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Rapid cycle pediatric simulation exercises promise improved readiness
Focused repetition builds sustained skill
A methodical, constructive, goal-oriented rapid repetition of emergency response simulations has emerged as a dominant strategy for pediatric readiness in the hospital setting, according to a detailed description of one such program at the virtual Pediatric Hospital Medicine.
Rather than a single run-through followed by a lengthy debriefing, which has been a traditional approach, short simulations done rapidly and repeatedly until skills are mastered improve skill development, according to Jeanmarie Schied, MD, of the department of pediatrics, University of Chicago Medicine.
“This method utilizes repetitions to develop muscle memory much like an athlete who ‘practices, practices, practices’ until it becomes second nature,” Dr. Schied explained.
Dr. Schied credited this approach to Elizabeth Hunt, MD, PhD, director of the Johns Hopkins Medicine Simulation Center. The method created by Dr. Hunt is called Rapid Cycle Deliberate Practice (RCDP). At the University of Chicago, where the same principles are being applied, “we have had great success,” Dr. Schied said.
Deficiencies in the traditional approach prompted the change. It has been shown that when experienced residents who have performed multiple simulations are compared to new residents with limited experience or when those certified in Pediatric Advanced Life Support (PAL) are compared to those who are not, they “do not necessarily do better” in the metrics used in simulations to measure competence, according to Dr. Schied.
With the RDCP, learners get multiple chances to master skills.
“Everyone makes mistakes, and letting the participants know this ahead of time puts people at ease,” Dr. Schied said. “People want to know they will have a chance to rewind and do it right.”
In setting up an effective simulation program, the first step is a needs assessment. By first gauging the skill and experience level of those scheduled to participate, Dr. Schied said the program can be tailored to the audience.
The next step is formulating learning objectives. Dr. Schied recommended creating these objectives for the case overall and for each phase of the simulation as it progresses from basic clinical assessments through the specific interventions appropriate for the diagnosis.
Within these objectives there are additional goals. For example, the team should work to administer care within prespecified benchmarks, such as an elapsed time of 60 seconds or less for oxygenation or a time of 180 seconds or less for defibrillation, according to Dr. Schied.
Yet, Dr. Schied suggested that enforcing these goals on initial run-throughs might not be appropriate.
“Let the scenario run longer so you can see the deficits,” Dr. Schied said. If, for example, chest compression is not being done correctly, she recommended interrupting the process to provide immediate and direct feedback. In critiquing the performance, Dr. Schied advised against a critical or punitive tone.
“Inform the learners that they are in a safe environment,” she said. It is essential to identify errors so that they can be corrected on the next run of the practice simulation, but Dr. Schied advised instructors to “be nonjudgmental.” Praise is appropriate when warranted, but she also warned, “don’t sugarcoat” a substandard performance.
During the simulation, team leaders should employ action phrases, meaning that the problem and the action needed are expressed at the same time, according to Dr. Schied. Examples include, “the patient is not breathing, start bagging,” or “there is no pulse, start compression.”
“When the team gets used to these action-linked phrases, studies show that they react in a more timely fashion,” Dr. Schied explained at the event sponsored by the Society of Hospital Medicine, the American Academy of Pediatrics, and the Academic Pediatric Association.
In the study by Dr. Hunt that established the effectiveness of RDCP, 51 pediatric residents who had previously participated in a cardiopulmonary arrest simulation were retested again after being retrained with the RDCP methodology (Resuscitation 2014;85:945-51).
RDCP “was associated with improvement in performance of key measures of quality life support and progressive acquisition of resuscitation skills,” according to Dr. Hunt, who has published frequently on resuscitation training in pediatrics.
Prior to RDCP, traditional methods produced “little improvement” in resuscitation skills when measured over the course of pediatric residency, according to Dr. Hunt. After RDCP, third-year residents were shown to be “significantly more likely than first-years to defibrillate within 2 minutes,” she reported.
However, there are other strategies to improve retention of skills, according to Dr. Schied. For example, it is important to conduct simulations when the staff can focus. Specifically, Dr. Schied recommended conducting simulations immediately after a staff meeting or before a scheduled shift so that clinical responsibilities will not interfere or divert the learner’s attention. She also recommended conducting key simulations quarterly.
“Studies have shown that knowledge deterioration related to resuscitation begins about 4 months after the last simulation,” she said.
In addition to building the skills of individual participants, Dr. Schied emphasized the importance of also developing effective team dynamics and active communication. In the debriefing that should follow every simulation, she recommended encouraging a discussion of strengths and weaknesses of the team response.
Pediatric emergency simulation scenarios are readily available on multiple sites found on the Internet,” Dr. Schied said. She recommended documenting performance so the data are available for subsequent analysis.
Focused repetition builds sustained skill
Focused repetition builds sustained skill
A methodical, constructive, goal-oriented rapid repetition of emergency response simulations has emerged as a dominant strategy for pediatric readiness in the hospital setting, according to a detailed description of one such program at the virtual Pediatric Hospital Medicine.
Rather than a single run-through followed by a lengthy debriefing, which has been a traditional approach, short simulations done rapidly and repeatedly until skills are mastered improve skill development, according to Jeanmarie Schied, MD, of the department of pediatrics, University of Chicago Medicine.
“This method utilizes repetitions to develop muscle memory much like an athlete who ‘practices, practices, practices’ until it becomes second nature,” Dr. Schied explained.
Dr. Schied credited this approach to Elizabeth Hunt, MD, PhD, director of the Johns Hopkins Medicine Simulation Center. The method created by Dr. Hunt is called Rapid Cycle Deliberate Practice (RCDP). At the University of Chicago, where the same principles are being applied, “we have had great success,” Dr. Schied said.
Deficiencies in the traditional approach prompted the change. It has been shown that when experienced residents who have performed multiple simulations are compared to new residents with limited experience or when those certified in Pediatric Advanced Life Support (PAL) are compared to those who are not, they “do not necessarily do better” in the metrics used in simulations to measure competence, according to Dr. Schied.
With the RDCP, learners get multiple chances to master skills.
“Everyone makes mistakes, and letting the participants know this ahead of time puts people at ease,” Dr. Schied said. “People want to know they will have a chance to rewind and do it right.”
In setting up an effective simulation program, the first step is a needs assessment. By first gauging the skill and experience level of those scheduled to participate, Dr. Schied said the program can be tailored to the audience.
The next step is formulating learning objectives. Dr. Schied recommended creating these objectives for the case overall and for each phase of the simulation as it progresses from basic clinical assessments through the specific interventions appropriate for the diagnosis.
Within these objectives there are additional goals. For example, the team should work to administer care within prespecified benchmarks, such as an elapsed time of 60 seconds or less for oxygenation or a time of 180 seconds or less for defibrillation, according to Dr. Schied.
Yet, Dr. Schied suggested that enforcing these goals on initial run-throughs might not be appropriate.
“Let the scenario run longer so you can see the deficits,” Dr. Schied said. If, for example, chest compression is not being done correctly, she recommended interrupting the process to provide immediate and direct feedback. In critiquing the performance, Dr. Schied advised against a critical or punitive tone.
“Inform the learners that they are in a safe environment,” she said. It is essential to identify errors so that they can be corrected on the next run of the practice simulation, but Dr. Schied advised instructors to “be nonjudgmental.” Praise is appropriate when warranted, but she also warned, “don’t sugarcoat” a substandard performance.
During the simulation, team leaders should employ action phrases, meaning that the problem and the action needed are expressed at the same time, according to Dr. Schied. Examples include, “the patient is not breathing, start bagging,” or “there is no pulse, start compression.”
“When the team gets used to these action-linked phrases, studies show that they react in a more timely fashion,” Dr. Schied explained at the event sponsored by the Society of Hospital Medicine, the American Academy of Pediatrics, and the Academic Pediatric Association.
In the study by Dr. Hunt that established the effectiveness of RDCP, 51 pediatric residents who had previously participated in a cardiopulmonary arrest simulation were retested again after being retrained with the RDCP methodology (Resuscitation 2014;85:945-51).
RDCP “was associated with improvement in performance of key measures of quality life support and progressive acquisition of resuscitation skills,” according to Dr. Hunt, who has published frequently on resuscitation training in pediatrics.
Prior to RDCP, traditional methods produced “little improvement” in resuscitation skills when measured over the course of pediatric residency, according to Dr. Hunt. After RDCP, third-year residents were shown to be “significantly more likely than first-years to defibrillate within 2 minutes,” she reported.
However, there are other strategies to improve retention of skills, according to Dr. Schied. For example, it is important to conduct simulations when the staff can focus. Specifically, Dr. Schied recommended conducting simulations immediately after a staff meeting or before a scheduled shift so that clinical responsibilities will not interfere or divert the learner’s attention. She also recommended conducting key simulations quarterly.
“Studies have shown that knowledge deterioration related to resuscitation begins about 4 months after the last simulation,” she said.
In addition to building the skills of individual participants, Dr. Schied emphasized the importance of also developing effective team dynamics and active communication. In the debriefing that should follow every simulation, she recommended encouraging a discussion of strengths and weaknesses of the team response.
Pediatric emergency simulation scenarios are readily available on multiple sites found on the Internet,” Dr. Schied said. She recommended documenting performance so the data are available for subsequent analysis.
A methodical, constructive, goal-oriented rapid repetition of emergency response simulations has emerged as a dominant strategy for pediatric readiness in the hospital setting, according to a detailed description of one such program at the virtual Pediatric Hospital Medicine.
Rather than a single run-through followed by a lengthy debriefing, which has been a traditional approach, short simulations done rapidly and repeatedly until skills are mastered improve skill development, according to Jeanmarie Schied, MD, of the department of pediatrics, University of Chicago Medicine.
“This method utilizes repetitions to develop muscle memory much like an athlete who ‘practices, practices, practices’ until it becomes second nature,” Dr. Schied explained.
Dr. Schied credited this approach to Elizabeth Hunt, MD, PhD, director of the Johns Hopkins Medicine Simulation Center. The method created by Dr. Hunt is called Rapid Cycle Deliberate Practice (RCDP). At the University of Chicago, where the same principles are being applied, “we have had great success,” Dr. Schied said.
