Articles

Most children who tested positive for SARS-CoV-2 had no respiratory illness, according to data from a retrospective study of 22 patients at a single center.

Fuse/thinkstockphotos.com

To date, children account for less than 5% of COVID-19 cases in the United States, but details of the clinical presentations in children are limited, wrote Rabia Agha, MD, and colleagues of Maimonides Children’s Hospital, Brooklyn, N.Y.

In a study published in Hospital Pediatrics, the researchers reviewed data from 22 children aged 0-18 years who tested positive for SARS-CoV-2 by polymerase chain reaction (PCR) and were admitted to a single hospital over a 4-week period from March 18, 2020, to April 15, 2020.

Overall, 9 patients (41%) presented with a respiratory illness, and 7 (32%) required respiratory support. Of four patients requiring mechanical ventilation, two had underlying pulmonary disease. The other two patients who required intubation were one with cerebral palsy and status epilepticus and one who presented in a state of cardiac arrest.

The study population ranged from 11 days to 18 years of age, but 45% were infants younger than 1 year. None of the children had a travel history that might increase their risk for SARS-CoV-2 infection; 27% had confirmed exposure to the virus.

Most of the children (82%) were hospitalized within 3 days of the onset of symptoms, and no deaths occurred during the study period. The most common symptom was fever without a source in five (23%) otherwise healthy infants aged 11-35 days. All five of these children underwent a sepsis evaluation, received empiric antibiotics, and were discharged home with negative bacterial cultures within 48-72 hours. Another 10 children had fever in combination with other symptoms.

Other presenting symptoms were respiratory (9), fatigue (6), seizures (2), and headache (1).

Most children with respiratory illness were treated with supportive therapy and antibiotics, but three of those on mechanical ventilation also were treated with remdesivir; all three were ultimately extubated.

Neurological abnormalities occurred in two patients: an 11-year-old otherwise healthy boy who presented with fever, headache, confusion, and seizure but ultimately improved without short-term sequelae; and a 12-year-old girl with cerebral palsy who developed new onset seizures and required mechanical ventilation, but ultimately improved to baseline.

Positive PCR results were identified in seven patients (32%) during the second half of the study period who were initially hospitalized for non-COVID related symptoms; four with bacterial infections, two with illnesses of unknown etiology, and one with cardiac arrest. Another two children were completely asymptomatic at the time of admission but then tested positive by PCR; one child had been admitted for routine chemotherapy and the other for social reasons, Dr. Agha and associates said.

The study findings contrast with early data from China in which respiratory illness of varying severity was the major presentation in children with COVID-19, but support a more recent meta-analysis of 551 cases, the researchers noted. The findings also highlight the value of universal testing for children.

“Our initial testing strategy was according to the federal and local guidelines that recommended PCR testing for the symptoms of fever, cough and shortness of breath, or travel to certain countries or close contact with a confirmed case,” Dr. Agha and colleagues said.

“With the implementation of our universal screening strategy of all admitted pediatric patients, we identified 9 (41%) patients with COVID-19 that would have been missed, as they did not meet the then-recommended criteria for testing,” they wrote.

The results suggest the need for broader guidelines to test pediatric patients because children presenting with other illnesses may be positive for SARS-CoV-2 as well, the researchers said.

“Testing of all hospitalized patients will not only identify cases early in the course of their admission process, but will also help prevent inadvertent exposure of other patients and health care workers, assist in cohorting infected patients, and aid in conservation of personal protective equipment,” Dr. Agha and associates concluded.

The current study is important as clinicians continue to learn about how infection with SARS-CoV-2 presents in different populations, Diana Lee, MD, of the Icahn School of Medicine at Mount Sinai, New York, said in an interview.

“Understanding how it can present in the pediatric population is important in identifying children who may have the infection and developing strategies for testing,” she said.

“I was not surprised by the finding that most children did not present with the classic symptoms of COVID-19 in adults based on other published studies and my personal clinical experience taking care of hospitalized children in New York City,” said Dr. Lee. “Studies from the U.S. and other countries have reported that fewer children experience fever, cough, and shortness of breath [compared with] adults, and that most children have a milder clinical course, though there is a small percentage of children who can have severe or critical illness,” she said.

“A multisystem inflammatory syndrome in children associated with COVID-19 has also emerged and appears to be a postinfectious process with a presentation that often differs from classic COVID-19 infection in adults,” she added.

The take-home message for clinicians is the reminder that SARS-CoV-2 infection often presents differently in children than in adults, said Dr. Lee.

“Children who present to the hospital with non-classic COVID-19 symptoms or with other diagnoses may be positive for SARS-CoV-2 on testing. Broadly testing hospitalized children for SARS-CoV-2 and instituting appropriate isolation precautions may help to protect other individuals from being exposed to the virus,” she said.  

“Further research is needed to understand which individuals are contagious and how to accurately distinguish those who are infectious versus those who are not,” said Dr. Lee. “There have been individuals who persistently test positive for SARS-CoV-2 RNA (the genetic material of the virus), but were not found to have virus in their bodies that can replicate and thereby infect others,” she emphasized. “Further study is needed regarding the likelihood of household exposures in children with SARS-CoV-2 infection given that this study was done early in the epidemic in New York City when testing and contact tracing was less established,” she said.

The study received no outside funding. The researchers had no financial conflicts to disclose. Dr. Lee had no financial conflicts to disclose.

SOURCE: Agha R et al. Hosp Pediatr. 2020 July. doi: 10.1542/hpeds.2020-000257.

Most children who tested positive for SARS-CoV-2 had no respiratory illness, according to data from a retrospective study of 22 patients at a single center.

Fuse/thinkstockphotos.com

To date, children account for less than 5% of COVID-19 cases in the United States, but details of the clinical presentations in children are limited, wrote Rabia Agha, MD, and colleagues of Maimonides Children’s Hospital, Brooklyn, N.Y.

In a study published in Hospital Pediatrics, the researchers reviewed data from 22 children aged 0-18 years who tested positive for SARS-CoV-2 by polymerase chain reaction (PCR) and were admitted to a single hospital over a 4-week period from March 18, 2020, to April 15, 2020.

Overall, 9 patients (41%) presented with a respiratory illness, and 7 (32%) required respiratory support. Of four patients requiring mechanical ventilation, two had underlying pulmonary disease. The other two patients who required intubation were one with cerebral palsy and status epilepticus and one who presented in a state of cardiac arrest.

The study population ranged from 11 days to 18 years of age, but 45% were infants younger than 1 year. None of the children had a travel history that might increase their risk for SARS-CoV-2 infection; 27% had confirmed exposure to the virus.

Most of the children (82%) were hospitalized within 3 days of the onset of symptoms, and no deaths occurred during the study period. The most common symptom was fever without a source in five (23%) otherwise healthy infants aged 11-35 days. All five of these children underwent a sepsis evaluation, received empiric antibiotics, and were discharged home with negative bacterial cultures within 48-72 hours. Another 10 children had fever in combination with other symptoms.

Other presenting symptoms were respiratory (9), fatigue (6), seizures (2), and headache (1).

Most children with respiratory illness were treated with supportive therapy and antibiotics, but three of those on mechanical ventilation also were treated with remdesivir; all three were ultimately extubated.

Neurological abnormalities occurred in two patients: an 11-year-old otherwise healthy boy who presented with fever, headache, confusion, and seizure but ultimately improved without short-term sequelae; and a 12-year-old girl with cerebral palsy who developed new onset seizures and required mechanical ventilation, but ultimately improved to baseline.

Positive PCR results were identified in seven patients (32%) during the second half of the study period who were initially hospitalized for non-COVID related symptoms; four with bacterial infections, two with illnesses of unknown etiology, and one with cardiac arrest. Another two children were completely asymptomatic at the time of admission but then tested positive by PCR; one child had been admitted for routine chemotherapy and the other for social reasons, Dr. Agha and associates said.

The study findings contrast with early data from China in which respiratory illness of varying severity was the major presentation in children with COVID-19, but support a more recent meta-analysis of 551 cases, the researchers noted. The findings also highlight the value of universal testing for children.

“Our initial testing strategy was according to the federal and local guidelines that recommended PCR testing for the symptoms of fever, cough and shortness of breath, or travel to certain countries or close contact with a confirmed case,” Dr. Agha and colleagues said.

