Clinical

As approaches to airway management of patients with suspected or confirmed COVID-19 continue to evolve, practicing vigilant transmission-based infection control precautions remains essential.

This starts with observing droplet precautions to prevent exposure to droplets larger than 5 microns in size, Charles Griffis, PhD, CRNA, said at a Society for Critical Care Medicine virtual meeting: COVID-19: What’s Next. “These are particles exhaled from infected persons and which fall within around 6 feet and involve an exposure time of 15 or more minutes of contact,” said Dr. Griffis, of the department of anesthesiology at the University of Southern California, Los Angeles. “We will always observe standard precautions, which include hand hygiene, gloves, hair and eye cover, medical mask, and face shield. We will observe these at all times for all patients and layer our transmission-based precautions on top.”

During aerosol-producing procedures such as airway management maneuvers, tracheostomies, and bronchoscopies, very fine microscopic particles less than 5 microns in size are produced, which remain airborne for potentially many hours and travel long distances. “We will add an N95 mask or a powered air-purifying respirator (PAPR) device to filter out tiny particles in addition to our ever-present standard precautions,” he said. “Contact precautions are indicated for direct contact with patient saliva, blood, urine, and stool. In addition to standard precautions, we’re going to add an impermeable gown and we’ll continue with gloves, eye protection, and shoe covers. The message is to all of us. We have to observe all of the infection precautions that all of us have learned and trained in to avoid exposure.”

In terms of airway management for infected patients for elective procedures and surgery, recommendations based on current and previous coronavirus outbreaks suggest that all patients get polymerase chain reaction (PCR) tested within 24-48 hours of elective procedures or surgeries. If positive, they should be quarantined for 10-14 days and then, if asymptomatic, these patients may be retested or they can be regarded as negative. “Patients who are PCR positive with active infection and active symptoms receive only urgent or emergent care in most settings,” said Dr. Griffis, a member of the American Association of Nurse Anesthetists Infection Control Advisory Panel. “The care provided to our patients, whether they’re positive or not, is individualized per patient needs and institutional policy. Some folks have made the decision to treat all patients as infected and to use airborne precautions for all aerosol-producing procedures for all patients all the time.”

When a COVID-19 patient requires emergent or urgent airway management because of respiratory failure or some other surgical or procedural intervention necessitating airway management, preprocedural planning is key, he continued. This means establishing the steps in airway management scenarios for infected patients and rehearsing those steps in each ICU setting with key personnel such as nurses, respiratory therapists, and medical staff. “You want to make sure that the PPE is readily available and determine and limit the number of personnel that are going to enter the patient’s room or area for airway management,” Dr. Griffis said. “Have all the airway equipment and drugs immediately available. Perhaps you could organize them in a cart which is decontaminated after every use.”

He also recommends forming an intubation team for ICUs and perhaps even for ORs, where the most experienced clinicians perform airway management. “This helps to avoid unnecessary airway manipulation and minimizes personnel exposure and time to airway establishment,” he said.

Always attempt to house the infected patient in an airborne isolation, negative-pressure room, with a minimum of 12 exchanges per hour and which will take 35 minutes for 99.99% removal of airborne contaminants after airway management. “These numbers are important to remember for room turnover safety,” he said.

Patient factors to review during airway management include assessing the past medical history, inspecting the airway and considering the patient’s current physiological status as time permits. Previously in the pandemic, intubation was used earlier in the disease course, but now data suggest that patients do better without intubation if possible (Am J Trop Med Hyg. 2020;102[6]. doi: 10.4269/aitmh.20-0283). “This is because the pathophysiology of COVID-19 is such that the lung tissue is predisposed to iatrogenic barotrauma damage from positive-pressure ventilation,” Dr. Griffis said. “In addition, COVID patients appear to tolerate significant hypoxemia without distress in many cases. Therefore, many clinicians now hold off on intubation until the hypoxemic patient begins exhibiting signs and symptoms of respiratory distress.”

Options for delivering noninvasive airway support for COVID-19 patients include high-flow nasal cannula and noninvasive positive-pressure ventilation via CPAP or BiPAP. To mitigate the associated aerosol production, consider applying a surgical mask, helmet, or face mask over the airway device/patient’s face. “Another measure that has proven helpful in general respiratory support is to actually put the patient in a prone position to help redistribute ventilation throughout the lungs,” Dr. Griffis said (see Resp Care. 2015;60[11]:1660-87).

To prepare for the actual intubation procedure, gather two expert intubators who are going to be entering the patient’s room. The team should perform hand hygiene and don full PPE prior to entry. “It’s recommended that you consider wearing double gloves for the intubation,” he said. “Have the airway equipment easily accessible in a central location on a cart or in a kit, and use disposable, single-use equipment if possible. All of the usual intubation equipment to maintain a clear airway and give positive pressure ventilation should be arranged for easy access. A video laryngoscope should be used, if possible, for greater accuracy and reduced procedure time. Ready access to sedation and muscle relaxant drugs must be assured at all times.”

For the intubation procedure itself, Dr. Griffis recommends ensuring that an oxygen source, positive-pressure ventilation, and suction and resuscitation drugs and equipment are available per institutional protocol. Assign one person outside the room to coordinate supplies and assistance. “Preoxygenate the patient as permitted by clinical status,” he said. “A nonrebreathing oxygen mask can be used if sufficient spontaneous ventilation is present. Assess the airway, check and arrange equipment for easy access, and develop the safest airway management plan. Consider a rapid sequence induction and intubation as the first option.” Avoid positive-pressure ventilation or awake fiber optic intubation unless absolutely necessary, thus avoiding aerosol production. “Only ventilate the patient after the endotracheal tube cuff is inflated, to avoid aerosol release,” he said.

For intubation, administer airway procedural drugs and insert the laryngoscope – ideally a video laryngoscope if available. Intubate the trachea under direct vision, inflate the cuff, and remove outer gloves. Then attach the Ambu bag with a 99% filtration efficiency, heat-and-moisture exchange filter; and proceed to ventilate the patient, checking for chest rise, breath sounds, and CO₂ production. “Discard contaminated equipment in designated bins and secure the tube,” Dr. Griffis advised. “Attach the ventilator with an HMEF filter to protect the ventilator circuit and inner parts of the machine. Recheck your breath sounds, CO₂ production, and oxygen saturation, and adjust your vent settings as indicated.”

For post intubation, Dr. Griffis recommends securing contaminated discardable equipment in biohazard-labeled bins or bags, safely doffing your PPE, and retaining your N95 mask in the room. Remove your inner gloves, perform hand hygiene with soap and water if available, with alcohol-based hand rub if not, then don clean gloves. Exit the room, safely transporting any contaminated equipment that will be reused such as a cart or video laryngoscope to decontamination areas for processing. “Once clear of the room, order your chest x-ray to confirm your tube position per institutional protocol, understanding that radiology techs are all going to be following infection control procedures and wearing their PPE,” he said.

For extubation, Dr. Griffis recommends excusing all nonessential personnel from the patient room and assigning an assistant outside the room for necessary help. An experienced airway management expert should evaluate the patient wearing full PPE and be double-gloved. “If the extubation criteria are met, suction the pharynx and extubate,” he said. “Remove outer gloves and apply desired oxygen delivery equipment to the patient and assess respiratory status and vital signs for stability.” Next, discard all contaminated equipment in designated bins, doff contaminated PPE, and retain your N95 mask. Doff inner gloves, perform hand hygiene, and don clean gloves. “Exit the room, hand off contaminated equipment that is reusable, doff your gloves outside, do hand hygiene, then proceed to change your scrubs and complete your own personal hygiene measures,” he said.

Dr. Griffis reported having no financial disclosures.

“While the PPE used for intubation of a coronavirus patient is certainly more than the typical droplet precautions observed when intubating any other patient, the process and best practices aren’t terribly different from usual standard of care: Ensuring all necessary equipment is readily available with backup plans should the airway be difficult,” said Megan Conroy, MD, assistant professor of clinical medicine at The Ohio State University.

“We’ve been streamlining the team that’s present in the room for intubations of COVID patients, but I’m always amazed at the team members that stand at the ready to lend additional assistance just from the other side of the door. So while fewer personnel may be exposed, I wouldn’t consider the team needed for intubation to actually be much smaller, we’re just functioning differently.

In my practice the decision of when to intubate, clinically, doesn’t vary too much from any other form of severe ARDS. We may tolerate higher FiO₂ requirements on heated high-flow nasal cannula if the patient exhibits acceptable work of breathing, but I wouldn’t advise allowing a patient to remain hypoxemic with oxygen needs unmet by noninvasive methods out of fear of intubation or ventilator management. In my opinion, this simply delays a necessary therapy and only makes for a higher risk intubation. Certainly, the decision to intubate is never based on only one single data point, but takes an expert assessment of the whole clinical picture.

I’d assert that it’s true in every disease that patients do better if it’s possible to avoid intubation – but I would argue that the ability to avoid intubation is determined primarily by the disease course and clinical scenario, and not by whether the physician wishes to avoid intubation or not. If I can safely manage a patient off of a ventilator, I will always do so, COVID or otherwise. I think in this phase of the pandemic, patients ‘do better without intubation’ because those who didn’t require intubation were inherently doing better!”

[email protected]

As approaches to airway management of patients with suspected or confirmed COVID-19 continue to evolve, practicing vigilant transmission-based infection control precautions remains essential.

This starts with observing droplet precautions to prevent exposure to droplets larger than 5 microns in size, Charles Griffis, PhD, CRNA, said at a Society for Critical Care Medicine virtual meeting: COVID-19: What’s Next. “These are particles exhaled from infected persons and which fall within around 6 feet and involve an exposure time of 15 or more minutes of contact,” said Dr. Griffis, of the department of anesthesiology at the University of Southern California, Los Angeles. “We will always observe standard precautions, which include hand hygiene, gloves, hair and eye cover, medical mask, and face shield. We will observe these at all times for all patients and layer our transmission-based precautions on top.”

During aerosol-producing procedures such as airway management maneuvers, tracheostomies, and bronchoscopies, very fine microscopic particles less than 5 microns in size are produced, which remain airborne for potentially many hours and travel long distances. “We will add an N95 mask or a powered air-purifying respirator (PAPR) device to filter out tiny particles in addition to our ever-present standard precautions,” he said. “Contact precautions are indicated for direct contact with patient saliva, blood, urine, and stool. In addition to standard precautions, we’re going to add an impermeable gown and we’ll continue with gloves, eye protection, and shoe covers. The message is to all of us. We have to observe all of the infection precautions that all of us have learned and trained in to avoid exposure.”

In terms of airway management for infected patients for elective procedures and surgery, recommendations based on current and previous coronavirus outbreaks suggest that all patients get polymerase chain reaction (PCR) tested within 24-48 hours of elective procedures or surgeries. If positive, they should be quarantined for 10-14 days and then, if asymptomatic, these patients may be retested or they can be regarded as negative. “Patients who are PCR positive with active infection and active symptoms receive only urgent or emergent care in most settings,” said Dr. Griffis, a member of the American Association of Nurse Anesthetists Infection Control Advisory Panel. “The care provided to our patients, whether they’re positive or not, is individualized per patient needs and institutional policy. Some folks have made the decision to treat all patients as infected and to use airborne precautions for all aerosol-producing procedures for all patients all the time.”

When a COVID-19 patient requires emergent or urgent airway management because of respiratory failure or some other surgical or procedural intervention necessitating airway management, preprocedural planning is key, he continued. This means establishing the steps in airway management scenarios for infected patients and rehearsing those steps in each ICU setting with key personnel such as nurses, respiratory therapists, and medical staff. “You want to make sure that the PPE is readily available and determine and limit the number of personnel that are going to enter the patient’s room or area for airway management,” Dr. Griffis said. “Have all the airway equipment and drugs immediately available. Perhaps you could organize them in a cart which is decontaminated after every use.”

He also recommends forming an intubation team for ICUs and perhaps even for ORs, where the most experienced clinicians perform airway management. “This helps to avoid unnecessary airway manipulation and minimizes personnel exposure and time to airway establishment,” he said.

Always attempt to house the infected patient in an airborne isolation, negative-pressure room, with a minimum of 12 exchanges per hour and which will take 35 minutes for 99.99% removal of airborne contaminants after airway management. “These numbers are important to remember for room turnover safety,” he said.

Patient factors to review during airway management include assessing the past medical history, inspecting the airway and considering the patient’s current physiological status as time permits. Previously in the pandemic, intubation was used earlier in the disease course, but now data suggest that patients do better without intubation if possible (Am J Trop Med Hyg. 2020;102[6]. doi: 10.4269/aitmh.20-0283). “This is because the pathophysiology of COVID-19 is such that the lung tissue is predisposed to iatrogenic barotrauma damage from positive-pressure ventilation,” Dr. Griffis said. “In addition, COVID patients appear to tolerate significant hypoxemia without distress in many cases. Therefore, many clinicians now hold off on intubation until the hypoxemic patient begins exhibiting signs and symptoms of respiratory distress.”

Options for delivering noninvasive airway support for COVID-19 patients include high-flow nasal cannula and noninvasive positive-pressure ventilation via CPAP or BiPAP. To mitigate the associated aerosol production, consider applying a surgical mask, helmet, or face mask over the airway device/patient’s face. “Another measure that has proven helpful in general respiratory support is to actually put the patient in a prone position to help redistribute ventilation throughout the lungs,” Dr. Griffis said (see Resp Care. 2015;60[11]:1660-87).

To prepare for the actual intubation procedure, gather two expert intubators who are going to be entering the patient’s room. The team should perform hand hygiene and don full PPE prior to entry. “It’s recommended that you consider wearing double gloves for the intubation,” he said. “Have the airway equipment easily accessible in a central location on a cart or in a kit, and use disposable, single-use equipment if possible. All of the usual intubation equipment to maintain a clear airway and give positive pressure ventilation should be arranged for easy access. A video laryngoscope should be used, if possible, for greater accuracy and reduced procedure time. Ready access to sedation and muscle relaxant drugs must be assured at all times.”

For the intubation procedure itself, Dr. Griffis recommends ensuring that an oxygen source, positive-pressure ventilation, and suction and resuscitation drugs and equipment are available per institutional protocol. Assign one person outside the room to coordinate supplies and assistance. “Preoxygenate the patient as permitted by clinical status,” he said. “A nonrebreathing oxygen mask can be used if sufficient spontaneous ventilation is present. Assess the airway, check and arrange equipment for easy access, and develop the safest airway management plan. Consider a rapid sequence induction and intubation as the first option.” Avoid positive-pressure ventilation or awake fiber optic intubation unless absolutely necessary, thus avoiding aerosol production. “Only ventilate the patient after the endotracheal tube cuff is inflated, to avoid aerosol release,” he said.

For intubation, administer airway procedural drugs and insert the laryngoscope – ideally a video laryngoscope if available. Intubate the trachea under direct vision, inflate the cuff, and remove outer gloves. Then attach the Ambu bag with a 99% filtration efficiency, heat-and-moisture exchange filter; and proceed to ventilate the patient, checking for chest rise, breath sounds, and CO₂ production. “Discard contaminated equipment in designated bins and secure the tube,” Dr. Griffis advised. “Attach the ventilator with an HMEF filter to protect the ventilator circuit and inner parts of the machine. Recheck your breath sounds, CO₂ production, and oxygen saturation, and adjust your vent settings as indicated.”

For post intubation, Dr. Griffis recommends securing contaminated discardable equipment in biohazard-labeled bins or bags, safely doffing your PPE, and retaining your N95 mask in the room. Remove your inner gloves, perform hand hygiene with soap and water if available, with alcohol-based hand rub if not, then don clean gloves. Exit the room, safely transporting any contaminated equipment that will be reused such as a cart or video laryngoscope to decontamination areas for processing. “Once clear of the room, order your chest x-ray to confirm your tube position per institutional protocol, understanding that radiology techs are all going to be following infection control procedures and wearing their PPE,” he said.

For extubation, Dr. Griffis recommends excusing all nonessential personnel from the patient room and assigning an assistant outside the room for necessary help. An experienced airway management expert should evaluate the patient wearing full PPE and be double-gloved. “If the extubation criteria are met, suction the pharynx and extubate,” he said. “Remove outer gloves and apply desired oxygen delivery equipment to the patient and assess respiratory status and vital signs for stability.” Next, discard all contaminated equipment in designated bins, doff contaminated PPE, and retain your N95 mask. Doff inner gloves, perform hand hygiene, and don clean gloves. “Exit the room, hand off contaminated equipment that is reusable, doff your gloves outside, do hand hygiene, then proceed to change your scrubs and complete your own personal hygiene measures,” he said.

Dr. Griffis reported having no financial disclosures.

“While the PPE used for intubation of a coronavirus patient is certainly more than the typical droplet precautions observed when intubating any other patient, the process and best practices aren’t terribly different from usual standard of care: Ensuring all necessary equipment is readily available with backup plans should the airway be difficult,” said Megan Conroy, MD, assistant professor of clinical medicine at The Ohio State University.

“We’ve been streamlining the team that’s present in the room for intubations of COVID patients, but I’m always amazed at the team members that stand at the ready to lend additional assistance just from the other side of the door. So while fewer personnel may be exposed, I wouldn’t consider the team needed for intubation to actually be much smaller, we’re just functioning differently.

In my practice the decision of when to intubate, clinically, doesn’t vary too much from any other form of severe ARDS. We may tolerate higher FiO₂ requirements on heated high-flow nasal cannula if the patient exhibits acceptable work of breathing, but I wouldn’t advise allowing a patient to remain hypoxemic with oxygen needs unmet by noninvasive methods out of fear of intubation or ventilator management. In my opinion, this simply delays a necessary therapy and only makes for a higher risk intubation. Certainly, the decision to intubate is never based on only one single data point, but takes an expert assessment of the whole clinical picture.

I’d assert that it’s true in every disease that patients do better if it’s possible to avoid intubation – but I would argue that the ability to avoid intubation is determined primarily by the disease course and clinical scenario, and not by whether the physician wishes to avoid intubation or not. If I can safely manage a patient off of a ventilator, I will always do so, COVID or otherwise. I think in this phase of the pandemic, patients ‘do better without intubation’ because those who didn’t require intubation were inherently doing better!”

[email protected]

As approaches to airway management of patients with suspected or confirmed COVID-19 continue to evolve, practicing vigilant transmission-based infection control precautions remains essential.

