieux subsidiary BioFire Defense LLC for its BIOFIRE COVID-19 test, which detects SARS-CoV-2 from a nasopharyngeal swab in about 45 minutes.

The test was developed with funding from the U.S. Department of Defense.

“Positive results are indicative of the presence of SARS-CoV-2 RNA; clinical correlation with patient history and other diagnostic information is necessary to determine patient infection status,” the agency said in its approval document. It again noted that positive results did not rule out bacterial infection or coinfection with other viruses.

Also on March 23, the agency issued an EUA to Mesa Biotech for its Accula SARS-CoV-2 test, which gives COVID-19 diagnostic results in 30 minutes.

The test is indicated for “qualitative, visual detection of nucleic acid from the SARS-CoV-2 in throat swab and nasal swab specimens combined, collected from patients suspected of COVID-19 by their health care provider,” according to the FDA approval document. “The SARS-CoV-2 nucleic acid is generally detectable in throat and nasal swab specimens during the acute phase of infection. Positive results are indicative of the presence of SARS-CoV-2 nucleic acid; clinical correlation with patient history and other diagnostic information is necessary to determine patient infection status. Positive results do not rule out bacterial infection or coinfection with other viruses.”

Mesa Biotech said in a statement that the test is designed for point-of-care use, including at temporary screening facilities, physician office labs, urgent care, and long-term nursing facilities.

“Our test will provide a highly accessible means for health care professionals to access laboratory quality results close in their office to aid in the decision to isolate, treat, or dismiss potential carriers of the virus,” Hong Cai, the CEO and cofounder of Mesa Biotech, said in a statement. “The potential to reduce the growing strain on our nation’s hospitals is tremendous.”

In separate letters to the three companies notifying them of the authorizations, the FDA said the emergency use of the products met the criteria for issuances of authorization because the SARS-CoV-2 can cause a serious or life-threatening disease or condition; it was “reasonable to believe

that [the] product may be effective in diagnosing COVID-19; and there is no “adequate, approved, and available alternative” to the emergency use of the three products.

[email protected]

Unexplained anosmia, hyposmia, and dysgeusia should be added to the list of possible COVID-19 symptoms for screening purposes, and individuals with such symptoms should consider self-isolation, the American Academy of Otolaryngology-Head and Neck Surgery (AAO-HNS) has proposed.

However, a World Health Organization expert said during a March 23 daily briefing on the novel coronavirus pandemic that the jury is still out on that.

The AAO-HNS proposal is based on “rapidly accumulating” anecdotal evidence that such symptoms – in the absence of other symptoms suggestive of COVID-19 – have sometimes preceded a COVID-19 diagnosis.

“Anosmia, in particular, has been seen in patients ultimately testing positive for the coronavirus with no other symptoms ... anosmia, hyposmia, and dysgeusia in the absence of other respiratory disease such as allergic rhinitis, acute rhinosinusitis, or chronic rhinosinusitis should alert physicians to the possibility of COVID-19 infection and warrant serious consideration for self-isolation and testing of these individuals,” the AAO-HNS said in a statement on the proposal.

ENT UK, an organization representing Ear, Nose, and Throat surgery and its related specialties in the UK, also is emphasizing the potential importance of these symptoms. In a March 21 letter, ENT UK experts cited “good evidence from South Korea, China and Italy that significant numbers of patients with proven COVID-19 infection have developed anosmia/hyposmia.”

Claire Hopkins, BMBCh, president of the British Rhinological Society and a professor of Rhinology at King’s College London, along with ENT UK president Nirmal Kumar, also noted in the letter that two of every three cases in Germany, and 30% of patients testing positive in South Korea, had anosmia as their first symptom.

“While there is a chance the apparent increase in incidence could merely reflect the attention COVID-19 has attracted in the media, and that such cases may be caused by typical rhinovirus and coronavirus strains, it could potentially be used as a screening tool to help identify otherwise asymptomatic patients, who could then be better instructed on self-isolation,” they wrote.

Maria Van Kerkhove, MD, technical lead of the WHO Medical Emergencies Program, acknowledged the anecdotal evidence during the WHO briefing.

“Yes, we’ve seen quite a few reports ... but this is something that we need to look into to really capture if this is one of the early signs and symptoms of COVID-19,” she said, noting that WHO is working with more than a dozen countries that are systematically collecting data using molecular and serological testing to “capture more robustly” the early signs and symptoms, and is “reaching out to a number of countries and looking at the cases that have already been reported to see if [anosmia] is a common feature.”

“We don’t have the answer to that,” she said, adding that, in addition to the major symptoms – including dry cough, fever, and shortness of breath – that are well known at this point, “there are likely to be many signs and symptoms that people have.”

“A loss of smell or a loss of taste is something that we’re looking into, and we’re looking forward to the results of these early investigations ... so that we have a more evidence-based approach and we can add that to the list.”

[email protected]

Unexplained anosmia, hyposmia, and dysgeusia should be added to the list of possible COVID-19 symptoms for screening purposes, and individuals with such symptoms should consider self-isolation, the American Academy of Otolaryngology-Head and Neck Surgery (AAO-HNS) has proposed.

However, a World Health Organization expert said during a March 23 daily briefing on the novel coronavirus pandemic that the jury is still out on that.

The AAO-HNS proposal is based on “rapidly accumulating” anecdotal evidence that such symptoms – in the absence of other symptoms suggestive of COVID-19 – have sometimes preceded a COVID-19 diagnosis.

“Anosmia, in particular, has been seen in patients ultimately testing positive for the coronavirus with no other symptoms ... anosmia, hyposmia, and dysgeusia in the absence of other respiratory disease such as allergic rhinitis, acute rhinosinusitis, or chronic rhinosinusitis should alert physicians to the possibility of COVID-19 infection and warrant serious consideration for self-isolation and testing of these individuals,” the AAO-HNS said in a statement on the proposal.

ENT UK, an organization representing Ear, Nose, and Throat surgery and its related specialties in the UK, also is emphasizing the potential importance of these symptoms. In a March 21 letter, ENT UK experts cited “good evidence from South Korea, China and Italy that significant numbers of patients with proven COVID-19 infection have developed anosmia/hyposmia.”

Claire Hopkins, BMBCh, president of the British Rhinological Society and a professor of Rhinology at King’s College London, along with ENT UK president Nirmal Kumar, also noted in the letter that two of every three cases in Germany, and 30% of patients testing positive in South Korea, had anosmia as their first symptom.

“While there is a chance the apparent increase in incidence could merely reflect the attention COVID-19 has attracted in the media, and that such cases may be caused by typical rhinovirus and coronavirus strains, it could potentially be used as a screening tool to help identify otherwise asymptomatic patients, who could then be better instructed on self-isolation,” they wrote.

Maria Van Kerkhove, MD, technical lead of the WHO Medical Emergencies Program, acknowledged the anecdotal evidence during the WHO briefing.

“Yes, we’ve seen quite a few reports ... but this is something that we need to look into to really capture if this is one of the early signs and symptoms of COVID-19,” she said, noting that WHO is working with more than a dozen countries that are systematically collecting data using molecular and serological testing to “capture more robustly” the early signs and symptoms, and is “reaching out to a number of countries and looking at the cases that have already been reported to see if [anosmia] is a common feature.”

“We don’t have the answer to that,” she said, adding that, in addition to the major symptoms – including dry cough, fever, and shortness of breath – that are well known at this point, “there are likely to be many signs and symptoms that people have.”

“A loss of smell or a loss of taste is something that we’re looking into, and we’re looking forward to the results of these early investigations ... so that we have a more evidence-based approach and we can add that to the list.”

[email protected]

Unexplained anosmia, hyposmia, and dysgeusia should be added to the list of possible COVID-19 symptoms for screening purposes, and individuals with such symptoms should consider self-isolation, the American Academy of Otolaryngology-Head and Neck Surgery (AAO-HNS) has proposed.

However, a World Health Organization expert said during a March 23 daily briefing on the novel coronavirus pandemic that the jury is still out on that.

The AAO-HNS proposal is based on “rapidly accumulating” anecdotal evidence that such symptoms – in the absence of other symptoms suggestive of COVID-19 – have sometimes preceded a COVID-19 diagnosis.

“Anosmia, in particular, has been seen in patients ultimately testing positive for the coronavirus with no other symptoms ... anosmia, hyposmia, and dysgeusia in the absence of other respiratory disease such as allergic rhinitis, acute rhinosinusitis, or chronic rhinosinusitis should alert physicians to the possibility of COVID-19 infection and warrant serious consideration for self-isolation and testing of these individuals,” the AAO-HNS said in a statement on the proposal.