Deficiencies in the traditional approach prompted the change. It has been shown that when experienced residents who have performed multiple simulations are compared to new residents with limited experience or when those certified in Pediatric Advanced Life Support (PAL) are compared to those who are not, they “do not necessarily do better” in the metrics used in simulations to measure competence, according to Dr. Schied.
With the RDCP, learners get multiple chances to master skills.
“Everyone makes mistakes, and letting the participants know this ahead of time puts people at ease,” Dr. Schied said. “People want to know they will have a chance to rewind and do it right.”
In setting up an effective simulation program, the first step is a needs assessment. By first gauging the skill and experience level of those scheduled to participate, Dr. Schied said the program can be tailored to the audience.
The next step is formulating learning objectives. Dr. Schied recommended creating these objectives for the case overall and for each phase of the simulation as it progresses from basic clinical assessments through the specific interventions appropriate for the diagnosis.
Within these objectives there are additional goals. For example, the team should work to administer care within prespecified benchmarks, such as an elapsed time of 60 seconds or less for oxygenation or a time of 180 seconds or less for defibrillation, according to Dr. Schied.
Yet, Dr. Schied suggested that enforcing these goals on initial run-throughs might not be appropriate.
“Let the scenario run longer so you can see the deficits,” Dr. Schied said. If, for example, chest compression is not being done correctly, she recommended interrupting the process to provide immediate and direct feedback. In critiquing the performance, Dr. Schied advised against a critical or punitive tone.
“Inform the learners that they are in a safe environment,” she said. It is essential to identify errors so that they can be corrected on the next run of the practice simulation, but Dr. Schied advised instructors to “be nonjudgmental.” Praise is appropriate when warranted, but she also warned, “don’t sugarcoat” a substandard performance.
During the simulation, team leaders should employ action phrases, meaning that the problem and the action needed are expressed at the same time, according to Dr. Schied. Examples include, “the patient is not breathing, start bagging,” or “there is no pulse, start compression.”
“When the team gets used to these action-linked phrases, studies show that they react in a more timely fashion,” Dr. Schied explained at the event sponsored by the Society of Hospital Medicine, the American Academy of Pediatrics, and the Academic Pediatric Association.
In the study by Dr. Hunt that established the effectiveness of RDCP, 51 pediatric residents who had previously participated in a cardiopulmonary arrest simulation were retested again after being retrained with the RDCP methodology (Resuscitation 2014;85:945-51).
RDCP “was associated with improvement in performance of key measures of quality life support and progressive acquisition of resuscitation skills,” according to Dr. Hunt, who has published frequently on resuscitation training in pediatrics.
Prior to RDCP, traditional methods produced “little improvement” in resuscitation skills when measured over the course of pediatric residency, according to Dr. Hunt. After RDCP, third-year residents were shown to be “significantly more likely than first-years to defibrillate within 2 minutes,” she reported.
However, there are other strategies to improve retention of skills, according to Dr. Schied. For example, it is important to conduct simulations when the staff can focus. Specifically, Dr. Schied recommended conducting simulations immediately after a staff meeting or before a scheduled shift so that clinical responsibilities will not interfere or divert the learner’s attention. She also recommended conducting key simulations quarterly.
“Studies have shown that knowledge deterioration related to resuscitation begins about 4 months after the last simulation,” she said.
In addition to building the skills of individual participants, Dr. Schied emphasized the importance of also developing effective team dynamics and active communication. In the debriefing that should follow every simulation, she recommended encouraging a discussion of strengths and weaknesses of the team response.
Pediatric emergency simulation scenarios are readily available on multiple sites found on the Internet,” Dr. Schied said. She recommended documenting performance so the data are available for subsequent analysis.
FROM PHM20 VIRTUAL
COVID-19 pandemic driving huge declines in pediatric service revenue
Pediatric caregivers should consider options
The rapid decline in pediatric hospital visits that came quickly after COVID-19 has emerged as a major public health threat, creating the need for adaptations among those offering hospital-based care, according to an objective look at patient numbers that was presented at the virtual Pediatric Hospital Medicine.
“Pre-COVID, operating margins had already taken a significant decline – and there are lots of different reasons for why this was happening – but a lot of hospitals in the United States were going from seeing about a 5% operating margin to closer to 2% to 3%,” said Magna Dias, MD, medical director, pediatric inpatient services, at Yale New Haven Children’s Hospital, Bridgeport, Conn.
This nearly 50% decline “was already putting pressure on us in the community hospital setting where pediatrics is not necessarily generating a ton of revenue to justify our programs, but post COVID, our operating revenue – and this is a report from May – was down 282%,” Dr. Dias reported.
Dr. Dias said that hundreds of hospitals have furloughed workers in the United States since the pandemic began. Although the job losses are not confined to pediatric care, statistics show that pediatrics is one of the hardest hit specialties.
“Looking specifically at ED [emergency department] visits under age 14, one study showed a 71% to 72% decrease post COVID,” Dr. Dias said. This included a 97% reduction in ED visits for flu and more than an 80% reduction in visits for asthma, otitis media, and nausea or vomiting.
It is not clear when children will return to the hospital in pre-COVID-19 numbers, but it might not be soon if the a second wave of infections follows the first, according to Dr. Dias. She suggested that pediatric hospitalists should be thinking about how to expand their services.
“One thing we are really good at in terms of working in the community hospital is diversification. We are used to working in more than one area and being flexible,” Dr. Dias said. Quoting Charles Darwin, who concluded that adaption to change predicts species survival, Dr. Dias advised pediatric hospitalists to look for new opportunities.
Taking on a broader range of responsibilities will not be a significant leap for many pediatric hospitalists. In a survey conducted several years ago by the American Academy of Pediatrics (AAP), hospital staff pediatricians were associated with activities ranging from work in the neonatal intensive care unit to primary ED coverage, according to Dr. Dias. Now with declining patient volumes on pediatric floors, she foresees an even greater expansion, including the care of young adults.
One organization formed in response to the COVID-19 pandemic, called the Pediatric Overflow Planning Contingency Response Network (POPCoRN) has been taking a lead in guiding the delivery of adult care in a pediatric environment. As a cochair of a community hospital special interest group within POPCoRN, Dr. Dias said she has participated in these discussions.
“At some centers, they have gone from age 18 to 21, some have gone up to age 25, some have gone up to 30 years,” she said.
Many centers are working to leverage telemedicine to reach pediatric patients no longer coming to the hospital, according to Dr. Dias.
“There are a lot of people being very creative in telemedicine,” she said. While it is considered as one way “to keep children at your institution,” Dr. Dias said others are considering how telemedicine might provide new opportunities. For one example, telemedicine might be an opportunity to deliver care in rural hospitals without pediatric services.
In an AAP survey of pediatric hospitalists conducted several years ago, justifying services was listed as the second most important concern right after access to subspecialty support. Due to COVID-19, Dr. Dias expects the order of these concerns to flip. Indeed, she predicted that many pediatric hospitalists are going to need to reassess their programs.
“We have started looking at what are our opportunities for building back revenue as well as how to recession-proof our practices should there be another surge and another decrease in pediatric volume,” Dr. Dias said.
The changes in pediatric care are not confined to the hospital setting. According to Amy H. Porter, MD, assistant professor of pediatrics at the Kaiser Permanente Bernard J. Tyson School of Medicine, Pasadena, Calif., COVID-19 has “changed the way pediatric medicine is being practiced.”
Although she works in outpatient pediatric care, she said that routine care “is way down” in this setting as well. Like Dr. Dias, she has witnessed a major increase in the use of telemedicine to reach pediatric patients, but she is very concerned about the large proportion of children who are missing routine care, including vaccinations.
“We were already seeing outbreaks of whooping cough and measles pre COVID, so we are quite worried that we will see more,” Dr. Porter said.
A reduction in demand for care does not have the same immediate effect on revenue at a large health maintenance organization like Kaiser Permanente, but growing unemployment in the general population will mean fewer HMO members. In turn, this could have an impact on the entire system.
“When membership goes down, then it will have implications for how we can provide services,” Dr. Porter said.
In the meantime, social workers at Kaiser Permanente “are tirelessly working” to help parents losing benefits to obtain medicines for sick children with chronic diseases, according to Dr. Porter. She echoed the comments of Dr. Dias in predicting major changes in pediatric care if the COVID-19 pandemic and its economic consequences persist.
The conference was sponsored by the Society of Hospital Medicine, the American Academy of Pediatrics, and the Academic Pediatric Association.
Pediatric caregivers should consider options
Pediatric caregivers should consider options
The rapid decline in pediatric hospital visits that came quickly after COVID-19 has emerged as a major public health threat, creating the need for adaptations among those offering hospital-based care, according to an objective look at patient numbers that was presented at the virtual Pediatric Hospital Medicine.
“Pre-COVID, operating margins had already taken a significant decline – and there are lots of different reasons for why this was happening – but a lot of hospitals in the United States were going from seeing about a 5% operating margin to closer to 2% to 3%,” said Magna Dias, MD, medical director, pediatric inpatient services, at Yale New Haven Children’s Hospital, Bridgeport, Conn.
This nearly 50% decline “was already putting pressure on us in the community hospital setting where pediatrics is not necessarily generating a ton of revenue to justify our programs, but post COVID, our operating revenue – and this is a report from May – was down 282%,” Dr. Dias reported.
Dr. Dias said that hundreds of hospitals have furloughed workers in the United States since the pandemic began. Although the job losses are not confined to pediatric care, statistics show that pediatrics is one of the hardest hit specialties.
“Looking specifically at ED [emergency department] visits under age 14, one study showed a 71% to 72% decrease post COVID,” Dr. Dias said. This included a 97% reduction in ED visits for flu and more than an 80% reduction in visits for asthma, otitis media, and nausea or vomiting.
It is not clear when children will return to the hospital in pre-COVID-19 numbers, but it might not be soon if the a second wave of infections follows the first, according to Dr. Dias. She suggested that pediatric hospitalists should be thinking about how to expand their services.
“One thing we are really good at in terms of working in the community hospital is diversification. We are used to working in more than one area and being flexible,” Dr. Dias said. Quoting Charles Darwin, who concluded that adaption to change predicts species survival, Dr. Dias advised pediatric hospitalists to look for new opportunities.