This starts with observing droplet precautions to prevent exposure to droplets larger than 5 microns in size, Charles Griffis, PhD, CRNA, said at a Society for Critical Care Medicine virtual meeting: COVID-19: What’s Next. “These are particles exhaled from infected persons and which fall within around 6 feet and involve an exposure time of 15 or more minutes of contact,” said Dr. Griffis, of the department of anesthesiology at the University of Southern California, Los Angeles. “We will always observe standard precautions, which include hand hygiene, gloves, hair and eye cover, medical mask, and face shield. We will observe these at all times for all patients and layer our transmission-based precautions on top.”

During aerosol-producing procedures such as airway management maneuvers, tracheostomies, and bronchoscopies, very fine microscopic particles less than 5 microns in size are produced, which remain airborne for potentially many hours and travel long distances. “We will add an N95 mask or a powered air-purifying respirator (PAPR) device to filter out tiny particles in addition to our ever-present standard precautions,” he said. “Contact precautions are indicated for direct contact with patient saliva, blood, urine, and stool. In addition to standard precautions, we’re going to add an impermeable gown and we’ll continue with gloves, eye protection, and shoe covers. The message is to all of us. We have to observe all of the infection precautions that all of us have learned and trained in to avoid exposure.”

In terms of airway management for infected patients for elective procedures and surgery, recommendations based on current and previous coronavirus outbreaks suggest that all patients get polymerase chain reaction (PCR) tested within 24-48 hours of elective procedures or surgeries. If positive, they should be quarantined for 10-14 days and then, if asymptomatic, these patients may be retested or they can be regarded as negative. “Patients who are PCR positive with active infection and active symptoms receive only urgent or emergent care in most settings,” said Dr. Griffis, a member of the American Association of Nurse Anesthetists Infection Control Advisory Panel. “The care provided to our patients, whether they’re positive or not, is individualized per patient needs and institutional policy. Some folks have made the decision to treat all patients as infected and to use airborne precautions for all aerosol-producing procedures for all patients all the time.”

When a COVID-19 patient requires emergent or urgent airway management because of respiratory failure or some other surgical or procedural intervention necessitating airway management, preprocedural planning is key, he continued. This means establishing the steps in airway management scenarios for infected patients and rehearsing those steps in each ICU setting with key personnel such as nurses, respiratory therapists, and medical staff. “You want to make sure that the PPE is readily available and determine and limit the number of personnel that are going to enter the patient’s room or area for airway management,” Dr. Griffis said. “Have all the airway equipment and drugs immediately available. Perhaps you could organize them in a cart which is decontaminated after every use.”

He also recommends forming an intubation team for ICUs and perhaps even for ORs, where the most experienced clinicians perform airway management. “This helps to avoid unnecessary airway manipulation and minimizes personnel exposure and time to airway establishment,” he said.

Always attempt to house the infected patient in an airborne isolation, negative-pressure room, with a minimum of 12 exchanges per hour and which will take 35 minutes for 99.99% removal of airborne contaminants after airway management. “These numbers are important to remember for room turnover safety,” he said.

Patient factors to review during airway management include assessing the past medical history, inspecting the airway and considering the patient’s current physiological status as time permits. Previously in the pandemic, intubation was used earlier in the disease course, but now data suggest that patients do better without intubation if possible (Am J Trop Med Hyg. 2020;102[6]. doi: 10.4269/aitmh.20-0283). “This is because the pathophysiology of COVID-19 is such that the lung tissue is predisposed to iatrogenic barotrauma damage from positive-pressure ventilation,” Dr. Griffis said. “In addition, COVID patients appear to tolerate significant hypoxemia without distress in many cases. Therefore, many clinicians now hold off on intubation until the hypoxemic patient begins exhibiting signs and symptoms of respiratory distress.”

Options for delivering noninvasive airway support for COVID-19 patients include high-flow nasal cannula and noninvasive positive-pressure ventilation via CPAP or BiPAP. To mitigate the associated aerosol production, consider applying a surgical mask, helmet, or face mask over the airway device/patient’s face. “Another measure that has proven helpful in general respiratory support is to actually put the patient in a prone position to help redistribute ventilation throughout the lungs,” Dr. Griffis said (see Resp Care. 2015;60[11]:1660-87).

To prepare for the actual intubation procedure, gather two expert intubators who are going to be entering the patient’s room. The team should perform hand hygiene and don full PPE prior to entry. “It’s recommended that you consider wearing double gloves for the intubation,” he said. “Have the airway equipment easily accessible in a central location on a cart or in a kit, and use disposable, single-use equipment if possible. All of the usual intubation equipment to maintain a clear airway and give positive pressure ventilation should be arranged for easy access. A video laryngoscope should be used, if possible, for greater accuracy and reduced procedure time. Ready access to sedation and muscle relaxant drugs must be assured at all times.”

For the intubation procedure itself, Dr. Griffis recommends ensuring that an oxygen source, positive-pressure ventilation, and suction and resuscitation drugs and equipment are available per institutional protocol. Assign one person outside the room to coordinate supplies and assistance. “Preoxygenate the patient as permitted by clinical status,” he said. “A nonrebreathing oxygen mask can be used if sufficient spontaneous ventilation is present. Assess the airway, check and arrange equipment for easy access, and develop the safest airway management plan. Consider a rapid sequence induction and intubation as the first option.” Avoid positive-pressure ventilation or awake fiber optic intubation unless absolutely necessary, thus avoiding aerosol production. “Only ventilate the patient after the endotracheal tube cuff is inflated, to avoid aerosol release,” he said.

For intubation, administer airway procedural drugs and insert the laryngoscope – ideally a video laryngoscope if available. Intubate the trachea under direct vision, inflate the cuff, and remove outer gloves. Then attach the Ambu bag with a 99% filtration efficiency, heat-and-moisture exchange filter; and proceed to ventilate the patient, checking for chest rise, breath sounds, and CO₂ production. “Discard contaminated equipment in designated bins and secure the tube,” Dr. Griffis advised. “Attach the ventilator with an HMEF filter to protect the ventilator circuit and inner parts of the machine. Recheck your breath sounds, CO₂ production, and oxygen saturation, and adjust your vent settings as indicated.”

For post intubation, Dr. Griffis recommends securing contaminated discardable equipment in biohazard-labeled bins or bags, safely doffing your PPE, and retaining your N95 mask in the room. Remove your inner gloves, perform hand hygiene with soap and water if available, with alcohol-based hand rub if not, then don clean gloves. Exit the room, safely transporting any contaminated equipment that will be reused such as a cart or video laryngoscope to decontamination areas for processing. “Once clear of the room, order your chest x-ray to confirm your tube position per institutional protocol, understanding that radiology techs are all going to be following infection control procedures and wearing their PPE,” he said.

For extubation, Dr. Griffis recommends excusing all nonessential personnel from the patient room and assigning an assistant outside the room for necessary help. An experienced airway management expert should evaluate the patient wearing full PPE and be double-gloved. “If the extubation criteria are met, suction the pharynx and extubate,” he said. “Remove outer gloves and apply desired oxygen delivery equipment to the patient and assess respiratory status and vital signs for stability.” Next, discard all contaminated equipment in designated bins, doff contaminated PPE, and retain your N95 mask. Doff inner gloves, perform hand hygiene, and don clean gloves. “Exit the room, hand off contaminated equipment that is reusable, doff your gloves outside, do hand hygiene, then proceed to change your scrubs and complete your own personal hygiene measures,” he said.

Dr. Griffis reported having no financial disclosures.

“While the PPE used for intubation of a coronavirus patient is certainly more than the typical droplet precautions observed when intubating any other patient, the process and best practices aren’t terribly different from usual standard of care: Ensuring all necessary equipment is readily available with backup plans should the airway be difficult,” said Megan Conroy, MD, assistant professor of clinical medicine at The Ohio State University.

“We’ve been streamlining the team that’s present in the room for intubations of COVID patients, but I’m always amazed at the team members that stand at the ready to lend additional assistance just from the other side of the door. So while fewer personnel may be exposed, I wouldn’t consider the team needed for intubation to actually be much smaller, we’re just functioning differently.

In my practice the decision of when to intubate, clinically, doesn’t vary too much from any other form of severe ARDS. We may tolerate higher FiO₂ requirements on heated high-flow nasal cannula if the patient exhibits acceptable work of breathing, but I wouldn’t advise allowing a patient to remain hypoxemic with oxygen needs unmet by noninvasive methods out of fear of intubation or ventilator management. In my opinion, this simply delays a necessary therapy and only makes for a higher risk intubation. Certainly, the decision to intubate is never based on only one single data point, but takes an expert assessment of the whole clinical picture.

I’d assert that it’s true in every disease that patients do better if it’s possible to avoid intubation – but I would argue that the ability to avoid intubation is determined primarily by the disease course and clinical scenario, and not by whether the physician wishes to avoid intubation or not. If I can safely manage a patient off of a ventilator, I will always do so, COVID or otherwise. I think in this phase of the pandemic, patients ‘do better without intubation’ because those who didn’t require intubation were inherently doing better!”

[email protected]

Johnson & Johnson (J&J) on Wednesday said it advanced into phase 3 testing of its COVID-19 vaccine candidate, which uses the same technology as an Ebola vaccine already approved by European regulators.

The National Institute of Allergy and Infectious Diseases, which is aiding Johnson & Johnson with development, described this in a news release as the fourth phase 3 clinical trial of evaluating an investigational vaccine for coronavirus disease.

This NIAID tally tracks products likely to be presented soon for Food and Drug Administration approval. (The World Health Organization’s COVID vaccine tracker lists nine candidates as having reached this stage, including products developed in Russia and China.)

As many as 60,000 volunteers will be enrolled in the trial, with about 215 clinical research sites expected to participate, NIAID said. The vaccine will be tested in the United States and abroad.

The start of this test, known as the ENSEMBLE trial, follows positive results from a Phase 1/2a clinical study, which involved a single vaccination. The results of this study have been submitted to medRxiv and are set to be published online imminently.

New Brunswick, N.J–based J&J said it intends to offer the vaccine on “a not-for-profit basis for emergency pandemic use.” If testing proceeds well, J&J might seek an emergency use clearance for the vaccine, which could possibly allow the first batches to be made available in early 2021.

J&J’s vaccine is unusual in that it will be tested based on a single dose, while other advanced candidates have been tested in two-dose regimens.

J&J on Wednesday also released the study protocol for its phase 3 test. The developers of the other late-stage COVID vaccine candidates also have done this, as reported by Medscape Medical News. Because of the great interest in the COVID vaccine, the American Medical Association had last month asked the FDA to keep physicians informed of their COVID-19 vaccine review process.
 

Trials and tribulations

One of these experimental COVID vaccines already has had a setback in phase 3 testing, which is a fairly routine occurrence in drug development. But with a pandemic still causing deaths and disrupting lives around the world, there has been intense interest in each step of the effort to develop a COVID vaccine.

AstraZeneca PLC earlier this month announced a temporary cessation of all their coronavirus vaccine trials to investigate an “unexplained illness” that arose in a participant, as reported by Medscape Medical News.

On September 12, AstraZeneca announced that clinical trials for the AZD1222, which it developed with Oxford University, had resumed in the United Kingdom. On Wednesday, CNBC said Health and Human Services Secretary Alex Azar told the news station that AstraZeneca’s late-stage coronavirus vaccine trial in the United States remains on hold until safety concerns are resolved, a critical issue with all the fast-track COVID vaccines now being tested.

“Look at the AstraZeneca program, phase 3 clinical trial, a lot of hope. [A] single serious adverse event report in the United Kingdom, global shutdown, and [a] hold of the clinical trials,” Mr. Azar told CNBC.

The New York Times has reported on concerns stemming from serious neurologic illnesses in two participants, both women, who received AstraZeneca’s experimental vaccine in Britain.

The Senate Health, Education, Labor and Pensions Committee on Wednesday separately held a hearing with the leaders of the FDA and the Centers of Disease Control and Prevention, allowing an airing of lawmakers’ concerns about a potential rush to approve a COVID vaccine.
 

Details of J&J trial

The J&J trial is designed primarily to determine if the investigational vaccine can prevent moderate to severe COVID-19 after a single dose. It also is designed to examine whether the vaccine can prevent COVID-19 requiring medical intervention and if the vaccine can prevent milder cases of COVID-19 and asymptomatic SARS-CoV-2 infection, NIAID said.

Principal investigators for the phase 3 trial of the J & J vaccine are Paul A. Goepfert, MD, director of the Alabama Vaccine Research Clinic at the University of Alabama in Birmingham; Beatriz Grinsztejn, MD, PhD, director of the Laboratory of Clinical Research on HIV/AIDS at the Evandro Chagas National Institute of Infectious Diseases-Oswaldo Cruz Foundation in Rio de Janeiro, Brazil; and Glenda E. Gray, MBBCh, president and chief executive officer of the South African Medical Research Council and coprincipal investigator of the HIV Vaccine Trials Network.

This article first appeared on Medscape.com.

Johnson & Johnson (J&J) on Wednesday said it advanced into phase 3 testing of its COVID-19 vaccine candidate, which uses the same technology as an Ebola vaccine already approved by European regulators.

The National Institute of Allergy and Infectious Diseases, which is aiding Johnson & Johnson with development, described this in a news release as the fourth phase 3 clinical trial of evaluating an investigational vaccine for coronavirus disease.

This NIAID tally tracks products likely to be presented soon for Food and Drug Administration approval. (The World Health Organization’s COVID vaccine tracker lists nine candidates as having reached this stage, including products developed in Russia and China.)

As many as 60,000 volunteers will be enrolled in the trial, with about 215 clinical research sites expected to participate, NIAID said. The vaccine will be tested in the United States and abroad.

The start of this test, known as the ENSEMBLE trial, follows positive results from a Phase 1/2a clinical study, which involved a single vaccination. The results of this study have been submitted to medRxiv and are set to be published online imminently.

New Brunswick, N.J–based J&J said it intends to offer the vaccine on “a not-for-profit basis for emergency pandemic use.” If testing proceeds well, J&J might seek an emergency use clearance for the vaccine, which could possibly allow the first batches to be made available in early 2021.

J&J’s vaccine is unusual in that it will be tested based on a single dose, while other advanced candidates have been tested in two-dose regimens.

J&J on Wednesday also released the study protocol for its phase 3 test. The developers of the other late-stage COVID vaccine candidates also have done this, as reported by Medscape Medical News. Because of the great interest in the COVID vaccine, the American Medical Association had last month asked the FDA to keep physicians informed of their COVID-19 vaccine review process.
 

Trials and tribulations

One of these experimental COVID vaccines already has had a setback in phase 3 testing, which is a fairly routine occurrence in drug development. But with a pandemic still causing deaths and disrupting lives around the world, there has been intense interest in each step of the effort to develop a COVID vaccine.

AstraZeneca PLC earlier this month announced a temporary cessation of all their coronavirus vaccine trials to investigate an “unexplained illness” that arose in a participant, as reported by Medscape Medical News.

On September 12, AstraZeneca announced that clinical trials for the AZD1222, which it developed with Oxford University, had resumed in the United Kingdom. On Wednesday, CNBC said Health and Human Services Secretary Alex Azar told the news station that AstraZeneca’s late-stage coronavirus vaccine trial in the United States remains on hold until safety concerns are resolved, a critical issue with all the fast-track COVID vaccines now being tested.

“Look at the AstraZeneca program, phase 3 clinical trial, a lot of hope. [A] single serious adverse event report in the United Kingdom, global shutdown, and [a] hold of the clinical trials,” Mr. Azar told CNBC.

The New York Times has reported on concerns stemming from serious neurologic illnesses in two participants, both women, who received AstraZeneca’s experimental vaccine in Britain.

The Senate Health, Education, Labor and Pensions Committee on Wednesday separately held a hearing with the leaders of the FDA and the Centers of Disease Control and Prevention, allowing an airing of lawmakers’ concerns about a potential rush to approve a COVID vaccine.
 

Details of J&J trial

The J&J trial is designed primarily to determine if the investigational vaccine can prevent moderate to severe COVID-19 after a single dose. It also is designed to examine whether the vaccine can prevent COVID-19 requiring medical intervention and if the vaccine can prevent milder cases of COVID-19 and asymptomatic SARS-CoV-2 infection, NIAID said.

Principal investigators for the phase 3 trial of the J & J vaccine are Paul A. Goepfert, MD, director of the Alabama Vaccine Research Clinic at the University of Alabama in Birmingham; Beatriz Grinsztejn, MD, PhD, director of the Laboratory of Clinical Research on HIV/AIDS at the Evandro Chagas National Institute of Infectious Diseases-Oswaldo Cruz Foundation in Rio de Janeiro, Brazil; and Glenda E. Gray, MBBCh, president and chief executive officer of the South African Medical Research Council and coprincipal investigator of the HIV Vaccine Trials Network.

This article first appeared on Medscape.com.

Johnson & Johnson (J&J) on Wednesday said it advanced into phase 3 testing of its COVID-19 vaccine candidate, which uses the same technology as an Ebola vaccine already approved by European regulators.

The National Institute of Allergy and Infectious Diseases, which is aiding Johnson & Johnson with development, described this in a news release as the fourth phase 3 clinical trial of evaluating an investigational vaccine for coronavirus disease.

This NIAID tally tracks products likely to be presented soon for Food and Drug Administration approval. (The World Health Organization’s COVID vaccine tracker lists nine candidates as having reached this stage, including products developed in Russia and China.)

As many as 60,000 volunteers will be enrolled in the trial, with about 215 clinical research sites expected to participate, NIAID said. The vaccine will be tested in the United States and abroad.

The start of this test, known as the ENSEMBLE trial, follows positive results from a Phase 1/2a clinical study, which involved a single vaccination. The results of this study have been submitted to medRxiv and are set to be published online imminently.

New Brunswick, N.J–based J&J said it intends to offer the vaccine on “a not-for-profit basis for emergency pandemic use.” If testing proceeds well, J&J might seek an emergency use clearance for the vaccine, which could possibly allow the first batches to be made available in early 2021.

J&J’s vaccine is unusual in that it will be tested based on a single dose, while other advanced candidates have been tested in two-dose regimens.

J&J on Wednesday also released the study protocol for its phase 3 test. The developers of the other late-stage COVID vaccine candidates also have done this, as reported by Medscape Medical News. Because of the great interest in the COVID vaccine, the American Medical Association had last month asked the FDA to keep physicians informed of their COVID-19 vaccine review process.
 

Trials and tribulations

One of these experimental COVID vaccines already has had a setback in phase 3 testing, which is a fairly routine occurrence in drug development. But with a pandemic still causing deaths and disrupting lives around the world, there has been intense interest in each step of the effort to develop a COVID vaccine.