“With the implementation of our universal screening strategy of all admitted pediatric patients, we identified 9 (41%) patients with COVID-19 that would have been missed, as they did not meet the then-recommended criteria for testing,” they wrote.

The results suggest the need for broader guidelines to test pediatric patients because children presenting with other illnesses may be positive for SARS-CoV-2 as well, the researchers said.

“Testing of all hospitalized patients will not only identify cases early in the course of their admission process, but will also help prevent inadvertent exposure of other patients and health care workers, assist in cohorting infected patients, and aid in conservation of personal protective equipment,” Dr. Agha and associates concluded.

The current study is important as clinicians continue to learn about how infection with SARS-CoV-2 presents in different populations, Diana Lee, MD, of the Icahn School of Medicine at Mount Sinai, New York, said in an interview.

“Understanding how it can present in the pediatric population is important in identifying children who may have the infection and developing strategies for testing,” she said.

“I was not surprised by the finding that most children did not present with the classic symptoms of COVID-19 in adults based on other published studies and my personal clinical experience taking care of hospitalized children in New York City,” said Dr. Lee. “Studies from the U.S. and other countries have reported that fewer children experience fever, cough, and shortness of breath [compared with] adults, and that most children have a milder clinical course, though there is a small percentage of children who can have severe or critical illness,” she said.

“A multisystem inflammatory syndrome in children associated with COVID-19 has also emerged and appears to be a postinfectious process with a presentation that often differs from classic COVID-19 infection in adults,” she added.

The take-home message for clinicians is the reminder that SARS-CoV-2 infection often presents differently in children than in adults, said Dr. Lee.

“Children who present to the hospital with non-classic COVID-19 symptoms or with other diagnoses may be positive for SARS-CoV-2 on testing. Broadly testing hospitalized children for SARS-CoV-2 and instituting appropriate isolation precautions may help to protect other individuals from being exposed to the virus,” she said.  

“Further research is needed to understand which individuals are contagious and how to accurately distinguish those who are infectious versus those who are not,” said Dr. Lee. “There have been individuals who persistently test positive for SARS-CoV-2 RNA (the genetic material of the virus), but were not found to have virus in their bodies that can replicate and thereby infect others,” she emphasized. “Further study is needed regarding the likelihood of household exposures in children with SARS-CoV-2 infection given that this study was done early in the epidemic in New York City when testing and contact tracing was less established,” she said.

The study received no outside funding. The researchers had no financial conflicts to disclose. Dr. Lee had no financial conflicts to disclose.

SOURCE: Agha R et al. Hosp Pediatr. 2020 July. doi: 10.1542/hpeds.2020-000257.

Most children who tested positive for SARS-CoV-2 had no respiratory illness, according to data from a retrospective study of 22 patients at a single center.

Fuse/thinkstockphotos.com

To date, children account for less than 5% of COVID-19 cases in the United States, but details of the clinical presentations in children are limited, wrote Rabia Agha, MD, and colleagues of Maimonides Children’s Hospital, Brooklyn, N.Y.

In a study published in Hospital Pediatrics, the researchers reviewed data from 22 children aged 0-18 years who tested positive for SARS-CoV-2 by polymerase chain reaction (PCR) and were admitted to a single hospital over a 4-week period from March 18, 2020, to April 15, 2020.

Overall, 9 patients (41%) presented with a respiratory illness, and 7 (32%) required respiratory support. Of four patients requiring mechanical ventilation, two had underlying pulmonary disease. The other two patients who required intubation were one with cerebral palsy and status epilepticus and one who presented in a state of cardiac arrest.

The study population ranged from 11 days to 18 years of age, but 45% were infants younger than 1 year. None of the children had a travel history that might increase their risk for SARS-CoV-2 infection; 27% had confirmed exposure to the virus.

Most of the children (82%) were hospitalized within 3 days of the onset of symptoms, and no deaths occurred during the study period. The most common symptom was fever without a source in five (23%) otherwise healthy infants aged 11-35 days. All five of these children underwent a sepsis evaluation, received empiric antibiotics, and were discharged home with negative bacterial cultures within 48-72 hours. Another 10 children had fever in combination with other symptoms.

Other presenting symptoms were respiratory (9), fatigue (6), seizures (2), and headache (1).

Most children with respiratory illness were treated with supportive therapy and antibiotics, but three of those on mechanical ventilation also were treated with remdesivir; all three were ultimately extubated.

Neurological abnormalities occurred in two patients: an 11-year-old otherwise healthy boy who presented with fever, headache, confusion, and seizure but ultimately improved without short-term sequelae; and a 12-year-old girl with cerebral palsy who developed new onset seizures and required mechanical ventilation, but ultimately improved to baseline.

Positive PCR results were identified in seven patients (32%) during the second half of the study period who were initially hospitalized for non-COVID related symptoms; four with bacterial infections, two with illnesses of unknown etiology, and one with cardiac arrest. Another two children were completely asymptomatic at the time of admission but then tested positive by PCR; one child had been admitted for routine chemotherapy and the other for social reasons, Dr. Agha and associates said.

The study findings contrast with early data from China in which respiratory illness of varying severity was the major presentation in children with COVID-19, but support a more recent meta-analysis of 551 cases, the researchers noted. The findings also highlight the value of universal testing for children.

“Our initial testing strategy was according to the federal and local guidelines that recommended PCR testing for the symptoms of fever, cough and shortness of breath, or travel to certain countries or close contact with a confirmed case,” Dr. Agha and colleagues said.

“With the implementation of our universal screening strategy of all admitted pediatric patients, we identified 9 (41%) patients with COVID-19 that would have been missed, as they did not meet the then-recommended criteria for testing,” they wrote.

The results suggest the need for broader guidelines to test pediatric patients because children presenting with other illnesses may be positive for SARS-CoV-2 as well, the researchers said.

“Testing of all hospitalized patients will not only identify cases early in the course of their admission process, but will also help prevent inadvertent exposure of other patients and health care workers, assist in cohorting infected patients, and aid in conservation of personal protective equipment,” Dr. Agha and associates concluded.

The current study is important as clinicians continue to learn about how infection with SARS-CoV-2 presents in different populations, Diana Lee, MD, of the Icahn School of Medicine at Mount Sinai, New York, said in an interview.

“Understanding how it can present in the pediatric population is important in identifying children who may have the infection and developing strategies for testing,” she said.

“I was not surprised by the finding that most children did not present with the classic symptoms of COVID-19 in adults based on other published studies and my personal clinical experience taking care of hospitalized children in New York City,” said Dr. Lee. “Studies from the U.S. and other countries have reported that fewer children experience fever, cough, and shortness of breath [compared with] adults, and that most children have a milder clinical course, though there is a small percentage of children who can have severe or critical illness,” she said.

“A multisystem inflammatory syndrome in children associated with COVID-19 has also emerged and appears to be a postinfectious process with a presentation that often differs from classic COVID-19 infection in adults,” she added.

The take-home message for clinicians is the reminder that SARS-CoV-2 infection often presents differently in children than in adults, said Dr. Lee.

“Children who present to the hospital with non-classic COVID-19 symptoms or with other diagnoses may be positive for SARS-CoV-2 on testing. Broadly testing hospitalized children for SARS-CoV-2 and instituting appropriate isolation precautions may help to protect other individuals from being exposed to the virus,” she said.  

“Further research is needed to understand which individuals are contagious and how to accurately distinguish those who are infectious versus those who are not,” said Dr. Lee. “There have been individuals who persistently test positive for SARS-CoV-2 RNA (the genetic material of the virus), but were not found to have virus in their bodies that can replicate and thereby infect others,” she emphasized. “Further study is needed regarding the likelihood of household exposures in children with SARS-CoV-2 infection given that this study was done early in the epidemic in New York City when testing and contact tracing was less established,” she said.

The study received no outside funding. The researchers had no financial conflicts to disclose. Dr. Lee had no financial conflicts to disclose.

SOURCE: Agha R et al. Hosp Pediatr. 2020 July. doi: 10.1542/hpeds.2020-000257.

Belatedly, the disproportionate impact of COVID-19 on patients of color is getting attention. By now, we’ve read the headlines. Black people in the United States make up about 13% of the population but account for almost three times (34%) as many deaths. This story repeats – in other countries and in other minority communities.