Taking on a broader range of responsibilities will not be a significant leap for many pediatric hospitalists. In a survey conducted several years ago by the American Academy of Pediatrics (AAP), hospital staff pediatricians were associated with activities ranging from work in the neonatal intensive care unit to primary ED coverage, according to Dr. Dias. Now with declining patient volumes on pediatric floors, she foresees an even greater expansion, including the care of young adults.
One organization formed in response to the COVID-19 pandemic, called the Pediatric Overflow Planning Contingency Response Network (POPCoRN) has been taking a lead in guiding the delivery of adult care in a pediatric environment. As a cochair of a community hospital special interest group within POPCoRN, Dr. Dias said she has participated in these discussions.
“At some centers, they have gone from age 18 to 21, some have gone up to age 25, some have gone up to 30 years,” she said.
Many centers are working to leverage telemedicine to reach pediatric patients no longer coming to the hospital, according to Dr. Dias.
“There are a lot of people being very creative in telemedicine,” she said. While it is considered as one way “to keep children at your institution,” Dr. Dias said others are considering how telemedicine might provide new opportunities. For one example, telemedicine might be an opportunity to deliver care in rural hospitals without pediatric services.
In an AAP survey of pediatric hospitalists conducted several years ago, justifying services was listed as the second most important concern right after access to subspecialty support. Due to COVID-19, Dr. Dias expects the order of these concerns to flip. Indeed, she predicted that many pediatric hospitalists are going to need to reassess their programs.
“We have started looking at what are our opportunities for building back revenue as well as how to recession-proof our practices should there be another surge and another decrease in pediatric volume,” Dr. Dias said.
The changes in pediatric care are not confined to the hospital setting. According to Amy H. Porter, MD, assistant professor of pediatrics at the Kaiser Permanente Bernard J. Tyson School of Medicine, Pasadena, Calif., COVID-19 has “changed the way pediatric medicine is being practiced.”
Although she works in outpatient pediatric care, she said that routine care “is way down” in this setting as well. Like Dr. Dias, she has witnessed a major increase in the use of telemedicine to reach pediatric patients, but she is very concerned about the large proportion of children who are missing routine care, including vaccinations.
“We were already seeing outbreaks of whooping cough and measles pre COVID, so we are quite worried that we will see more,” Dr. Porter said.
A reduction in demand for care does not have the same immediate effect on revenue at a large health maintenance organization like Kaiser Permanente, but growing unemployment in the general population will mean fewer HMO members. In turn, this could have an impact on the entire system.
“When membership goes down, then it will have implications for how we can provide services,” Dr. Porter said.
In the meantime, social workers at Kaiser Permanente “are tirelessly working” to help parents losing benefits to obtain medicines for sick children with chronic diseases, according to Dr. Porter. She echoed the comments of Dr. Dias in predicting major changes in pediatric care if the COVID-19 pandemic and its economic consequences persist.
The conference was sponsored by the Society of Hospital Medicine, the American Academy of Pediatrics, and the Academic Pediatric Association.
The rapid decline in pediatric hospital visits that came quickly after COVID-19 has emerged as a major public health threat, creating the need for adaptations among those offering hospital-based care, according to an objective look at patient numbers that was presented at the virtual Pediatric Hospital Medicine.
“Pre-COVID, operating margins had already taken a significant decline – and there are lots of different reasons for why this was happening – but a lot of hospitals in the United States were going from seeing about a 5% operating margin to closer to 2% to 3%,” said Magna Dias, MD, medical director, pediatric inpatient services, at Yale New Haven Children’s Hospital, Bridgeport, Conn.
This nearly 50% decline “was already putting pressure on us in the community hospital setting where pediatrics is not necessarily generating a ton of revenue to justify our programs, but post COVID, our operating revenue – and this is a report from May – was down 282%,” Dr. Dias reported.
Dr. Dias said that hundreds of hospitals have furloughed workers in the United States since the pandemic began. Although the job losses are not confined to pediatric care, statistics show that pediatrics is one of the hardest hit specialties.
“Looking specifically at ED [emergency department] visits under age 14, one study showed a 71% to 72% decrease post COVID,” Dr. Dias said. This included a 97% reduction in ED visits for flu and more than an 80% reduction in visits for asthma, otitis media, and nausea or vomiting.
It is not clear when children will return to the hospital in pre-COVID-19 numbers, but it might not be soon if the a second wave of infections follows the first, according to Dr. Dias. She suggested that pediatric hospitalists should be thinking about how to expand their services.
“One thing we are really good at in terms of working in the community hospital is diversification. We are used to working in more than one area and being flexible,” Dr. Dias said. Quoting Charles Darwin, who concluded that adaption to change predicts species survival, Dr. Dias advised pediatric hospitalists to look for new opportunities.
Taking on a broader range of responsibilities will not be a significant leap for many pediatric hospitalists. In a survey conducted several years ago by the American Academy of Pediatrics (AAP), hospital staff pediatricians were associated with activities ranging from work in the neonatal intensive care unit to primary ED coverage, according to Dr. Dias. Now with declining patient volumes on pediatric floors, she foresees an even greater expansion, including the care of young adults.
One organization formed in response to the COVID-19 pandemic, called the Pediatric Overflow Planning Contingency Response Network (POPCoRN) has been taking a lead in guiding the delivery of adult care in a pediatric environment. As a cochair of a community hospital special interest group within POPCoRN, Dr. Dias said she has participated in these discussions.
“At some centers, they have gone from age 18 to 21, some have gone up to age 25, some have gone up to 30 years,” she said.
Many centers are working to leverage telemedicine to reach pediatric patients no longer coming to the hospital, according to Dr. Dias.
“There are a lot of people being very creative in telemedicine,” she said. While it is considered as one way “to keep children at your institution,” Dr. Dias said others are considering how telemedicine might provide new opportunities. For one example, telemedicine might be an opportunity to deliver care in rural hospitals without pediatric services.
In an AAP survey of pediatric hospitalists conducted several years ago, justifying services was listed as the second most important concern right after access to subspecialty support. Due to COVID-19, Dr. Dias expects the order of these concerns to flip. Indeed, she predicted that many pediatric hospitalists are going to need to reassess their programs.
“We have started looking at what are our opportunities for building back revenue as well as how to recession-proof our practices should there be another surge and another decrease in pediatric volume,” Dr. Dias said.
The changes in pediatric care are not confined to the hospital setting. According to Amy H. Porter, MD, assistant professor of pediatrics at the Kaiser Permanente Bernard J. Tyson School of Medicine, Pasadena, Calif., COVID-19 has “changed the way pediatric medicine is being practiced.”
Although she works in outpatient pediatric care, she said that routine care “is way down” in this setting as well. Like Dr. Dias, she has witnessed a major increase in the use of telemedicine to reach pediatric patients, but she is very concerned about the large proportion of children who are missing routine care, including vaccinations.
“We were already seeing outbreaks of whooping cough and measles pre COVID, so we are quite worried that we will see more,” Dr. Porter said.
A reduction in demand for care does not have the same immediate effect on revenue at a large health maintenance organization like Kaiser Permanente, but growing unemployment in the general population will mean fewer HMO members. In turn, this could have an impact on the entire system.
“When membership goes down, then it will have implications for how we can provide services,” Dr. Porter said.
In the meantime, social workers at Kaiser Permanente “are tirelessly working” to help parents losing benefits to obtain medicines for sick children with chronic diseases, according to Dr. Porter. She echoed the comments of Dr. Dias in predicting major changes in pediatric care if the COVID-19 pandemic and its economic consequences persist.
The conference was sponsored by the Society of Hospital Medicine, the American Academy of Pediatrics, and the Academic Pediatric Association.
FROM PHM 2020
Parental refusal of neonatal therapy a growing problem
according to an update at the virtual Pediatric Hospital Medicine virtual. This finding indicates the value of preparing policies and strategies to guide parents to appropriate medical decisions in advance.
“Elimination of nonmedical exceptions to vaccinations and intramuscular vitamin K made it into two of the AAP [American Academy of Pediatrics] top 10 public health resolutions, most likely because refusal rates are going up,” reported Ha N. Nguyen, MD, of the division of pediatric hospital medicine at Stanford (Calif.) University.
Importantly, state laws differ. For example, erythromycin ointment is mandated in neonates for prevention of gonococcal ophthalmia neonatorum in many states, including New York, where it can be administered without consent, according to Dr. Nguyen. Conversely, California does not mandate this preventive therapy even though the law does not offer medico-legal protection to providers if it is not given.
“There is a glaring gap in the way the [California] law was written,” said Dr. Nguyen, who used this as an example of why protocols and strategies to reduce risk of parental refusal of neonatal therapies should be informed by, and consistent with, state laws.
Because of the low levels of vitamin K in infants, the rate of bleeding within the first few months of life is nearly 2%, according to figures cited by Dr. Nguyen. It falls to less than 0.001% with administration of intramuscular vitamin K.
Families who refuse intramuscular vitamin K often state that they understand the risks, but data from a survey Dr. Nguyen cited found this is not necessarily true. In this survey, about two-thirds knew that bleeding was the risk, but less than 20% understood bleeding risks included intracranial hemorrhage, and less than 10% were aware that there was potential for a fatal outcome.
“This is a huge piece of the puzzle for counseling,” Dr. Nguyen said. “The discussion with parents should explicitly involve the explanation that the risks include brain bleeds and death.”
Although most infant bleeds attributed to low vitamin K stores are mucocutaneous or gastrointestinal, intracranial hemorrhage does occur, and these outcomes can be devastating. Up to 25% of infants who experience an intracranial hemorrhage die, while 60% of those who survive have some degree of neurodevelopmental impairment, according to Dr. Nguyen.
Oral vitamin K, which requires multiple doses, is not an appropriate substitute for the recommended single injection of the intramuscular formulation. The one study that compared intramuscular and oral vitamin K did not prove equivalence, and no oral vitamin K products have been approved by the Food and Drug Administration, Dr. Nguyen reported.
“We do know confidently that oral vitamin K does often result in poor adherence,” she said,
In a recent review article of parental vitamin K refusal, one of the most significant predictors of refusal of any recommended neonatal preventive treatment was refusal of another. According to data in that article, summarized by Dr. Nguyen, 68% of the parents who declined intramuscular vitamin K also declined erythromycin ointment, and more than 90% declined hepatitis B vaccine.