AstraZeneca PLC earlier this month announced a temporary cessation of all their coronavirus vaccine trials to investigate an “unexplained illness” that arose in a participant, as reported by Medscape Medical News.

On September 12, AstraZeneca announced that clinical trials for the AZD1222, which it developed with Oxford University, had resumed in the United Kingdom. On Wednesday, CNBC said Health and Human Services Secretary Alex Azar told the news station that AstraZeneca’s late-stage coronavirus vaccine trial in the United States remains on hold until safety concerns are resolved, a critical issue with all the fast-track COVID vaccines now being tested.

“Look at the AstraZeneca program, phase 3 clinical trial, a lot of hope. [A] single serious adverse event report in the United Kingdom, global shutdown, and [a] hold of the clinical trials,” Mr. Azar told CNBC.

The New York Times has reported on concerns stemming from serious neurologic illnesses in two participants, both women, who received AstraZeneca’s experimental vaccine in Britain.

The Senate Health, Education, Labor and Pensions Committee on Wednesday separately held a hearing with the leaders of the FDA and the Centers of Disease Control and Prevention, allowing an airing of lawmakers’ concerns about a potential rush to approve a COVID vaccine.
 

Details of J&J trial

The J&J trial is designed primarily to determine if the investigational vaccine can prevent moderate to severe COVID-19 after a single dose. It also is designed to examine whether the vaccine can prevent COVID-19 requiring medical intervention and if the vaccine can prevent milder cases of COVID-19 and asymptomatic SARS-CoV-2 infection, NIAID said.

Principal investigators for the phase 3 trial of the J & J vaccine are Paul A. Goepfert, MD, director of the Alabama Vaccine Research Clinic at the University of Alabama in Birmingham; Beatriz Grinsztejn, MD, PhD, director of the Laboratory of Clinical Research on HIV/AIDS at the Evandro Chagas National Institute of Infectious Diseases-Oswaldo Cruz Foundation in Rio de Janeiro, Brazil; and Glenda E. Gray, MBBCh, president and chief executive officer of the South African Medical Research Council and coprincipal investigator of the HIV Vaccine Trials Network.

This article first appeared on Medscape.com.

States have begun preparing to distribute a COVID-19 vaccine if one is approved, a CDC official said today.

The CDC released guidance for states on Sept. 16 titled COVID-19 Vaccination Program Interim Playbook for Jurisdiction Operations. The document discusses vaccine ordering, storage, and handling and says that states should submit their plans for vaccine distribution to the agency by Oct. 16.

“Every jurisdiction is heavily involved right now in their plan development,” CDC official Janell Routh, MD, told the Advisory Committee on Immunization Practices during its Sept. 22 meeting. “It was really impressive to me that, even though the playbook only went out last week, states and jurisdictions have been thinking about this for quite some time.”

However, one committee member suggested that setting a deadline before more safety, efficacy, and storage information is known may be premature.

“I cannot imagine that we will actually know the final storage requirements for this vaccine by Oct. 16, which makes me a little concerned about finalizing state plans,” said Helen “Keipp” Talbot, MD, MPH, associate professor of medicine at Vanderbilt University Medical Center in Nashville, Tenn. “We also don’t know the best populations yet when it comes to efficacy and safety.”

Dr. Routh said the CDC is asking states to plan on the basis of assumptions. “We know those plans will constantly be improving, changing, as we learn more information,” Dr. Routh said. States agreed to return a plan 30 days after the playbook was released, which is how the Oct. 16 deadline was established, she said.

States are encouraged to think broadly. Plans may include contingencies for a product that requires ultracold storage or for distributing more than one vaccine product, Dr. Routh said.

“One goal is to be ready on the first day that we can actually distribute vaccine,” Nancy Messonnier, MD, director of the National Center for Immunization and Respiratory Diseases, said during the meeting. “Our colleagues in Operation Warp Speed say that they expect there will be vaccine as early as November, and therefore we need to be ready so there is no delay in distributing that vaccine. And that phase, that early phase, is really close upon us.”

Many states have already developed plans, and the CDC is providing technical assistance as needed to monitor the plans regularly, Dr. Routh said.
 

Key issues identified

From holding pilot meetings with five jurisdictions, officials learned that public confidence in the vaccine is among states’ greatest concerns, Dr. Routh said. In addition, distribution is resource intensive, and social distancing adds logistical complexity.

Specific guidance on whom to vaccinate in the early stages will smooth the process, officials suggested during the pilot meetings. For the first several weeks, vaccine doses may be limited to priority populations, such as health care workers.

“This interim playbook is a living document,” Dr. Routh emphasized. “We definitely plan to update the content regularly as we learn more information about what vaccines and when they will be released.”

During the early stages of COVID-19 vaccination, officials plan to implement an enhanced monitoring program in which vaccine recipients would complete surveys about adverse events, in addition to the traditional vaccine safety monitoring programs that already exist, officials said.
 

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

States have begun preparing to distribute a COVID-19 vaccine if one is approved, a CDC official said today.

The CDC released guidance for states on Sept. 16 titled COVID-19 Vaccination Program Interim Playbook for Jurisdiction Operations. The document discusses vaccine ordering, storage, and handling and says that states should submit their plans for vaccine distribution to the agency by Oct. 16.

“Every jurisdiction is heavily involved right now in their plan development,” CDC official Janell Routh, MD, told the Advisory Committee on Immunization Practices during its Sept. 22 meeting. “It was really impressive to me that, even though the playbook only went out last week, states and jurisdictions have been thinking about this for quite some time.”

However, one committee member suggested that setting a deadline before more safety, efficacy, and storage information is known may be premature.

“I cannot imagine that we will actually know the final storage requirements for this vaccine by Oct. 16, which makes me a little concerned about finalizing state plans,” said Helen “Keipp” Talbot, MD, MPH, associate professor of medicine at Vanderbilt University Medical Center in Nashville, Tenn. “We also don’t know the best populations yet when it comes to efficacy and safety.”

Dr. Routh said the CDC is asking states to plan on the basis of assumptions. “We know those plans will constantly be improving, changing, as we learn more information,” Dr. Routh said. States agreed to return a plan 30 days after the playbook was released, which is how the Oct. 16 deadline was established, she said.

States are encouraged to think broadly. Plans may include contingencies for a product that requires ultracold storage or for distributing more than one vaccine product, Dr. Routh said.

“One goal is to be ready on the first day that we can actually distribute vaccine,” Nancy Messonnier, MD, director of the National Center for Immunization and Respiratory Diseases, said during the meeting. “Our colleagues in Operation Warp Speed say that they expect there will be vaccine as early as November, and therefore we need to be ready so there is no delay in distributing that vaccine. And that phase, that early phase, is really close upon us.”

Many states have already developed plans, and the CDC is providing technical assistance as needed to monitor the plans regularly, Dr. Routh said.
 

Key issues identified

From holding pilot meetings with five jurisdictions, officials learned that public confidence in the vaccine is among states’ greatest concerns, Dr. Routh said. In addition, distribution is resource intensive, and social distancing adds logistical complexity.

Specific guidance on whom to vaccinate in the early stages will smooth the process, officials suggested during the pilot meetings. For the first several weeks, vaccine doses may be limited to priority populations, such as health care workers.

“This interim playbook is a living document,” Dr. Routh emphasized. “We definitely plan to update the content regularly as we learn more information about what vaccines and when they will be released.”

During the early stages of COVID-19 vaccination, officials plan to implement an enhanced monitoring program in which vaccine recipients would complete surveys about adverse events, in addition to the traditional vaccine safety monitoring programs that already exist, officials said.
 

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

States have begun preparing to distribute a COVID-19 vaccine if one is approved, a CDC official said today.

The CDC released guidance for states on Sept. 16 titled COVID-19 Vaccination Program Interim Playbook for Jurisdiction Operations. The document discusses vaccine ordering, storage, and handling and says that states should submit their plans for vaccine distribution to the agency by Oct. 16.

“Every jurisdiction is heavily involved right now in their plan development,” CDC official Janell Routh, MD, told the Advisory Committee on Immunization Practices during its Sept. 22 meeting. “It was really impressive to me that, even though the playbook only went out last week, states and jurisdictions have been thinking about this for quite some time.”

However, one committee member suggested that setting a deadline before more safety, efficacy, and storage information is known may be premature.

“I cannot imagine that we will actually know the final storage requirements for this vaccine by Oct. 16, which makes me a little concerned about finalizing state plans,” said Helen “Keipp” Talbot, MD, MPH, associate professor of medicine at Vanderbilt University Medical Center in Nashville, Tenn. “We also don’t know the best populations yet when it comes to efficacy and safety.”

Dr. Routh said the CDC is asking states to plan on the basis of assumptions. “We know those plans will constantly be improving, changing, as we learn more information,” Dr. Routh said. States agreed to return a plan 30 days after the playbook was released, which is how the Oct. 16 deadline was established, she said.

States are encouraged to think broadly. Plans may include contingencies for a product that requires ultracold storage or for distributing more than one vaccine product, Dr. Routh said.

“One goal is to be ready on the first day that we can actually distribute vaccine,” Nancy Messonnier, MD, director of the National Center for Immunization and Respiratory Diseases, said during the meeting. “Our colleagues in Operation Warp Speed say that they expect there will be vaccine as early as November, and therefore we need to be ready so there is no delay in distributing that vaccine. And that phase, that early phase, is really close upon us.”

Many states have already developed plans, and the CDC is providing technical assistance as needed to monitor the plans regularly, Dr. Routh said.
 

Key issues identified

From holding pilot meetings with five jurisdictions, officials learned that public confidence in the vaccine is among states’ greatest concerns, Dr. Routh said. In addition, distribution is resource intensive, and social distancing adds logistical complexity.

Specific guidance on whom to vaccinate in the early stages will smooth the process, officials suggested during the pilot meetings. For the first several weeks, vaccine doses may be limited to priority populations, such as health care workers.

“This interim playbook is a living document,” Dr. Routh emphasized. “We definitely plan to update the content regularly as we learn more information about what vaccines and when they will be released.”

During the early stages of COVID-19 vaccination, officials plan to implement an enhanced monitoring program in which vaccine recipients would complete surveys about adverse events, in addition to the traditional vaccine safety monitoring programs that already exist, officials said.
 

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

The companies behind three major COVID-19 vaccines in development released the protocols of their trials, outlining their expectations for participant enrollment, benchmarks for vaccine efficacy, and more details about the makeup of each product.

Typically, manufacturers guard the specifics of preclinical vaccine trials. This rare move follows calls for greater transparency. For example, the American Medical Association wrote a letter in late August asking the Food and Drug Administration to keep physicians informed of their COVID-19 vaccine review process.

On September 17, ModernaTx released the phase 3 trial protocol for its mRNA-1273 SARS-CoV-2 vaccine. In short order, on September 19, Pfizer/BioNTech shared their phase 1/2/3 trial vaccine protocol. AstraZeneca, which is developing a vaccine along with Oxford University, also released its protocol.

The AstraZeneca vaccine trial made headlines recently for having to be temporarily halted because of unexpected illnesses that arose in two participants, according to the New York Times and other sources.

“I applaud the release of the clinical trial protocols by the companies. The public trust in any COVID-19 vaccine is paramount, especially given the fast timeline and perceived political pressures of these candidates,” Robert Kruse, MD, PhD, told Medscape Medical News when asked to comment.
 

AstraZeneca takes a shot at transparency

The three primary objectives of the AstraZeneca AZD1222 trial outlined in the 110-page protocol include estimating the efficacy, safety, tolerability, and reactogenicity associated with two intramuscular doses of the vaccine in comparison with placebo in adults.

The projected enrollment is 30,000 participants, and the estimated primary completion date is Dec. 2, 2020, according to information on clinicaltrials.gov.

“Given the unprecedented global impact of the coronavirus pandemic and the need for public information, AstraZeneca has published the detailed protocol and design of our AZD1222 clinical trial,” the company said in a statement. “As with most clinical development, protocols are not typically shared publicly due to the importance of maintaining confidentiality and integrity of trials.

“AstraZeneca continues to work with industry peers to ensure a consistent approach to sharing timely clinical trial information,” the company added.
 

Moderna methodology

The ModernaTX 135-page protocol outlines the primary trial objectives of evaluating efficacy, safety, and reactogenicity of two injections of the vaccine administered 28 days apart. Researchers also plan to randomly assign 30,000 adults to receive either vaccine or placebo. The estimated primary completion date is Oct. 27, 2022.

A statement that was requested from ModernaTX was not received by press time.
 

Pfizer protocol

In the Pfizer/BioNTech vaccine trial, researchers plan to evaluate different doses in different age groups in a multistep protocol. The trial features 20 primary safety objectives, which include reporting adverse events and serious adverse events, including any local or systemic events.

Efficacy endpoints are secondary objectives. The estimated enrollment is 29,481 adults; the estimated primary completion date is April 19, 2021.

“Pfizer and BioNTech recognize that the COVID-19 pandemic is a unique circumstance, and the need for transparency is clear,” Pfizer spokesperson Sharon Castillo told Medscape Medical News. By making the full protocol available, “we believe this will reinforce our long-standing commitment to scientific and regulatory rigor that benefits patients,” she said.

“Based on current infection rates, Pfizer and BioNTech continue to expect that a conclusive read-out on efficacy is likely by the end of October. Neither Pfizer nor the FDA can move faster than the data we are generating through our clinical trial,” Castillo said.

If clinical work and regulatory approval or authorization proceed as planned, Pfizer and BioNTech expect to supply up to 100 million doses worldwide by the end of 2020 and approximately 1.3 billion doses worldwide by the end of 2021.

Pfizer is not willing to sacrifice safety and efficacy in the name of expediency, Castillo said. “We will not cut corners in this pursuit. Patient safety is our highest priority, and Pfizer will not bring a vaccine to market without adequate evidence of safety and efficacy.”
 

A positive move

“COVID-19 vaccines will only be useful if many people are willing to receive them,” said Kruse, a postgraduate year 3 resident in the Department of Pathology at Johns Hopkins Medicine in Baltimore, Maryland.

“By giving the general public along with other scientists and physicians the opportunity to critique the protocols, everyone can understand what the metrics would be for an early look at efficacy,” Kruse said. He noted that information could help inform a potential FDA emergency use authorization.

Kruse has disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

The companies behind three major COVID-19 vaccines in development released the protocols of their trials, outlining their expectations for participant enrollment, benchmarks for vaccine efficacy, and more details about the makeup of each product.

Typically, manufacturers guard the specifics of preclinical vaccine trials. This rare move follows calls for greater transparency. For example, the American Medical Association wrote a letter in late August asking the Food and Drug Administration to keep physicians informed of their COVID-19 vaccine review process.

On September 17, ModernaTx released the phase 3 trial protocol for its mRNA-1273 SARS-CoV-2 vaccine. In short order, on September 19, Pfizer/BioNTech shared their phase 1/2/3 trial vaccine protocol. AstraZeneca, which is developing a vaccine along with Oxford University, also released its protocol.

The AstraZeneca vaccine trial made headlines recently for having to be temporarily halted because of unexpected illnesses that arose in two participants, according to the New York Times and other sources.

“I applaud the release of the clinical trial protocols by the companies. The public trust in any COVID-19 vaccine is paramount, especially given the fast timeline and perceived political pressures of these candidates,” Robert Kruse, MD, PhD, told Medscape Medical News when asked to comment.
 

AstraZeneca takes a shot at transparency

The three primary objectives of the AstraZeneca AZD1222 trial outlined in the 110-page protocol include estimating the efficacy, safety, tolerability, and reactogenicity associated with two intramuscular doses of the vaccine in comparison with placebo in adults.

The projected enrollment is 30,000 participants, and the estimated primary completion date is Dec. 2, 2020, according to information on clinicaltrials.gov.

“Given the unprecedented global impact of the coronavirus pandemic and the need for public information, AstraZeneca has published the detailed protocol and design of our AZD1222 clinical trial,” the company said in a statement. “As with most clinical development, protocols are not typically shared publicly due to the importance of maintaining confidentiality and integrity of trials.

“AstraZeneca continues to work with industry peers to ensure a consistent approach to sharing timely clinical trial information,” the company added.
 

Moderna methodology

The ModernaTX 135-page protocol outlines the primary trial objectives of evaluating efficacy, safety, and reactogenicity of two injections of the vaccine administered 28 days apart. Researchers also plan to randomly assign 30,000 adults to receive either vaccine or placebo. The estimated primary completion date is Oct. 27, 2022.

A statement that was requested from ModernaTX was not received by press time.
 

Pfizer protocol

In the Pfizer/BioNTech vaccine trial, researchers plan to evaluate different doses in different age groups in a multistep protocol. The trial features 20 primary safety objectives, which include reporting adverse events and serious adverse events, including any local or systemic events.

Efficacy endpoints are secondary objectives. The estimated enrollment is 29,481 adults; the estimated primary completion date is April 19, 2021.

“Pfizer and BioNTech recognize that the COVID-19 pandemic is a unique circumstance, and the need for transparency is clear,” Pfizer spokesperson Sharon Castillo told Medscape Medical News. By making the full protocol available, “we believe this will reinforce our long-standing commitment to scientific and regulatory rigor that benefits patients,” she said.

“Based on current infection rates, Pfizer and BioNTech continue to expect that a conclusive read-out on efficacy is likely by the end of October. Neither Pfizer nor the FDA can move faster than the data we are generating through our clinical trial,” Castillo said.

If clinical work and regulatory approval or authorization proceed as planned, Pfizer and BioNTech expect to supply up to 100 million doses worldwide by the end of 2020 and approximately 1.3 billion doses worldwide by the end of 2021.

Pfizer is not willing to sacrifice safety and efficacy in the name of expediency, Castillo said. “We will not cut corners in this pursuit. Patient safety is our highest priority, and Pfizer will not bring a vaccine to market without adequate evidence of safety and efficacy.”
 

A positive move

“COVID-19 vaccines will only be useful if many people are willing to receive them,” said Kruse, a postgraduate year 3 resident in the Department of Pathology at Johns Hopkins Medicine in Baltimore, Maryland.

“By giving the general public along with other scientists and physicians the opportunity to critique the protocols, everyone can understand what the metrics would be for an early look at efficacy,” Kruse said. He noted that information could help inform a potential FDA emergency use authorization.

Kruse has disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

The companies behind three major COVID-19 vaccines in development released the protocols of their trials, outlining their expectations for participant enrollment, benchmarks for vaccine efficacy, and more details about the makeup of each product.