Early detection is critical both to initiate supportive care and to isolate affected individuals and limit spread. Skin manifestations of COVID-19, especially those that occur early in the disease (eg, vesicular eruptions) or have prognostic significance (livedo, retiform purpura, necrosis), are critical to this goal of early recognition.

In this context, a recent systematic literature review looked at all articles describing skin manifestations associated with COVID-19. The investigators identified 46 articles published between March and May 2020 which included a total of 130 clinical images.

The following findings from this study are striking:

• 92% of the published images of COVID-associated skin manifestations were in I-III.
• Only 6% of COVID skin lesions included in the articles were in patients with skin type IV.
• None showed COVID skin lesions in skin types V or VI.
• Only six of the articles reported race and ethnicity demographics. In those, 91% of the patients were White and 9% were Hispanic.

These results reveal a critical lack of representative clinical images of COVID-associated skin manifestations in patients of color. This deficiency is made all the more egregious given the fact that patients of color, including those who are Black, Latinx, and Native American, have been especially hard hit by the COVID-19 pandemic and suffer disproportionate disease-related morbidity and mortality.
 

As the study authors point out, skin manifestations in people of color often differ significantly from findings in White skin (for example, look at the figure depicting the rash typical of Kawasaki disease in a dark-skinned child compared with a light-skinned child). It is not a stretch to suggest that skin manifestations associated with COVID-19 may look very different in darker skin.

These investigators have identified a damning lack of images of COVID-19–associated skin manifestations in patients with darker skin. This isn’t a new phenomenon. Almost half of dermatologists feel that they’ve had insufficient exposure to skin disease in darker skin types. Skin of color remains underrepresented in medical journals.

Like other forms of passive, institutional racism, this deficiency will only be improved if dermatologists and dermatology publications actively seek out COVID-associated skin manifestations in patients of color and prioritize sharing these images. A medical student in the United Kingdom has gotten the ball rolling, compiling a handbook of clinical signs in darker skin types as part of a student-staff partnership at St. George’s Hospital and the University of London. At this time, Mind the Gap is looking for a publisher.

Dr. Lipper is an assistant clinical professor at the University of Vermont, Burlington, and a staff physician in the department of dermatology at Danbury (Conn.) Hospital. He has disclosed no relevant financial relationships.
 

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

Belatedly, the disproportionate impact of COVID-19 on patients of color is getting attention. By now, we’ve read the headlines. Black people in the United States make up about 13% of the population but account for almost three times (34%) as many deaths. This story repeats – in other countries and in other minority communities.

Early detection is critical both to initiate supportive care and to isolate affected individuals and limit spread. Skin manifestations of COVID-19, especially those that occur early in the disease (eg, vesicular eruptions) or have prognostic significance (livedo, retiform purpura, necrosis), are critical to this goal of early recognition.

In this context, a recent systematic literature review looked at all articles describing skin manifestations associated with COVID-19. The investigators identified 46 articles published between March and May 2020 which included a total of 130 clinical images.

The following findings from this study are striking:

• 92% of the published images of COVID-associated skin manifestations were in I-III.
• Only 6% of COVID skin lesions included in the articles were in patients with skin type IV.
• None showed COVID skin lesions in skin types V or VI.
• Only six of the articles reported race and ethnicity demographics. In those, 91% of the patients were White and 9% were Hispanic.

These results reveal a critical lack of representative clinical images of COVID-associated skin manifestations in patients of color. This deficiency is made all the more egregious given the fact that patients of color, including those who are Black, Latinx, and Native American, have been especially hard hit by the COVID-19 pandemic and suffer disproportionate disease-related morbidity and mortality.
 

As the study authors point out, skin manifestations in people of color often differ significantly from findings in White skin (for example, look at the figure depicting the rash typical of Kawasaki disease in a dark-skinned child compared with a light-skinned child). It is not a stretch to suggest that skin manifestations associated with COVID-19 may look very different in darker skin.

These investigators have identified a damning lack of images of COVID-19–associated skin manifestations in patients with darker skin. This isn’t a new phenomenon. Almost half of dermatologists feel that they’ve had insufficient exposure to skin disease in darker skin types. Skin of color remains underrepresented in medical journals.

Like other forms of passive, institutional racism, this deficiency will only be improved if dermatologists and dermatology publications actively seek out COVID-associated skin manifestations in patients of color and prioritize sharing these images. A medical student in the United Kingdom has gotten the ball rolling, compiling a handbook of clinical signs in darker skin types as part of a student-staff partnership at St. George’s Hospital and the University of London. At this time, Mind the Gap is looking for a publisher.

Dr. Lipper is an assistant clinical professor at the University of Vermont, Burlington, and a staff physician in the department of dermatology at Danbury (Conn.) Hospital. He has disclosed no relevant financial relationships.
 

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

Belatedly, the disproportionate impact of COVID-19 on patients of color is getting attention. By now, we’ve read the headlines. Black people in the United States make up about 13% of the population but account for almost three times (34%) as many deaths. This story repeats – in other countries and in other minority communities.

Early detection is critical both to initiate supportive care and to isolate affected individuals and limit spread. Skin manifestations of COVID-19, especially those that occur early in the disease (eg, vesicular eruptions) or have prognostic significance (livedo, retiform purpura, necrosis), are critical to this goal of early recognition.

In this context, a recent systematic literature review looked at all articles describing skin manifestations associated with COVID-19. The investigators identified 46 articles published between March and May 2020 which included a total of 130 clinical images.

The following findings from this study are striking:

• 92% of the published images of COVID-associated skin manifestations were in I-III.
• Only 6% of COVID skin lesions included in the articles were in patients with skin type IV.
• None showed COVID skin lesions in skin types V or VI.
• Only six of the articles reported race and ethnicity demographics. In those, 91% of the patients were White and 9% were Hispanic.

These results reveal a critical lack of representative clinical images of COVID-associated skin manifestations in patients of color. This deficiency is made all the more egregious given the fact that patients of color, including those who are Black, Latinx, and Native American, have been especially hard hit by the COVID-19 pandemic and suffer disproportionate disease-related morbidity and mortality.
 

As the study authors point out, skin manifestations in people of color often differ significantly from findings in White skin (for example, look at the figure depicting the rash typical of Kawasaki disease in a dark-skinned child compared with a light-skinned child). It is not a stretch to suggest that skin manifestations associated with COVID-19 may look very different in darker skin.

These investigators have identified a damning lack of images of COVID-19–associated skin manifestations in patients with darker skin. This isn’t a new phenomenon. Almost half of dermatologists feel that they’ve had insufficient exposure to skin disease in darker skin types. Skin of color remains underrepresented in medical journals.

Like other forms of passive, institutional racism, this deficiency will only be improved if dermatologists and dermatology publications actively seek out COVID-associated skin manifestations in patients of color and prioritize sharing these images. A medical student in the United Kingdom has gotten the ball rolling, compiling a handbook of clinical signs in darker skin types as part of a student-staff partnership at St. George’s Hospital and the University of London. At this time, Mind the Gap is looking for a publisher.

Dr. Lipper is an assistant clinical professor at the University of Vermont, Burlington, and a staff physician in the department of dermatology at Danbury (Conn.) Hospital. He has disclosed no relevant financial relationships.
 

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

When the pandemic was just emerging from its infancy and we were just beginning to think about social distancing, I was sitting around enjoying an adult beverage and some gluten free (not my choice) snacks with some friends. A retired nurse who had just celebrated her 80th birthday said, “I can’t wait until they’ve developed a vaccine.” A former electrical engineer sitting just short of 2 meters to her left responded, “Don’t save me a place near the front of the line for something that is being developed in a program called Warp Speed.”

Micah Young/istockphoto.com

How do you feel about the potential SARS-CoV-2 vaccine? Are you going to roll up your sleeve as soon as the vaccine becomes available in your community? What are you going to suggest to your patients, your children? I suspect many of you will answer, “It depends.” What factors will you be considering when you try to decide between what is likely to be several competing SARS-CoV-2 vaccines?