“One reason that many parents refuse the hepatitis B vaccine is that they do not think their child is at risk,” explained Kimberly Horstman, MD, from Stanford University and John Muir Medical Center in Walnut Creek, Calif.
Yet hepatitis B virus (HBV) infection, which is asymptomatic, can be acquired from many sources, including nonfamily contacts, according to Dr. Horstman.
“The AAP supports universal hepatitis B vaccine within 24 hours of birth for all infants over 2,000 g at birth,” Dr. Horstman said. In those weighing less, the vaccine is recommended within the first month of life.
The risk of parental refusal for recommended neonatal preventive medicines is higher among those with more education and higher income relative to those with less, Dr. Nguyen said. Other predictors include older maternal age, private insurance, and delivery by a midwife or at a birthing center.
Many parents who refuse preventive neonatal medications do not fully grasp what risks they are accepting by avoiding a recommended medication, according to both Dr. Nguyen and Dr. Horstman. In some cases, the goal is to protect their child from the pain of a needlestick, even when the health consequences might include far more invasive and painful therapies if the child develops the disease the medication would have prevented.
In the case of intramuscular vitamin K, “we encourage a presumptive approach,” Dr. Nguyen said. Concerns can then be addressed only if the parents refuse.
For another strategy, Dr. Nguyen recommended counseling parents about the need and value of preventive therapies during pregnancy. She cited data suggesting that it is more difficult to change the minds of parents after delivery.
Echoing this approach in regard to HBV vaccine, Dr. Horstman suggested encouraging colleagues, including obstetricians and community pediatricians, to raise and address this topic during prenatal counseling. By preparing parents for the recommended medications in the prenatal period, concerns can be addressed in advance.
The health risks posed by parents who refuse recommended medications is recognized by the Centers for Disease Control and Prevention. Both Dr. Horstman and Dr. Nguyen said there are handouts from the CDC and the AAP to inform parents of the purpose and benefit of recommended preventive therapies, as well as to equip caregivers with facts for effective counseling.
according to an update at the virtual Pediatric Hospital Medicine virtual. This finding indicates the value of preparing policies and strategies to guide parents to appropriate medical decisions in advance.
“Elimination of nonmedical exceptions to vaccinations and intramuscular vitamin K made it into two of the AAP [American Academy of Pediatrics] top 10 public health resolutions, most likely because refusal rates are going up,” reported Ha N. Nguyen, MD, of the division of pediatric hospital medicine at Stanford (Calif.) University.
Importantly, state laws differ. For example, erythromycin ointment is mandated in neonates for prevention of gonococcal ophthalmia neonatorum in many states, including New York, where it can be administered without consent, according to Dr. Nguyen. Conversely, California does not mandate this preventive therapy even though the law does not offer medico-legal protection to providers if it is not given.
“There is a glaring gap in the way the [California] law was written,” said Dr. Nguyen, who used this as an example of why protocols and strategies to reduce risk of parental refusal of neonatal therapies should be informed by, and consistent with, state laws.
Because of the low levels of vitamin K in infants, the rate of bleeding within the first few months of life is nearly 2%, according to figures cited by Dr. Nguyen. It falls to less than 0.001% with administration of intramuscular vitamin K.
Families who refuse intramuscular vitamin K often state that they understand the risks, but data from a survey Dr. Nguyen cited found this is not necessarily true. In this survey, about two-thirds knew that bleeding was the risk, but less than 20% understood bleeding risks included intracranial hemorrhage, and less than 10% were aware that there was potential for a fatal outcome.
“This is a huge piece of the puzzle for counseling,” Dr. Nguyen said. “The discussion with parents should explicitly involve the explanation that the risks include brain bleeds and death.”
Although most infant bleeds attributed to low vitamin K stores are mucocutaneous or gastrointestinal, intracranial hemorrhage does occur, and these outcomes can be devastating. Up to 25% of infants who experience an intracranial hemorrhage die, while 60% of those who survive have some degree of neurodevelopmental impairment, according to Dr. Nguyen.
Oral vitamin K, which requires multiple doses, is not an appropriate substitute for the recommended single injection of the intramuscular formulation. The one study that compared intramuscular and oral vitamin K did not prove equivalence, and no oral vitamin K products have been approved by the Food and Drug Administration, Dr. Nguyen reported.
“We do know confidently that oral vitamin K does often result in poor adherence,” she said,
In a recent review article of parental vitamin K refusal, one of the most significant predictors of refusal of any recommended neonatal preventive treatment was refusal of another. According to data in that article, summarized by Dr. Nguyen, 68% of the parents who declined intramuscular vitamin K also declined erythromycin ointment, and more than 90% declined hepatitis B vaccine.
“One reason that many parents refuse the hepatitis B vaccine is that they do not think their child is at risk,” explained Kimberly Horstman, MD, from Stanford University and John Muir Medical Center in Walnut Creek, Calif.
Yet hepatitis B virus (HBV) infection, which is asymptomatic, can be acquired from many sources, including nonfamily contacts, according to Dr. Horstman.
“The AAP supports universal hepatitis B vaccine within 24 hours of birth for all infants over 2,000 g at birth,” Dr. Horstman said. In those weighing less, the vaccine is recommended within the first month of life.
The risk of parental refusal for recommended neonatal preventive medicines is higher among those with more education and higher income relative to those with less, Dr. Nguyen said. Other predictors include older maternal age, private insurance, and delivery by a midwife or at a birthing center.
Many parents who refuse preventive neonatal medications do not fully grasp what risks they are accepting by avoiding a recommended medication, according to both Dr. Nguyen and Dr. Horstman. In some cases, the goal is to protect their child from the pain of a needlestick, even when the health consequences might include far more invasive and painful therapies if the child develops the disease the medication would have prevented.
In the case of intramuscular vitamin K, “we encourage a presumptive approach,” Dr. Nguyen said. Concerns can then be addressed only if the parents refuse.
For another strategy, Dr. Nguyen recommended counseling parents about the need and value of preventive therapies during pregnancy. She cited data suggesting that it is more difficult to change the minds of parents after delivery.
Echoing this approach in regard to HBV vaccine, Dr. Horstman suggested encouraging colleagues, including obstetricians and community pediatricians, to raise and address this topic during prenatal counseling. By preparing parents for the recommended medications in the prenatal period, concerns can be addressed in advance.
The health risks posed by parents who refuse recommended medications is recognized by the Centers for Disease Control and Prevention. Both Dr. Horstman and Dr. Nguyen said there are handouts from the CDC and the AAP to inform parents of the purpose and benefit of recommended preventive therapies, as well as to equip caregivers with facts for effective counseling.
according to an update at the virtual Pediatric Hospital Medicine virtual. This finding indicates the value of preparing policies and strategies to guide parents to appropriate medical decisions in advance.
“Elimination of nonmedical exceptions to vaccinations and intramuscular vitamin K made it into two of the AAP [American Academy of Pediatrics] top 10 public health resolutions, most likely because refusal rates are going up,” reported Ha N. Nguyen, MD, of the division of pediatric hospital medicine at Stanford (Calif.) University.
Importantly, state laws differ. For example, erythromycin ointment is mandated in neonates for prevention of gonococcal ophthalmia neonatorum in many states, including New York, where it can be administered without consent, according to Dr. Nguyen. Conversely, California does not mandate this preventive therapy even though the law does not offer medico-legal protection to providers if it is not given.
“There is a glaring gap in the way the [California] law was written,” said Dr. Nguyen, who used this as an example of why protocols and strategies to reduce risk of parental refusal of neonatal therapies should be informed by, and consistent with, state laws.
Because of the low levels of vitamin K in infants, the rate of bleeding within the first few months of life is nearly 2%, according to figures cited by Dr. Nguyen. It falls to less than 0.001% with administration of intramuscular vitamin K.
Families who refuse intramuscular vitamin K often state that they understand the risks, but data from a survey Dr. Nguyen cited found this is not necessarily true. In this survey, about two-thirds knew that bleeding was the risk, but less than 20% understood bleeding risks included intracranial hemorrhage, and less than 10% were aware that there was potential for a fatal outcome.
“This is a huge piece of the puzzle for counseling,” Dr. Nguyen said. “The discussion with parents should explicitly involve the explanation that the risks include brain bleeds and death.”
Although most infant bleeds attributed to low vitamin K stores are mucocutaneous or gastrointestinal, intracranial hemorrhage does occur, and these outcomes can be devastating. Up to 25% of infants who experience an intracranial hemorrhage die, while 60% of those who survive have some degree of neurodevelopmental impairment, according to Dr. Nguyen.
Oral vitamin K, which requires multiple doses, is not an appropriate substitute for the recommended single injection of the intramuscular formulation. The one study that compared intramuscular and oral vitamin K did not prove equivalence, and no oral vitamin K products have been approved by the Food and Drug Administration, Dr. Nguyen reported.
“We do know confidently that oral vitamin K does often result in poor adherence,” she said,
In a recent review article of parental vitamin K refusal, one of the most significant predictors of refusal of any recommended neonatal preventive treatment was refusal of another. According to data in that article, summarized by Dr. Nguyen, 68% of the parents who declined intramuscular vitamin K also declined erythromycin ointment, and more than 90% declined hepatitis B vaccine.
“One reason that many parents refuse the hepatitis B vaccine is that they do not think their child is at risk,” explained Kimberly Horstman, MD, from Stanford University and John Muir Medical Center in Walnut Creek, Calif.
Yet hepatitis B virus (HBV) infection, which is asymptomatic, can be acquired from many sources, including nonfamily contacts, according to Dr. Horstman.
“The AAP supports universal hepatitis B vaccine within 24 hours of birth for all infants over 2,000 g at birth,” Dr. Horstman said. In those weighing less, the vaccine is recommended within the first month of life.
The risk of parental refusal for recommended neonatal preventive medicines is higher among those with more education and higher income relative to those with less, Dr. Nguyen said. Other predictors include older maternal age, private insurance, and delivery by a midwife or at a birthing center.
Many parents who refuse preventive neonatal medications do not fully grasp what risks they are accepting by avoiding a recommended medication, according to both Dr. Nguyen and Dr. Horstman. In some cases, the goal is to protect their child from the pain of a needlestick, even when the health consequences might include far more invasive and painful therapies if the child develops the disease the medication would have prevented.