Typically, manufacturers guard the specifics of preclinical vaccine trials. This rare move follows calls for greater transparency. For example, the American Medical Association wrote a letter in late August asking the Food and Drug Administration to keep physicians informed of their COVID-19 vaccine review process.

On September 17, ModernaTx released the phase 3 trial protocol for its mRNA-1273 SARS-CoV-2 vaccine. In short order, on September 19, Pfizer/BioNTech shared their phase 1/2/3 trial vaccine protocol. AstraZeneca, which is developing a vaccine along with Oxford University, also released its protocol.

The AstraZeneca vaccine trial made headlines recently for having to be temporarily halted because of unexpected illnesses that arose in two participants, according to the New York Times and other sources.

“I applaud the release of the clinical trial protocols by the companies. The public trust in any COVID-19 vaccine is paramount, especially given the fast timeline and perceived political pressures of these candidates,” Robert Kruse, MD, PhD, told Medscape Medical News when asked to comment.
 

AstraZeneca takes a shot at transparency

The three primary objectives of the AstraZeneca AZD1222 trial outlined in the 110-page protocol include estimating the efficacy, safety, tolerability, and reactogenicity associated with two intramuscular doses of the vaccine in comparison with placebo in adults.

The projected enrollment is 30,000 participants, and the estimated primary completion date is Dec. 2, 2020, according to information on clinicaltrials.gov.

“Given the unprecedented global impact of the coronavirus pandemic and the need for public information, AstraZeneca has published the detailed protocol and design of our AZD1222 clinical trial,” the company said in a statement. “As with most clinical development, protocols are not typically shared publicly due to the importance of maintaining confidentiality and integrity of trials.

“AstraZeneca continues to work with industry peers to ensure a consistent approach to sharing timely clinical trial information,” the company added.
 

Moderna methodology

The ModernaTX 135-page protocol outlines the primary trial objectives of evaluating efficacy, safety, and reactogenicity of two injections of the vaccine administered 28 days apart. Researchers also plan to randomly assign 30,000 adults to receive either vaccine or placebo. The estimated primary completion date is Oct. 27, 2022.

A statement that was requested from ModernaTX was not received by press time.
 

Pfizer protocol

In the Pfizer/BioNTech vaccine trial, researchers plan to evaluate different doses in different age groups in a multistep protocol. The trial features 20 primary safety objectives, which include reporting adverse events and serious adverse events, including any local or systemic events.

Efficacy endpoints are secondary objectives. The estimated enrollment is 29,481 adults; the estimated primary completion date is April 19, 2021.

“Pfizer and BioNTech recognize that the COVID-19 pandemic is a unique circumstance, and the need for transparency is clear,” Pfizer spokesperson Sharon Castillo told Medscape Medical News. By making the full protocol available, “we believe this will reinforce our long-standing commitment to scientific and regulatory rigor that benefits patients,” she said.

“Based on current infection rates, Pfizer and BioNTech continue to expect that a conclusive read-out on efficacy is likely by the end of October. Neither Pfizer nor the FDA can move faster than the data we are generating through our clinical trial,” Castillo said.

If clinical work and regulatory approval or authorization proceed as planned, Pfizer and BioNTech expect to supply up to 100 million doses worldwide by the end of 2020 and approximately 1.3 billion doses worldwide by the end of 2021.

Pfizer is not willing to sacrifice safety and efficacy in the name of expediency, Castillo said. “We will not cut corners in this pursuit. Patient safety is our highest priority, and Pfizer will not bring a vaccine to market without adequate evidence of safety and efficacy.”
 

A positive move

“COVID-19 vaccines will only be useful if many people are willing to receive them,” said Kruse, a postgraduate year 3 resident in the Department of Pathology at Johns Hopkins Medicine in Baltimore, Maryland.

“By giving the general public along with other scientists and physicians the opportunity to critique the protocols, everyone can understand what the metrics would be for an early look at efficacy,” Kruse said. He noted that information could help inform a potential FDA emergency use authorization.

Kruse has disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

Children continue to represent an increasing proportion of reported COVID-19 cases in the United States, according to a report from the American Academy of Pediatrics and the Children’s Hospital Association.

The 38,516 child cases reported during the week ending Sept. 17 bring the cumulative number to 587,948, which is 10.3% of all COVID-19 cases. The previous week, children represented 10.0% of all cases, and that proportion has continued to rise throughout the pandemic, the AAP and CHA report shows.

Looking at just new cases for the latest week, the 38,000+ pediatric cases made up almost 17% of the 228,396 cases reported for all ages, compared with 16% and 15% the two previous weeks. For the weeks ending Aug. 13 and Aug. 6, the corresponding figures were 8% and 13%, based on the data in the AAP/CHA report, which cover 49 states (New York City but not New York state), the District of Columbia, Puerto Rico, and Guam.

The state with the highest proportion of child COVID-19 cases as of Sept. 17 was Wyoming, with 20.6%, followed by North Dakota at 18.3% and Tennessee at 17.9%. New York City has a cumulative rate of just 3.4%, but New Jersey is the state with the lowest rate at 3.6%. Florida comes in at 5.9% but is using an age range of 0-14 years for children, and Texas has a rate of 6.0% but has reported ages for only 8% of confirmed cases, the AAP and CHA noted.

Severe illness, however, continues to be rare in children. The overall hospitalization rate for children was down to 1.7% among the 26 jurisdictions providing ages as Sept. 17 – down from 1.8% the week before and 2.3% on Aug. 20. The death rate is just 0.02% among 43 jurisdictions, the report said.

[email protected]

Children continue to represent an increasing proportion of reported COVID-19 cases in the United States, according to a report from the American Academy of Pediatrics and the Children’s Hospital Association.

The 38,516 child cases reported during the week ending Sept. 17 bring the cumulative number to 587,948, which is 10.3% of all COVID-19 cases. The previous week, children represented 10.0% of all cases, and that proportion has continued to rise throughout the pandemic, the AAP and CHA report shows.

Looking at just new cases for the latest week, the 38,000+ pediatric cases made up almost 17% of the 228,396 cases reported for all ages, compared with 16% and 15% the two previous weeks. For the weeks ending Aug. 13 and Aug. 6, the corresponding figures were 8% and 13%, based on the data in the AAP/CHA report, which cover 49 states (New York City but not New York state), the District of Columbia, Puerto Rico, and Guam.

The state with the highest proportion of child COVID-19 cases as of Sept. 17 was Wyoming, with 20.6%, followed by North Dakota at 18.3% and Tennessee at 17.9%. New York City has a cumulative rate of just 3.4%, but New Jersey is the state with the lowest rate at 3.6%. Florida comes in at 5.9% but is using an age range of 0-14 years for children, and Texas has a rate of 6.0% but has reported ages for only 8% of confirmed cases, the AAP and CHA noted.

Severe illness, however, continues to be rare in children. The overall hospitalization rate for children was down to 1.7% among the 26 jurisdictions providing ages as Sept. 17 – down from 1.8% the week before and 2.3% on Aug. 20. The death rate is just 0.02% among 43 jurisdictions, the report said.

[email protected]

Children continue to represent an increasing proportion of reported COVID-19 cases in the United States, according to a report from the American Academy of Pediatrics and the Children’s Hospital Association.

The 38,516 child cases reported during the week ending Sept. 17 bring the cumulative number to 587,948, which is 10.3% of all COVID-19 cases. The previous week, children represented 10.0% of all cases, and that proportion has continued to rise throughout the pandemic, the AAP and CHA report shows.

Looking at just new cases for the latest week, the 38,000+ pediatric cases made up almost 17% of the 228,396 cases reported for all ages, compared with 16% and 15% the two previous weeks. For the weeks ending Aug. 13 and Aug. 6, the corresponding figures were 8% and 13%, based on the data in the AAP/CHA report, which cover 49 states (New York City but not New York state), the District of Columbia, Puerto Rico, and Guam.

The state with the highest proportion of child COVID-19 cases as of Sept. 17 was Wyoming, with 20.6%, followed by North Dakota at 18.3% and Tennessee at 17.9%. New York City has a cumulative rate of just 3.4%, but New Jersey is the state with the lowest rate at 3.6%. Florida comes in at 5.9% but is using an age range of 0-14 years for children, and Texas has a rate of 6.0% but has reported ages for only 8% of confirmed cases, the AAP and CHA noted.

Severe illness, however, continues to be rare in children. The overall hospitalization rate for children was down to 1.7% among the 26 jurisdictions providing ages as Sept. 17 – down from 1.8% the week before and 2.3% on Aug. 20. The death rate is just 0.02% among 43 jurisdictions, the report said.

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President Donald Trump, who seems intent on announcing a COVID-19 vaccine before Election Day, could legally authorize a vaccine over the objections of experts, officials at the Food and Drug Administration and even vaccine manufacturers, who have pledged not to release any vaccine unless it’s proved safe and effective.

In podcasts, public forums, social media and medical journals, a growing number of prominent health leaders say they fear that Mr. Trump – who has repeatedly signaled his desire for the swift approval of a vaccine and his displeasure with perceived delays at the FDA – will take matters into his own hands, running roughshod over the usual regulatory process.

It would reflect another attempt by a norm-breaking administration, poised to ram through a Supreme Court nominee opposed to existing abortion rights and the Affordable Care Act, to inject politics into sensitive public health decisions. Mr. Trump has repeatedly contradicted the advice of senior scientists on COVID-19 while pushing controversial treatments for the disease.

If the executive branch were to overrule the FDA’s scientific judgment, a vaccine of limited efficacy and, worse, unknown side effects could be rushed to market.

The worries intensified over the weekend, after Alex Azar, the administration’s secretary of Health & Human Services, asserted his agency’s rule-making authority over the FDA. HHS spokesperson Caitlin Oakley said Mr. Azar’s decision had no bearing on the vaccine approval process.

Vaccines are typically approved by the FDA. Alternatively, Mr. Azar – who reports directly to Mr. Trump – can issue an emergency use authorization, even before any vaccines have been shown to be safe and effective in late-stage clinical trials.

“Yes, this scenario is certainly possible legally and politically,” said Jerry Avorn, MD, a professor of medicine at Harvard Medical School, who outlined such an event in the New England Journal of Medicine. He said it “seems frighteningly more plausible each day.”

Vaccine experts and public health officials are particularly vexed by the possibility because it could ruin the fragile public confidence in a COVID-19 vaccine. It might put scientific authorities in the position of urging people not to be vaccinated after years of coaxing hesitant parents to ignore baseless fears.

Physicians might refuse to administer a vaccine approved with inadequate data, said Preeti Malani, MD, chief health officer and professor of medicine at the University of Michigan in Ann Arbor, in a recent webinar. “You could have a safe, effective vaccine that no one wants to take.” A recent KFF poll found that 54% of Americans would not submit to a COVID-19 vaccine authorized before Election Day.

After this story was published, an HHS official said that Mr. Azar “will defer completely to the FDA” as the agency weighs whether to approve a vaccine produced through the government’s Operation Warp Speed effort.

“The idea the Secretary would approve or authorize a vaccine over the FDA’s objections is preposterous and betrays ignorance of the transparent process that we’re following for the development of the OWS vaccines,” HHS chief of staff Brian Harrison wrote in an email.

White House spokesperson Judd Deere dismissed the scientists’ concerns, saying Trump cared only about the public’s safety and health. “This false narrative that the media and Democrats have created that politics is influencing approvals is not only false but is a danger to the American public,” he said.

Usually, the FDA approves vaccines only after companies submit years of data proving that a vaccine is safe and effective. But a 2004 law allows the FDA to issue an emergency use authorization with much less evidence, as long as the vaccine “may be effective” and its “known and potential benefits” outweigh its “known and potential risks.”

Many scientists doubt a vaccine could meet those criteria before the election. But the terms might be legally vague enough to allow the administration to take such steps.

Moncef Slaoui, chief scientific adviser to Operation Warp Speed, the government program aiming to more quickly develop COVID-19 vaccines, said it’s “extremely unlikely” that vaccine trial results will be ready before the end of October.

Mr. Trump, however, has insisted repeatedly that a vaccine to fight the pandemic that has claimed 200,000 American lives will be distributed starting next month. He reiterated that claim Saturday at a campaign rally in Fayetteville, N.C.

The vaccine will be ready “in a matter of weeks,” he said. “We will end the pandemic from China.”

Although pharmaceutical companies have launched three clinical trials in the United States, no one can say with certainty when those trials will have enough data to determine whether the vaccines are safe and effective.

Officials at Moderna, whose vaccine is being tested in 30,000 volunteers, have said their studies could produce a result by the end of the year, although the final analysis could take place next spring.

Pfizer executives, who have expanded their clinical trial to 44,000 participants, boast that they could know their vaccine works by the end of October.

AstraZeneca’s U.S. vaccine trial, which was scheduled to enroll 30,000 volunteers, is on hold pending an investigation of a possible vaccine-related illness.

Scientists have warned for months that the Trump administration could try to win the election with an “October surprise,” authorizing a vaccine that hasn’t been fully tested. “I don’t think people are crazy to be thinking about all of this,” said William Schultz, a partner in a Washington, D.C., law firm who served as a former FDA commissioner for policy and as general counsel for HHS.

“You’ve got a president saying you’ll have an approval in October. Everybody’s wondering how that could happen.”

In an opinion piece published in the Wall Street Journal, conservative former FDA commissioners Scott Gottlieb and Mark McClellan argued that presidential intrusion was unlikely because the FDA’s “thorough and transparent process doesn’t lend itself to meddling. Any deviation would quickly be apparent.”

But the administration has demonstrated a willingness to bend the agency to its will. The FDA has been criticized for issuing emergency authorizations for two COVID-19 treatments that were boosted by the president but lacked strong evidence to support them: hydroxychloroquine and convalescent plasma.

Mr. Azar has sidelined the FDA in other ways, such as by blocking the agency from regulating lab-developed tests, including tests for the novel coronavirus.

Although FDA Commissioner Stephen Hahn told the Financial Times he would be willing to approve emergency use of a vaccine before large-scale studies conclude, agency officials also have pledged to ensure the safety of any COVID-19 vaccines.

A senior FDA official who oversees vaccine approvals, Peter Marks, MD, has said he will quit if his agency rubber-stamps an unproven COVID-19 vaccine.

“I think there would be an outcry from the public health community second to none, which is my worst nightmare – my worst nightmare – because we will so confuse the public,” said Michael Osterholm, PhD, director of the Center for Infectious Disease Research and Policy at the University of Minnesota, in his weekly podcast.

Still, “even if a company did not want it to be done, even if the FDA did not want it to be done, he could still do that,” said Dr. Osterholm, in his podcast. “I hope that we’d never see that happen, but we have to entertain that’s a possibility.”

In the New England Journal editorial, Dr. Avorn and coauthor Aaron Kesselheim, MD, wondered whether Mr. Trump might invoke the 1950 Defense Production Act to force reluctant drug companies to manufacture their vaccines.

But Mr. Trump would have to sue a company to enforce the Defense Production Act, and the company would have a strong case in refusing, said Lawrence Gostin, director of Georgetown’s O’Neill Institute for National and Global Health Law.

Also, he noted that Mr. Trump could not invoke the Defense Production Act unless a vaccine were “scientifically justified and approved by the FDA.”

Kaiser Health News is a nonprofit news service covering health issues. It is an editorially independent program of KFF (Kaiser Family Foundation), which is not affiliated with Kaiser Permanente.

President Donald Trump, who seems intent on announcing a COVID-19 vaccine before Election Day, could legally authorize a vaccine over the objections of experts, officials at the Food and Drug Administration and even vaccine manufacturers, who have pledged not to release any vaccine unless it’s proved safe and effective.

In podcasts, public forums, social media and medical journals, a growing number of prominent health leaders say they fear that Mr. Trump – who has repeatedly signaled his desire for the swift approval of a vaccine and his displeasure with perceived delays at the FDA – will take matters into his own hands, running roughshod over the usual regulatory process.

It would reflect another attempt by a norm-breaking administration, poised to ram through a Supreme Court nominee opposed to existing abortion rights and the Affordable Care Act, to inject politics into sensitive public health decisions. Mr. Trump has repeatedly contradicted the advice of senior scientists on COVID-19 while pushing controversial treatments for the disease.

If the executive branch were to overrule the FDA’s scientific judgment, a vaccine of limited efficacy and, worse, unknown side effects could be rushed to market.

The worries intensified over the weekend, after Alex Azar, the administration’s secretary of Health & Human Services, asserted his agency’s rule-making authority over the FDA. HHS spokesperson Caitlin Oakley said Mr. Azar’s decision had no bearing on the vaccine approval process.

Vaccines are typically approved by the FDA. Alternatively, Mr. Azar – who reports directly to Mr. Trump – can issue an emergency use authorization, even before any vaccines have been shown to be safe and effective in late-stage clinical trials.

“Yes, this scenario is certainly possible legally and politically,” said Jerry Avorn, MD, a professor of medicine at Harvard Medical School, who outlined such an event in the New England Journal of Medicine. He said it “seems frighteningly more plausible each day.”

Vaccine experts and public health officials are particularly vexed by the possibility because it could ruin the fragile public confidence in a COVID-19 vaccine. It might put scientific authorities in the position of urging people not to be vaccinated after years of coaxing hesitant parents to ignore baseless fears.

Physicians might refuse to administer a vaccine approved with inadequate data, said Preeti Malani, MD, chief health officer and professor of medicine at the University of Michigan in Ann Arbor, in a recent webinar. “You could have a safe, effective vaccine that no one wants to take.” A recent KFF poll found that 54% of Americans would not submit to a COVID-19 vaccine authorized before Election Day.

After this story was published, an HHS official said that Mr. Azar “will defer completely to the FDA” as the agency weighs whether to approve a vaccine produced through the government’s Operation Warp Speed effort.

“The idea the Secretary would approve or authorize a vaccine over the FDA’s objections is preposterous and betrays ignorance of the transparent process that we’re following for the development of the OWS vaccines,” HHS chief of staff Brian Harrison wrote in an email.

White House spokesperson Judd Deere dismissed the scientists’ concerns, saying Trump cared only about the public’s safety and health. “This false narrative that the media and Democrats have created that politics is influencing approvals is not only false but is a danger to the American public,” he said.

Usually, the FDA approves vaccines only after companies submit years of data proving that a vaccine is safe and effective. But a 2004 law allows the FDA to issue an emergency use authorization with much less evidence, as long as the vaccine “may be effective” and its “known and potential benefits” outweigh its “known and potential risks.”