Will it make any difference to you which biochemical-immune-bending strategy is being used to make the vaccine? All of them will probably be the result of a clever sounding but novel technique, all of them with a track record that is measured in months and not years. Will you be swayed by how large the trials were? Or how long the follow-up lasted? How effective must the vaccine be to convince you that it is worth receiving or recommending? Do you have the tools and experience to make a decision like that? I know I don’t. And should you and I even be put in a position to make that decision?

In the past, you and I may have relied on the Centers for Disease Control and Prevention for advice. But given the somewhat murky and stormy relationship between the CDC and the president, the vaccine recommendation may be issued by the White House and not the CDC.

For those of us who were practicing medicine during the Swine Flu fiasco of 1976, the pace and the politics surrounding the development of a SARS-CoV-2 vaccine has a discomforting déjà vu quality about it. The fact that like this year 1976 was an election year that infused the development process with a sense of urgency above and beyond any of the concerns about the pandemic that never happened. Although causality was never proven, there was a surge in Guillain-Barré syndrome cases that had been linked temporally to the vaccine.

Of course, our pandemic is real, and it would be imprudent to wait a year or more to watch for long-term vaccine sequelae. However, I am more than a little concerned that fast tracking the development process may result in unfortunate consequences in the short term that could have been avoided with a more measured approach to trialing the vaccines.

The sad reality is that as a nation we tend to be impatient. We are drawn to quick fixes that come in a vial or a capsule. We are learning that simple measures like mask wearing and social distancing can make a difference in slowing the spread of the virus. It would be tragic to rush a vaccine into production that at best turns out to simply be an expensive alternative to the measures that we know work or at worst injures more of us than it saves.
 

Dr. Wilkoff practiced primary care pediatrics in Brunswick, Maine, for nearly 40 years. He has authored several books on behavioral pediatrics, including “How to Say No to Your Toddler.” Email him at pdnews@mdedge.com.

When the pandemic was just emerging from its infancy and we were just beginning to think about social distancing, I was sitting around enjoying an adult beverage and some gluten free (not my choice) snacks with some friends. A retired nurse who had just celebrated her 80th birthday said, “I can’t wait until they’ve developed a vaccine.” A former electrical engineer sitting just short of 2 meters to her left responded, “Don’t save me a place near the front of the line for something that is being developed in a program called Warp Speed.”

Micah Young/istockphoto.com

How do you feel about the potential SARS-CoV-2 vaccine? Are you going to roll up your sleeve as soon as the vaccine becomes available in your community? What are you going to suggest to your patients, your children? I suspect many of you will answer, “It depends.” What factors will you be considering when you try to decide between what is likely to be several competing SARS-CoV-2 vaccines?

Will it make any difference to you which biochemical-immune-bending strategy is being used to make the vaccine? All of them will probably be the result of a clever sounding but novel technique, all of them with a track record that is measured in months and not years. Will you be swayed by how large the trials were? Or how long the follow-up lasted? How effective must the vaccine be to convince you that it is worth receiving or recommending? Do you have the tools and experience to make a decision like that? I know I don’t. And should you and I even be put in a position to make that decision?

In the past, you and I may have relied on the Centers for Disease Control and Prevention for advice. But given the somewhat murky and stormy relationship between the CDC and the president, the vaccine recommendation may be issued by the White House and not the CDC.

For those of us who were practicing medicine during the Swine Flu fiasco of 1976, the pace and the politics surrounding the development of a SARS-CoV-2 vaccine has a discomforting déjà vu quality about it. The fact that like this year 1976 was an election year that infused the development process with a sense of urgency above and beyond any of the concerns about the pandemic that never happened. Although causality was never proven, there was a surge in Guillain-Barré syndrome cases that had been linked temporally to the vaccine.

Of course, our pandemic is real, and it would be imprudent to wait a year or more to watch for long-term vaccine sequelae. However, I am more than a little concerned that fast tracking the development process may result in unfortunate consequences in the short term that could have been avoided with a more measured approach to trialing the vaccines.

The sad reality is that as a nation we tend to be impatient. We are drawn to quick fixes that come in a vial or a capsule. We are learning that simple measures like mask wearing and social distancing can make a difference in slowing the spread of the virus. It would be tragic to rush a vaccine into production that at best turns out to simply be an expensive alternative to the measures that we know work or at worst injures more of us than it saves.
 

Dr. Wilkoff practiced primary care pediatrics in Brunswick, Maine, for nearly 40 years. He has authored several books on behavioral pediatrics, including “How to Say No to Your Toddler.” Email him at pdnews@mdedge.com.

When the pandemic was just emerging from its infancy and we were just beginning to think about social distancing, I was sitting around enjoying an adult beverage and some gluten free (not my choice) snacks with some friends. A retired nurse who had just celebrated her 80th birthday said, “I can’t wait until they’ve developed a vaccine.” A former electrical engineer sitting just short of 2 meters to her left responded, “Don’t save me a place near the front of the line for something that is being developed in a program called Warp Speed.”

Micah Young/istockphoto.com

How do you feel about the potential SARS-CoV-2 vaccine? Are you going to roll up your sleeve as soon as the vaccine becomes available in your community? What are you going to suggest to your patients, your children? I suspect many of you will answer, “It depends.” What factors will you be considering when you try to decide between what is likely to be several competing SARS-CoV-2 vaccines?

Will it make any difference to you which biochemical-immune-bending strategy is being used to make the vaccine? All of them will probably be the result of a clever sounding but novel technique, all of them with a track record that is measured in months and not years. Will you be swayed by how large the trials were? Or how long the follow-up lasted? How effective must the vaccine be to convince you that it is worth receiving or recommending? Do you have the tools and experience to make a decision like that? I know I don’t. And should you and I even be put in a position to make that decision?

In the past, you and I may have relied on the Centers for Disease Control and Prevention for advice. But given the somewhat murky and stormy relationship between the CDC and the president, the vaccine recommendation may be issued by the White House and not the CDC.

For those of us who were practicing medicine during the Swine Flu fiasco of 1976, the pace and the politics surrounding the development of a SARS-CoV-2 vaccine has a discomforting déjà vu quality about it. The fact that like this year 1976 was an election year that infused the development process with a sense of urgency above and beyond any of the concerns about the pandemic that never happened. Although causality was never proven, there was a surge in Guillain-Barré syndrome cases that had been linked temporally to the vaccine.

Of course, our pandemic is real, and it would be imprudent to wait a year or more to watch for long-term vaccine sequelae. However, I am more than a little concerned that fast tracking the development process may result in unfortunate consequences in the short term that could have been avoided with a more measured approach to trialing the vaccines.

The sad reality is that as a nation we tend to be impatient. We are drawn to quick fixes that come in a vial or a capsule. We are learning that simple measures like mask wearing and social distancing can make a difference in slowing the spread of the virus. It would be tragic to rush a vaccine into production that at best turns out to simply be an expensive alternative to the measures that we know work or at worst injures more of us than it saves.
 

Dr. Wilkoff practiced primary care pediatrics in Brunswick, Maine, for nearly 40 years. He has authored several books on behavioral pediatrics, including “How to Say No to Your Toddler.” Email him at pdnews@mdedge.com.

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.

A reliable profile of MIS-C is only beginning to emerge from the series of published case series, 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.

A reliable profile of MIS-C is only beginning to emerge from the series of published case series, 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.

A reliable profile of MIS-C is only beginning to emerge from the series of published case series, 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.

All infants born to a cohort of 31 COVID-19–positive mothers tested negative for the virus during the height of the New York surge, according to a study out of New York-Presbyterian Hospital.

South_agency/Getty Images

“It is suggested in the cumulative data that the virus does not confer additional risk to the fetus during labor or during the early postnatal period in both preterm and term infants,” concluded Jeffrey Perlman, MB ChB, and colleagues in Pediatrics.

But other experts suggest substantial gaps remain in our understanding of maternal transmission of SARS-CoV-2.

“Much more needs to be known,” Munish Gupta, MD, and colleagues from Beth Israel Deaconess Medical Center and Harvard Medical School, Boston, said in an accompanying editorial.

The prospective study is the first to describe a cohort of U.S. COVID-19–related deliveries, with the prior neonatal impact of COVID-19 “almost exclusively” reported from China, noted the authors. They included a cohort of 326 women who were tested for SARS-CoV-2 on admission to labor and delivery at New York-Presbyterian Hospital between March 22 and April 15th, 2020. Of the 31 (10%) mothers who tested positive, 15 (48%) were asymptomatic and 16 (52%) were symptomatic.