ENT UK, an organization representing Ear, Nose, and Throat surgery and its related specialties in the UK, also is emphasizing the potential importance of these symptoms. In a March 21 letter, ENT UK experts cited “good evidence from South Korea, China and Italy that significant numbers of patients with proven COVID-19 infection have developed anosmia/hyposmia.”

Claire Hopkins, BMBCh, president of the British Rhinological Society and a professor of Rhinology at King’s College London, along with ENT UK president Nirmal Kumar, also noted in the letter that two of every three cases in Germany, and 30% of patients testing positive in South Korea, had anosmia as their first symptom.

“While there is a chance the apparent increase in incidence could merely reflect the attention COVID-19 has attracted in the media, and that such cases may be caused by typical rhinovirus and coronavirus strains, it could potentially be used as a screening tool to help identify otherwise asymptomatic patients, who could then be better instructed on self-isolation,” they wrote.

Maria Van Kerkhove, MD, technical lead of the WHO Medical Emergencies Program, acknowledged the anecdotal evidence during the WHO briefing.

“Yes, we’ve seen quite a few reports ... but this is something that we need to look into to really capture if this is one of the early signs and symptoms of COVID-19,” she said, noting that WHO is working with more than a dozen countries that are systematically collecting data using molecular and serological testing to “capture more robustly” the early signs and symptoms, and is “reaching out to a number of countries and looking at the cases that have already been reported to see if [anosmia] is a common feature.”

“We don’t have the answer to that,” she said, adding that, in addition to the major symptoms – including dry cough, fever, and shortness of breath – that are well known at this point, “there are likely to be many signs and symptoms that people have.”

“A loss of smell or a loss of taste is something that we’re looking into, and we’re looking forward to the results of these early investigations ... so that we have a more evidence-based approach and we can add that to the list.”

[email protected]

The high rate of asymptomatic COVID-19 infections aboard the cruise ship Diamond Princess “could partially explain the high attack rate among” the passengers and crew, according to the Centers for Disease Control and Prevention.

Testing of the 3,711 passengers and crew aboard the ship – the source of the largest outbreak outside of China during the initial stages of the pandemic – revealed that 19.2% were positive for COVID-19, Leah F. Moriarty, MPH, and associates reported in the Morbidity and Mortality Weekly Report.

At the time of testing, 46.5% (331) of the 712 infected individuals were asymptomatic, and “statistical models of the Diamond Princess outbreak suggest that 17.9% of infected persons never developed symptoms,” wrote Ms. Moriarty of the CDC COVID-19 response team, and associates.

RNA from the SARS-CoV-2 virus was found on surfaces in cabins up to 17 days after they had been vacated by passengers but before the cabins had been disinfected, the investigators noted.

The Diamond Princess departed from Yokohama, Japan, on Jan. 20, 2020, and returned on Feb. 3 after making six stops in three countries. The ship was quarantined upon its return because a symptomatic passenger who had departed Jan. 25 in Hong Kong tested positive for SARS-CoV-2, Ms. Moriarty and associates explained.

Of the 381 people from the ship who were symptomatic and tested positive, 37 (9.7%) needed intensive care and 9 (1.3%) died. There were 428 Americans on the ship, of whom 107 (25.0%) tested positive and 11 remained hospitalized in Japan as of March 13, they said.

“Many other cruise ships have since been implicated in SARS-CoV-2 transmission,” the investigators said, including the Grand Princess, which sailed out of San Francisco with 3,571 people on Feb. 21 and returned to Oakland on March 8.

That ship had been the site of virus transmission during its previous voyage from Feb. 11 to Feb. 21, from which more than 20 cases have been identified. During the latter trip, 21 of 45 passengers and crew tested positive before the ship docked. During the subsequent land-based quarantine, there have been 78 positive tests among the 469 people tested as of March 21, a rate of 16.6%, the research team reported.

“Public health responses to cruise ship outbreaks require extensive resources,” they wrote. “These responses required the coordination of stakeholders across multiple sectors, including U.S. government departments and agencies, foreign ministries of health, foreign embassies, state and local public health departments, hospitals, laboratories, and cruise ship companies.”
 

[email protected]

SOURCE: Moriarty LF et al. MMWR. 2020 Mar 23;69[early release]:1-6.

The high rate of asymptomatic COVID-19 infections aboard the cruise ship Diamond Princess “could partially explain the high attack rate among” the passengers and crew, according to the Centers for Disease Control and Prevention.

Testing of the 3,711 passengers and crew aboard the ship – the source of the largest outbreak outside of China during the initial stages of the pandemic – revealed that 19.2% were positive for COVID-19, Leah F. Moriarty, MPH, and associates reported in the Morbidity and Mortality Weekly Report.

At the time of testing, 46.5% (331) of the 712 infected individuals were asymptomatic, and “statistical models of the Diamond Princess outbreak suggest that 17.9% of infected persons never developed symptoms,” wrote Ms. Moriarty of the CDC COVID-19 response team, and associates.

RNA from the SARS-CoV-2 virus was found on surfaces in cabins up to 17 days after they had been vacated by passengers but before the cabins had been disinfected, the investigators noted.

The Diamond Princess departed from Yokohama, Japan, on Jan. 20, 2020, and returned on Feb. 3 after making six stops in three countries. The ship was quarantined upon its return because a symptomatic passenger who had departed Jan. 25 in Hong Kong tested positive for SARS-CoV-2, Ms. Moriarty and associates explained.

Of the 381 people from the ship who were symptomatic and tested positive, 37 (9.7%) needed intensive care and 9 (1.3%) died. There were 428 Americans on the ship, of whom 107 (25.0%) tested positive and 11 remained hospitalized in Japan as of March 13, they said.

“Many other cruise ships have since been implicated in SARS-CoV-2 transmission,” the investigators said, including the Grand Princess, which sailed out of San Francisco with 3,571 people on Feb. 21 and returned to Oakland on March 8.

That ship had been the site of virus transmission during its previous voyage from Feb. 11 to Feb. 21, from which more than 20 cases have been identified. During the latter trip, 21 of 45 passengers and crew tested positive before the ship docked. During the subsequent land-based quarantine, there have been 78 positive tests among the 469 people tested as of March 21, a rate of 16.6%, the research team reported.

“Public health responses to cruise ship outbreaks require extensive resources,” they wrote. “These responses required the coordination of stakeholders across multiple sectors, including U.S. government departments and agencies, foreign ministries of health, foreign embassies, state and local public health departments, hospitals, laboratories, and cruise ship companies.”
 

[email protected]

SOURCE: Moriarty LF et al. MMWR. 2020 Mar 23;69[early release]:1-6.

The high rate of asymptomatic COVID-19 infections aboard the cruise ship Diamond Princess “could partially explain the high attack rate among” the passengers and crew, according to the Centers for Disease Control and Prevention.

Testing of the 3,711 passengers and crew aboard the ship – the source of the largest outbreak outside of China during the initial stages of the pandemic – revealed that 19.2% were positive for COVID-19, Leah F. Moriarty, MPH, and associates reported in the Morbidity and Mortality Weekly Report.

At the time of testing, 46.5% (331) of the 712 infected individuals were asymptomatic, and “statistical models of the Diamond Princess outbreak suggest that 17.9% of infected persons never developed symptoms,” wrote Ms. Moriarty of the CDC COVID-19 response team, and associates.

RNA from the SARS-CoV-2 virus was found on surfaces in cabins up to 17 days after they had been vacated by passengers but before the cabins had been disinfected, the investigators noted.

The Diamond Princess departed from Yokohama, Japan, on Jan. 20, 2020, and returned on Feb. 3 after making six stops in three countries. The ship was quarantined upon its return because a symptomatic passenger who had departed Jan. 25 in Hong Kong tested positive for SARS-CoV-2, Ms. Moriarty and associates explained.

Of the 381 people from the ship who were symptomatic and tested positive, 37 (9.7%) needed intensive care and 9 (1.3%) died. There were 428 Americans on the ship, of whom 107 (25.0%) tested positive and 11 remained hospitalized in Japan as of March 13, they said.

“Many other cruise ships have since been implicated in SARS-CoV-2 transmission,” the investigators said, including the Grand Princess, which sailed out of San Francisco with 3,571 people on Feb. 21 and returned to Oakland on March 8.

That ship had been the site of virus transmission during its previous voyage from Feb. 11 to Feb. 21, from which more than 20 cases have been identified. During the latter trip, 21 of 45 passengers and crew tested positive before the ship docked. During the subsequent land-based quarantine, there have been 78 positive tests among the 469 people tested as of March 21, a rate of 16.6%, the research team reported.

“Public health responses to cruise ship outbreaks require extensive resources,” they wrote. “These responses required the coordination of stakeholders across multiple sectors, including U.S. government departments and agencies, foreign ministries of health, foreign embassies, state and local public health departments, hospitals, laboratories, and cruise ship companies.”
 