Many scientists doubt a vaccine could meet those criteria before the election. But the terms might be legally vague enough to allow the administration to take such steps.

Moncef Slaoui, chief scientific adviser to Operation Warp Speed, the government program aiming to more quickly develop COVID-19 vaccines, said it’s “extremely unlikely” that vaccine trial results will be ready before the end of October.

Mr. Trump, however, has insisted repeatedly that a vaccine to fight the pandemic that has claimed 200,000 American lives will be distributed starting next month. He reiterated that claim Saturday at a campaign rally in Fayetteville, N.C.

The vaccine will be ready “in a matter of weeks,” he said. “We will end the pandemic from China.”

Although pharmaceutical companies have launched three clinical trials in the United States, no one can say with certainty when those trials will have enough data to determine whether the vaccines are safe and effective.

Officials at Moderna, whose vaccine is being tested in 30,000 volunteers, have said their studies could produce a result by the end of the year, although the final analysis could take place next spring.

Pfizer executives, who have expanded their clinical trial to 44,000 participants, boast that they could know their vaccine works by the end of October.

AstraZeneca’s U.S. vaccine trial, which was scheduled to enroll 30,000 volunteers, is on hold pending an investigation of a possible vaccine-related illness.

Scientists have warned for months that the Trump administration could try to win the election with an “October surprise,” authorizing a vaccine that hasn’t been fully tested. “I don’t think people are crazy to be thinking about all of this,” said William Schultz, a partner in a Washington, D.C., law firm who served as a former FDA commissioner for policy and as general counsel for HHS.

“You’ve got a president saying you’ll have an approval in October. Everybody’s wondering how that could happen.”

In an opinion piece published in the Wall Street Journal, conservative former FDA commissioners Scott Gottlieb and Mark McClellan argued that presidential intrusion was unlikely because the FDA’s “thorough and transparent process doesn’t lend itself to meddling. Any deviation would quickly be apparent.”

But the administration has demonstrated a willingness to bend the agency to its will. The FDA has been criticized for issuing emergency authorizations for two COVID-19 treatments that were boosted by the president but lacked strong evidence to support them: hydroxychloroquine and convalescent plasma.

Mr. Azar has sidelined the FDA in other ways, such as by blocking the agency from regulating lab-developed tests, including tests for the novel coronavirus.

Although FDA Commissioner Stephen Hahn told the Financial Times he would be willing to approve emergency use of a vaccine before large-scale studies conclude, agency officials also have pledged to ensure the safety of any COVID-19 vaccines.

A senior FDA official who oversees vaccine approvals, Peter Marks, MD, has said he will quit if his agency rubber-stamps an unproven COVID-19 vaccine.

“I think there would be an outcry from the public health community second to none, which is my worst nightmare – my worst nightmare – because we will so confuse the public,” said Michael Osterholm, PhD, director of the Center for Infectious Disease Research and Policy at the University of Minnesota, in his weekly podcast.

Still, “even if a company did not want it to be done, even if the FDA did not want it to be done, he could still do that,” said Dr. Osterholm, in his podcast. “I hope that we’d never see that happen, but we have to entertain that’s a possibility.”

In the New England Journal editorial, Dr. Avorn and coauthor Aaron Kesselheim, MD, wondered whether Mr. Trump might invoke the 1950 Defense Production Act to force reluctant drug companies to manufacture their vaccines.

But Mr. Trump would have to sue a company to enforce the Defense Production Act, and the company would have a strong case in refusing, said Lawrence Gostin, director of Georgetown’s O’Neill Institute for National and Global Health Law.

Also, he noted that Mr. Trump could not invoke the Defense Production Act unless a vaccine were “scientifically justified and approved by the FDA.”

Kaiser Health News is a nonprofit news service covering health issues. It is an editorially independent program of KFF (Kaiser Family Foundation), which is not affiliated with Kaiser Permanente.

President Donald Trump, who seems intent on announcing a COVID-19 vaccine before Election Day, could legally authorize a vaccine over the objections of experts, officials at the Food and Drug Administration and even vaccine manufacturers, who have pledged not to release any vaccine unless it’s proved safe and effective.

In podcasts, public forums, social media and medical journals, a growing number of prominent health leaders say they fear that Mr. Trump – who has repeatedly signaled his desire for the swift approval of a vaccine and his displeasure with perceived delays at the FDA – will take matters into his own hands, running roughshod over the usual regulatory process.

It would reflect another attempt by a norm-breaking administration, poised to ram through a Supreme Court nominee opposed to existing abortion rights and the Affordable Care Act, to inject politics into sensitive public health decisions. Mr. Trump has repeatedly contradicted the advice of senior scientists on COVID-19 while pushing controversial treatments for the disease.

If the executive branch were to overrule the FDA’s scientific judgment, a vaccine of limited efficacy and, worse, unknown side effects could be rushed to market.

The worries intensified over the weekend, after Alex Azar, the administration’s secretary of Health & Human Services, asserted his agency’s rule-making authority over the FDA. HHS spokesperson Caitlin Oakley said Mr. Azar’s decision had no bearing on the vaccine approval process.

Vaccines are typically approved by the FDA. Alternatively, Mr. Azar – who reports directly to Mr. Trump – can issue an emergency use authorization, even before any vaccines have been shown to be safe and effective in late-stage clinical trials.

“Yes, this scenario is certainly possible legally and politically,” said Jerry Avorn, MD, a professor of medicine at Harvard Medical School, who outlined such an event in the New England Journal of Medicine. He said it “seems frighteningly more plausible each day.”

Vaccine experts and public health officials are particularly vexed by the possibility because it could ruin the fragile public confidence in a COVID-19 vaccine. It might put scientific authorities in the position of urging people not to be vaccinated after years of coaxing hesitant parents to ignore baseless fears.

Physicians might refuse to administer a vaccine approved with inadequate data, said Preeti Malani, MD, chief health officer and professor of medicine at the University of Michigan in Ann Arbor, in a recent webinar. “You could have a safe, effective vaccine that no one wants to take.” A recent KFF poll found that 54% of Americans would not submit to a COVID-19 vaccine authorized before Election Day.

After this story was published, an HHS official said that Mr. Azar “will defer completely to the FDA” as the agency weighs whether to approve a vaccine produced through the government’s Operation Warp Speed effort.

“The idea the Secretary would approve or authorize a vaccine over the FDA’s objections is preposterous and betrays ignorance of the transparent process that we’re following for the development of the OWS vaccines,” HHS chief of staff Brian Harrison wrote in an email.

White House spokesperson Judd Deere dismissed the scientists’ concerns, saying Trump cared only about the public’s safety and health. “This false narrative that the media and Democrats have created that politics is influencing approvals is not only false but is a danger to the American public,” he said.

Usually, the FDA approves vaccines only after companies submit years of data proving that a vaccine is safe and effective. But a 2004 law allows the FDA to issue an emergency use authorization with much less evidence, as long as the vaccine “may be effective” and its “known and potential benefits” outweigh its “known and potential risks.”

Many scientists doubt a vaccine could meet those criteria before the election. But the terms might be legally vague enough to allow the administration to take such steps.

Moncef Slaoui, chief scientific adviser to Operation Warp Speed, the government program aiming to more quickly develop COVID-19 vaccines, said it’s “extremely unlikely” that vaccine trial results will be ready before the end of October.

Mr. Trump, however, has insisted repeatedly that a vaccine to fight the pandemic that has claimed 200,000 American lives will be distributed starting next month. He reiterated that claim Saturday at a campaign rally in Fayetteville, N.C.

The vaccine will be ready “in a matter of weeks,” he said. “We will end the pandemic from China.”

Although pharmaceutical companies have launched three clinical trials in the United States, no one can say with certainty when those trials will have enough data to determine whether the vaccines are safe and effective.

Officials at Moderna, whose vaccine is being tested in 30,000 volunteers, have said their studies could produce a result by the end of the year, although the final analysis could take place next spring.

Pfizer executives, who have expanded their clinical trial to 44,000 participants, boast that they could know their vaccine works by the end of October.

AstraZeneca’s U.S. vaccine trial, which was scheduled to enroll 30,000 volunteers, is on hold pending an investigation of a possible vaccine-related illness.

Scientists have warned for months that the Trump administration could try to win the election with an “October surprise,” authorizing a vaccine that hasn’t been fully tested. “I don’t think people are crazy to be thinking about all of this,” said William Schultz, a partner in a Washington, D.C., law firm who served as a former FDA commissioner for policy and as general counsel for HHS.

“You’ve got a president saying you’ll have an approval in October. Everybody’s wondering how that could happen.”

In an opinion piece published in the Wall Street Journal, conservative former FDA commissioners Scott Gottlieb and Mark McClellan argued that presidential intrusion was unlikely because the FDA’s “thorough and transparent process doesn’t lend itself to meddling. Any deviation would quickly be apparent.”

But the administration has demonstrated a willingness to bend the agency to its will. The FDA has been criticized for issuing emergency authorizations for two COVID-19 treatments that were boosted by the president but lacked strong evidence to support them: hydroxychloroquine and convalescent plasma.

Mr. Azar has sidelined the FDA in other ways, such as by blocking the agency from regulating lab-developed tests, including tests for the novel coronavirus.

Although FDA Commissioner Stephen Hahn told the Financial Times he would be willing to approve emergency use of a vaccine before large-scale studies conclude, agency officials also have pledged to ensure the safety of any COVID-19 vaccines.

A senior FDA official who oversees vaccine approvals, Peter Marks, MD, has said he will quit if his agency rubber-stamps an unproven COVID-19 vaccine.

“I think there would be an outcry from the public health community second to none, which is my worst nightmare – my worst nightmare – because we will so confuse the public,” said Michael Osterholm, PhD, director of the Center for Infectious Disease Research and Policy at the University of Minnesota, in his weekly podcast.

Still, “even if a company did not want it to be done, even if the FDA did not want it to be done, he could still do that,” said Dr. Osterholm, in his podcast. “I hope that we’d never see that happen, but we have to entertain that’s a possibility.”

In the New England Journal editorial, Dr. Avorn and coauthor Aaron Kesselheim, MD, wondered whether Mr. Trump might invoke the 1950 Defense Production Act to force reluctant drug companies to manufacture their vaccines.

But Mr. Trump would have to sue a company to enforce the Defense Production Act, and the company would have a strong case in refusing, said Lawrence Gostin, director of Georgetown’s O’Neill Institute for National and Global Health Law.

Also, he noted that Mr. Trump could not invoke the Defense Production Act unless a vaccine were “scientifically justified and approved by the FDA.”

Kaiser Health News is a nonprofit news service covering health issues. It is an editorially independent program of KFF (Kaiser Family Foundation), which is not affiliated with Kaiser Permanente.

The Centers for Disease Control and Prevention (CDC) today abruptly deleted information from its website that it had updated Friday on how COVID-19 is spread.

The CDC had updated information on coronavirus spread and had acknowledged the prominence of aerosol transmission.

CDC’s new information still says that Sars-CoV-2 is commonly spread between people who are within about 6 feet of each other, which has been the agency’s stance for months now.

However, the deleted update had added it is spread “through respiratory droplets or small particles, such as those in aerosols, produced when an infected person coughs, sneezes, sings, talks, or breathes. These particles can be inhaled into the nose, mouth, airways, and lungs and cause infection. This is thought to be the main way the virus spreads.”

Responding to Medscape Medical News questions about the update, Jasmine Reed, spokesperson for the CDC, told Medscape Medical News, “A draft version of proposed changes to these recommendations was posted in error to the agency’s official website. CDC is currently updating its recommendations regarding airborne transmission of SARS-CoV-2 (the virus that causes COVID-19). Once this process has been completed, the updated language will be posted.”

Previous information

Previously, the CDC said the virus is spread mainly among people who are within about 6 feet of each another through respiratory droplets propelled when an infected person coughs, sneezes, or talks.

Previous guidance also said, “These droplets can land in the mouths or noses of people who are nearby or possibly be inhaled into the lungs.”

The now deleted update said, “There is growing evidence that droplets and airborne particles can remain suspended in the air and be breathed in by others, and travel distances beyond 6 feet (for example, during choir practice, in restaurants, or in fitness classes).”

On July 6, Clinical Infectious Diseases published the paper “It Is Time to Address Airborne Transmission of Coronavirus Disease 2019,” which was supported by 239 scientists.

The authors write, “There is significant potential for inhalation exposure to viruses in microscopic respiratory droplets (microdroplets) at short to medium distances (up to several meters, or room scale).

The World Health Organization (WHO) acknowledged after this research was published that airborne transmission of the virus may play a role in infection, especially in poorly ventilated rooms and buildings, but have yet to declare aerosols as a definitive contributor.

WHO has long stated that coronavirus is spread mainly by droplets that, once expelled by coughs and sneezes of infected people, fall quickly to the floor.

The CDC update was made Friday without announcement.

“This has been one of the problems all along,” said Leana Wen, MD, an emergency physician and public health professor at George Washington University, Washington, DC. “The guidance from CDC changes on their website, but there’s no press conference, there’s no explanation of why they’re changing this now.”

Again Monday, there was no announcement that information had changed.

Update added air purifiers for prevention

The CDC continues to recommend staying 6 feet from others, washing hands, wearing a mask and routinely disinfecting frequently touched surfaces.

The update had added, “Use air purifiers to help reduce airborne germs in indoor spaces.”

Marcia Frellick is a freelance journalist based in Chicago. She has previously written for the Chicago Tribune, Science News and Nurse.com and was an editor at the Chicago Sun-Times, the Cincinnati Enquirer, and the St. Cloud (Minnesota) Times. Follow her on Twitter at @mfrellick

This article first appeared on Medscape.com.

The Centers for Disease Control and Prevention (CDC) today abruptly deleted information from its website that it had updated Friday on how COVID-19 is spread.

The CDC had updated information on coronavirus spread and had acknowledged the prominence of aerosol transmission.

CDC’s new information still says that Sars-CoV-2 is commonly spread between people who are within about 6 feet of each other, which has been the agency’s stance for months now.

However, the deleted update had added it is spread “through respiratory droplets or small particles, such as those in aerosols, produced when an infected person coughs, sneezes, sings, talks, or breathes. These particles can be inhaled into the nose, mouth, airways, and lungs and cause infection. This is thought to be the main way the virus spreads.”

Responding to Medscape Medical News questions about the update, Jasmine Reed, spokesperson for the CDC, told Medscape Medical News, “A draft version of proposed changes to these recommendations was posted in error to the agency’s official website. CDC is currently updating its recommendations regarding airborne transmission of SARS-CoV-2 (the virus that causes COVID-19). Once this process has been completed, the updated language will be posted.”

Previous information

Previously, the CDC said the virus is spread mainly among people who are within about 6 feet of each another through respiratory droplets propelled when an infected person coughs, sneezes, or talks.

Previous guidance also said, “These droplets can land in the mouths or noses of people who are nearby or possibly be inhaled into the lungs.”

The now deleted update said, “There is growing evidence that droplets and airborne particles can remain suspended in the air and be breathed in by others, and travel distances beyond 6 feet (for example, during choir practice, in restaurants, or in fitness classes).”

On July 6, Clinical Infectious Diseases published the paper “It Is Time to Address Airborne Transmission of Coronavirus Disease 2019,” which was supported by 239 scientists.

The authors write, “There is significant potential for inhalation exposure to viruses in microscopic respiratory droplets (microdroplets) at short to medium distances (up to several meters, or room scale).

The World Health Organization (WHO) acknowledged after this research was published that airborne transmission of the virus may play a role in infection, especially in poorly ventilated rooms and buildings, but have yet to declare aerosols as a definitive contributor.

WHO has long stated that coronavirus is spread mainly by droplets that, once expelled by coughs and sneezes of infected people, fall quickly to the floor.

The CDC update was made Friday without announcement.

“This has been one of the problems all along,” said Leana Wen, MD, an emergency physician and public health professor at George Washington University, Washington, DC. “The guidance from CDC changes on their website, but there’s no press conference, there’s no explanation of why they’re changing this now.”

Again Monday, there was no announcement that information had changed.

Update added air purifiers for prevention

The CDC continues to recommend staying 6 feet from others, washing hands, wearing a mask and routinely disinfecting frequently touched surfaces.

The update had added, “Use air purifiers to help reduce airborne germs in indoor spaces.”

Marcia Frellick is a freelance journalist based in Chicago. She has previously written for the Chicago Tribune, Science News and Nurse.com and was an editor at the Chicago Sun-Times, the Cincinnati Enquirer, and the St. Cloud (Minnesota) Times. Follow her on Twitter at @mfrellick

This article first appeared on Medscape.com.

The Centers for Disease Control and Prevention (CDC) today abruptly deleted information from its website that it had updated Friday on how COVID-19 is spread.

The CDC had updated information on coronavirus spread and had acknowledged the prominence of aerosol transmission.

CDC’s new information still says that Sars-CoV-2 is commonly spread between people who are within about 6 feet of each other, which has been the agency’s stance for months now.

However, the deleted update had added it is spread “through respiratory droplets or small particles, such as those in aerosols, produced when an infected person coughs, sneezes, sings, talks, or breathes. These particles can be inhaled into the nose, mouth, airways, and lungs and cause infection. This is thought to be the main way the virus spreads.”

Responding to Medscape Medical News questions about the update, Jasmine Reed, spokesperson for the CDC, told Medscape Medical News, “A draft version of proposed changes to these recommendations was posted in error to the agency’s official website. CDC is currently updating its recommendations regarding airborne transmission of SARS-CoV-2 (the virus that causes COVID-19). Once this process has been completed, the updated language will be posted.”

Previous information

Previously, the CDC said the virus is spread mainly among people who are within about 6 feet of each another through respiratory droplets propelled when an infected person coughs, sneezes, or talks.

Previous guidance also said, “These droplets can land in the mouths or noses of people who are nearby or possibly be inhaled into the lungs.”

The now deleted update said, “There is growing evidence that droplets and airborne particles can remain suspended in the air and be breathed in by others, and travel distances beyond 6 feet (for example, during choir practice, in restaurants, or in fitness classes).”

On July 6, Clinical Infectious Diseases published the paper “It Is Time to Address Airborne Transmission of Coronavirus Disease 2019,” which was supported by 239 scientists.

The authors write, “There is significant potential for inhalation exposure to viruses in microscopic respiratory droplets (microdroplets) at short to medium distances (up to several meters, or room scale).