Two babies were born prematurely (one by Cesarean) and were isolated in negative pressure rooms with continuous positive airway pressure. Both were moved out of isolation after two negative test results and “have exhibited an unremarkable clinical course,” the authors reported.

The other 29 term babies were cared for in their mothers’ rooms, with breastfeeding allowed, if desired. These babies and their mothers were discharged from the hospital between 24 and 48 hours after delivery.

“Visitor restriction for mothers who were positive for COVID-19 included 14 days of no visitation from the start of symptoms,” noted the team.

They added “since the prepublication release there have been a total of 47 mothers positive for COVID-19, resulting in 47 infants; 4 have been admitted to neonatal intensive care. In addition, 32 other infants have been tested for a variety of indications within the unit. All infants test results have been negative.”

The brief report outlined the institution’s checklist for delivery preparedness in either the operating room or labor delivery room, including personal protective equipment, resuscitation, transportation to the neonatal intensive care unit, and early postresuscitation care. “Suspected or confirmed COVID-19 alone in an otherwise uncomplicated pregnancy is not an indication for the resuscitation team or the neonatal fellow,” they noted, adding delivery room preparation and management should include contact precautions. “With scrupulous attention to infectious precautions, horizontal viral transmission should be minimized,” they advised.

Dr. Perlman and associates emphasized that rapid turnaround SARSCoV-2 testing is “crucial to minimize the likelihood of a provider becoming infected and/or infecting the infant.”

Although the findings are “clearly reassuring,” Dr. Gupta and colleagues have reservations. “To what extent does this report address concerns for infection risk with a rooming-in approach to care?” they asked in their accompanying editorial. “The answer is likely some, but not much.”

Many questions remain, they said, including: “What precautions were used to minimize infection risk during the postbirth hospital course? What was the approach to skin-to-skin care and direct mother-newborn contact? Were restrictions placed on family members? Were changes made to routine interventions such as hearing screens or circumcisions? What practices were in place around environmental cleaning? Most important, how did the newborns do after discharge?”

The current uncertainty around neonatal COVID-19 infection risk has led to “disparate” variations in care recommendations, they pointed out. Whereas China’s consensus guidelines recommend a 14-day separation of COVID-19–positive mothers from their healthy infants, a practice supported by the American Academy of Pediatrics “when possible,” the Italian Society of Neonatology, the Royal College of Paediatrics and Child Health, and the Canadian Paediatric Society advise “rooming-in and breastfeeding with appropriate infection prevention measures.”

Dr. Gupta and colleagues pointed to the following as at least three “critical and time-sensitive needs for research around neonatal care and outcomes related to COVID-19”:

• Studies need to have much larger sample sizes and include diverse populations. This will allow for reliable measurement of outcomes.
• Descriptions of care practices must be in detail, especially about infection prevention; these should be presented in a way to compare the efficacy of different approaches.
• There needs to be follow-up information on outcomes of both the mother and the neonate after the birth hospitalization.

Asked to comment, Lillian Beard, MD, of George Washington University in Washington welcomed the data as “good news.”

SOURCE: Perlman J et al. Pediatrics. 2020;146(2):e20201567.

All infants born to a cohort of 31 COVID-19–positive mothers tested negative for the virus during the height of the New York surge, according to a study out of New York-Presbyterian Hospital.

South_agency/Getty Images

“It is suggested in the cumulative data that the virus does not confer additional risk to the fetus during labor or during the early postnatal period in both preterm and term infants,” concluded Jeffrey Perlman, MB ChB, and colleagues in Pediatrics.

But other experts suggest substantial gaps remain in our understanding of maternal transmission of SARS-CoV-2.

“Much more needs to be known,” Munish Gupta, MD, and colleagues from Beth Israel Deaconess Medical Center and Harvard Medical School, Boston, said in an accompanying editorial.

The prospective study is the first to describe a cohort of U.S. COVID-19–related deliveries, with the prior neonatal impact of COVID-19 “almost exclusively” reported from China, noted the authors. They included a cohort of 326 women who were tested for SARS-CoV-2 on admission to labor and delivery at New York-Presbyterian Hospital between March 22 and April 15th, 2020. Of the 31 (10%) mothers who tested positive, 15 (48%) were asymptomatic and 16 (52%) were symptomatic.

Two babies were born prematurely (one by Cesarean) and were isolated in negative pressure rooms with continuous positive airway pressure. Both were moved out of isolation after two negative test results and “have exhibited an unremarkable clinical course,” the authors reported.

The other 29 term babies were cared for in their mothers’ rooms, with breastfeeding allowed, if desired. These babies and their mothers were discharged from the hospital between 24 and 48 hours after delivery.

“Visitor restriction for mothers who were positive for COVID-19 included 14 days of no visitation from the start of symptoms,” noted the team.

They added “since the prepublication release there have been a total of 47 mothers positive for COVID-19, resulting in 47 infants; 4 have been admitted to neonatal intensive care. In addition, 32 other infants have been tested for a variety of indications within the unit. All infants test results have been negative.”

The brief report outlined the institution’s checklist for delivery preparedness in either the operating room or labor delivery room, including personal protective equipment, resuscitation, transportation to the neonatal intensive care unit, and early postresuscitation care. “Suspected or confirmed COVID-19 alone in an otherwise uncomplicated pregnancy is not an indication for the resuscitation team or the neonatal fellow,” they noted, adding delivery room preparation and management should include contact precautions. “With scrupulous attention to infectious precautions, horizontal viral transmission should be minimized,” they advised.

Dr. Perlman and associates emphasized that rapid turnaround SARSCoV-2 testing is “crucial to minimize the likelihood of a provider becoming infected and/or infecting the infant.”

Although the findings are “clearly reassuring,” Dr. Gupta and colleagues have reservations. “To what extent does this report address concerns for infection risk with a rooming-in approach to care?” they asked in their accompanying editorial. “The answer is likely some, but not much.”

Many questions remain, they said, including: “What precautions were used to minimize infection risk during the postbirth hospital course? What was the approach to skin-to-skin care and direct mother-newborn contact? Were restrictions placed on family members? Were changes made to routine interventions such as hearing screens or circumcisions? What practices were in place around environmental cleaning? Most important, how did the newborns do after discharge?”

The current uncertainty around neonatal COVID-19 infection risk has led to “disparate” variations in care recommendations, they pointed out. Whereas China’s consensus guidelines recommend a 14-day separation of COVID-19–positive mothers from their healthy infants, a practice supported by the American Academy of Pediatrics “when possible,” the Italian Society of Neonatology, the Royal College of Paediatrics and Child Health, and the Canadian Paediatric Society advise “rooming-in and breastfeeding with appropriate infection prevention measures.”

Dr. Gupta and colleagues pointed to the following as at least three “critical and time-sensitive needs for research around neonatal care and outcomes related to COVID-19”:

• Studies need to have much larger sample sizes and include diverse populations. This will allow for reliable measurement of outcomes.
• Descriptions of care practices must be in detail, especially about infection prevention; these should be presented in a way to compare the efficacy of different approaches.
• There needs to be follow-up information on outcomes of both the mother and the neonate after the birth hospitalization.

Asked to comment, Lillian Beard, MD, of George Washington University in Washington welcomed the data as “good news.”

SOURCE: Perlman J et al. Pediatrics. 2020;146(2):e20201567.

All infants born to a cohort of 31 COVID-19–positive mothers tested negative for the virus during the height of the New York surge, according to a study out of New York-Presbyterian Hospital.

South_agency/Getty Images

“It is suggested in the cumulative data that the virus does not confer additional risk to the fetus during labor or during the early postnatal period in both preterm and term infants,” concluded Jeffrey Perlman, MB ChB, and colleagues in Pediatrics.

But other experts suggest substantial gaps remain in our understanding of maternal transmission of SARS-CoV-2.

“Much more needs to be known,” Munish Gupta, MD, and colleagues from Beth Israel Deaconess Medical Center and Harvard Medical School, Boston, said in an accompanying editorial.