In the case of intramuscular vitamin K, “we encourage a presumptive approach,” Dr. Nguyen said. Concerns can then be addressed only if the parents refuse.
For another strategy, Dr. Nguyen recommended counseling parents about the need and value of preventive therapies during pregnancy. She cited data suggesting that it is more difficult to change the minds of parents after delivery.
Echoing this approach in regard to HBV vaccine, Dr. Horstman suggested encouraging colleagues, including obstetricians and community pediatricians, to raise and address this topic during prenatal counseling. By preparing parents for the recommended medications in the prenatal period, concerns can be addressed in advance.
The health risks posed by parents who refuse recommended medications is recognized by the Centers for Disease Control and Prevention. Both Dr. Horstman and Dr. Nguyen said there are handouts from the CDC and the AAP to inform parents of the purpose and benefit of recommended preventive therapies, as well as to equip caregivers with facts for effective counseling.
FROM PHM 2020
MIS-C is a serious immune-mediated response to COVID-19 infection
One of the take-away messages from a review of multisystem inflammatory syndrome in children (MIS-C) is that clinicians treating this condition “need to be comfortable with uncertainty,” Melissa Hazen, MD, said at a synthesis of multiple published case series and personal experience summarized at the virtual Pediatric Hospital Medicine meeting.
She emphasized MIS-C patient care “requires flexibility,” and she advised clinicians managing these patients to open the lines of communication with the many specialists who often are required to deal with complications affecting an array of organ systems.
MIS-C might best be understood as the most serious manifestation of an immune-mediated response to COVID-19 infection that ranges from transient mild symptoms to the life-threatening multiple organ involvement that characterizes this newly recognized threat. Although “most children who encounter this pathogen only develop mild disease,” the spectrum of the disease can move in a subset of patients to a “Kawasaki-like illness” without hemodynamic instability and then to MIS-C “with highly elevated systemic inflammatory markers and multiple organ involvement,” explained Dr. Hazen, an attending physician in the rheumatology program at Boston Children’s Hospital.
most of which have only recently reached publication, according to Dr. Hazen. In general, the description of the most common symptoms and their course has been relatively consistent.
In 186 cases of MIS-C collected in a study funded by the Centers for Disease Control and Prevention, 148 (80%) were admitted to intensive care, 90 patients (48%) received vasoactive support, 37 (20%) received mechanical ventilation, and 4 (2%) died.1 The median age was 8 years (range, 3-13 years) in this study. The case definition was fever for at least 24 hours, laboratory evidence of inflammation, multisystem organ involvement, and evidence of COVID-19 infection. In this cohort of 186 children, 92% had gastrointestinal, 80% had cardiovascular, 76% had hematologic, and 70% had respiratory system involvement.
In a different series of 95 cases collected in New York State, 79 (80%) were admitted to intensive care, 61 (62%) received vasoactive support, 10 (10%) received mechanical ventilation, 4 (4%) received extracorporeal membrane oxygenation (ECMO), and 2 (2%) died. 2 Thirty-one percent patients were aged 0-5 years, 42% were 6-12 years, and 26% were 13-20 years of age. In that series, for which the case definition was elevation of two or more inflammatory markers, virologic evidence of COVID-19 infection, 80% had gastrointestinal system involvement, and 53% had evidence of myocarditis.
In both of these series, as well as others published and unpublished, the peak in MIS-C cases has occurred about 3 to 4 weeks after peak COVID-19 activity, according to Diana Lee, MD, a pediatrician at Icahn School of Medicine at Mount Sinai, New York. This pattern, reported by others, was observed in New York State, where 230 cases of MIS-C were collected from the beginning of May until the end of June, which reflected this 3- to 4-week delay in peak incidence.
“This does seem to be a rare syndrome since this [group of] 230 cases is amongst the entire population of children in New York State. So, yes, we should be keeping this in mind in our differential, but we should not forget all the other reasons that children can have a fever,” she said.
Both Dr. Hazen and Dr. Lee cautioned that MIS-C, despite a general consistency among published studies, remains a moving target in regard to how it is being characterized. In a 2-day period in May, the CDC, the World Health Organization, and New York State all issued descriptions of MIS-C, employing compatible but slightly different terminology and diagnostic criteria. Many questions regarding optimal methods of diagnosis, treatment, and follow-up remain unanswered.
Questions regarding the risk to the cardiovascular system, one of the organs most commonly affected in MIS-C, are among the most urgent. It is not now clear how best to monitor cardiovascular involvement, how to intervene, and how to follow patients in the postinfection period, according to Kevin G. Friedman, MD, a pediatrician at Harvard Medical School, Boston, and an attending physician in the department of cardiology at Boston Children’s Hospital.
“The most frequent complication we have seen is ventricular dysfunction, which occurs in about half of these patients,” he reported. “Usually it is in the mild to moderate range, but occasionally patients have an ejection fraction of less than 40%.”
Coronary abnormalities, typically in the form of dilations or small aneurysms, occur in 10%-20% of children with MIS-C, according to Dr. Friedman. Giant aneurysms have been reported.
“Some of these findings can progress including in both the acute phase and, particularly for the coronary aneurysms, in the subacute phase. We recommend echocardiograms and EKGs at diagnosis and at 1-2 weeks to recheck coronary size or sooner if there are clinical indications,” Dr. Friedman advised.
Protocols like these are constantly under review as more information becomes available. There are as yet no guidelines, and practice differs across institutions, according to the investigators summarizing this information.
None of the speakers had any relevant financial disclosures.
References
1. Feldstein LR et al. Multisystem inflammatory syndrome in U.S. children and adolescents. N Engl J Med. 2020;383:334-46.
2. Dufort EM et al. Multisystem inflammatory syndrome in children in New York State. N Engl J Med 2020;383:347-58.
One of the take-away messages from a review of multisystem inflammatory syndrome in children (MIS-C) is that clinicians treating this condition “need to be comfortable with uncertainty,” Melissa Hazen, MD, said at a synthesis of multiple published case series and personal experience summarized at the virtual Pediatric Hospital Medicine meeting.
She emphasized MIS-C patient care “requires flexibility,” and she advised clinicians managing these patients to open the lines of communication with the many specialists who often are required to deal with complications affecting an array of organ systems.
MIS-C might best be understood as the most serious manifestation of an immune-mediated response to COVID-19 infection that ranges from transient mild symptoms to the life-threatening multiple organ involvement that characterizes this newly recognized threat. Although “most children who encounter this pathogen only develop mild disease,” the spectrum of the disease can move in a subset of patients to a “Kawasaki-like illness” without hemodynamic instability and then to MIS-C “with highly elevated systemic inflammatory markers and multiple organ involvement,” explained Dr. Hazen, an attending physician in the rheumatology program at Boston Children’s Hospital.
most of which have only recently reached publication, according to Dr. Hazen. In general, the description of the most common symptoms and their course has been relatively consistent.
In 186 cases of MIS-C collected in a study funded by the Centers for Disease Control and Prevention, 148 (80%) were admitted to intensive care, 90 patients (48%) received vasoactive support, 37 (20%) received mechanical ventilation, and 4 (2%) died.1 The median age was 8 years (range, 3-13 years) in this study. The case definition was fever for at least 24 hours, laboratory evidence of inflammation, multisystem organ involvement, and evidence of COVID-19 infection. In this cohort of 186 children, 92% had gastrointestinal, 80% had cardiovascular, 76% had hematologic, and 70% had respiratory system involvement.
In a different series of 95 cases collected in New York State, 79 (80%) were admitted to intensive care, 61 (62%) received vasoactive support, 10 (10%) received mechanical ventilation, 4 (4%) received extracorporeal membrane oxygenation (ECMO), and 2 (2%) died. 2 Thirty-one percent patients were aged 0-5 years, 42% were 6-12 years, and 26% were 13-20 years of age. In that series, for which the case definition was elevation of two or more inflammatory markers, virologic evidence of COVID-19 infection, 80% had gastrointestinal system involvement, and 53% had evidence of myocarditis.
In both of these series, as well as others published and unpublished, the peak in MIS-C cases has occurred about 3 to 4 weeks after peak COVID-19 activity, according to Diana Lee, MD, a pediatrician at Icahn School of Medicine at Mount Sinai, New York. This pattern, reported by others, was observed in New York State, where 230 cases of MIS-C were collected from the beginning of May until the end of June, which reflected this 3- to 4-week delay in peak incidence.
“This does seem to be a rare syndrome since this [group of] 230 cases is amongst the entire population of children in New York State. So, yes, we should be keeping this in mind in our differential, but we should not forget all the other reasons that children can have a fever,” she said.
Both Dr. Hazen and Dr. Lee cautioned that MIS-C, despite a general consistency among published studies, remains a moving target in regard to how it is being characterized. In a 2-day period in May, the CDC, the World Health Organization, and New York State all issued descriptions of MIS-C, employing compatible but slightly different terminology and diagnostic criteria. Many questions regarding optimal methods of diagnosis, treatment, and follow-up remain unanswered.
Questions regarding the risk to the cardiovascular system, one of the organs most commonly affected in MIS-C, are among the most urgent. It is not now clear how best to monitor cardiovascular involvement, how to intervene, and how to follow patients in the postinfection period, according to Kevin G. Friedman, MD, a pediatrician at Harvard Medical School, Boston, and an attending physician in the department of cardiology at Boston Children’s Hospital.
“The most frequent complication we have seen is ventricular dysfunction, which occurs in about half of these patients,” he reported. “Usually it is in the mild to moderate range, but occasionally patients have an ejection fraction of less than 40%.”
Coronary abnormalities, typically in the form of dilations or small aneurysms, occur in 10%-20% of children with MIS-C, according to Dr. Friedman. Giant aneurysms have been reported.
“Some of these findings can progress including in both the acute phase and, particularly for the coronary aneurysms, in the subacute phase. We recommend echocardiograms and EKGs at diagnosis and at 1-2 weeks to recheck coronary size or sooner if there are clinical indications,” Dr. Friedman advised.
Protocols like these are constantly under review as more information becomes available. There are as yet no guidelines, and practice differs across institutions, according to the investigators summarizing this information.
None of the speakers had any relevant financial disclosures.
References
1. Feldstein LR et al. Multisystem inflammatory syndrome in U.S. children and adolescents. N Engl J Med. 2020;383:334-46.