The World Health Organization (WHO) acknowledged after this research was published that airborne transmission of the virus may play a role in infection, especially in poorly ventilated rooms and buildings, but have yet to declare aerosols as a definitive contributor.

WHO has long stated that coronavirus is spread mainly by droplets that, once expelled by coughs and sneezes of infected people, fall quickly to the floor.

The CDC update was made Friday without announcement.

“This has been one of the problems all along,” said Leana Wen, MD, an emergency physician and public health professor at George Washington University, Washington, DC. “The guidance from CDC changes on their website, but there’s no press conference, there’s no explanation of why they’re changing this now.”

Again Monday, there was no announcement that information had changed.

Update added air purifiers for prevention

The CDC continues to recommend staying 6 feet from others, washing hands, wearing a mask and routinely disinfecting frequently touched surfaces.

The update had added, “Use air purifiers to help reduce airborne germs in indoor spaces.”

Marcia Frellick is a freelance journalist based in Chicago. She has previously written for the Chicago Tribune, Science News and Nurse.com and was an editor at the Chicago Sun-Times, the Cincinnati Enquirer, and the St. Cloud (Minnesota) Times. Follow her on Twitter at @mfrellick

This article first appeared on Medscape.com.

The risk for death goes up for patients with atrial fibrillation (AFib) who are put on direct oral anticoagulants (DOAC) at dosages other than those approved for stroke prevention, whether higher or lower than doses specified in the labeling, suggests a large registry study.

A quarter of more than 10,000 patients in the registry took the drugs at such nonrecommended higher or lower dosages. Overwhelmingly it was the latter, perhaps reflecting caution on the part of some practitioners looking to minimize the risk of bleeding complications.

The risk of major bleeding indeed dropped sharply for those taking DOACs at lower-than-recommended levels, but at the cost of a 25% jump in all-cause mortality over 2 years, report investigators from their analysis of patients in the GARFIELD-AF registry published Sept. 14 in the Journal of the American College of Cardiology.

Risks of major bleeding and of stroke or systemic embolism didn’t climb significantly for patients either under- or overdosed.

In general, “physicians are worried about giving too much anticoagulant, and they tend to favor erring on the low-dose side,” lead author A. John Camm, MD, St. George’s University of London, said in an interview. That’s how it was when an oral anticoagulation meant a vitamin K antagonist (VKA) and underdosing was frequent; and it remains an issue in the DOAC era. “It’s not just a little problem. It’s a very big problem.”

Today, clinicians may prescribe DOACs similar to how they prescribed VKAs, by cautiously choosing a lower dosage for selected patients based on their risk profile, Dr. Camm observed. But in contrast to the VKAs, the DOACs “were studied with different dose-reduction strategies, and their labeling requires them to be prescribed according to different parameters.”

They variously base dosage reductions on age, body weight, renal function, or drug-drug interactions, for example, but some clinicians “tend to think that all of those factors should be applied in every instance, with every drug,” he said.

“So I think there’s some confusion and a lot of caution that physicians use with anticoagulants, and they often forget that the purpose of the anticoagulant is to prevent strokes and adverse outcomes such as mortality,” Dr. Camm said. “But by reducing the dose, they expose their patients to these other major cardiovascular events.”

Numerically, the excess mortality among underdosed patients appeared to be driven by death from heart failure or myocardial infarction. There was little or no contribution from sudden death, fatal strokes, or noncardiovascular death.

The findings “remind clinicians to dose DOACs properly and that there are consequences of dosing errors,” observes Gerald V. Naccarelli, MD, of Penn State University and the Milton S. Hershey Medical Center, Hershey, in an accompanying editorial.

Based on the major clinical trials that established the drugs as mainstream stroke-preventive therapy in AFib, as well as extensive regulatory review, each DOAC’s label-recommended dosing “is a guidance of the truth to achieve the highest efficacy and most safety in our patients,” Dr. Naccarelli wrote. “As clinicians are risk adverse, underdosing might result in lower major bleeding rates, and physicians are blamed for bleeding but not necessarily for allowing embolic strokes to occur. These data raise the issue that underdosing is associated with worse patient outcomes.”

The GARFIELD-AF analysis covered 10,426 adults with nonvalvular AFib in 35 countries who initiated a DOAC from 2013 to 2016. The drugs were prescribed at dosages consistent with recommendations in each respective country’s labeling for stroke prevention in AFib in 72.9% of the cohort. Most full and adjusted dose levels approved by the European Medicines Agency, Food and Drug Administration, and regulators in Japan were the same or similar.

But there were a few exceptions. All dosing criteria across the three regulatory domains were the same for apixaban (Eliquis). But variations included lower dosage options for rivaroxaban (Xarelto) and edoxaban (Savaysa, Lixiana) in Japan, and a uniquely low dabigatran (Pradaxa) dosage option in the United States.

The DOAC used least often was the one most frequently underdosed. More than half of patients prescribed edoxaban were given it at a lower-than-recommended dosage.

The adjusted hazard ratio for all-cause mortality at 2 years for DOAC under- or overdosing, compared with dosing at recommended levels, was 1.24 (95% confidence interval, 1.04-1.48). The difference was driven by underdosing, for which the HR was 1.25 (95% CI, 1.04-1.50). The HR for over-dosing was only 1.19 (95% CI, 0.83-1.71).

Multivariate adjustment accounted for age, sex, and ethnicity; type of AFib; diabetes; hypertension; history of bleeding; prior stroke, transient ischemic attack, or systemic embolism; heart failure; vascular disease; smoking; and heavy alcohol consumption.

The risk of stroke or systemic embolism didn’t go up or down significantly for either overdosed or underdosed patients. Neither group showed an increased risk for major bleeding; however, the HR for major bleeding in underdosed patients fell to 0.50 (95% CI, 0.28-0.88).

Underdosing was more common in some world regions than others. The rate exceeded 30% in all Latin American countries except Argentina, the report stated, and in all Asian countries except Singapore.

Japanese patients have long received oral anticoagulation at lower dosages than are used in the West, Dr. Camm observed. When VKAs were the only choice, for example, international normalized ratio targets were consistently a bit lower in Japan than in, for example, North America or Europe.

“And when [novel] OACs were developed, again, the Japanese took the view that their patients are more vulnerable to bleeding, and therefore a lower dose would be appropriate. In some instances, lower-dose regimens have been specifically studied in the Japanese,” Dr. Camm said. “Having said that, this concept of bleeding being more problematic in Asian patients has expanded well beyond Japan, and therefore in many Asian communities, lower doses of [novel] OACs are chosen.”

Many other factors may contribute to DOAC underdosing, including differences in dosing strategies between primary care practitioners and specialists, or between hospital-based and office-based clinicians, for example.

“It might also be argued that a physician who fails to treat a patient adequately in one arena may also be failing to treat the patient well in other aspects of their care,” Dr. Camm proposed. “Therefore you could have increased mortality due to other cardiovascular causes, or even noncardiovascular events, through absence of good quality care. Our study did not address that specifically. But it might be the case, speculatively.”

The study was supported by a grant from Bayer to the Thrombosis Research Institute, “which sponsors the GARFIELD-AF registry.” Dr. Camm discloses receiving grants and personal fees from Bayer, Boehringer Ingelheim, Pfizer/Bristol-Myers Squibb, and Daiichi Sankyo. Disclosures for the other authors are in the report. Dr. Naccarelli disclosed consulting and participating in research for Janssen and serving as a consultant for Milestone, Sanofi, Omeicos, and Acesion Pharma.

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

The risk for death goes up for patients with atrial fibrillation (AFib) who are put on direct oral anticoagulants (DOAC) at dosages other than those approved for stroke prevention, whether higher or lower than doses specified in the labeling, suggests a large registry study.

A quarter of more than 10,000 patients in the registry took the drugs at such nonrecommended higher or lower dosages. Overwhelmingly it was the latter, perhaps reflecting caution on the part of some practitioners looking to minimize the risk of bleeding complications.

The risk of major bleeding indeed dropped sharply for those taking DOACs at lower-than-recommended levels, but at the cost of a 25% jump in all-cause mortality over 2 years, report investigators from their analysis of patients in the GARFIELD-AF registry published Sept. 14 in the Journal of the American College of Cardiology.

Risks of major bleeding and of stroke or systemic embolism didn’t climb significantly for patients either under- or overdosed.

In general, “physicians are worried about giving too much anticoagulant, and they tend to favor erring on the low-dose side,” lead author A. John Camm, MD, St. George’s University of London, said in an interview. That’s how it was when an oral anticoagulation meant a vitamin K antagonist (VKA) and underdosing was frequent; and it remains an issue in the DOAC era. “It’s not just a little problem. It’s a very big problem.”

Today, clinicians may prescribe DOACs similar to how they prescribed VKAs, by cautiously choosing a lower dosage for selected patients based on their risk profile, Dr. Camm observed. But in contrast to the VKAs, the DOACs “were studied with different dose-reduction strategies, and their labeling requires them to be prescribed according to different parameters.”

They variously base dosage reductions on age, body weight, renal function, or drug-drug interactions, for example, but some clinicians “tend to think that all of those factors should be applied in every instance, with every drug,” he said.

“So I think there’s some confusion and a lot of caution that physicians use with anticoagulants, and they often forget that the purpose of the anticoagulant is to prevent strokes and adverse outcomes such as mortality,” Dr. Camm said. “But by reducing the dose, they expose their patients to these other major cardiovascular events.”

Numerically, the excess mortality among underdosed patients appeared to be driven by death from heart failure or myocardial infarction. There was little or no contribution from sudden death, fatal strokes, or noncardiovascular death.

The findings “remind clinicians to dose DOACs properly and that there are consequences of dosing errors,” observes Gerald V. Naccarelli, MD, of Penn State University and the Milton S. Hershey Medical Center, Hershey, in an accompanying editorial.

Based on the major clinical trials that established the drugs as mainstream stroke-preventive therapy in AFib, as well as extensive regulatory review, each DOAC’s label-recommended dosing “is a guidance of the truth to achieve the highest efficacy and most safety in our patients,” Dr. Naccarelli wrote. “As clinicians are risk adverse, underdosing might result in lower major bleeding rates, and physicians are blamed for bleeding but not necessarily for allowing embolic strokes to occur. These data raise the issue that underdosing is associated with worse patient outcomes.”

The GARFIELD-AF analysis covered 10,426 adults with nonvalvular AFib in 35 countries who initiated a DOAC from 2013 to 2016. The drugs were prescribed at dosages consistent with recommendations in each respective country’s labeling for stroke prevention in AFib in 72.9% of the cohort. Most full and adjusted dose levels approved by the European Medicines Agency, Food and Drug Administration, and regulators in Japan were the same or similar.

But there were a few exceptions. All dosing criteria across the three regulatory domains were the same for apixaban (Eliquis). But variations included lower dosage options for rivaroxaban (Xarelto) and edoxaban (Savaysa, Lixiana) in Japan, and a uniquely low dabigatran (Pradaxa) dosage option in the United States.

The DOAC used least often was the one most frequently underdosed. More than half of patients prescribed edoxaban were given it at a lower-than-recommended dosage.

The adjusted hazard ratio for all-cause mortality at 2 years for DOAC under- or overdosing, compared with dosing at recommended levels, was 1.24 (95% confidence interval, 1.04-1.48). The difference was driven by underdosing, for which the HR was 1.25 (95% CI, 1.04-1.50). The HR for over-dosing was only 1.19 (95% CI, 0.83-1.71).

Multivariate adjustment accounted for age, sex, and ethnicity; type of AFib; diabetes; hypertension; history of bleeding; prior stroke, transient ischemic attack, or systemic embolism; heart failure; vascular disease; smoking; and heavy alcohol consumption.

The risk of stroke or systemic embolism didn’t go up or down significantly for either overdosed or underdosed patients. Neither group showed an increased risk for major bleeding; however, the HR for major bleeding in underdosed patients fell to 0.50 (95% CI, 0.28-0.88).

Underdosing was more common in some world regions than others. The rate exceeded 30% in all Latin American countries except Argentina, the report stated, and in all Asian countries except Singapore.

Japanese patients have long received oral anticoagulation at lower dosages than are used in the West, Dr. Camm observed. When VKAs were the only choice, for example, international normalized ratio targets were consistently a bit lower in Japan than in, for example, North America or Europe.

“And when [novel] OACs were developed, again, the Japanese took the view that their patients are more vulnerable to bleeding, and therefore a lower dose would be appropriate. In some instances, lower-dose regimens have been specifically studied in the Japanese,” Dr. Camm said. “Having said that, this concept of bleeding being more problematic in Asian patients has expanded well beyond Japan, and therefore in many Asian communities, lower doses of [novel] OACs are chosen.”

Many other factors may contribute to DOAC underdosing, including differences in dosing strategies between primary care practitioners and specialists, or between hospital-based and office-based clinicians, for example.

“It might also be argued that a physician who fails to treat a patient adequately in one arena may also be failing to treat the patient well in other aspects of their care,” Dr. Camm proposed. “Therefore you could have increased mortality due to other cardiovascular causes, or even noncardiovascular events, through absence of good quality care. Our study did not address that specifically. But it might be the case, speculatively.”

The study was supported by a grant from Bayer to the Thrombosis Research Institute, “which sponsors the GARFIELD-AF registry.” Dr. Camm discloses receiving grants and personal fees from Bayer, Boehringer Ingelheim, Pfizer/Bristol-Myers Squibb, and Daiichi Sankyo. Disclosures for the other authors are in the report. Dr. Naccarelli disclosed consulting and participating in research for Janssen and serving as a consultant for Milestone, Sanofi, Omeicos, and Acesion Pharma.

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

The risk for death goes up for patients with atrial fibrillation (AFib) who are put on direct oral anticoagulants (DOAC) at dosages other than those approved for stroke prevention, whether higher or lower than doses specified in the labeling, suggests a large registry study.

A quarter of more than 10,000 patients in the registry took the drugs at such nonrecommended higher or lower dosages. Overwhelmingly it was the latter, perhaps reflecting caution on the part of some practitioners looking to minimize the risk of bleeding complications.

The risk of major bleeding indeed dropped sharply for those taking DOACs at lower-than-recommended levels, but at the cost of a 25% jump in all-cause mortality over 2 years, report investigators from their analysis of patients in the GARFIELD-AF registry published Sept. 14 in the Journal of the American College of Cardiology.

Risks of major bleeding and of stroke or systemic embolism didn’t climb significantly for patients either under- or overdosed.

In general, “physicians are worried about giving too much anticoagulant, and they tend to favor erring on the low-dose side,” lead author A. John Camm, MD, St. George’s University of London, said in an interview. That’s how it was when an oral anticoagulation meant a vitamin K antagonist (VKA) and underdosing was frequent; and it remains an issue in the DOAC era. “It’s not just a little problem. It’s a very big problem.”

Today, clinicians may prescribe DOACs similar to how they prescribed VKAs, by cautiously choosing a lower dosage for selected patients based on their risk profile, Dr. Camm observed. But in contrast to the VKAs, the DOACs “were studied with different dose-reduction strategies, and their labeling requires them to be prescribed according to different parameters.”

They variously base dosage reductions on age, body weight, renal function, or drug-drug interactions, for example, but some clinicians “tend to think that all of those factors should be applied in every instance, with every drug,” he said.

“So I think there’s some confusion and a lot of caution that physicians use with anticoagulants, and they often forget that the purpose of the anticoagulant is to prevent strokes and adverse outcomes such as mortality,” Dr. Camm said. “But by reducing the dose, they expose their patients to these other major cardiovascular events.”

Numerically, the excess mortality among underdosed patients appeared to be driven by death from heart failure or myocardial infarction. There was little or no contribution from sudden death, fatal strokes, or noncardiovascular death.

The findings “remind clinicians to dose DOACs properly and that there are consequences of dosing errors,” observes Gerald V. Naccarelli, MD, of Penn State University and the Milton S. Hershey Medical Center, Hershey, in an accompanying editorial.

Based on the major clinical trials that established the drugs as mainstream stroke-preventive therapy in AFib, as well as extensive regulatory review, each DOAC’s label-recommended dosing “is a guidance of the truth to achieve the highest efficacy and most safety in our patients,” Dr. Naccarelli wrote. “As clinicians are risk adverse, underdosing might result in lower major bleeding rates, and physicians are blamed for bleeding but not necessarily for allowing embolic strokes to occur. These data raise the issue that underdosing is associated with worse patient outcomes.”

The GARFIELD-AF analysis covered 10,426 adults with nonvalvular AFib in 35 countries who initiated a DOAC from 2013 to 2016. The drugs were prescribed at dosages consistent with recommendations in each respective country’s labeling for stroke prevention in AFib in 72.9% of the cohort. Most full and adjusted dose levels approved by the European Medicines Agency, Food and Drug Administration, and regulators in Japan were the same or similar.

But there were a few exceptions. All dosing criteria across the three regulatory domains were the same for apixaban (Eliquis). But variations included lower dosage options for rivaroxaban (Xarelto) and edoxaban (Savaysa, Lixiana) in Japan, and a uniquely low dabigatran (Pradaxa) dosage option in the United States.

The DOAC used least often was the one most frequently underdosed. More than half of patients prescribed edoxaban were given it at a lower-than-recommended dosage.

The adjusted hazard ratio for all-cause mortality at 2 years for DOAC under- or overdosing, compared with dosing at recommended levels, was 1.24 (95% confidence interval, 1.04-1.48). The difference was driven by underdosing, for which the HR was 1.25 (95% CI, 1.04-1.50). The HR for over-dosing was only 1.19 (95% CI, 0.83-1.71).

Multivariate adjustment accounted for age, sex, and ethnicity; type of AFib; diabetes; hypertension; history of bleeding; prior stroke, transient ischemic attack, or systemic embolism; heart failure; vascular disease; smoking; and heavy alcohol consumption.

The risk of stroke or systemic embolism didn’t go up or down significantly for either overdosed or underdosed patients. Neither group showed an increased risk for major bleeding; however, the HR for major bleeding in underdosed patients fell to 0.50 (95% CI, 0.28-0.88).

Underdosing was more common in some world regions than others. The rate exceeded 30% in all Latin American countries except Argentina, the report stated, and in all Asian countries except Singapore.

Japanese patients have long received oral anticoagulation at lower dosages than are used in the West, Dr. Camm observed. When VKAs were the only choice, for example, international normalized ratio targets were consistently a bit lower in Japan than in, for example, North America or Europe.