The prospective study is the first to describe a cohort of U.S. COVID-19–related deliveries, with the prior neonatal impact of COVID-19 “almost exclusively” reported from China, noted the authors. They included a cohort of 326 women who were tested for SARS-CoV-2 on admission to labor and delivery at New York-Presbyterian Hospital between March 22 and April 15th, 2020. Of the 31 (10%) mothers who tested positive, 15 (48%) were asymptomatic and 16 (52%) were symptomatic.

Two babies were born prematurely (one by Cesarean) and were isolated in negative pressure rooms with continuous positive airway pressure. Both were moved out of isolation after two negative test results and “have exhibited an unremarkable clinical course,” the authors reported.

The other 29 term babies were cared for in their mothers’ rooms, with breastfeeding allowed, if desired. These babies and their mothers were discharged from the hospital between 24 and 48 hours after delivery.

“Visitor restriction for mothers who were positive for COVID-19 included 14 days of no visitation from the start of symptoms,” noted the team.

They added “since the prepublication release there have been a total of 47 mothers positive for COVID-19, resulting in 47 infants; 4 have been admitted to neonatal intensive care. In addition, 32 other infants have been tested for a variety of indications within the unit. All infants test results have been negative.”

The brief report outlined the institution’s checklist for delivery preparedness in either the operating room or labor delivery room, including personal protective equipment, resuscitation, transportation to the neonatal intensive care unit, and early postresuscitation care. “Suspected or confirmed COVID-19 alone in an otherwise uncomplicated pregnancy is not an indication for the resuscitation team or the neonatal fellow,” they noted, adding delivery room preparation and management should include contact precautions. “With scrupulous attention to infectious precautions, horizontal viral transmission should be minimized,” they advised.

Dr. Perlman and associates emphasized that rapid turnaround SARSCoV-2 testing is “crucial to minimize the likelihood of a provider becoming infected and/or infecting the infant.”

Although the findings are “clearly reassuring,” Dr. Gupta and colleagues have reservations. “To what extent does this report address concerns for infection risk with a rooming-in approach to care?” they asked in their accompanying editorial. “The answer is likely some, but not much.”

Many questions remain, they said, including: “What precautions were used to minimize infection risk during the postbirth hospital course? What was the approach to skin-to-skin care and direct mother-newborn contact? Were restrictions placed on family members? Were changes made to routine interventions such as hearing screens or circumcisions? What practices were in place around environmental cleaning? Most important, how did the newborns do after discharge?”

The current uncertainty around neonatal COVID-19 infection risk has led to “disparate” variations in care recommendations, they pointed out. Whereas China’s consensus guidelines recommend a 14-day separation of COVID-19–positive mothers from their healthy infants, a practice supported by the American Academy of Pediatrics “when possible,” the Italian Society of Neonatology, the Royal College of Paediatrics and Child Health, and the Canadian Paediatric Society advise “rooming-in and breastfeeding with appropriate infection prevention measures.”

Dr. Gupta and colleagues pointed to the following as at least three “critical and time-sensitive needs for research around neonatal care and outcomes related to COVID-19”:

• Studies need to have much larger sample sizes and include diverse populations. This will allow for reliable measurement of outcomes.
• Descriptions of care practices must be in detail, especially about infection prevention; these should be presented in a way to compare the efficacy of different approaches.
• There needs to be follow-up information on outcomes of both the mother and the neonate after the birth hospitalization.

Asked to comment, Lillian Beard, MD, of George Washington University in Washington welcomed the data as “good news.”

SOURCE: Perlman J et al. Pediatrics. 2020;146(2):e20201567.

In early April, Maura Quinlan, MD, was working nights on the labor and delivery unit at Northwestern Medicine Prentice Women’s Hospital in Chicago. At the time, hospital policy was to test only patients with known COVID-19 symptoms for SARS-CoV-2. Women in labor wore N95 masks, but only while pushing – and practitioners didn’t always don proper protection in time.

Babies came and families rejoiced. But Dr. Quinlan looks back on those weeks with a degree of horror. “We were laboring a bunch of patients that probably had COVID,” she said, and they were doing so without proper protection.

She’s probably right. According to one study in the New England Journal of Medicine, 13.7% of 211 women who came into the labor and delivery unit at one New York City hospital between March 22 and April 2 were asymptomatic but infected, potentially putting staff and doctors at risk.

Dr. Quinlan already knew she and her fellow ob.gyns. had been walking a thin line and, upon seeing that research, her heart sank. In the middle of a pandemic, they had been racing to keep up with the reality of delivering babies. But despite their efforts to protect both practitioners and patients, some aspects slipped through the cracks. Today, every laboring patient admitted to Northwestern is now tested for the novel coronavirus.

Across the country, hospital labor and delivery wards have been working to find a careful and informed balance among multiple competing interests: the safety of their health care workers, the health of tiny and vulnerable new humans, and the stability of a birthing mother. Each hospital has been making the best decisions it can based on available data. The result is a patchwork of policies, but all of them center around rapid testing and appropriate protection.
 

Shifting recommendations

One case study of women in a New York City hospital during the height of the city’s surge found that, of seven confirmed COVID-19–positive patients, two were asymptomatic upon admission to the obstetrical service, and these same two patients ultimately required unplanned ICU admission. The women’s care prior to their positive diagnosis had exposed multiple health care workers, all of whom lacked appropriate personal protective equipment (PPE), the study authors wrote. “Further, five of seven confirmed COVID-19–positive women were afebrile on initial screen, and four did not first report a cough. In some locations where testing availability remains limited, the minimal symptoms reported for some of these cases might have been insufficient to prompt COVID-19 testing.”

As studies like this pour in, societies continue to update their recommendations accordingly. The latest guidance from the American College of Obstetricians and Gynecologists came on July 1. The group suggests testing all labor and delivery patients, particularly in high-prevalence areas. If tests are in short supply, it recommends prioritizing testing pregnant women with suspected COVID-19 and those who develop symptoms during admission.

At Northwestern, the hospital requests patients stay home and quarantine for the weeks leading up to their delivery date. Then, they rapidly test every patient who comes in for delivery and aim to have results available within a few hours.

The hospital’s 30-room labor and delivery wing remains reserved for patients who test negative. Those with positive COVID-19 results are sent to a 6-bed COVID labor and delivery unit elsewhere in the hospital. “We were lucky we had the space to do that, because smaller community hospitals wouldn’t have a separate unused unit where they could put these women,” Dr. Quinlan said.

In the COVID unit, women deliver without a support person – no partner, doula, or family member can join. Doctors and nurses wear full PPE and work only in that ward. And because some research shows that pregnant women who are asymptomatic or presymptomatic may develop symptoms quickly after starting labor with no measurable illness, Dr. Quinlan must decide on a case-by-case basis what to do, if anything at all.

Delaying an induction could allow the infection to resolve or it could result in her patient moving from presymptomatic disease to full-blown pneumonia. Accelerating labor could bring on symptoms or it could allow a mother to deliver safely and get out of the hospital as quickly as possible. “There is an advantage to having the baby now if you feel okay – even if it’s alone – and getting home,” Dr. Quinlan said.

The hospital also tests the partners of women who are COVID-19 positive. Those with negative results can take the newborn home and try to maintain distance until the mother is no longer symptomatic.

In different parts of the country, hospitals have developed different approaches. Southern California is experiencing its own surge, but at the Ronald Reagan University of California, Los Angeles, Medical Center there still haven’t been enough COVID-19 patients to warrant a separate labor and delivery unit.

At UCLA, staff swab patients when they enter the labor and delivery ward — those who test positive have specific room designations. For both COVID-19–positive patients and women who progress faster than test results can be returned, the goals are the same, said Rashmi Rao, MD, an ob.gyn. at UCLA: Deliver in the safest way possible for both mother and baby.

All women, positive or negative, must wear masks during labor – as much as they can tolerate, at least. For patients who are only mildly ill or asymptomatic, the only difference is that everyone wears protective gear. But if a patient’s oxygen levels dip, or her baby is in distress, the team moves more quickly to a cesarean delivery than they’d do with a healthy patient.

Just as hospital policies have been evolving, rules for visitors have been constantly changing too. Initially, UCLA allowed a support person to be present during delivery but had to leave immediately following. Now, each new mother is allowed one visitor for the duration of their stay. And the hospital suggests that patients who are COVID-19 positive recover in separate rooms from their babies and encourages them to maintain distance from their infants, except when breastfeeding.