[email protected]

SOURCE: Moriarty LF et al. MMWR. 2020 Mar 23;69[early release]:1-6.

As the novel coronavirus snaked its way across the globe, the Centers for Disease Control and Prevention in early February distributed 200 test kits it had produced to more than 100 public health labs run by states and counties nationwide.

Each kit contained material to test a mere 300-400 patients. And labs, whether serving the population of New York or tiny towns in rural America, apparently received the same kits.

The kits were distributed roughly equally to locales in all 50 states. That decision presaged weeks of chaos, in which the availability of COVID-19 tests seemed oddly out of sync with where testing was needed.

A woman in South Dakota with mild symptoms and no fever readily got the test and the results. Meanwhile, political leaders and public officials in places like New York, Boston, Seattle, and the San Francisco Bay area – all in the throes of serious outbreaks – couldn’t get enough tests to screen ill patients or, thereby, the information they needed to protect the general public and stem the outbreak of the virus, whose symptoms mimic those of common respiratory illnesses.

Rapid testing is crucial in the early stages of an outbreak. It allows health workers and families to identify and focus on treating those infected and isolate them.

Yet health officials in New York and such states as New York, Washington, Pennsylvania, and Georgia confirmed that they each initially got one test kit, calling into question whether they would have even stood a chance to contain the outbreaks that would emerge. They would soon discover that the tests they did receive were flawed, lacking critical components, and delivering faulty results.

During those early weeks, the virus took off, infecting thousands of people and leading to nationwide social distancing and sheltering in place. Public health officials are just beginning to grapple with the fallout from that early bungling of testing, which is likely to haunt the country in the months to come.
 

Too little too late

The first shipment to Washington state arrived more than 2 weeks after officials there announced the first U.S. case of coronavirus, and at a moment when deadly outbreaks of the disease were already festering in places like the Life Care Center in Kirkland. Within weeks, three dozen people infected with COVID-19 would die at the nursing home in the suburbs of Seattle.

The spread of COVID-19 would not take long to overwhelm the state, which as of March 20, 2020, had more than 1,300 cases.

The Trump administration in recent days has attempted to speed testing for the virus after early missteps hampered the government’s response to contain the contagion, and officials have had to respond to a barrage of criticism from public health experts, state officials, and members of Congress.

Federal health officials have eased the process for university and commercial labs to perform their own tests, and they are ramping up their capacity. As of March 16, public and private labs in the United States had the ability to test more than 36,000 people a day, according to estimates compiled by the American Enterprise Institute, a conservative-leaning think tank in Washington, a figure expected to rapidly escalate in coming weeks. That figure, however, can vary considerably by state and does not indicate how many tests are actually given to patients.

“We are now beginning to see that they have spread out in a prioritized way. We asked them to prioritize the regions that were mostly affected,” Deborah Birx, the coronavirus response coordinator for the White House Coronavirus Task Force, said March 18 of private labs’ testing, without elaboration.

The scaling up of testing is set to take place after weeks of faltering and hundreds, if not thousands, of undiagnosed people spreading the virus. For example, New York’s state health department received a faulty CDC test kit on Feb. 8 for 800 patient specimens, an amount that’s consistent with other states, according to a spokesperson. It later began testing patients with a test that state officials developed based on the CDC protocol and has significantly increased testing – as of March 20, more than 7,200 people had tested positive statewide.

In New York City, the first batch was obtained on Feb. 7.

“The other state and local public health laboratories got test kits as they became available,” said Eric Blank, chief program officer of the Association of Public Health Laboratories.

Places in the middle of the country with no outbreaks had the luxury of time to plan. For example, Missouri officials have had about 800 tests to work with, leading to only 395 performed so far in the region by public health labs – 26 of which were positive. When private lab tests are accounted for, as of March 20 there were 47 confirmed cases.

Health care providers and public health staff in the state, however, benefited from the fact that there is less international travel to the region, according to infectious disease expert Steven Lawrence, MD, of Washington University, St. Louis.

“This is very similar to 1918 with the influenza pandemic – St. Louis had more time to prepare and was able to put measures in place to flatten the curve than, say, Philadelphia,” Dr. Lawrence said. “Seattle didn’t have an opportunity to prepare as much in advance.”

While commercial labs are coming online, strict restrictions are limiting testing capabilities, Dr. Lawrence said.

“The state has had their hands tied,” he added.
 

Waiting And wondering

Because of a widespread lag in testing, it is still a mystery for thousands of people to know whether they’ve come into contact with an infected person until well after it happens. As of March 20, the pandemic had killed more than 11,000 globally. More than 16,000 Americans were confirmed infected and at least 216 have died.

“CDC will distribute tests based on where they can do the most good. But without hospital-based testing and commercial testing, it will not be possible to meet the need,” said Tom Frieden, who led the CDC during President Obama’s administration and is a former commissioner of the New York City Health Department.

In California, public school teacher Claire Dugan, whose state was among the hardest hit in the initial wave of U.S. coronavirus cases, was told she didn’t qualify for testing because she had not traveled abroad to any country with an outbreak of the virus or been in contact with an infected person. Ms. Dugan, who lives in the San Francisco Bay area and is already medically fragile after a stray bullet nearly killed her while driving 4 years ago, sought a test from her doctor after registering a temperature of 100.7° F earlier this month.

“There are a lot of layers as to why this is so messed up,” said Ms. Dugan, who relies on a feeding tube and said she sought a test not only to protect herself but her students. “It’s community spreading right now, so it’s kind of silly we’re still insisting on [the early criteria for testing]. How would I know?”

Since the CDC’s initial distribution, states have been reordering more tests through the office’s International Reagent Resource – a long-standing tool that public health labs have relied on. They have also revised testing protocols to use only one sample per person, which boosts the number of people screened.

Yet problems still abound with tests or other materials needed to be able to detect the virus. California Gov. Gavin Newsom (D) said on March 12 that county public health labs can’t use all of the 8,000 test kits the state has because they are missing key components.

In Pennsylvania, state officials weren’t able to begin testing until March 2 because of problems with the CDC’s initial kit, according to Nate Wardle, a spokesperson at its department of health. New York received two newly manufactured CDC test kits on Feb. 29 and also began performing tests March 2, according to its health department.

“We are still limited on extraction kits,” Mandy Cohen, the Health & Human Services secretary in North Carolina, said in an interview in mid-March. Officials earlier this month could test only 300 patients because of shortages in the extraction materials needed to register whether the novel coronavirus is present.

In North Dakota, Loralyn Hegland wrote her physician’s practice an email on March 10 with the subject line “dry cough,” wondering if she should come in for testing after learning that was one symptom of COVID-19. The recommendation she got echoes those of countless others across the United States, saying her risk of being exposed was very low because she hadn’t traveled outside the United States and had not come into contact with a person who had been “definitely” diagnosed with the virus.

Ms. Hegland, who lives in Fargo, didn’t have a fever but decided to shelter herself, anyway, out of caution.

Would she push to get a test?

“What’s the point?” she said. “You can’t know what you don’t know. It’s just that simple. How else do you explain it to people when you’re not testing?”

KHN Midwest correspondent Lauren Weber in St. Louis contributed to this article.

Kaiser Health News is a national health policy news service. It is an editorially independent program of the Henry J. Kaiser Family Foundation which is not affiliated with Kaiser Permanente.

As the novel coronavirus snaked its way across the globe, the Centers for Disease Control and Prevention in early February distributed 200 test kits it had produced to more than 100 public health labs run by states and counties nationwide.

Each kit contained material to test a mere 300-400 patients. And labs, whether serving the population of New York or tiny towns in rural America, apparently received the same kits.

The kits were distributed roughly equally to locales in all 50 states. That decision presaged weeks of chaos, in which the availability of COVID-19 tests seemed oddly out of sync with where testing was needed.

A woman in South Dakota with mild symptoms and no fever readily got the test and the results. Meanwhile, political leaders and public officials in places like New York, Boston, Seattle, and the San Francisco Bay area – all in the throes of serious outbreaks – couldn’t get enough tests to screen ill patients or, thereby, the information they needed to protect the general public and stem the outbreak of the virus, whose symptoms mimic those of common respiratory illnesses.

Rapid testing is crucial in the early stages of an outbreak. It allows health workers and families to identify and focus on treating those infected and isolate them.

Yet health officials in New York and such states as New York, Washington, Pennsylvania, and Georgia confirmed that they each initially got one test kit, calling into question whether they would have even stood a chance to contain the outbreaks that would emerge. They would soon discover that the tests they did receive were flawed, lacking critical components, and delivering faulty results.