2. Dufort EM et al. Multisystem inflammatory syndrome in children in New York State. N Engl J Med 2020;383:347-58.
One of the take-away messages from a review of multisystem inflammatory syndrome in children (MIS-C) is that clinicians treating this condition “need to be comfortable with uncertainty,” Melissa Hazen, MD, said at a synthesis of multiple published case series and personal experience summarized at the virtual Pediatric Hospital Medicine meeting.
She emphasized MIS-C patient care “requires flexibility,” and she advised clinicians managing these patients to open the lines of communication with the many specialists who often are required to deal with complications affecting an array of organ systems.
MIS-C might best be understood as the most serious manifestation of an immune-mediated response to COVID-19 infection that ranges from transient mild symptoms to the life-threatening multiple organ involvement that characterizes this newly recognized threat. Although “most children who encounter this pathogen only develop mild disease,” the spectrum of the disease can move in a subset of patients to a “Kawasaki-like illness” without hemodynamic instability and then to MIS-C “with highly elevated systemic inflammatory markers and multiple organ involvement,” explained Dr. Hazen, an attending physician in the rheumatology program at Boston Children’s Hospital.
most of which have only recently reached publication, according to Dr. Hazen. In general, the description of the most common symptoms and their course has been relatively consistent.
In 186 cases of MIS-C collected in a study funded by the Centers for Disease Control and Prevention, 148 (80%) were admitted to intensive care, 90 patients (48%) received vasoactive support, 37 (20%) received mechanical ventilation, and 4 (2%) died.1 The median age was 8 years (range, 3-13 years) in this study. The case definition was fever for at least 24 hours, laboratory evidence of inflammation, multisystem organ involvement, and evidence of COVID-19 infection. In this cohort of 186 children, 92% had gastrointestinal, 80% had cardiovascular, 76% had hematologic, and 70% had respiratory system involvement.
In a different series of 95 cases collected in New York State, 79 (80%) were admitted to intensive care, 61 (62%) received vasoactive support, 10 (10%) received mechanical ventilation, 4 (4%) received extracorporeal membrane oxygenation (ECMO), and 2 (2%) died. 2 Thirty-one percent patients were aged 0-5 years, 42% were 6-12 years, and 26% were 13-20 years of age. In that series, for which the case definition was elevation of two or more inflammatory markers, virologic evidence of COVID-19 infection, 80% had gastrointestinal system involvement, and 53% had evidence of myocarditis.
In both of these series, as well as others published and unpublished, the peak in MIS-C cases has occurred about 3 to 4 weeks after peak COVID-19 activity, according to Diana Lee, MD, a pediatrician at Icahn School of Medicine at Mount Sinai, New York. This pattern, reported by others, was observed in New York State, where 230 cases of MIS-C were collected from the beginning of May until the end of June, which reflected this 3- to 4-week delay in peak incidence.
“This does seem to be a rare syndrome since this [group of] 230 cases is amongst the entire population of children in New York State. So, yes, we should be keeping this in mind in our differential, but we should not forget all the other reasons that children can have a fever,” she said.
Both Dr. Hazen and Dr. Lee cautioned that MIS-C, despite a general consistency among published studies, remains a moving target in regard to how it is being characterized. In a 2-day period in May, the CDC, the World Health Organization, and New York State all issued descriptions of MIS-C, employing compatible but slightly different terminology and diagnostic criteria. Many questions regarding optimal methods of diagnosis, treatment, and follow-up remain unanswered.
Questions regarding the risk to the cardiovascular system, one of the organs most commonly affected in MIS-C, are among the most urgent. It is not now clear how best to monitor cardiovascular involvement, how to intervene, and how to follow patients in the postinfection period, according to Kevin G. Friedman, MD, a pediatrician at Harvard Medical School, Boston, and an attending physician in the department of cardiology at Boston Children’s Hospital.
“The most frequent complication we have seen is ventricular dysfunction, which occurs in about half of these patients,” he reported. “Usually it is in the mild to moderate range, but occasionally patients have an ejection fraction of less than 40%.”
Coronary abnormalities, typically in the form of dilations or small aneurysms, occur in 10%-20% of children with MIS-C, according to Dr. Friedman. Giant aneurysms have been reported.
“Some of these findings can progress including in both the acute phase and, particularly for the coronary aneurysms, in the subacute phase. We recommend echocardiograms and EKGs at diagnosis and at 1-2 weeks to recheck coronary size or sooner if there are clinical indications,” Dr. Friedman advised.
Protocols like these are constantly under review as more information becomes available. There are as yet no guidelines, and practice differs across institutions, according to the investigators summarizing this information.
None of the speakers had any relevant financial disclosures.
References
1. Feldstein LR et al. Multisystem inflammatory syndrome in U.S. children and adolescents. N Engl J Med. 2020;383:334-46.
2. Dufort EM et al. Multisystem inflammatory syndrome in children in New York State. N Engl J Med 2020;383:347-58.
FROM PHM20 VIRTUAL
Men occupy most leadership roles in medicine
Since the early 2000s, approximately half of medical students in the United States – and in many years, more than half – have been women, but
according to an update provided at the virtual Pediatric Hospital Medicine.In pediatrics, a specialty in which approximately 70% of physicians are now women, there has been progress, but still less than 30% of pediatric department chairs are female, said Vincent Chiang, MD, chief medical officer of Boston Children’s Hospital, during a presentation at the virtual meeting sponsored by the Society of Hospital Medicine, the American Academy of Pediatrics, and the Academic Pediatric Association.
Citing published data and a survey he personally conducted of the top children’s hospitals identified by the U.S. News and World Report, Dr. Chiang said a minority of division chiefs, chief medical officers, chief financial officers, and other leaders are female. At his institution, only 2 of 16 division chiefs are female.
“No matter how you slice it, women are underrepresented in leadership positions,” he noted.
The problem is certainly not confined to medicine. Dr. Chiang cited data showing that women and men have reached “near parity” in workforce participation in the United States even though the 20% earnings gap has changed little over time.
According to 2020 data from the World Economic Forum, the United States ranked 51 for the gender gap calculated on the basis of economic, political, educational, and health attainment. Even if this places the United States in the top third of the rankings, it is far behind Iceland and the Scandinavian countries that lead the list.
Efforts to reduce structural biases are part of the fix, but Dr. Chiang cautioned that fundamental changes might never occur if the plan is to wait for an approach based on meritocracy. He said that existing structural biases are “slanted away from women,” who are not necessarily granted the opportunities that are readily available to men.
“A meritocracy only works if the initial playing field was level. Otherwise, it just perpetuates the inequalities,” he said.
The problem is not a shortage of women with the skills to lead. In a study by Zenger/Folkman, a consulting company that works on leadership skill development, women performed better than men in 16 of 18 leadership categories, according to Dr. Chiang.
“There is certainly no shortage of capable women,” he noted.
Of the many issues, Dr. Chiang highlighted two. The first is the challenge of placing women on leadership pathways. This is likely to require proactive strategies, such as fast-track advancement programs that guide female candidates toward leadership roles.
The second is more nuanced. According to Dr. Chiang, women who want to assume a leadership role should think more actively about how and who is making decisions at their institution so they can position themselves appropriately. This is nuanced because “there is a certain amount of gamesmanship,” he said. The rise to leadership “has never been a pure meritocracy.”
Importantly, many of the key decisions in any institution involve money, according to Dr. Chiang. As a result, he advised those seeking leadership roles to join audit committees or otherwise take on responsibility for profit-and-loss management. Even in a nonprofit institution, “you need to make the numbers work,” he said, citing the common catchphrase: “No margin, no mission.”
However, Dr. Chiang acknowledged the many obstacles that prevent women from working their way into positions of leadership. For example, networking is important, but women are not necessarily attracted or invited to some of the social engagements, such as golf outings, where strong relationships are created.
In a survey of 100,000 people working at Fortune 500 companies, “82% of women say they feel excluded at work and much of that comes from that informal networking,” Dr. Chiang said. “Whereas 92% of men think they are not excluding women in their daily work.”
There is no single solution, but Dr. Chiang believes that concrete structural changes are needed. Female doctors remain grossly underrepresented in leadership roles even as they now represent more than half of the workforce for many specialties. Based on the need for proactive approaches outlined by Dr. Chiang, it appears unlikely that gender inequality will ever resolve itself.
Lisa S. Rotenstein, MD, who has written on fixing the gender imbalance in health care, including for the Harvard Business Review, said she agreed during an interview that structural changes are critical.
“In order to address current disparities, leaders should be thinking about how to remove both the formal and informal obstacles that prevent women and minorities from getting into the rooms where these decisions are being made,” said Dr. Rotenstein, who is an instructor in medicine at Brigham and Women’s Hospital, Harvard Medical School in Boston.
“This will need to involve sponsorship that gets women invited to the right committees or in positions with responsibility for profit-and-loss management,” she added.
Dr. Rotenstein spoke about improving “access to the pipeline” that leads to leadership roles. The ways in which women are excluded from opportunities is often subtle and difficult to penetrate without fundamental changes, she explained.
“Institutions need to understand the processes that lead to leadership roles and make the changes that allow women and minorities to participate,” she said. It is not enough to recognize the problem, according to Dr. Rotenstein.
Like Dr. Chiang, she noted that changes are needed in the methods that move underrepresented groups into leadership roles.
Dr. Chiang reported no potential conflicts of interest relevant to this study.
Since the early 2000s, approximately half of medical students in the United States – and in many years, more than half – have been women, but
according to an update provided at the virtual Pediatric Hospital Medicine.In pediatrics, a specialty in which approximately 70% of physicians are now women, there has been progress, but still less than 30% of pediatric department chairs are female, said Vincent Chiang, MD, chief medical officer of Boston Children’s Hospital, during a presentation at the virtual meeting sponsored by the Society of Hospital Medicine, the American Academy of Pediatrics, and the Academic Pediatric Association.
Citing published data and a survey he personally conducted of the top children’s hospitals identified by the U.S. News and World Report, Dr. Chiang said a minority of division chiefs, chief medical officers, chief financial officers, and other leaders are female. At his institution, only 2 of 16 division chiefs are female.
“No matter how you slice it, women are underrepresented in leadership positions,” he noted.