“We respect and understand that this is a joyous occasion and we’re trying to keep families together as much as possible,” Dr. Rao said.
 

Care conundrums

How hospitals protect their smallest charges keeps changing too. Reports have been circulating about newborns being taken away from COVID-19-positive mothers, especially in marginalized communities. The stories have led many to worry they’d be forcibly separated from their babies. Most hospitals, however, leave it up to the woman and her doctors to decide how much separation is needed. “After delivery, it depends on how someone is feeling,” Dr. Rao said.

The American Academy of Pediatrics recommends that mothers who are COVID-19–positive pump breast milk and have a healthy caregiver use that milk, or formula, to bottle-feed the baby, with the new mother remaining 6 feet away from the child as much as she can. If that’s not possible, she should wear gloves and a mask while breastfeeding until she has been naturally afebrile for 72 hours and at least 1 week removed from the first appearance of her symptoms.

“It’s tragically hard,” said Dr. Quinlan, to keep a COVID-19–positive mother even 6 feet away from her newborn baby. “If a mother declines separation, we ask the acting pediatric team to discuss the theoretical risks and paucity of data.”

Until recently, research indicated that SARS-CoV-2 wasn’t being transmitted through the uterus from mothers to their babies. And despite a recent case study reporting transplacental transmission between a mother and her fetus in France, researchers still say that the risk of transference is low. To ensure newborn risk remains as low as possible, UCLA’s policy is to swab the baby when he/she is 24 hours old and keep watch for signs of infection: increased lethargy, difficulty waking, or gastrointestinal symptoms like vomiting.

Transmission via breast milk has also, to date, proven relatively unlikely. One study in The Lancet detected the novel coronavirus in breast milk, although it’s not clear that the virus can be passed on in the fluid, says Christina Chambers, PhD, a professor of pediatrics at the University of California, San Diego. Dr. Chambers is studying breast milk to see if the virus or antibodies to it are present. She is also investigating how infection with SARS-CoV-2 impacts women at different times in pregnancy, something that’s still an open question.

“[In] pregnant women with a deteriorating infection, the decisions are the same you would make with any delivery: Save the mom and save the baby,” Dr. Chambers said. “Beyond that, I am encouraged to see that pregnant women are prioritized to being tested,” something that will help researchers understand prevalence of disease in order to better understand whether some symptoms are more dangerous than others.

The situation is evolving so quickly that hospitals and providers are simply trying to stay abreast of the flood of new research. In the absence of definitive answers, they are using the information available and adjusting on the fly. “We are cautiously waiting for more data,” said Dr. Rao. “With the information we have we are doing the best we can to keep our patients safe. And we’re just going to keep at it.”

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

In early April, Maura Quinlan, MD, was working nights on the labor and delivery unit at Northwestern Medicine Prentice Women’s Hospital in Chicago. At the time, hospital policy was to test only patients with known COVID-19 symptoms for SARS-CoV-2. Women in labor wore N95 masks, but only while pushing – and practitioners didn’t always don proper protection in time.

Babies came and families rejoiced. But Dr. Quinlan looks back on those weeks with a degree of horror. “We were laboring a bunch of patients that probably had COVID,” she said, and they were doing so without proper protection.

She’s probably right. According to one study in the New England Journal of Medicine, 13.7% of 211 women who came into the labor and delivery unit at one New York City hospital between March 22 and April 2 were asymptomatic but infected, potentially putting staff and doctors at risk.

Dr. Quinlan already knew she and her fellow ob.gyns. had been walking a thin line and, upon seeing that research, her heart sank. In the middle of a pandemic, they had been racing to keep up with the reality of delivering babies. But despite their efforts to protect both practitioners and patients, some aspects slipped through the cracks. Today, every laboring patient admitted to Northwestern is now tested for the novel coronavirus.

Across the country, hospital labor and delivery wards have been working to find a careful and informed balance among multiple competing interests: the safety of their health care workers, the health of tiny and vulnerable new humans, and the stability of a birthing mother. Each hospital has been making the best decisions it can based on available data. The result is a patchwork of policies, but all of them center around rapid testing and appropriate protection.
 

Shifting recommendations

One case study of women in a New York City hospital during the height of the city’s surge found that, of seven confirmed COVID-19–positive patients, two were asymptomatic upon admission to the obstetrical service, and these same two patients ultimately required unplanned ICU admission. The women’s care prior to their positive diagnosis had exposed multiple health care workers, all of whom lacked appropriate personal protective equipment (PPE), the study authors wrote. “Further, five of seven confirmed COVID-19–positive women were afebrile on initial screen, and four did not first report a cough. In some locations where testing availability remains limited, the minimal symptoms reported for some of these cases might have been insufficient to prompt COVID-19 testing.”

As studies like this pour in, societies continue to update their recommendations accordingly. The latest guidance from the American College of Obstetricians and Gynecologists came on July 1. The group suggests testing all labor and delivery patients, particularly in high-prevalence areas. If tests are in short supply, it recommends prioritizing testing pregnant women with suspected COVID-19 and those who develop symptoms during admission.

At Northwestern, the hospital requests patients stay home and quarantine for the weeks leading up to their delivery date. Then, they rapidly test every patient who comes in for delivery and aim to have results available within a few hours.

The hospital’s 30-room labor and delivery wing remains reserved for patients who test negative. Those with positive COVID-19 results are sent to a 6-bed COVID labor and delivery unit elsewhere in the hospital. “We were lucky we had the space to do that, because smaller community hospitals wouldn’t have a separate unused unit where they could put these women,” Dr. Quinlan said.

In the COVID unit, women deliver without a support person – no partner, doula, or family member can join. Doctors and nurses wear full PPE and work only in that ward. And because some research shows that pregnant women who are asymptomatic or presymptomatic may develop symptoms quickly after starting labor with no measurable illness, Dr. Quinlan must decide on a case-by-case basis what to do, if anything at all.

Delaying an induction could allow the infection to resolve or it could result in her patient moving from presymptomatic disease to full-blown pneumonia. Accelerating labor could bring on symptoms or it could allow a mother to deliver safely and get out of the hospital as quickly as possible. “There is an advantage to having the baby now if you feel okay – even if it’s alone – and getting home,” Dr. Quinlan said.

The hospital also tests the partners of women who are COVID-19 positive. Those with negative results can take the newborn home and try to maintain distance until the mother is no longer symptomatic.

In different parts of the country, hospitals have developed different approaches. Southern California is experiencing its own surge, but at the Ronald Reagan University of California, Los Angeles, Medical Center there still haven’t been enough COVID-19 patients to warrant a separate labor and delivery unit.

At UCLA, staff swab patients when they enter the labor and delivery ward — those who test positive have specific room designations. For both COVID-19–positive patients and women who progress faster than test results can be returned, the goals are the same, said Rashmi Rao, MD, an ob.gyn. at UCLA: Deliver in the safest way possible for both mother and baby.

All women, positive or negative, must wear masks during labor – as much as they can tolerate, at least. For patients who are only mildly ill or asymptomatic, the only difference is that everyone wears protective gear. But if a patient’s oxygen levels dip, or her baby is in distress, the team moves more quickly to a cesarean delivery than they’d do with a healthy patient.

Just as hospital policies have been evolving, rules for visitors have been constantly changing too. Initially, UCLA allowed a support person to be present during delivery but had to leave immediately following. Now, each new mother is allowed one visitor for the duration of their stay. And the hospital suggests that patients who are COVID-19 positive recover in separate rooms from their babies and encourages them to maintain distance from their infants, except when breastfeeding.

“We respect and understand that this is a joyous occasion and we’re trying to keep families together as much as possible,” Dr. Rao said.
 

Care conundrums

How hospitals protect their smallest charges keeps changing too. Reports have been circulating about newborns being taken away from COVID-19-positive mothers, especially in marginalized communities. The stories have led many to worry they’d be forcibly separated from their babies. Most hospitals, however, leave it up to the woman and her doctors to decide how much separation is needed. “After delivery, it depends on how someone is feeling,” Dr. Rao said.

The American Academy of Pediatrics recommends that mothers who are COVID-19–positive pump breast milk and have a healthy caregiver use that milk, or formula, to bottle-feed the baby, with the new mother remaining 6 feet away from the child as much as she can. If that’s not possible, she should wear gloves and a mask while breastfeeding until she has been naturally afebrile for 72 hours and at least 1 week removed from the first appearance of her symptoms.