During those early weeks, the virus took off, infecting thousands of people and leading to nationwide social distancing and sheltering in place. Public health officials are just beginning to grapple with the fallout from that early bungling of testing, which is likely to haunt the country in the months to come.
 

Too little too late

The first shipment to Washington state arrived more than 2 weeks after officials there announced the first U.S. case of coronavirus, and at a moment when deadly outbreaks of the disease were already festering in places like the Life Care Center in Kirkland. Within weeks, three dozen people infected with COVID-19 would die at the nursing home in the suburbs of Seattle.

The spread of COVID-19 would not take long to overwhelm the state, which as of March 20, 2020, had more than 1,300 cases.

The Trump administration in recent days has attempted to speed testing for the virus after early missteps hampered the government’s response to contain the contagion, and officials have had to respond to a barrage of criticism from public health experts, state officials, and members of Congress.

Federal health officials have eased the process for university and commercial labs to perform their own tests, and they are ramping up their capacity. As of March 16, public and private labs in the United States had the ability to test more than 36,000 people a day, according to estimates compiled by the American Enterprise Institute, a conservative-leaning think tank in Washington, a figure expected to rapidly escalate in coming weeks. That figure, however, can vary considerably by state and does not indicate how many tests are actually given to patients.

“We are now beginning to see that they have spread out in a prioritized way. We asked them to prioritize the regions that were mostly affected,” Deborah Birx, the coronavirus response coordinator for the White House Coronavirus Task Force, said March 18 of private labs’ testing, without elaboration.

The scaling up of testing is set to take place after weeks of faltering and hundreds, if not thousands, of undiagnosed people spreading the virus. For example, New York’s state health department received a faulty CDC test kit on Feb. 8 for 800 patient specimens, an amount that’s consistent with other states, according to a spokesperson. It later began testing patients with a test that state officials developed based on the CDC protocol and has significantly increased testing – as of March 20, more than 7,200 people had tested positive statewide.

In New York City, the first batch was obtained on Feb. 7.

“The other state and local public health laboratories got test kits as they became available,” said Eric Blank, chief program officer of the Association of Public Health Laboratories.

Places in the middle of the country with no outbreaks had the luxury of time to plan. For example, Missouri officials have had about 800 tests to work with, leading to only 395 performed so far in the region by public health labs – 26 of which were positive. When private lab tests are accounted for, as of March 20 there were 47 confirmed cases.

Health care providers and public health staff in the state, however, benefited from the fact that there is less international travel to the region, according to infectious disease expert Steven Lawrence, MD, of Washington University, St. Louis.

“This is very similar to 1918 with the influenza pandemic – St. Louis had more time to prepare and was able to put measures in place to flatten the curve than, say, Philadelphia,” Dr. Lawrence said. “Seattle didn’t have an opportunity to prepare as much in advance.”

While commercial labs are coming online, strict restrictions are limiting testing capabilities, Dr. Lawrence said.

“The state has had their hands tied,” he added.
 

Waiting And wondering

Because of a widespread lag in testing, it is still a mystery for thousands of people to know whether they’ve come into contact with an infected person until well after it happens. As of March 20, the pandemic had killed more than 11,000 globally. More than 16,000 Americans were confirmed infected and at least 216 have died.

“CDC will distribute tests based on where they can do the most good. But without hospital-based testing and commercial testing, it will not be possible to meet the need,” said Tom Frieden, who led the CDC during President Obama’s administration and is a former commissioner of the New York City Health Department.

In California, public school teacher Claire Dugan, whose state was among the hardest hit in the initial wave of U.S. coronavirus cases, was told she didn’t qualify for testing because she had not traveled abroad to any country with an outbreak of the virus or been in contact with an infected person. Ms. Dugan, who lives in the San Francisco Bay area and is already medically fragile after a stray bullet nearly killed her while driving 4 years ago, sought a test from her doctor after registering a temperature of 100.7° F earlier this month.

“There are a lot of layers as to why this is so messed up,” said Ms. Dugan, who relies on a feeding tube and said she sought a test not only to protect herself but her students. “It’s community spreading right now, so it’s kind of silly we’re still insisting on [the early criteria for testing]. How would I know?”

Since the CDC’s initial distribution, states have been reordering more tests through the office’s International Reagent Resource – a long-standing tool that public health labs have relied on. They have also revised testing protocols to use only one sample per person, which boosts the number of people screened.

Yet problems still abound with tests or other materials needed to be able to detect the virus. California Gov. Gavin Newsom (D) said on March 12 that county public health labs can’t use all of the 8,000 test kits the state has because they are missing key components.

In Pennsylvania, state officials weren’t able to begin testing until March 2 because of problems with the CDC’s initial kit, according to Nate Wardle, a spokesperson at its department of health. New York received two newly manufactured CDC test kits on Feb. 29 and also began performing tests March 2, according to its health department.

“We are still limited on extraction kits,” Mandy Cohen, the Health & Human Services secretary in North Carolina, said in an interview in mid-March. Officials earlier this month could test only 300 patients because of shortages in the extraction materials needed to register whether the novel coronavirus is present.

In North Dakota, Loralyn Hegland wrote her physician’s practice an email on March 10 with the subject line “dry cough,” wondering if she should come in for testing after learning that was one symptom of COVID-19. The recommendation she got echoes those of countless others across the United States, saying her risk of being exposed was very low because she hadn’t traveled outside the United States and had not come into contact with a person who had been “definitely” diagnosed with the virus.

Ms. Hegland, who lives in Fargo, didn’t have a fever but decided to shelter herself, anyway, out of caution.

Would she push to get a test?

“What’s the point?” she said. “You can’t know what you don’t know. It’s just that simple. How else do you explain it to people when you’re not testing?”

KHN Midwest correspondent Lauren Weber in St. Louis contributed to this article.

Kaiser Health News is a national health policy news service. It is an editorially independent program of the Henry J. Kaiser Family Foundation which is not affiliated with Kaiser Permanente.

As the novel coronavirus snaked its way across the globe, the Centers for Disease Control and Prevention in early February distributed 200 test kits it had produced to more than 100 public health labs run by states and counties nationwide.

Each kit contained material to test a mere 300-400 patients. And labs, whether serving the population of New York or tiny towns in rural America, apparently received the same kits.

The kits were distributed roughly equally to locales in all 50 states. That decision presaged weeks of chaos, in which the availability of COVID-19 tests seemed oddly out of sync with where testing was needed.

A woman in South Dakota with mild symptoms and no fever readily got the test and the results. Meanwhile, political leaders and public officials in places like New York, Boston, Seattle, and the San Francisco Bay area – all in the throes of serious outbreaks – couldn’t get enough tests to screen ill patients or, thereby, the information they needed to protect the general public and stem the outbreak of the virus, whose symptoms mimic those of common respiratory illnesses.

Rapid testing is crucial in the early stages of an outbreak. It allows health workers and families to identify and focus on treating those infected and isolate them.

Yet health officials in New York and such states as New York, Washington, Pennsylvania, and Georgia confirmed that they each initially got one test kit, calling into question whether they would have even stood a chance to contain the outbreaks that would emerge. They would soon discover that the tests they did receive were flawed, lacking critical components, and delivering faulty results.

During those early weeks, the virus took off, infecting thousands of people and leading to nationwide social distancing and sheltering in place. Public health officials are just beginning to grapple with the fallout from that early bungling of testing, which is likely to haunt the country in the months to come.
 

Too little too late

The first shipment to Washington state arrived more than 2 weeks after officials there announced the first U.S. case of coronavirus, and at a moment when deadly outbreaks of the disease were already festering in places like the Life Care Center in Kirkland. Within weeks, three dozen people infected with COVID-19 would die at the nursing home in the suburbs of Seattle.

The spread of COVID-19 would not take long to overwhelm the state, which as of March 20, 2020, had more than 1,300 cases.

The Trump administration in recent days has attempted to speed testing for the virus after early missteps hampered the government’s response to contain the contagion, and officials have had to respond to a barrage of criticism from public health experts, state officials, and members of Congress.

Federal health officials have eased the process for university and commercial labs to perform their own tests, and they are ramping up their capacity. As of March 16, public and private labs in the United States had the ability to test more than 36,000 people a day, according to estimates compiled by the American Enterprise Institute, a conservative-leaning think tank in Washington, a figure expected to rapidly escalate in coming weeks. That figure, however, can vary considerably by state and does not indicate how many tests are actually given to patients.

“We are now beginning to see that they have spread out in a prioritized way. We asked them to prioritize the regions that were mostly affected,” Deborah Birx, the coronavirus response coordinator for the White House Coronavirus Task Force, said March 18 of private labs’ testing, without elaboration.