The problem is certainly not confined to medicine. Dr. Chiang cited data showing that women and men have reached “near parity” in workforce participation in the United States even though the 20% earnings gap has changed little over time.
According to 2020 data from the World Economic Forum, the United States ranked 51 for the gender gap calculated on the basis of economic, political, educational, and health attainment. Even if this places the United States in the top third of the rankings, it is far behind Iceland and the Scandinavian countries that lead the list.
Efforts to reduce structural biases are part of the fix, but Dr. Chiang cautioned that fundamental changes might never occur if the plan is to wait for an approach based on meritocracy. He said that existing structural biases are “slanted away from women,” who are not necessarily granted the opportunities that are readily available to men.
“A meritocracy only works if the initial playing field was level. Otherwise, it just perpetuates the inequalities,” he said.
The problem is not a shortage of women with the skills to lead. In a study by Zenger/Folkman, a consulting company that works on leadership skill development, women performed better than men in 16 of 18 leadership categories, according to Dr. Chiang.
“There is certainly no shortage of capable women,” he noted.
Of the many issues, Dr. Chiang highlighted two. The first is the challenge of placing women on leadership pathways. This is likely to require proactive strategies, such as fast-track advancement programs that guide female candidates toward leadership roles.
The second is more nuanced. According to Dr. Chiang, women who want to assume a leadership role should think more actively about how and who is making decisions at their institution so they can position themselves appropriately. This is nuanced because “there is a certain amount of gamesmanship,” he said. The rise to leadership “has never been a pure meritocracy.”
Importantly, many of the key decisions in any institution involve money, according to Dr. Chiang. As a result, he advised those seeking leadership roles to join audit committees or otherwise take on responsibility for profit-and-loss management. Even in a nonprofit institution, “you need to make the numbers work,” he said, citing the common catchphrase: “No margin, no mission.”
However, Dr. Chiang acknowledged the many obstacles that prevent women from working their way into positions of leadership. For example, networking is important, but women are not necessarily attracted or invited to some of the social engagements, such as golf outings, where strong relationships are created.
In a survey of 100,000 people working at Fortune 500 companies, “82% of women say they feel excluded at work and much of that comes from that informal networking,” Dr. Chiang said. “Whereas 92% of men think they are not excluding women in their daily work.”
There is no single solution, but Dr. Chiang believes that concrete structural changes are needed. Female doctors remain grossly underrepresented in leadership roles even as they now represent more than half of the workforce for many specialties. Based on the need for proactive approaches outlined by Dr. Chiang, it appears unlikely that gender inequality will ever resolve itself.
Lisa S. Rotenstein, MD, who has written on fixing the gender imbalance in health care, including for the Harvard Business Review, said she agreed during an interview that structural changes are critical.
“In order to address current disparities, leaders should be thinking about how to remove both the formal and informal obstacles that prevent women and minorities from getting into the rooms where these decisions are being made,” said Dr. Rotenstein, who is an instructor in medicine at Brigham and Women’s Hospital, Harvard Medical School in Boston.
“This will need to involve sponsorship that gets women invited to the right committees or in positions with responsibility for profit-and-loss management,” she added.
Dr. Rotenstein spoke about improving “access to the pipeline” that leads to leadership roles. The ways in which women are excluded from opportunities is often subtle and difficult to penetrate without fundamental changes, she explained.
“Institutions need to understand the processes that lead to leadership roles and make the changes that allow women and minorities to participate,” she said. It is not enough to recognize the problem, according to Dr. Rotenstein.
Like Dr. Chiang, she noted that changes are needed in the methods that move underrepresented groups into leadership roles.
Dr. Chiang reported no potential conflicts of interest relevant to this study.
Since the early 2000s, approximately half of medical students in the United States – and in many years, more than half – have been women, but
according to an update provided at the virtual Pediatric Hospital Medicine.In pediatrics, a specialty in which approximately 70% of physicians are now women, there has been progress, but still less than 30% of pediatric department chairs are female, said Vincent Chiang, MD, chief medical officer of Boston Children’s Hospital, during a presentation at the virtual meeting sponsored by the Society of Hospital Medicine, the American Academy of Pediatrics, and the Academic Pediatric Association.
Citing published data and a survey he personally conducted of the top children’s hospitals identified by the U.S. News and World Report, Dr. Chiang said a minority of division chiefs, chief medical officers, chief financial officers, and other leaders are female. At his institution, only 2 of 16 division chiefs are female.
“No matter how you slice it, women are underrepresented in leadership positions,” he noted.
The problem is certainly not confined to medicine. Dr. Chiang cited data showing that women and men have reached “near parity” in workforce participation in the United States even though the 20% earnings gap has changed little over time.
According to 2020 data from the World Economic Forum, the United States ranked 51 for the gender gap calculated on the basis of economic, political, educational, and health attainment. Even if this places the United States in the top third of the rankings, it is far behind Iceland and the Scandinavian countries that lead the list.
Efforts to reduce structural biases are part of the fix, but Dr. Chiang cautioned that fundamental changes might never occur if the plan is to wait for an approach based on meritocracy. He said that existing structural biases are “slanted away from women,” who are not necessarily granted the opportunities that are readily available to men.
“A meritocracy only works if the initial playing field was level. Otherwise, it just perpetuates the inequalities,” he said.
The problem is not a shortage of women with the skills to lead. In a study by Zenger/Folkman, a consulting company that works on leadership skill development, women performed better than men in 16 of 18 leadership categories, according to Dr. Chiang.
“There is certainly no shortage of capable women,” he noted.
Of the many issues, Dr. Chiang highlighted two. The first is the challenge of placing women on leadership pathways. This is likely to require proactive strategies, such as fast-track advancement programs that guide female candidates toward leadership roles.
The second is more nuanced. According to Dr. Chiang, women who want to assume a leadership role should think more actively about how and who is making decisions at their institution so they can position themselves appropriately. This is nuanced because “there is a certain amount of gamesmanship,” he said. The rise to leadership “has never been a pure meritocracy.”
Importantly, many of the key decisions in any institution involve money, according to Dr. Chiang. As a result, he advised those seeking leadership roles to join audit committees or otherwise take on responsibility for profit-and-loss management. Even in a nonprofit institution, “you need to make the numbers work,” he said, citing the common catchphrase: “No margin, no mission.”
However, Dr. Chiang acknowledged the many obstacles that prevent women from working their way into positions of leadership. For example, networking is important, but women are not necessarily attracted or invited to some of the social engagements, such as golf outings, where strong relationships are created.
In a survey of 100,000 people working at Fortune 500 companies, “82% of women say they feel excluded at work and much of that comes from that informal networking,” Dr. Chiang said. “Whereas 92% of men think they are not excluding women in their daily work.”
There is no single solution, but Dr. Chiang believes that concrete structural changes are needed. Female doctors remain grossly underrepresented in leadership roles even as they now represent more than half of the workforce for many specialties. Based on the need for proactive approaches outlined by Dr. Chiang, it appears unlikely that gender inequality will ever resolve itself.
Lisa S. Rotenstein, MD, who has written on fixing the gender imbalance in health care, including for the Harvard Business Review, said she agreed during an interview that structural changes are critical.
“In order to address current disparities, leaders should be thinking about how to remove both the formal and informal obstacles that prevent women and minorities from getting into the rooms where these decisions are being made,” said Dr. Rotenstein, who is an instructor in medicine at Brigham and Women’s Hospital, Harvard Medical School in Boston.
“This will need to involve sponsorship that gets women invited to the right committees or in positions with responsibility for profit-and-loss management,” she added.
Dr. Rotenstein spoke about improving “access to the pipeline” that leads to leadership roles. The ways in which women are excluded from opportunities is often subtle and difficult to penetrate without fundamental changes, she explained.
“Institutions need to understand the processes that lead to leadership roles and make the changes that allow women and minorities to participate,” she said. It is not enough to recognize the problem, according to Dr. Rotenstein.
Like Dr. Chiang, she noted that changes are needed in the methods that move underrepresented groups into leadership roles.
Dr. Chiang reported no potential conflicts of interest relevant to this study.
FROM PHM20
Acute EVALI remains a diagnosis of exclusion
according to a synthesis of current information presented at the virtual Pediatric Hospital Medicine.
Respiratory symptoms, including cough, chest pain, and shortness of breath are common but so are constitutive symptoms, including fever, sore throat, muscle aches, nausea and vomiting, said Yamini Kuchipudi, MD, a staff physician at Cincinnati Children’s Hospital, during the session at the virtual meeting, sponsored by the Society of Hospital Medicine, the American Academy of Pediatrics, and the Academic Pediatric Association.
If EVALI is not considered across this broad array of symptoms, of which respiratory complaints might not be the most prominent at the time of presentation, the diagnosis might be delayed, Dr. Kuchipudi warned during the virtual meeting.
Teenagers and young adults are the most common users of e-cigarettes and vaping devices. In these patients or in any individual suspected of having EVALI, Dr. Kuchipudi recommended posing questions about vaping relatively early in the work-up “in a confidential and nonjudgmental way.”
Eliciting a truthful history will be particularly important, because the risk of EVALI appears to be largely related to vaping with tetrahydrocannabinol (THC)-containing products rather than with nicotine alone. Although the exact cause of EVALI is not yet completely clear, this condition is now strongly associated with additives to the THC, according to Issa Hanna, MD, of the department of pediatrics at the University of Florida, Jacksonville.
“E-liquid contains products like hydrocarbons, vitamin E acetate, and heavy metals that appear to damage the alveolar epithelium by direct cellular inflammation,” Dr. Hanna explained.
These products are not only found in THC processed for vaping but also for dabbing, a related but different form of inhalation that involves vaporization of highly concentrated THC waxes or resins. Dr. Hanna suggested that the decline in reported cases of EVALI, which has followed the peak incidence in September 2019, is likely to be related to a decline in THC additives as well as greater caution among users.
E-cigarettes were introduced in 2007, according to Dr. Hanna, but EVALI was not widely recognized until cases began accruing early in 2019. By June 2019, the growing number of case reports had attracted the attention of the media as well as public health officials, intensifying the effort to isolate the risks and causes.