“And when [novel] OACs were developed, again, the Japanese took the view that their patients are more vulnerable to bleeding, and therefore a lower dose would be appropriate. In some instances, lower-dose regimens have been specifically studied in the Japanese,” Dr. Camm said. “Having said that, this concept of bleeding being more problematic in Asian patients has expanded well beyond Japan, and therefore in many Asian communities, lower doses of [novel] OACs are chosen.”

Many other factors may contribute to DOAC underdosing, including differences in dosing strategies between primary care practitioners and specialists, or between hospital-based and office-based clinicians, for example.

“It might also be argued that a physician who fails to treat a patient adequately in one arena may also be failing to treat the patient well in other aspects of their care,” Dr. Camm proposed. “Therefore you could have increased mortality due to other cardiovascular causes, or even noncardiovascular events, through absence of good quality care. Our study did not address that specifically. But it might be the case, speculatively.”

The study was supported by a grant from Bayer to the Thrombosis Research Institute, “which sponsors the GARFIELD-AF registry.” Dr. Camm discloses receiving grants and personal fees from Bayer, Boehringer Ingelheim, Pfizer/Bristol-Myers Squibb, and Daiichi Sankyo. Disclosures for the other authors are in the report. Dr. Naccarelli disclosed consulting and participating in research for Janssen and serving as a consultant for Milestone, Sanofi, Omeicos, and Acesion Pharma.

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

A new study using cardiac magnetic resonance (CMR) imaging to examine the effects of novel coronavirus infection on the heart showed signs suggestive of myocarditis in 4 out of 26 competitive athletes who recovered from asymptomatic or mild cases of COVID-19.

While these and other similar findings are concerning, commentators are saying the results are preliminary and do not indicate widespread CMR screening is appropriate.

Two of the 4 patients showing signs of myocarditis in this series had no symptoms of COVID-19 but tested positive on routine testing. An additional 12 student athletes (46%) showed late gadolinium enhancement (LGE), of whom 8 (30.8%) had LGE without T2 elevation suggestive of prior myocardial injury.

An additional 12 student athletes (46%) showed late gadolinium enhancement (LGE), of whom 8 (31%) had LGE without T2 elevation suggestive of prior myocardial injury.

This finding, said Saurabh Rajpal, MBBS, MD, the study’s lead author, “could suggest prior myocardial injury or it could suggest athletic myocardial adaptation.”

In a research letter published in JAMA Cardiology, Rajpal and colleagues at Ohio State University in Columbus, described the findings of comprehensive CMR examinations in competitive athletes referred to the sport medicine clinic after testing positive for COVID-19 on reverse transcriptase-polymerase chain reaction between June and August 2020.

The university had made the decision in the spring to use CMR imaging as a screening tool for return to play, said Dr. Rajpal. While CMR is being used for research purposes, the American College of Cardiology’s recent “consensus expert opinion” statement on resumption of sport and exercise after COVID-19 infection does not require CMR imaging for resumption of competitive activity (JAMA Cardiol. 2020 May 13. doi:10.1001/jamacardio.2020.2136).

None of the athletes required hospitalization for their illness, and only 27% reported mild symptoms during the short-term infection, including sore throat, shortness of breath, myalgia, and fever.

On the day of CMR imaging, ECG and transthoracic echocardiography were performed, and serum troponin I was measured. There were no diagnostic ST/T wave changes, ventricular function and volumes were normal, and no athletes showed elevated serum troponin levels.

The updated Lake Louise Criteria were used to assess CMR findings consistent with myocarditis.

“I don’t think this is a COVID-specific issue. We have seen myocarditis after other viral infections; it’s just that COVID-19 is the most studied thus far, and with strenuous activity, inflammation in the heart can be risky,” Dr. Rajpal said in an interview. He added that more long-term and larger studies with control populations are needed.

His group is continuing to follow these athletes and has suggested that CMR “may provide an excellent risk-stratification assessment for myocarditis in athletes who have recovered from COVID-19 to guide safe competitive sports participation.”
 

Significance still unknown

Matthew Martinez, MD, the director of sports cardiology at Atlantic Health – Morristown (N.J.) Medical Center and the Gagnon Cardiovascular Institute, urged caution in making too much of the findings of this small study.

“We know that viruses cause myocardial damage and myocarditis. What we don’t know is how important these findings are. And in terms of risk, would we find the same phenomenon if we did this, say, in flu patients or in other age groups?” Dr. Martinez said in an interview.

“I haven’t seen all the images, but what I’d want to know is are these very subtle findings? Are these overt findings? Is this part of an active individual with symptoms? I need to know a little more data before I can tell if this influences the increased risk of sudden cardiac death that we often associate with myocarditis. I’m not sure how this should influence making decisions with regards to return to play.”

Dr. Martinez, who is the ACC’s chair of Sports and Exercise but was not an author of their recent guidance on return to sport, said that he is not routinely using CMR to assess athletes post-infection, as per the ACC’s recommendations.

“My approach is to evaluate anybody with a history of COVID infection and, first, determine whether it was an important infection with significant symptoms or not. And then, if they’re participating at a high level or are professional athletes, I would suggest an ECG, echo, and troponin. That’s our recommendation for the last several months and is still an appropriate way to evaluate that group.”

“In the presence of an abnormality or ongoing symptoms, I would ask for an MRI at that point,” said Dr. Martinez.

“We just don’t have much data on athletes with no symptoms to use to interpret these CMR findings and the study didn’t offer any controls. We don’t even know if these findings are new findings or old findings that have just been identified now,” he added.

New, updated recommendations from the ACC are coming soon, said Dr. Martinez. “I do not expect them to include CMR as first line.”
 

Cardiologists concerned about misinformation

This is at least the fourth study showing myocardial damage post-COVID-19 infection and there is concern in the medical community that the media has overstated the risks of heart damage, especially in athletes, and at the same time overstated the benefits of CMR.

In particular, Puntmann et al reported in July a 100-patient study that showed evidence of myocardial inflammation by CMR in 78% of patients recently recovered from a bout of COVID-19 (JAMA Cardiol. 2020 Jul 27; doi:10.1001/jamacardio.2020.3557).

“That paper is completely problematic,” John Mandrola, MD, of Baptists Medical Associates, Louisville, Ky., said in an interview. “It has the same overarching weaknesses [of other studies] that it’s observational and retrospective, but there were also numerical issues. So to me that paper is an interesting observation, but utterly unconvincing and preliminary,” said Dr. Mandrola.

Those limitations didn’t stop the study from garnering media attention, however. The Altmetric score (an attention score that tracks all mentions of an article in the media and on social media) for the Puntmann et al paper is approaching 13,000, including coverage from 276 news outlets and more than 19,000 tweets, putting it in the 99th percentile of all research outputs tracked by Altmetric to date.

To counter this, an “open letter” posted online just days before the Rajpal study published urging professional societies to “offer clear guidance discouraging CMR screening for COVID-19 related heart abnormalities in asymptomatic members of the general public.” The letter was signed by 51 clinicians, researchers, and imaging specialists from around the world.

Dr. Mandrola, one of the signatories, said: “This topic really scares people, and when it gets in the media like this, I think the leaders of these societies need to come out and say something really clear on major news networks letting people know that it’s just way too premature to start doing CMRs on every athlete that’s gotten this virus.”

“I understand that the current guidelines may be clear that CMR is not a first-line test for this indication, but when the media coverage is so extensive and so overblown, I wonder how much impact the guidelines will have in countering this fear that’s in the community,” he added.

Asked to comment on the letter, Dr. Rajpal said he agrees with the signatories that asymptomatic people from general population do not need routine cardiac MRI. “However, competitive athletes are a different story. Testing depends on risk assessment in specific population and competitive athletes as per our protocol will get enhanced cardiac workup including CMR for responsible and safe start of competitive sports. ... In the present scenario, while we get more data including control data, we will continue with our current protocol.”

Dr. Mandrola is Medscape Cardiology’s Chief Cardiology Consultant. MDedge is part of the Medscape Professional Network.

This article first appeared on Medscape.com.

A new study using cardiac magnetic resonance (CMR) imaging to examine the effects of novel coronavirus infection on the heart showed signs suggestive of myocarditis in 4 out of 26 competitive athletes who recovered from asymptomatic or mild cases of COVID-19.

While these and other similar findings are concerning, commentators are saying the results are preliminary and do not indicate widespread CMR screening is appropriate.

Two of the 4 patients showing signs of myocarditis in this series had no symptoms of COVID-19 but tested positive on routine testing. An additional 12 student athletes (46%) showed late gadolinium enhancement (LGE), of whom 8 (30.8%) had LGE without T2 elevation suggestive of prior myocardial injury.

An additional 12 student athletes (46%) showed late gadolinium enhancement (LGE), of whom 8 (31%) had LGE without T2 elevation suggestive of prior myocardial injury.

This finding, said Saurabh Rajpal, MBBS, MD, the study’s lead author, “could suggest prior myocardial injury or it could suggest athletic myocardial adaptation.”

In a research letter published in JAMA Cardiology, Rajpal and colleagues at Ohio State University in Columbus, described the findings of comprehensive CMR examinations in competitive athletes referred to the sport medicine clinic after testing positive for COVID-19 on reverse transcriptase-polymerase chain reaction between June and August 2020.

The university had made the decision in the spring to use CMR imaging as a screening tool for return to play, said Dr. Rajpal. While CMR is being used for research purposes, the American College of Cardiology’s recent “consensus expert opinion” statement on resumption of sport and exercise after COVID-19 infection does not require CMR imaging for resumption of competitive activity (JAMA Cardiol. 2020 May 13. doi:10.1001/jamacardio.2020.2136).

None of the athletes required hospitalization for their illness, and only 27% reported mild symptoms during the short-term infection, including sore throat, shortness of breath, myalgia, and fever.

On the day of CMR imaging, ECG and transthoracic echocardiography were performed, and serum troponin I was measured. There were no diagnostic ST/T wave changes, ventricular function and volumes were normal, and no athletes showed elevated serum troponin levels.

The updated Lake Louise Criteria were used to assess CMR findings consistent with myocarditis.

“I don’t think this is a COVID-specific issue. We have seen myocarditis after other viral infections; it’s just that COVID-19 is the most studied thus far, and with strenuous activity, inflammation in the heart can be risky,” Dr. Rajpal said in an interview. He added that more long-term and larger studies with control populations are needed.

His group is continuing to follow these athletes and has suggested that CMR “may provide an excellent risk-stratification assessment for myocarditis in athletes who have recovered from COVID-19 to guide safe competitive sports participation.”
 

Significance still unknown

Matthew Martinez, MD, the director of sports cardiology at Atlantic Health – Morristown (N.J.) Medical Center and the Gagnon Cardiovascular Institute, urged caution in making too much of the findings of this small study.

“We know that viruses cause myocardial damage and myocarditis. What we don’t know is how important these findings are. And in terms of risk, would we find the same phenomenon if we did this, say, in flu patients or in other age groups?” Dr. Martinez said in an interview.

“I haven’t seen all the images, but what I’d want to know is are these very subtle findings? Are these overt findings? Is this part of an active individual with symptoms? I need to know a little more data before I can tell if this influences the increased risk of sudden cardiac death that we often associate with myocarditis. I’m not sure how this should influence making decisions with regards to return to play.”

Dr. Martinez, who is the ACC’s chair of Sports and Exercise but was not an author of their recent guidance on return to sport, said that he is not routinely using CMR to assess athletes post-infection, as per the ACC’s recommendations.

“My approach is to evaluate anybody with a history of COVID infection and, first, determine whether it was an important infection with significant symptoms or not. And then, if they’re participating at a high level or are professional athletes, I would suggest an ECG, echo, and troponin. That’s our recommendation for the last several months and is still an appropriate way to evaluate that group.”

“In the presence of an abnormality or ongoing symptoms, I would ask for an MRI at that point,” said Dr. Martinez.

“We just don’t have much data on athletes with no symptoms to use to interpret these CMR findings and the study didn’t offer any controls. We don’t even know if these findings are new findings or old findings that have just been identified now,” he added.

New, updated recommendations from the ACC are coming soon, said Dr. Martinez. “I do not expect them to include CMR as first line.”
 

Cardiologists concerned about misinformation

This is at least the fourth study showing myocardial damage post-COVID-19 infection and there is concern in the medical community that the media has overstated the risks of heart damage, especially in athletes, and at the same time overstated the benefits of CMR.

In particular, Puntmann et al reported in July a 100-patient study that showed evidence of myocardial inflammation by CMR in 78% of patients recently recovered from a bout of COVID-19 (JAMA Cardiol. 2020 Jul 27; doi:10.1001/jamacardio.2020.3557).

“That paper is completely problematic,” John Mandrola, MD, of Baptists Medical Associates, Louisville, Ky., said in an interview. “It has the same overarching weaknesses [of other studies] that it’s observational and retrospective, but there were also numerical issues. So to me that paper is an interesting observation, but utterly unconvincing and preliminary,” said Dr. Mandrola.

Those limitations didn’t stop the study from garnering media attention, however. The Altmetric score (an attention score that tracks all mentions of an article in the media and on social media) for the Puntmann et al paper is approaching 13,000, including coverage from 276 news outlets and more than 19,000 tweets, putting it in the 99th percentile of all research outputs tracked by Altmetric to date.

To counter this, an “open letter” posted online just days before the Rajpal study published urging professional societies to “offer clear guidance discouraging CMR screening for COVID-19 related heart abnormalities in asymptomatic members of the general public.” The letter was signed by 51 clinicians, researchers, and imaging specialists from around the world.

Dr. Mandrola, one of the signatories, said: “This topic really scares people, and when it gets in the media like this, I think the leaders of these societies need to come out and say something really clear on major news networks letting people know that it’s just way too premature to start doing CMRs on every athlete that’s gotten this virus.”

“I understand that the current guidelines may be clear that CMR is not a first-line test for this indication, but when the media coverage is so extensive and so overblown, I wonder how much impact the guidelines will have in countering this fear that’s in the community,” he added.

Asked to comment on the letter, Dr. Rajpal said he agrees with the signatories that asymptomatic people from general population do not need routine cardiac MRI. “However, competitive athletes are a different story. Testing depends on risk assessment in specific population and competitive athletes as per our protocol will get enhanced cardiac workup including CMR for responsible and safe start of competitive sports. ... In the present scenario, while we get more data including control data, we will continue with our current protocol.”

Dr. Mandrola is Medscape Cardiology’s Chief Cardiology Consultant. MDedge is part of the Medscape Professional Network.

This article first appeared on Medscape.com.

A new study using cardiac magnetic resonance (CMR) imaging to examine the effects of novel coronavirus infection on the heart showed signs suggestive of myocarditis in 4 out of 26 competitive athletes who recovered from asymptomatic or mild cases of COVID-19.

While these and other similar findings are concerning, commentators are saying the results are preliminary and do not indicate widespread CMR screening is appropriate.

Two of the 4 patients showing signs of myocarditis in this series had no symptoms of COVID-19 but tested positive on routine testing. An additional 12 student athletes (46%) showed late gadolinium enhancement (LGE), of whom 8 (30.8%) had LGE without T2 elevation suggestive of prior myocardial injury.

An additional 12 student athletes (46%) showed late gadolinium enhancement (LGE), of whom 8 (31%) had LGE without T2 elevation suggestive of prior myocardial injury.

This finding, said Saurabh Rajpal, MBBS, MD, the study’s lead author, “could suggest prior myocardial injury or it could suggest athletic myocardial adaptation.”

In a research letter published in JAMA Cardiology, Rajpal and colleagues at Ohio State University in Columbus, described the findings of comprehensive CMR examinations in competitive athletes referred to the sport medicine clinic after testing positive for COVID-19 on reverse transcriptase-polymerase chain reaction between June and August 2020.

The university had made the decision in the spring to use CMR imaging as a screening tool for return to play, said Dr. Rajpal. While CMR is being used for research purposes, the American College of Cardiology’s recent “consensus expert opinion” statement on resumption of sport and exercise after COVID-19 infection does not require CMR imaging for resumption of competitive activity (JAMA Cardiol. 2020 May 13. doi:10.1001/jamacardio.2020.2136).

None of the athletes required hospitalization for their illness, and only 27% reported mild symptoms during the short-term infection, including sore throat, shortness of breath, myalgia, and fever.

On the day of CMR imaging, ECG and transthoracic echocardiography were performed, and serum troponin I was measured. There were no diagnostic ST/T wave changes, ventricular function and volumes were normal, and no athletes showed elevated serum troponin levels.

The updated Lake Louise Criteria were used to assess CMR findings consistent with myocarditis.

“I don’t think this is a COVID-specific issue. We have seen myocarditis after other viral infections; it’s just that COVID-19 is the most studied thus far, and with strenuous activity, inflammation in the heart can be risky,” Dr. Rajpal said in an interview. He added that more long-term and larger studies with control populations are needed.

His group is continuing to follow these athletes and has suggested that CMR “may provide an excellent risk-stratification assessment for myocarditis in athletes who have recovered from COVID-19 to guide safe competitive sports participation.”
 

Significance still unknown

Matthew Martinez, MD, the director of sports cardiology at Atlantic Health – Morristown (N.J.) Medical Center and the Gagnon Cardiovascular Institute, urged caution in making too much of the findings of this small study.

“We know that viruses cause myocardial damage and myocarditis. What we don’t know is how important these findings are. And in terms of risk, would we find the same phenomenon if we did this, say, in flu patients or in other age groups?” Dr. Martinez said in an interview.

“I haven’t seen all the images, but what I’d want to know is are these very subtle findings? Are these overt findings? Is this part of an active individual with symptoms? I need to know a little more data before I can tell if this influences the increased risk of sudden cardiac death that we often associate with myocarditis. I’m not sure how this should influence making decisions with regards to return to play.”

Dr. Martinez, who is the ACC’s chair of Sports and Exercise but was not an author of their recent guidance on return to sport, said that he is not routinely using CMR to assess athletes post-infection, as per the ACC’s recommendations.

“My approach is to evaluate anybody with a history of COVID infection and, first, determine whether it was an important infection with significant symptoms or not. And then, if they’re participating at a high level or are professional athletes, I would suggest an ECG, echo, and troponin. That’s our recommendation for the last several months and is still an appropriate way to evaluate that group.”

“In the presence of an abnormality or ongoing symptoms, I would ask for an MRI at that point,” said Dr. Martinez.

“We just don’t have much data on athletes with no symptoms to use to interpret these CMR findings and the study didn’t offer any controls. We don’t even know if these findings are new findings or old findings that have just been identified now,” he added.

New, updated recommendations from the ACC are coming soon, said Dr. Martinez. “I do not expect them to include CMR as first line.”
 