The scaling up of testing is set to take place after weeks of faltering and hundreds, if not thousands, of undiagnosed people spreading the virus. For example, New York’s state health department received a faulty CDC test kit on Feb. 8 for 800 patient specimens, an amount that’s consistent with other states, according to a spokesperson. It later began testing patients with a test that state officials developed based on the CDC protocol and has significantly increased testing – as of March 20, more than 7,200 people had tested positive statewide.

In New York City, the first batch was obtained on Feb. 7.

“The other state and local public health laboratories got test kits as they became available,” said Eric Blank, chief program officer of the Association of Public Health Laboratories.

Places in the middle of the country with no outbreaks had the luxury of time to plan. For example, Missouri officials have had about 800 tests to work with, leading to only 395 performed so far in the region by public health labs – 26 of which were positive. When private lab tests are accounted for, as of March 20 there were 47 confirmed cases.

Health care providers and public health staff in the state, however, benefited from the fact that there is less international travel to the region, according to infectious disease expert Steven Lawrence, MD, of Washington University, St. Louis.

“This is very similar to 1918 with the influenza pandemic – St. Louis had more time to prepare and was able to put measures in place to flatten the curve than, say, Philadelphia,” Dr. Lawrence said. “Seattle didn’t have an opportunity to prepare as much in advance.”

While commercial labs are coming online, strict restrictions are limiting testing capabilities, Dr. Lawrence said.

“The state has had their hands tied,” he added.
 

Waiting And wondering

Because of a widespread lag in testing, it is still a mystery for thousands of people to know whether they’ve come into contact with an infected person until well after it happens. As of March 20, the pandemic had killed more than 11,000 globally. More than 16,000 Americans were confirmed infected and at least 216 have died.

“CDC will distribute tests based on where they can do the most good. But without hospital-based testing and commercial testing, it will not be possible to meet the need,” said Tom Frieden, who led the CDC during President Obama’s administration and is a former commissioner of the New York City Health Department.

In California, public school teacher Claire Dugan, whose state was among the hardest hit in the initial wave of U.S. coronavirus cases, was told she didn’t qualify for testing because she had not traveled abroad to any country with an outbreak of the virus or been in contact with an infected person. Ms. Dugan, who lives in the San Francisco Bay area and is already medically fragile after a stray bullet nearly killed her while driving 4 years ago, sought a test from her doctor after registering a temperature of 100.7° F earlier this month.

“There are a lot of layers as to why this is so messed up,” said Ms. Dugan, who relies on a feeding tube and said she sought a test not only to protect herself but her students. “It’s community spreading right now, so it’s kind of silly we’re still insisting on [the early criteria for testing]. How would I know?”

Since the CDC’s initial distribution, states have been reordering more tests through the office’s International Reagent Resource – a long-standing tool that public health labs have relied on. They have also revised testing protocols to use only one sample per person, which boosts the number of people screened.

Yet problems still abound with tests or other materials needed to be able to detect the virus. California Gov. Gavin Newsom (D) said on March 12 that county public health labs can’t use all of the 8,000 test kits the state has because they are missing key components.

In Pennsylvania, state officials weren’t able to begin testing until March 2 because of problems with the CDC’s initial kit, according to Nate Wardle, a spokesperson at its department of health. New York received two newly manufactured CDC test kits on Feb. 29 and also began performing tests March 2, according to its health department.

“We are still limited on extraction kits,” Mandy Cohen, the Health & Human Services secretary in North Carolina, said in an interview in mid-March. Officials earlier this month could test only 300 patients because of shortages in the extraction materials needed to register whether the novel coronavirus is present.

In North Dakota, Loralyn Hegland wrote her physician’s practice an email on March 10 with the subject line “dry cough,” wondering if she should come in for testing after learning that was one symptom of COVID-19. The recommendation she got echoes those of countless others across the United States, saying her risk of being exposed was very low because she hadn’t traveled outside the United States and had not come into contact with a person who had been “definitely” diagnosed with the virus.

Ms. Hegland, who lives in Fargo, didn’t have a fever but decided to shelter herself, anyway, out of caution.

Would she push to get a test?

“What’s the point?” she said. “You can’t know what you don’t know. It’s just that simple. How else do you explain it to people when you’re not testing?”

KHN Midwest correspondent Lauren Weber in St. Louis contributed to this article.

Kaiser Health News is a national health policy news service. It is an editorially independent program of the Henry J. Kaiser Family Foundation which is not affiliated with Kaiser Permanente.

Disenfranchisement undeniably remains a major problem across the United States. While it is challenging for health care providers to find time to vote, hospitalized patients are an underrecognized vulnerable group, often unable to exercise this constitutional right. With the 2020 election approaching, voting is as important as ever.

On morning rounds after the 2018 election, we discussed the impact of a changing majority in the House of Representatives and its potential impact on health care in America. We discussed where, when, and how we voted, and then suddenly considered a question that we were unable to answer: How do our hospitalized patients vote and did any of them vote in this important election?

Inpatients rarely know when or how long they will be hospitalized. They often have no chance to prepare by paying bills, arranging care for loved ones, or finding coverage for employment responsibilities. The sickest patients can do little more than wonder about anything other than their short-term health. As a result of restricted voting laws, they, like too many others, are effectively disenfranchised.

We asked administrators in multiple hospitals across New York City how to help our patients vote. Unfortunately, the process is overwhelmingly complex and varies by state. Absentee ballots, which are easily accessible in New York if it they are requested no later than 7 days before the election, are harder to come by on the same day. Most people struggle to vote in general – with only 61% voting in the 2016 election.¹ To combat this, individual hospitals have created initiatives such as Penn Votes, which has helped 65 hospitalized Pennsylvania residents vote in the last three elections² – a success, but still leaving so many without a voice.

With health care being a major policy issue for the 2020 election, voting has never been more important for patients. With nearly 1 million hospital beds in America,³ hospitalized patients represent a significant number of potential voters who are functionally disenfranchised. Most importantly, these patients are directly under our care, and we are their strongest advocates. Therefore, we ask our fellow health care providers to start planning today how we will help our patients exercise their voices, participate in our health care policy debate, and choose the future leaders of our country.

Dr. Rosenblatt is assistant professor of medicine, Division of Gastroenterology and Hepatology, at Weill Cornell Medicine, New York. Dr. Verna is assistant professor of medicine, Department of Surgery, at Columbia University Irving Medical School, New York. Dr. Rosenblatt and Dr. Verna reported having no relevant conflicts of interest.

References

1. File T. Voting in America: A Look at the 2016 Presidential Election [Internet]. 2017 [cited 2020 Jan 7];Available from: https://www.census.gov/newsroom/blogs/random-samplings/2017/05/voting_in_america.html.

2. Vigodner S. Penn students are helping hospitalized patients cast emergency ballots for Tuesday’s election [Internet]. Dly. Pennsylvanian. 2018;Available from: https://www.thedp.com/article/2018/11/penn-med-votes-emergency-hospital-patients-upenn-philadelphia-elections.

3. Association AH. Fast facts on US hospitals [Internet]. 2019 [cited 2020 Jan 7];Available from: https://www.aha.org/statistics/fast-facts-us-hospitals.

Disenfranchisement undeniably remains a major problem across the United States. While it is challenging for health care providers to find time to vote, hospitalized patients are an underrecognized vulnerable group, often unable to exercise this constitutional right. With the 2020 election approaching, voting is as important as ever.

On morning rounds after the 2018 election, we discussed the impact of a changing majority in the House of Representatives and its potential impact on health care in America. We discussed where, when, and how we voted, and then suddenly considered a question that we were unable to answer: How do our hospitalized patients vote and did any of them vote in this important election?

Inpatients rarely know when or how long they will be hospitalized. They often have no chance to prepare by paying bills, arranging care for loved ones, or finding coverage for employment responsibilities. The sickest patients can do little more than wonder about anything other than their short-term health. As a result of restricted voting laws, they, like too many others, are effectively disenfranchised.

We asked administrators in multiple hospitals across New York City how to help our patients vote. Unfortunately, the process is overwhelmingly complex and varies by state. Absentee ballots, which are easily accessible in New York if it they are requested no later than 7 days before the election, are harder to come by on the same day. Most people struggle to vote in general – with only 61% voting in the 2016 election.¹ To combat this, individual hospitals have created initiatives such as Penn Votes, which has helped 65 hospitalized Pennsylvania residents vote in the last three elections² – a success, but still leaving so many without a voice.

With health care being a major policy issue for the 2020 election, voting has never been more important for patients. With nearly 1 million hospital beds in America,³ hospitalized patients represent a significant number of potential voters who are functionally disenfranchised. Most importantly, these patients are directly under our care, and we are their strongest advocates. Therefore, we ask our fellow health care providers to start planning today how we will help our patients exercise their voices, participate in our health care policy debate, and choose the future leaders of our country.