Consistent with greater use of e-cigarettes and vaping among younger individuals, nearly 80% of the 2,807 patients hospitalized for EVALI in the United States by February of this year occurred in individuals aged less than 35 years, according to data released by the Centers for Disease Control and Prevention. The median age was less than 25 years. Of these hospitalizations, 68 deaths (2.5%) in 29 states and Washington, D.C., were attributed to EVALI.
Because of the nonspecific symptoms and lack of a definitive diagnostic test, EVALI is considered a diagnosis of exclusion, according to Abigail Musial, MD, who is completing a fellowship in hospital medicine at Cincinnati Children’s. She presented a case in which a patient suspected of EVALI went home after symptoms abated on steroids.
“Less than 24 hours later, she returned to the ED with tachypnea and hypoxemia,” Dr. Musial recounted. Although a chest x-ray at the initial evaluation showed lung opacities, a repeat chest x-ray when she returned to the ED showed bilateral worsening of these opacities and persistent elevation of inflammatory markers.
“She was started on steroids and also on antibiotics,” Dr. Musial said. “She was weaned quickly from oxygen once the steroids were started and was discharged on hospital day 3.”
For patients suspected of EVALI, COVID-19 testing should be part of the work-up, according to Dr. Kuchipudi. She also recommended an x-ray or CT scan of the lung as well as an evaluation of inflammatory markers.
Dr. Kuchipudi said that more invasive studies than lung function tests, such as bronchoalveolar lavage or lung biopsy, might be considered when severe symptoms make aggressive diagnostic studies attractive.
Steroids and antibiotics typically lead to control of acute symptoms, but patients should be clinically stable for 24-48 hours prior to hospital discharge, according to Dr. Kuchipudi. Follow-up after discharge should include lung function tests and imaging 2-4 weeks later to confirm resolution of abnormalities.
Dr. Kuchipudi stressed the opportunity that an episode of EVALI provides to induce patients to give up nicotine and vaping entirely. Such strategies, such as a nicotine patch, deserve consideration, but she also cautioned that e-cigarettes for smoking cessation should not be recommended to EVALI patients.
The speakers reported no potential conflicts of interest relevant to this study.
according to a synthesis of current information presented at the virtual Pediatric Hospital Medicine.
Respiratory symptoms, including cough, chest pain, and shortness of breath are common but so are constitutive symptoms, including fever, sore throat, muscle aches, nausea and vomiting, said Yamini Kuchipudi, MD, a staff physician at Cincinnati Children’s Hospital, during the session at the virtual meeting, sponsored by the Society of Hospital Medicine, the American Academy of Pediatrics, and the Academic Pediatric Association.
If EVALI is not considered across this broad array of symptoms, of which respiratory complaints might not be the most prominent at the time of presentation, the diagnosis might be delayed, Dr. Kuchipudi warned during the virtual meeting.
Teenagers and young adults are the most common users of e-cigarettes and vaping devices. In these patients or in any individual suspected of having EVALI, Dr. Kuchipudi recommended posing questions about vaping relatively early in the work-up “in a confidential and nonjudgmental way.”
Eliciting a truthful history will be particularly important, because the risk of EVALI appears to be largely related to vaping with tetrahydrocannabinol (THC)-containing products rather than with nicotine alone. Although the exact cause of EVALI is not yet completely clear, this condition is now strongly associated with additives to the THC, according to Issa Hanna, MD, of the department of pediatrics at the University of Florida, Jacksonville.
“E-liquid contains products like hydrocarbons, vitamin E acetate, and heavy metals that appear to damage the alveolar epithelium by direct cellular inflammation,” Dr. Hanna explained.
These products are not only found in THC processed for vaping but also for dabbing, a related but different form of inhalation that involves vaporization of highly concentrated THC waxes or resins. Dr. Hanna suggested that the decline in reported cases of EVALI, which has followed the peak incidence in September 2019, is likely to be related to a decline in THC additives as well as greater caution among users.
E-cigarettes were introduced in 2007, according to Dr. Hanna, but EVALI was not widely recognized until cases began accruing early in 2019. By June 2019, the growing number of case reports had attracted the attention of the media as well as public health officials, intensifying the effort to isolate the risks and causes.
Consistent with greater use of e-cigarettes and vaping among younger individuals, nearly 80% of the 2,807 patients hospitalized for EVALI in the United States by February of this year occurred in individuals aged less than 35 years, according to data released by the Centers for Disease Control and Prevention. The median age was less than 25 years. Of these hospitalizations, 68 deaths (2.5%) in 29 states and Washington, D.C., were attributed to EVALI.
Because of the nonspecific symptoms and lack of a definitive diagnostic test, EVALI is considered a diagnosis of exclusion, according to Abigail Musial, MD, who is completing a fellowship in hospital medicine at Cincinnati Children’s. She presented a case in which a patient suspected of EVALI went home after symptoms abated on steroids.
“Less than 24 hours later, she returned to the ED with tachypnea and hypoxemia,” Dr. Musial recounted. Although a chest x-ray at the initial evaluation showed lung opacities, a repeat chest x-ray when she returned to the ED showed bilateral worsening of these opacities and persistent elevation of inflammatory markers.
“She was started on steroids and also on antibiotics,” Dr. Musial said. “She was weaned quickly from oxygen once the steroids were started and was discharged on hospital day 3.”
For patients suspected of EVALI, COVID-19 testing should be part of the work-up, according to Dr. Kuchipudi. She also recommended an x-ray or CT scan of the lung as well as an evaluation of inflammatory markers.
Dr. Kuchipudi said that more invasive studies than lung function tests, such as bronchoalveolar lavage or lung biopsy, might be considered when severe symptoms make aggressive diagnostic studies attractive.
Steroids and antibiotics typically lead to control of acute symptoms, but patients should be clinically stable for 24-48 hours prior to hospital discharge, according to Dr. Kuchipudi. Follow-up after discharge should include lung function tests and imaging 2-4 weeks later to confirm resolution of abnormalities.
Dr. Kuchipudi stressed the opportunity that an episode of EVALI provides to induce patients to give up nicotine and vaping entirely. Such strategies, such as a nicotine patch, deserve consideration, but she also cautioned that e-cigarettes for smoking cessation should not be recommended to EVALI patients.
The speakers reported no potential conflicts of interest relevant to this study.
according to a synthesis of current information presented at the virtual Pediatric Hospital Medicine.
Respiratory symptoms, including cough, chest pain, and shortness of breath are common but so are constitutive symptoms, including fever, sore throat, muscle aches, nausea and vomiting, said Yamini Kuchipudi, MD, a staff physician at Cincinnati Children’s Hospital, during the session at the virtual meeting, sponsored by the Society of Hospital Medicine, the American Academy of Pediatrics, and the Academic Pediatric Association.
If EVALI is not considered across this broad array of symptoms, of which respiratory complaints might not be the most prominent at the time of presentation, the diagnosis might be delayed, Dr. Kuchipudi warned during the virtual meeting.
Teenagers and young adults are the most common users of e-cigarettes and vaping devices. In these patients or in any individual suspected of having EVALI, Dr. Kuchipudi recommended posing questions about vaping relatively early in the work-up “in a confidential and nonjudgmental way.”
Eliciting a truthful history will be particularly important, because the risk of EVALI appears to be largely related to vaping with tetrahydrocannabinol (THC)-containing products rather than with nicotine alone. Although the exact cause of EVALI is not yet completely clear, this condition is now strongly associated with additives to the THC, according to Issa Hanna, MD, of the department of pediatrics at the University of Florida, Jacksonville.
“E-liquid contains products like hydrocarbons, vitamin E acetate, and heavy metals that appear to damage the alveolar epithelium by direct cellular inflammation,” Dr. Hanna explained.
These products are not only found in THC processed for vaping but also for dabbing, a related but different form of inhalation that involves vaporization of highly concentrated THC waxes or resins. Dr. Hanna suggested that the decline in reported cases of EVALI, which has followed the peak incidence in September 2019, is likely to be related to a decline in THC additives as well as greater caution among users.
E-cigarettes were introduced in 2007, according to Dr. Hanna, but EVALI was not widely recognized until cases began accruing early in 2019. By June 2019, the growing number of case reports had attracted the attention of the media as well as public health officials, intensifying the effort to isolate the risks and causes.
Consistent with greater use of e-cigarettes and vaping among younger individuals, nearly 80% of the 2,807 patients hospitalized for EVALI in the United States by February of this year occurred in individuals aged less than 35 years, according to data released by the Centers for Disease Control and Prevention. The median age was less than 25 years. Of these hospitalizations, 68 deaths (2.5%) in 29 states and Washington, D.C., were attributed to EVALI.
Because of the nonspecific symptoms and lack of a definitive diagnostic test, EVALI is considered a diagnosis of exclusion, according to Abigail Musial, MD, who is completing a fellowship in hospital medicine at Cincinnati Children’s. She presented a case in which a patient suspected of EVALI went home after symptoms abated on steroids.
“Less than 24 hours later, she returned to the ED with tachypnea and hypoxemia,” Dr. Musial recounted. Although a chest x-ray at the initial evaluation showed lung opacities, a repeat chest x-ray when she returned to the ED showed bilateral worsening of these opacities and persistent elevation of inflammatory markers.
“She was started on steroids and also on antibiotics,” Dr. Musial said. “She was weaned quickly from oxygen once the steroids were started and was discharged on hospital day 3.”
For patients suspected of EVALI, COVID-19 testing should be part of the work-up, according to Dr. Kuchipudi. She also recommended an x-ray or CT scan of the lung as well as an evaluation of inflammatory markers.
Dr. Kuchipudi said that more invasive studies than lung function tests, such as bronchoalveolar lavage or lung biopsy, might be considered when severe symptoms make aggressive diagnostic studies attractive.
Steroids and antibiotics typically lead to control of acute symptoms, but patients should be clinically stable for 24-48 hours prior to hospital discharge, according to Dr. Kuchipudi. Follow-up after discharge should include lung function tests and imaging 2-4 weeks later to confirm resolution of abnormalities.
Dr. Kuchipudi stressed the opportunity that an episode of EVALI provides to induce patients to give up nicotine and vaping entirely. Such strategies, such as a nicotine patch, deserve consideration, but she also cautioned that e-cigarettes for smoking cessation should not be recommended to EVALI patients.
The speakers reported no potential conflicts of interest relevant to this study.
FROM PHM20