Cardiologists concerned about misinformation

This is at least the fourth study showing myocardial damage post-COVID-19 infection and there is concern in the medical community that the media has overstated the risks of heart damage, especially in athletes, and at the same time overstated the benefits of CMR.

In particular, Puntmann et al reported in July a 100-patient study that showed evidence of myocardial inflammation by CMR in 78% of patients recently recovered from a bout of COVID-19 (JAMA Cardiol. 2020 Jul 27; doi:10.1001/jamacardio.2020.3557).

“That paper is completely problematic,” John Mandrola, MD, of Baptists Medical Associates, Louisville, Ky., said in an interview. “It has the same overarching weaknesses [of other studies] that it’s observational and retrospective, but there were also numerical issues. So to me that paper is an interesting observation, but utterly unconvincing and preliminary,” said Dr. Mandrola.

Those limitations didn’t stop the study from garnering media attention, however. The Altmetric score (an attention score that tracks all mentions of an article in the media and on social media) for the Puntmann et al paper is approaching 13,000, including coverage from 276 news outlets and more than 19,000 tweets, putting it in the 99th percentile of all research outputs tracked by Altmetric to date.

To counter this, an “open letter” posted online just days before the Rajpal study published urging professional societies to “offer clear guidance discouraging CMR screening for COVID-19 related heart abnormalities in asymptomatic members of the general public.” The letter was signed by 51 clinicians, researchers, and imaging specialists from around the world.

Dr. Mandrola, one of the signatories, said: “This topic really scares people, and when it gets in the media like this, I think the leaders of these societies need to come out and say something really clear on major news networks letting people know that it’s just way too premature to start doing CMRs on every athlete that’s gotten this virus.”

“I understand that the current guidelines may be clear that CMR is not a first-line test for this indication, but when the media coverage is so extensive and so overblown, I wonder how much impact the guidelines will have in countering this fear that’s in the community,” he added.

Asked to comment on the letter, Dr. Rajpal said he agrees with the signatories that asymptomatic people from general population do not need routine cardiac MRI. “However, competitive athletes are a different story. Testing depends on risk assessment in specific population and competitive athletes as per our protocol will get enhanced cardiac workup including CMR for responsible and safe start of competitive sports. ... In the present scenario, while we get more data including control data, we will continue with our current protocol.”

Dr. Mandrola is Medscape Cardiology’s Chief Cardiology Consultant. MDedge is part of the Medscape Professional Network.

This article first appeared on Medscape.com.

Having low serum vitamin D levels was an independent risk factor for having symptomatic COVID-19 with respiratory distress requiring admission to intensive care – as opposed to having mild COVID-19 – and for not surviving, in a new study from Italy.

“Our data give strong observational support to previous suggestions that reduced vitamin D levels may favor the appearance of severe respiratory dysfunction and increase the mortality risk in patients affected with COVID-19,” the researchers report.

Luigi Gennari, MD, PhD, Department of Medicine, Surgery, and Neurosciences, University of Siena, Italy, presented these findings during the virtual American Society of Bone and Mineral Research (ASBMR) 2020 annual meeting.

Gennari told Medscape Medical News that this analysis suggests determining vitamin D levels (25 hydroxyvitamin D) in people testing positive for SARS-Cov-2 infection might help predict their risk of severe disease.

However, further research is needed to explore whether vitamin D supplements could prevent the risk of respiratory failure in patients with SARS-Cov-2 infection, he stressed.

In the meantime, Gennari said: “I believe that, particularly in the winter season (when the solar ultraviolet-B (UVB) radiation exposure does not allow the skin to synthesize vitamin D in most countries), the use of vitamin D supplementation and correction of vitamin D deficiency might be of major relevance for the reduction of the clinical burden of the ongoing and future outbreaks of SARS-CoV-2 infection.

Invited to comment, David Meltzer, MD, PhD, chief of hospital medicine at University of Chicago Medicine, Illinois, who was not involved with the study, agrees.

“I think this body of work suggests that people should be taking supplements if they cannot increase sun exposure on a sustained basis,” Meltzer said. “The abstract supports multiple prior findings that suggest that higher vitamin D levels are associated with improved outcomes.”

And JoAnn E. Manson, MD, DrPH, of Harvard Medical School and Brigham and Women’s Hospital, who was not involved with the research but has spoken about the topic in a video report for Medscape, said: “We know from several studies that a low vitamin D level is associated with a higher risk of having COVID-19 and severe illness, but correlation does not prove causation.”

“I think that improving vitamin D status is a promising way to reduce the risk of severe illness, but we need randomized controlled trials to prove cause and effect,” she told Medscape Medical News.

103 patients with severe COVID-19, 52 with mild COVID-19, 206 controls

Gennari said several lines of evidence suggest that vitamin D deficiency might be a risk factor for COVID-19 severity.

Countries with lower average levels of vitamin D or lower UVB radiation exposure have higher COVID-19 mortality, and “demographic groups known to be at higher risk of vitamin D deficiency (such as black individuals, the elderly, nursing home residents, and those with obesity and diabetes) are at high risk of COVID-19 hospitalization/mortality, he noted.

There is a high prevalence of vitamin D deficiency in Italy, where mortality rates from COVID-19 have been particularly high.

To examine the relationship between vitamin D levels and COVID-19 severity/mortality, the researchers studied three groups:

• 103 symptomatic patients with COVID-19 with respiratory insufficiency who were admitted to a Milan hospital from March 9 to April 30.
• 52 patients with mild COVID-19, recruited from patients and staff from a nearby nursing home who had a positive test for COVID-19.
• 206 healthy controls, matched 2:1 with symptomatic patients of the same age, weight, and gender, from 3174 patients who had vitamin D measured during a routine check-up from January to March 2020.

Patients in the hospitalized group had lower mean vitamin D levels (18.2 ng/mL) than those with mild COVID-19 (30.3 ng/mL) or those in the control group (25.4 ng/mL).

Patients with symptomatic versus mild COVID-19 were slightly older and more likely to have at least one comorbidity and less likely to be taking a vitamin D supplement at baseline (30% vs 79%).

Among symptomatic patients, mean vitamin D levels were inversely associated with interleukin (IL)-6 and C-reactive protein, “both of which are a direct expression of the inflammatory status,” Gennari noted.

About half of the hospitalized patients (49) were admitted to a ward and discharged after a mean stay of 16 days (none died).

The other 54 hospitalized patients were admitted to the intensive care unit with severe acute respiratory distress; 38 patients received continuous positive airway pressure (CPAP) and 16 patients received endotracheal intubation.

Of the 54 patients admitted to ICU, 19 patients died from respiratory distress after a mean of 19 days, “consistent with the literature,” and the other 35 patients were discharged after a mean of 21 days.

Patients with severe COVID-19 who were admitted to the ICU, as opposed to a ward, were more likely to be male, have at least one comorbidity, have higher baseline IL-6 levels and neutrophil counts, and lower lymphocyte and platelet counts.

They also had lower mean vitamin D levels (14.4 vs 22.4 ng/mL) and were more likely to have vitamin D deficiency (vitamin D <20 ng/mL; 80% vs. 45%).  

Patients admitted to ICU who died had lower baseline vitamin D levels than those who survived (13.2 vs. 19.3 ng/mL).

Vitamin D levels were inversely associated with respiratory distress requiring ICU admission (odds ratio, 1.06; P = .038) and with mortality (OR, 1.18, P = 029), independent of IL-6 levels and other comorbidities.

“That vitamin D levels are associated with improved outcomes independent of IL-6 could reflect that IL-6 is an imperfect measure of the inflammatory process or that vitamin D is related to outcomes for other reasons, such as enhancement of innate or adaptive immunity,” said Meltzer.

He added that “this is not to exclude the possibility that vitamin D has important immunomodulatory effects.”

Gennari, Meltzer, and Manson have reported no relevant financial relationships.

This article first appeared on Medscape.com.

Having low serum vitamin D levels was an independent risk factor for having symptomatic COVID-19 with respiratory distress requiring admission to intensive care – as opposed to having mild COVID-19 – and for not surviving, in a new study from Italy.

“Our data give strong observational support to previous suggestions that reduced vitamin D levels may favor the appearance of severe respiratory dysfunction and increase the mortality risk in patients affected with COVID-19,” the researchers report.

Luigi Gennari, MD, PhD, Department of Medicine, Surgery, and Neurosciences, University of Siena, Italy, presented these findings during the virtual American Society of Bone and Mineral Research (ASBMR) 2020 annual meeting.

Gennari told Medscape Medical News that this analysis suggests determining vitamin D levels (25 hydroxyvitamin D) in people testing positive for SARS-Cov-2 infection might help predict their risk of severe disease.

However, further research is needed to explore whether vitamin D supplements could prevent the risk of respiratory failure in patients with SARS-Cov-2 infection, he stressed.

In the meantime, Gennari said: “I believe that, particularly in the winter season (when the solar ultraviolet-B (UVB) radiation exposure does not allow the skin to synthesize vitamin D in most countries), the use of vitamin D supplementation and correction of vitamin D deficiency might be of major relevance for the reduction of the clinical burden of the ongoing and future outbreaks of SARS-CoV-2 infection.

Invited to comment, David Meltzer, MD, PhD, chief of hospital medicine at University of Chicago Medicine, Illinois, who was not involved with the study, agrees.

“I think this body of work suggests that people should be taking supplements if they cannot increase sun exposure on a sustained basis,” Meltzer said. “The abstract supports multiple prior findings that suggest that higher vitamin D levels are associated with improved outcomes.”

And JoAnn E. Manson, MD, DrPH, of Harvard Medical School and Brigham and Women’s Hospital, who was not involved with the research but has spoken about the topic in a video report for Medscape, said: “We know from several studies that a low vitamin D level is associated with a higher risk of having COVID-19 and severe illness, but correlation does not prove causation.”

“I think that improving vitamin D status is a promising way to reduce the risk of severe illness, but we need randomized controlled trials to prove cause and effect,” she told Medscape Medical News.

103 patients with severe COVID-19, 52 with mild COVID-19, 206 controls

Gennari said several lines of evidence suggest that vitamin D deficiency might be a risk factor for COVID-19 severity.

Countries with lower average levels of vitamin D or lower UVB radiation exposure have higher COVID-19 mortality, and “demographic groups known to be at higher risk of vitamin D deficiency (such as black individuals, the elderly, nursing home residents, and those with obesity and diabetes) are at high risk of COVID-19 hospitalization/mortality, he noted.

There is a high prevalence of vitamin D deficiency in Italy, where mortality rates from COVID-19 have been particularly high.

To examine the relationship between vitamin D levels and COVID-19 severity/mortality, the researchers studied three groups:

• 103 symptomatic patients with COVID-19 with respiratory insufficiency who were admitted to a Milan hospital from March 9 to April 30.
• 52 patients with mild COVID-19, recruited from patients and staff from a nearby nursing home who had a positive test for COVID-19.
• 206 healthy controls, matched 2:1 with symptomatic patients of the same age, weight, and gender, from 3174 patients who had vitamin D measured during a routine check-up from January to March 2020.

Patients in the hospitalized group had lower mean vitamin D levels (18.2 ng/mL) than those with mild COVID-19 (30.3 ng/mL) or those in the control group (25.4 ng/mL).

Patients with symptomatic versus mild COVID-19 were slightly older and more likely to have at least one comorbidity and less likely to be taking a vitamin D supplement at baseline (30% vs 79%).

Among symptomatic patients, mean vitamin D levels were inversely associated with interleukin (IL)-6 and C-reactive protein, “both of which are a direct expression of the inflammatory status,” Gennari noted.

About half of the hospitalized patients (49) were admitted to a ward and discharged after a mean stay of 16 days (none died).

The other 54 hospitalized patients were admitted to the intensive care unit with severe acute respiratory distress; 38 patients received continuous positive airway pressure (CPAP) and 16 patients received endotracheal intubation.

Of the 54 patients admitted to ICU, 19 patients died from respiratory distress after a mean of 19 days, “consistent with the literature,” and the other 35 patients were discharged after a mean of 21 days.

Patients with severe COVID-19 who were admitted to the ICU, as opposed to a ward, were more likely to be male, have at least one comorbidity, have higher baseline IL-6 levels and neutrophil counts, and lower lymphocyte and platelet counts.

They also had lower mean vitamin D levels (14.4 vs 22.4 ng/mL) and were more likely to have vitamin D deficiency (vitamin D <20 ng/mL; 80% vs. 45%).  

Patients admitted to ICU who died had lower baseline vitamin D levels than those who survived (13.2 vs. 19.3 ng/mL).

Vitamin D levels were inversely associated with respiratory distress requiring ICU admission (odds ratio, 1.06; P = .038) and with mortality (OR, 1.18, P = 029), independent of IL-6 levels and other comorbidities.

“That vitamin D levels are associated with improved outcomes independent of IL-6 could reflect that IL-6 is an imperfect measure of the inflammatory process or that vitamin D is related to outcomes for other reasons, such as enhancement of innate or adaptive immunity,” said Meltzer.

He added that “this is not to exclude the possibility that vitamin D has important immunomodulatory effects.”

Gennari, Meltzer, and Manson have reported no relevant financial relationships.

This article first appeared on Medscape.com.

Having low serum vitamin D levels was an independent risk factor for having symptomatic COVID-19 with respiratory distress requiring admission to intensive care – as opposed to having mild COVID-19 – and for not surviving, in a new study from Italy.

“Our data give strong observational support to previous suggestions that reduced vitamin D levels may favor the appearance of severe respiratory dysfunction and increase the mortality risk in patients affected with COVID-19,” the researchers report.

Luigi Gennari, MD, PhD, Department of Medicine, Surgery, and Neurosciences, University of Siena, Italy, presented these findings during the virtual American Society of Bone and Mineral Research (ASBMR) 2020 annual meeting.

Gennari told Medscape Medical News that this analysis suggests determining vitamin D levels (25 hydroxyvitamin D) in people testing positive for SARS-Cov-2 infection might help predict their risk of severe disease.

However, further research is needed to explore whether vitamin D supplements could prevent the risk of respiratory failure in patients with SARS-Cov-2 infection, he stressed.

In the meantime, Gennari said: “I believe that, particularly in the winter season (when the solar ultraviolet-B (UVB) radiation exposure does not allow the skin to synthesize vitamin D in most countries), the use of vitamin D supplementation and correction of vitamin D deficiency might be of major relevance for the reduction of the clinical burden of the ongoing and future outbreaks of SARS-CoV-2 infection.

Invited to comment, David Meltzer, MD, PhD, chief of hospital medicine at University of Chicago Medicine, Illinois, who was not involved with the study, agrees.

“I think this body of work suggests that people should be taking supplements if they cannot increase sun exposure on a sustained basis,” Meltzer said. “The abstract supports multiple prior findings that suggest that higher vitamin D levels are associated with improved outcomes.”

And JoAnn E. Manson, MD, DrPH, of Harvard Medical School and Brigham and Women’s Hospital, who was not involved with the research but has spoken about the topic in a video report for Medscape, said: “We know from several studies that a low vitamin D level is associated with a higher risk of having COVID-19 and severe illness, but correlation does not prove causation.”

“I think that improving vitamin D status is a promising way to reduce the risk of severe illness, but we need randomized controlled trials to prove cause and effect,” she told Medscape Medical News.

103 patients with severe COVID-19, 52 with mild COVID-19, 206 controls

Gennari said several lines of evidence suggest that vitamin D deficiency might be a risk factor for COVID-19 severity.

Countries with lower average levels of vitamin D or lower UVB radiation exposure have higher COVID-19 mortality, and “demographic groups known to be at higher risk of vitamin D deficiency (such as black individuals, the elderly, nursing home residents, and those with obesity and diabetes) are at high risk of COVID-19 hospitalization/mortality, he noted.

There is a high prevalence of vitamin D deficiency in Italy, where mortality rates from COVID-19 have been particularly high.

To examine the relationship between vitamin D levels and COVID-19 severity/mortality, the researchers studied three groups:

• 103 symptomatic patients with COVID-19 with respiratory insufficiency who were admitted to a Milan hospital from March 9 to April 30.
• 52 patients with mild COVID-19, recruited from patients and staff from a nearby nursing home who had a positive test for COVID-19.
• 206 healthy controls, matched 2:1 with symptomatic patients of the same age, weight, and gender, from 3174 patients who had vitamin D measured during a routine check-up from January to March 2020.

Patients in the hospitalized group had lower mean vitamin D levels (18.2 ng/mL) than those with mild COVID-19 (30.3 ng/mL) or those in the control group (25.4 ng/mL).

Patients with symptomatic versus mild COVID-19 were slightly older and more likely to have at least one comorbidity and less likely to be taking a vitamin D supplement at baseline (30% vs 79%).

Among symptomatic patients, mean vitamin D levels were inversely associated with interleukin (IL)-6 and C-reactive protein, “both of which are a direct expression of the inflammatory status,” Gennari noted.

About half of the hospitalized patients (49) were admitted to a ward and discharged after a mean stay of 16 days (none died).

The other 54 hospitalized patients were admitted to the intensive care unit with severe acute respiratory distress; 38 patients received continuous positive airway pressure (CPAP) and 16 patients received endotracheal intubation.

Of the 54 patients admitted to ICU, 19 patients died from respiratory distress after a mean of 19 days, “consistent with the literature,” and the other 35 patients were discharged after a mean of 21 days.

Patients with severe COVID-19 who were admitted to the ICU, as opposed to a ward, were more likely to be male, have at least one comorbidity, have higher baseline IL-6 levels and neutrophil counts, and lower lymphocyte and platelet counts.

They also had lower mean vitamin D levels (14.4 vs 22.4 ng/mL) and were more likely to have vitamin D deficiency (vitamin D <20 ng/mL; 80% vs. 45%).  

Patients admitted to ICU who died had lower baseline vitamin D levels than those who survived (13.2 vs. 19.3 ng/mL).

Vitamin D levels were inversely associated with respiratory distress requiring ICU admission (odds ratio, 1.06; P = .038) and with mortality (OR, 1.18, P = 029), independent of IL-6 levels and other comorbidities.

“That vitamin D levels are associated with improved outcomes independent of IL-6 could reflect that IL-6 is an imperfect measure of the inflammatory process or that vitamin D is related to outcomes for other reasons, such as enhancement of innate or adaptive immunity,” said Meltzer.

He added that “this is not to exclude the possibility that vitamin D has important immunomodulatory effects.”

Gennari, Meltzer, and Manson have reported no relevant financial relationships.

This article first appeared on Medscape.com.