Dr. Rosenblatt is assistant professor of medicine, Division of Gastroenterology and Hepatology, at Weill Cornell Medicine, New York. Dr. Verna is assistant professor of medicine, Department of Surgery, at Columbia University Irving Medical School, New York. Dr. Rosenblatt and Dr. Verna reported having no relevant conflicts of interest.

References

1. File T. Voting in America: A Look at the 2016 Presidential Election [Internet]. 2017 [cited 2020 Jan 7];Available from: https://www.census.gov/newsroom/blogs/random-samplings/2017/05/voting_in_america.html.

2. Vigodner S. Penn students are helping hospitalized patients cast emergency ballots for Tuesday’s election [Internet]. Dly. Pennsylvanian. 2018;Available from: https://www.thedp.com/article/2018/11/penn-med-votes-emergency-hospital-patients-upenn-philadelphia-elections.

3. Association AH. Fast facts on US hospitals [Internet]. 2019 [cited 2020 Jan 7];Available from: https://www.aha.org/statistics/fast-facts-us-hospitals.

Disenfranchisement undeniably remains a major problem across the United States. While it is challenging for health care providers to find time to vote, hospitalized patients are an underrecognized vulnerable group, often unable to exercise this constitutional right. With the 2020 election approaching, voting is as important as ever.

On morning rounds after the 2018 election, we discussed the impact of a changing majority in the House of Representatives and its potential impact on health care in America. We discussed where, when, and how we voted, and then suddenly considered a question that we were unable to answer: How do our hospitalized patients vote and did any of them vote in this important election?

Inpatients rarely know when or how long they will be hospitalized. They often have no chance to prepare by paying bills, arranging care for loved ones, or finding coverage for employment responsibilities. The sickest patients can do little more than wonder about anything other than their short-term health. As a result of restricted voting laws, they, like too many others, are effectively disenfranchised.

We asked administrators in multiple hospitals across New York City how to help our patients vote. Unfortunately, the process is overwhelmingly complex and varies by state. Absentee ballots, which are easily accessible in New York if it they are requested no later than 7 days before the election, are harder to come by on the same day. Most people struggle to vote in general – with only 61% voting in the 2016 election.¹ To combat this, individual hospitals have created initiatives such as Penn Votes, which has helped 65 hospitalized Pennsylvania residents vote in the last three elections² – a success, but still leaving so many without a voice.

With health care being a major policy issue for the 2020 election, voting has never been more important for patients. With nearly 1 million hospital beds in America,³ hospitalized patients represent a significant number of potential voters who are functionally disenfranchised. Most importantly, these patients are directly under our care, and we are their strongest advocates. Therefore, we ask our fellow health care providers to start planning today how we will help our patients exercise their voices, participate in our health care policy debate, and choose the future leaders of our country.

Dr. Rosenblatt is assistant professor of medicine, Division of Gastroenterology and Hepatology, at Weill Cornell Medicine, New York. Dr. Verna is assistant professor of medicine, Department of Surgery, at Columbia University Irving Medical School, New York. Dr. Rosenblatt and Dr. Verna reported having no relevant conflicts of interest.

References

1. File T. Voting in America: A Look at the 2016 Presidential Election [Internet]. 2017 [cited 2020 Jan 7];Available from: https://www.census.gov/newsroom/blogs/random-samplings/2017/05/voting_in_america.html.

2. Vigodner S. Penn students are helping hospitalized patients cast emergency ballots for Tuesday’s election [Internet]. Dly. Pennsylvanian. 2018;Available from: https://www.thedp.com/article/2018/11/penn-med-votes-emergency-hospital-patients-upenn-philadelphia-elections.

3. Association AH. Fast facts on US hospitals [Internet]. 2019 [cited 2020 Jan 7];Available from: https://www.aha.org/statistics/fast-facts-us-hospitals.

The American Medical Association is offering on its website various published resources to assist physicians on the front lines of the COVID-19 pandemic.

The literature include news, advocacy, and other information to help front-line physicians provide care to patients and keep themselves safe “in a rapidly changing environment,” the organization said in a statement.

“The AMA continues to forcefully advocate for [personal protective equipment] and critical policy and regulatory changes needed to address our public health and health system needs. Because so many of the challenges of the pandemic are felt at a practice level, we are also providing new tools and information to help physicians respond,” AMA President Patrice A. Harris, MD, said in the statement.

The COVID-19 physician and practice resources released by the AMA include:

• A Physicians Guide to COVID-19 .
• An AMA COVID-19 online resource center and a COVID-19 FAQ.
• A Quick Guide to Telemedicine in Practice.
• Ethical guidance for physicians .
• Evidence-based resources from the The JAMA Network COVID-19 Resource Center.
• CME for physicians through the JAMA Network’s JN Learning website.

[email protected]

The American Medical Association is offering on its website various published resources to assist physicians on the front lines of the COVID-19 pandemic.

The literature include news, advocacy, and other information to help front-line physicians provide care to patients and keep themselves safe “in a rapidly changing environment,” the organization said in a statement.

“The AMA continues to forcefully advocate for [personal protective equipment] and critical policy and regulatory changes needed to address our public health and health system needs. Because so many of the challenges of the pandemic are felt at a practice level, we are also providing new tools and information to help physicians respond,” AMA President Patrice A. Harris, MD, said in the statement.

The COVID-19 physician and practice resources released by the AMA include:

• A Physicians Guide to COVID-19 .
• An AMA COVID-19 online resource center and a COVID-19 FAQ.
• A Quick Guide to Telemedicine in Practice.
• Ethical guidance for physicians .
• Evidence-based resources from the The JAMA Network COVID-19 Resource Center.
• CME for physicians through the JAMA Network’s JN Learning website.

[email protected]

The American Medical Association is offering on its website various published resources to assist physicians on the front lines of the COVID-19 pandemic.

The literature include news, advocacy, and other information to help front-line physicians provide care to patients and keep themselves safe “in a rapidly changing environment,” the organization said in a statement.

“The AMA continues to forcefully advocate for [personal protective equipment] and critical policy and regulatory changes needed to address our public health and health system needs. Because so many of the challenges of the pandemic are felt at a practice level, we are also providing new tools and information to help physicians respond,” AMA President Patrice A. Harris, MD, said in the statement.

The COVID-19 physician and practice resources released by the AMA include:

• A Physicians Guide to COVID-19 .
• An AMA COVID-19 online resource center and a COVID-19 FAQ.
• A Quick Guide to Telemedicine in Practice.
• Ethical guidance for physicians .
• Evidence-based resources from the The JAMA Network COVID-19 Resource Center.
• CME for physicians through the JAMA Network’s JN Learning website.

[email protected]

As we deal with the effects of the COVID-19 pandemic, hand washing and the use of hand sanitizers have been key for infection prevention. With drier, colder weather in many of the communities initially affected by COVID-19, skin was already prone to dryness and a skin barrier compromised, and hand eczema was more prevalent because of these factors alone. This article explores the effects of hand washing and hand sanitizer on skin and how this prevents infection, and explores methods to promote skin health while maintaining the maximum possible degree of infection prevention.

With many viruses, including coronavirus, the virus is a self-assembled nanoparticle in which the most vulnerable structure is the outer lipid bilayer. Soaps dissolve the lipid membrane and the virus breaks apart, inactivating it; they are also alkaline surfactants that pick up particles – including dirt, bacteria, and viruses – which are removed from the surface of the skin when the soaps are rinsed off. In the process of washing, the alkalinity of the soap (pH approximately 9-10), compared with the normal outer skin pH of approximately 5.5 or lower, also can affect the skin barrier as well as the resident skin microflora. In a study by Lambers et al., it was found that an acid skin pH (4-4.5) keeps the resident bacterial flora attached to the skin, whereas an alkaline pH (8-9) promotes the dispersal from the skin in assessments of the volar forearm.

With regard to the effectiveness of hand washing against viruses, the length of time spent hand washing has been shown to have an impact on influenza-like illness. In a recent study of 2,082 participants by Bin Abdulrahman et al., those who spent only 5-10 seconds hand washing with soap and hand rubbing were at a higher risk of more frequent influenza-like illness (odds ratio, 1.37; 95% confidence interval, 1.08-1.75), compared with those who washed their hands for 15 seconds or longer. Moreover, hand washing with soap and rubbing after shaking hands was found to be an independent protective factor against frequent influenza-like illness (adjusted OR, 0.59; 95% confidence interval, 0.37-0.94). Previous studies on the impact of hand washing on bacterial and parasitic illnesses also found similar results: Hand washing for 15-20 seconds or longer reduces infection.

Alcohol, long known as a disinfectant, has been recommended for disinfecting the hands since the late 1800s. Most alcohol-based hand antiseptics contain isopropanol, ethanol, N-propanol, or a combination of two of these products. The antimicrobial activity of alcohols can be attributed to their ability to denature and coagulate proteins, thereby lysing microorganisms’ cells, and disrupting their cellular metabolism. Alcohol solutions containing 60%-95% alcohol are the most effective. Notably, very high concentrations of alcohol are less potent because less water is found in higher concentrations of alcohol and proteins are not denatured easily in the absence of water. Alcohol-based hand sanitizers also often contain humectants, such as glycerin and/or aloe vera, to help prevent skin dryness and replace water content that is stripped by the use of alcohol on the skin surface.

In the case of SARS, treatment of SARS-CoV with povidone-iodine products for 2 minutes reduced virus infectivity to below the detectable level, equivalent to the effect of ethanol, in one study. Formalin fixation of the infected cells and heating the virus to 56° C, as used in routine tissue processing, were found to inactivate several coronaviruses as well. Based on this information, ethanol-based hand sanitizers, typically containing ethanol content of 60% or higher, can be used to inactivate coronaviruses on the skin, including COVID-19.

In patients with influenza-virus infections, whether pathogens were in wet or dried mucus played a role in whether hand washing or rubbing with hand sanitizer was more effective. In a study that examined the effects of hand washing versus antiseptic hand rubbing with an ethanol-based hand disinfectant on inactivation of influenza A virus adhered to the hands, the investigators showed that the effectiveness of the ethanol-based disinfectant against influenza A virus in mucus was reduced, compared with influenza A virus in saline. Influenza A in mucus remained active, despite 120 seconds of hand rubbing with hand sanitizer; however, influenza A in saline was completely inactivated within 30 seconds. Interestingly, rubbing hands with an ethanol-based disinfectant inactivated influenza A virus in mucus within 30 seconds with mucus that had dried completely because the hydrogel characteristics had been eliminated. Hand washing rapidly inactivated influenza A virus whether in mucus form, saline, or dried mucous.

It is important to note that in COVID-19 infections, a productive cough or rhinorrhea are not as common compared with dry cough. Regardless, the findings of the study described above should be considered if mucous symptoms develop during a COVID-19 infection when determining infection control. Luckily, with COVID-19, both hand washing and use of an ethanol-based hand sanitizer are seemingly effective in inactivating the virus or removing it from the skin surface.

After frequent hand washing, we all can experience dryness and potentially cracked skin as well. With hand sanitizer, the alcohol content can also cause burning of skin, especially compromised skin.

Vanilloid receptor-1 (VR1), a heat-gated ion channel, is responsible for the burning sensation caused by capsaicin. Ethanol lowers the amount of heat needed to turn on VR1 nocioceptive pain receptors by almost ten degrees, resulting in a potential burning sensation when applied.

Nails are affected as well with frequent hand washing and/or application of hand sanitizer and can become cracked or brittle. Contact dermatitis, both irritant and allergic, can occur with increased use of disinfectants, particularly household cleaners without proper barrier protection.

Dr. Wesley and Dr. Talakoub are cocontributors to this column. Dr. Wesley practices dermatology in Beverly Hills, Calif. Dr. Talakoub is in private practice in McLean, Va. This month’s column is by Dr. Wesley. They had no relevant disclosures. Write to them at [email protected].
 

Resources

Lambers H et al. Int J Cosmet Sci. 2006 Oct;28(5):359-70.

Bin Abdulrahman AK et al. BMC Public Health. 2019 Oct 22;19(1):1324. doi: 10.1186/s12889-019-77.

Kariwa H et al. Dermatology. 2006;212 Suppl 1:119-23.

HIrose R et al. mSphere. 2019 Sep 18;4(5). pii: e00474-19. doi: 10.1128/mSphere.00474-19.

Trevisani M et al. Nat Neurosci. 2002 Jun;5(6):546-51.

Yan Y et al. Dermatol Ther. 2020 Mar 13:e13310. doi: 10.1111/dth.13310.

As we deal with the effects of the COVID-19 pandemic, hand washing and the use of hand sanitizers have been key for infection prevention. With drier, colder weather in many of the communities initially affected by COVID-19, skin was already prone to dryness and a skin barrier compromised, and hand eczema was more prevalent because of these factors alone. This article explores the effects of hand washing and hand sanitizer on skin and how this prevents infection, and explores methods to promote skin health while maintaining the maximum possible degree of infection prevention.

With many viruses, including coronavirus, the virus is a self-assembled nanoparticle in which the most vulnerable structure is the outer lipid bilayer. Soaps dissolve the lipid membrane and the virus breaks apart, inactivating it; they are also alkaline surfactants that pick up particles – including dirt, bacteria, and viruses – which are removed from the surface of the skin when the soaps are rinsed off. In the process of washing, the alkalinity of the soap (pH approximately 9-10), compared with the normal outer skin pH of approximately 5.5 or lower, also can affect the skin barrier as well as the resident skin microflora. In a study by Lambers et al., it was found that an acid skin pH (4-4.5) keeps the resident bacterial flora attached to the skin, whereas an alkaline pH (8-9) promotes the dispersal from the skin in assessments of the volar forearm.

With regard to the effectiveness of hand washing against viruses, the length of time spent hand washing has been shown to have an impact on influenza-like illness. In a recent study of 2,082 participants by Bin Abdulrahman et al., those who spent only 5-10 seconds hand washing with soap and hand rubbing were at a higher risk of more frequent influenza-like illness (odds ratio, 1.37; 95% confidence interval, 1.08-1.75), compared with those who washed their hands for 15 seconds or longer. Moreover, hand washing with soap and rubbing after shaking hands was found to be an independent protective factor against frequent influenza-like illness (adjusted OR, 0.59; 95% confidence interval, 0.37-0.94). Previous studies on the impact of hand washing on bacterial and parasitic illnesses also found similar results: Hand washing for 15-20 seconds or longer reduces infection.

Alcohol, long known as a disinfectant, has been recommended for disinfecting the hands since the late 1800s. Most alcohol-based hand antiseptics contain isopropanol, ethanol, N-propanol, or a combination of two of these products. The antimicrobial activity of alcohols can be attributed to their ability to denature and coagulate proteins, thereby lysing microorganisms’ cells, and disrupting their cellular metabolism. Alcohol solutions containing 60%-95% alcohol are the most effective. Notably, very high concentrations of alcohol are less potent because less water is found in higher concentrations of alcohol and proteins are not denatured easily in the absence of water. Alcohol-based hand sanitizers also often contain humectants, such as glycerin and/or aloe vera, to help prevent skin dryness and replace water content that is stripped by the use of alcohol on the skin surface.

In the case of SARS, treatment of SARS-CoV with povidone-iodine products for 2 minutes reduced virus infectivity to below the detectable level, equivalent to the effect of ethanol, in one study. Formalin fixation of the infected cells and heating the virus to 56° C, as used in routine tissue processing, were found to inactivate several coronaviruses as well. Based on this information, ethanol-based hand sanitizers, typically containing ethanol content of 60% or higher, can be used to inactivate coronaviruses on the skin, including COVID-19.

In patients with influenza-virus infections, whether pathogens were in wet or dried mucus played a role in whether hand washing or rubbing with hand sanitizer was more effective. In a study that examined the effects of hand washing versus antiseptic hand rubbing with an ethanol-based hand disinfectant on inactivation of influenza A virus adhered to the hands, the investigators showed that the effectiveness of the ethanol-based disinfectant against influenza A virus in mucus was reduced, compared with influenza A virus in saline. Influenza A in mucus remained active, despite 120 seconds of hand rubbing with hand sanitizer; however, influenza A in saline was completely inactivated within 30 seconds. Interestingly, rubbing hands with an ethanol-based disinfectant inactivated influenza A virus in mucus within 30 seconds with mucus that had dried completely because the hydrogel characteristics had been eliminated. Hand washing rapidly inactivated influenza A virus whether in mucus form, saline, or dried mucous.

It is important to note that in COVID-19 infections, a productive cough or rhinorrhea are not as common compared with dry cough. Regardless, the findings of the study described above should be considered if mucous symptoms develop during a COVID-19 infection when determining infection control. Luckily, with COVID-19, both hand washing and use of an ethanol-based hand sanitizer are seemingly effective in inactivating the virus or removing it from the skin surface.

After frequent hand washing, we all can experience dryness and potentially cracked skin as well. With hand sanitizer, the alcohol content can also cause burning of skin, especially compromised skin.

Vanilloid receptor-1 (VR1), a heat-gated ion channel, is responsible for the burning sensation caused by capsaicin. Ethanol lowers the amount of heat needed to turn on VR1 nocioceptive pain receptors by almost ten degrees, resulting in a potential burning sensation when applied.

Nails are affected as well with frequent hand washing and/or application of hand sanitizer and can become cracked or brittle. Contact dermatitis, both irritant and allergic, can occur with increased use of disinfectants, particularly household cleaners without proper barrier protection.

Dr. Wesley and Dr. Talakoub are cocontributors to this column. Dr. Wesley practices dermatology in Beverly Hills, Calif. Dr. Talakoub is in private practice in McLean, Va. This month’s column is by Dr. Wesley. They had no relevant disclosures. Write to them at [email protected].
 

Resources

Lambers H et al. Int J Cosmet Sci. 2006 Oct;28(5):359-70.

Bin Abdulrahman AK et al. BMC Public Health. 2019 Oct 22;19(1):1324. doi: 10.1186/s12889-019-77.

Kariwa H et al. Dermatology. 2006;212 Suppl 1:119-23.

HIrose R et al. mSphere. 2019 Sep 18;4(5). pii: e00474-19. doi: 10.1128/mSphere.00474-19.

Trevisani M et al. Nat Neurosci. 2002 Jun;5(6):546-51.

Yan Y et al. Dermatol Ther. 2020 Mar 13:e13310. doi: 10.1111/dth.13310.

As we deal with the effects of the COVID-19 pandemic, hand washing and the use of hand sanitizers have been key for infection prevention. With drier, colder weather in many of the communities initially affected by COVID-19, skin was already prone to dryness and a skin barrier compromised, and hand eczema was more prevalent because of these factors alone. This article explores the effects of hand washing and hand sanitizer on skin and how this prevents infection, and explores methods to promote skin health while maintaining the maximum possible degree of infection prevention.

With many viruses, including coronavirus, the virus is a self-assembled nanoparticle in which the most vulnerable structure is the outer lipid bilayer. Soaps dissolve the lipid membrane and the virus breaks apart, inactivating it; they are also alkaline surfactants that pick up particles – including dirt, bacteria, and viruses – which are removed from the surface of the skin when the soaps are rinsed off. In the process of washing, the alkalinity of the soap (pH approximately 9-10), compared with the normal outer skin pH of approximately 5.5 or lower, also can affect the skin barrier as well as the resident skin microflora. In a study by Lambers et al., it was found that an acid skin pH (4-4.5) keeps the resident bacterial flora attached to the skin, whereas an alkaline pH (8-9) promotes the dispersal from the skin in assessments of the volar forearm.

With regard to the effectiveness of hand washing against viruses, the length of time spent hand washing has been shown to have an impact on influenza-like illness. In a recent study of 2,082 participants by Bin Abdulrahman et al., those who spent only 5-10 seconds hand washing with soap and hand rubbing were at a higher risk of more frequent influenza-like illness (odds ratio, 1.37; 95% confidence interval, 1.08-1.75), compared with those who washed their hands for 15 seconds or longer. Moreover, hand washing with soap and rubbing after shaking hands was found to be an independent protective factor against frequent influenza-like illness (adjusted OR, 0.59; 95% confidence interval, 0.37-0.94). Previous studies on the impact of hand washing on bacterial and parasitic illnesses also found similar results: Hand washing for 15-20 seconds or longer reduces infection.

Alcohol, long known as a disinfectant, has been recommended for disinfecting the hands since the late 1800s. Most alcohol-based hand antiseptics contain isopropanol, ethanol, N-propanol, or a combination of two of these products. The antimicrobial activity of alcohols can be attributed to their ability to denature and coagulate proteins, thereby lysing microorganisms’ cells, and disrupting their cellular metabolism. Alcohol solutions containing 60%-95% alcohol are the most effective. Notably, very high concentrations of alcohol are less potent because less water is found in higher concentrations of alcohol and proteins are not denatured easily in the absence of water. Alcohol-based hand sanitizers also often contain humectants, such as glycerin and/or aloe vera, to help prevent skin dryness and replace water content that is stripped by the use of alcohol on the skin surface.

In the case of SARS, treatment of SARS-CoV with povidone-iodine products for 2 minutes reduced virus infectivity to below the detectable level, equivalent to the effect of ethanol, in one study. Formalin fixation of the infected cells and heating the virus to 56° C, as used in routine tissue processing, were found to inactivate several coronaviruses as well. Based on this information, ethanol-based hand sanitizers, typically containing ethanol content of 60% or higher, can be used to inactivate coronaviruses on the skin, including COVID-19.

In patients with influenza-virus infections, whether pathogens were in wet or dried mucus played a role in whether hand washing or rubbing with hand sanitizer was more effective. In a study that examined the effects of hand washing versus antiseptic hand rubbing with an ethanol-based hand disinfectant on inactivation of influenza A virus adhered to the hands, the investigators showed that the effectiveness of the ethanol-based disinfectant against influenza A virus in mucus was reduced, compared with influenza A virus in saline. Influenza A in mucus remained active, despite 120 seconds of hand rubbing with hand sanitizer; however, influenza A in saline was completely inactivated within 30 seconds. Interestingly, rubbing hands with an ethanol-based disinfectant inactivated influenza A virus in mucus within 30 seconds with mucus that had dried completely because the hydrogel characteristics had been eliminated. Hand washing rapidly inactivated influenza A virus whether in mucus form, saline, or dried mucous.

It is important to note that in COVID-19 infections, a productive cough or rhinorrhea are not as common compared with dry cough. Regardless, the findings of the study described above should be considered if mucous symptoms develop during a COVID-19 infection when determining infection control. Luckily, with COVID-19, both hand washing and use of an ethanol-based hand sanitizer are seemingly effective in inactivating the virus or removing it from the skin surface.

After frequent hand washing, we all can experience dryness and potentially cracked skin as well. With hand sanitizer, the alcohol content can also cause burning of skin, especially compromised skin.

Vanilloid receptor-1 (VR1), a heat-gated ion channel, is responsible for the burning sensation caused by capsaicin. Ethanol lowers the amount of heat needed to turn on VR1 nocioceptive pain receptors by almost ten degrees, resulting in a potential burning sensation when applied.

Nails are affected as well with frequent hand washing and/or application of hand sanitizer and can become cracked or brittle. Contact dermatitis, both irritant and allergic, can occur with increased use of disinfectants, particularly household cleaners without proper barrier protection.

Dr. Wesley and Dr. Talakoub are cocontributors to this column. Dr. Wesley practices dermatology in Beverly Hills, Calif. Dr. Talakoub is in private practice in McLean, Va. This month’s column is by Dr. Wesley. They had no relevant disclosures. Write to them at [email protected].
 

Resources

Lambers H et al. Int J Cosmet Sci. 2006 Oct;28(5):359-70.

Bin Abdulrahman AK et al. BMC Public Health. 2019 Oct 22;19(1):1324. doi: 10.1186/s12889-019-77.

Kariwa H et al. Dermatology. 2006;212 Suppl 1:119-23.

HIrose R et al. mSphere. 2019 Sep 18;4(5). pii: e00474-19. doi: 10.1128/mSphere.00474-19.

Trevisani M et al. Nat Neurosci. 2002 Jun;5(6):546-51.

Yan Y et al. Dermatol Ther. 2020 Mar 13:e13310. doi: 10.1111/dth.13310.

One of a smartphone’s simplest features has become a powerful communication and coordination tool for metro Seattle’s critical care departments.

Anne B. Lipke, MD, is the medical director of Swedish Medical Center’s Issaquah, Wash., campus in suburban Seattle. In an audio interview, Dr. Lipke explains how texting has become a fast, effective component of Seattle’s critical care response to COVID-19. And she offers lessons for physicians across the country who may soon be seeing situations similar to Seattle’s.

[email protected]

One of a smartphone’s simplest features has become a powerful communication and coordination tool for metro Seattle’s critical care departments.

Anne B. Lipke, MD, is the medical director of Swedish Medical Center’s Issaquah, Wash., campus in suburban Seattle. In an audio interview, Dr. Lipke explains how texting has become a fast, effective component of Seattle’s critical care response to COVID-19. And she offers lessons for physicians across the country who may soon be seeing situations similar to Seattle’s.

[email protected]

One of a smartphone’s simplest features has become a powerful communication and coordination tool for metro Seattle’s critical care departments.

Anne B. Lipke, MD, is the medical director of Swedish Medical Center’s Issaquah, Wash., campus in suburban Seattle. In an audio interview, Dr. Lipke explains how texting has become a fast, effective component of Seattle’s critical care response to COVID-19. And she offers lessons for physicians across the country who may soon be seeing situations similar to Seattle’s.

[email protected]