“It’s tragically hard,” said Dr. Quinlan, to keep a COVID-19–positive mother even 6 feet away from her newborn baby. “If a mother declines separation, we ask the acting pediatric team to discuss the theoretical risks and paucity of data.”

Until recently, research indicated that SARS-CoV-2 wasn’t being transmitted through the uterus from mothers to their babies. And despite a recent case study reporting transplacental transmission between a mother and her fetus in France, researchers still say that the risk of transference is low. To ensure newborn risk remains as low as possible, UCLA’s policy is to swab the baby when he/she is 24 hours old and keep watch for signs of infection: increased lethargy, difficulty waking, or gastrointestinal symptoms like vomiting.

Transmission via breast milk has also, to date, proven relatively unlikely. One study in The Lancet detected the novel coronavirus in breast milk, although it’s not clear that the virus can be passed on in the fluid, says Christina Chambers, PhD, a professor of pediatrics at the University of California, San Diego. Dr. Chambers is studying breast milk to see if the virus or antibodies to it are present. She is also investigating how infection with SARS-CoV-2 impacts women at different times in pregnancy, something that’s still an open question.

“[In] pregnant women with a deteriorating infection, the decisions are the same you would make with any delivery: Save the mom and save the baby,” Dr. Chambers said. “Beyond that, I am encouraged to see that pregnant women are prioritized to being tested,” something that will help researchers understand prevalence of disease in order to better understand whether some symptoms are more dangerous than others.

The situation is evolving so quickly that hospitals and providers are simply trying to stay abreast of the flood of new research. In the absence of definitive answers, they are using the information available and adjusting on the fly. “We are cautiously waiting for more data,” said Dr. Rao. “With the information we have we are doing the best we can to keep our patients safe. And we’re just going to keep at it.”

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

In early April, Maura Quinlan, MD, was working nights on the labor and delivery unit at Northwestern Medicine Prentice Women’s Hospital in Chicago. At the time, hospital policy was to test only patients with known COVID-19 symptoms for SARS-CoV-2. Women in labor wore N95 masks, but only while pushing – and practitioners didn’t always don proper protection in time.

Babies came and families rejoiced. But Dr. Quinlan looks back on those weeks with a degree of horror. “We were laboring a bunch of patients that probably had COVID,” she said, and they were doing so without proper protection.

She’s probably right. According to one study in the New England Journal of Medicine, 13.7% of 211 women who came into the labor and delivery unit at one New York City hospital between March 22 and April 2 were asymptomatic but infected, potentially putting staff and doctors at risk.

Dr. Quinlan already knew she and her fellow ob.gyns. had been walking a thin line and, upon seeing that research, her heart sank. In the middle of a pandemic, they had been racing to keep up with the reality of delivering babies. But despite their efforts to protect both practitioners and patients, some aspects slipped through the cracks. Today, every laboring patient admitted to Northwestern is now tested for the novel coronavirus.

Across the country, hospital labor and delivery wards have been working to find a careful and informed balance among multiple competing interests: the safety of their health care workers, the health of tiny and vulnerable new humans, and the stability of a birthing mother. Each hospital has been making the best decisions it can based on available data. The result is a patchwork of policies, but all of them center around rapid testing and appropriate protection.
 

Shifting recommendations

One case study of women in a New York City hospital during the height of the city’s surge found that, of seven confirmed COVID-19–positive patients, two were asymptomatic upon admission to the obstetrical service, and these same two patients ultimately required unplanned ICU admission. The women’s care prior to their positive diagnosis had exposed multiple health care workers, all of whom lacked appropriate personal protective equipment (PPE), the study authors wrote. “Further, five of seven confirmed COVID-19–positive women were afebrile on initial screen, and four did not first report a cough. In some locations where testing availability remains limited, the minimal symptoms reported for some of these cases might have been insufficient to prompt COVID-19 testing.”

As studies like this pour in, societies continue to update their recommendations accordingly. The latest guidance from the American College of Obstetricians and Gynecologists came on July 1. The group suggests testing all labor and delivery patients, particularly in high-prevalence areas. If tests are in short supply, it recommends prioritizing testing pregnant women with suspected COVID-19 and those who develop symptoms during admission.

At Northwestern, the hospital requests patients stay home and quarantine for the weeks leading up to their delivery date. Then, they rapidly test every patient who comes in for delivery and aim to have results available within a few hours.

The hospital’s 30-room labor and delivery wing remains reserved for patients who test negative. Those with positive COVID-19 results are sent to a 6-bed COVID labor and delivery unit elsewhere in the hospital. “We were lucky we had the space to do that, because smaller community hospitals wouldn’t have a separate unused unit where they could put these women,” Dr. Quinlan said.

In the COVID unit, women deliver without a support person – no partner, doula, or family member can join. Doctors and nurses wear full PPE and work only in that ward. And because some research shows that pregnant women who are asymptomatic or presymptomatic may develop symptoms quickly after starting labor with no measurable illness, Dr. Quinlan must decide on a case-by-case basis what to do, if anything at all.

Delaying an induction could allow the infection to resolve or it could result in her patient moving from presymptomatic disease to full-blown pneumonia. Accelerating labor could bring on symptoms or it could allow a mother to deliver safely and get out of the hospital as quickly as possible. “There is an advantage to having the baby now if you feel okay – even if it’s alone – and getting home,” Dr. Quinlan said.

The hospital also tests the partners of women who are COVID-19 positive. Those with negative results can take the newborn home and try to maintain distance until the mother is no longer symptomatic.

In different parts of the country, hospitals have developed different approaches. Southern California is experiencing its own surge, but at the Ronald Reagan University of California, Los Angeles, Medical Center there still haven’t been enough COVID-19 patients to warrant a separate labor and delivery unit.

At UCLA, staff swab patients when they enter the labor and delivery ward — those who test positive have specific room designations. For both COVID-19–positive patients and women who progress faster than test results can be returned, the goals are the same, said Rashmi Rao, MD, an ob.gyn. at UCLA: Deliver in the safest way possible for both mother and baby.

All women, positive or negative, must wear masks during labor – as much as they can tolerate, at least. For patients who are only mildly ill or asymptomatic, the only difference is that everyone wears protective gear. But if a patient’s oxygen levels dip, or her baby is in distress, the team moves more quickly to a cesarean delivery than they’d do with a healthy patient.

Just as hospital policies have been evolving, rules for visitors have been constantly changing too. Initially, UCLA allowed a support person to be present during delivery but had to leave immediately following. Now, each new mother is allowed one visitor for the duration of their stay. And the hospital suggests that patients who are COVID-19 positive recover in separate rooms from their babies and encourages them to maintain distance from their infants, except when breastfeeding.

“We respect and understand that this is a joyous occasion and we’re trying to keep families together as much as possible,” Dr. Rao said.
 

Care conundrums

How hospitals protect their smallest charges keeps changing too. Reports have been circulating about newborns being taken away from COVID-19-positive mothers, especially in marginalized communities. The stories have led many to worry they’d be forcibly separated from their babies. Most hospitals, however, leave it up to the woman and her doctors to decide how much separation is needed. “After delivery, it depends on how someone is feeling,” Dr. Rao said.

The American Academy of Pediatrics recommends that mothers who are COVID-19–positive pump breast milk and have a healthy caregiver use that milk, or formula, to bottle-feed the baby, with the new mother remaining 6 feet away from the child as much as she can. If that’s not possible, she should wear gloves and a mask while breastfeeding until she has been naturally afebrile for 72 hours and at least 1 week removed from the first appearance of her symptoms.

“It’s tragically hard,” said Dr. Quinlan, to keep a COVID-19–positive mother even 6 feet away from her newborn baby. “If a mother declines separation, we ask the acting pediatric team to discuss the theoretical risks and paucity of data.”

Until recently, research indicated that SARS-CoV-2 wasn’t being transmitted through the uterus from mothers to their babies. And despite a recent case study reporting transplacental transmission between a mother and her fetus in France, researchers still say that the risk of transference is low. To ensure newborn risk remains as low as possible, UCLA’s policy is to swab the baby when he/she is 24 hours old and keep watch for signs of infection: increased lethargy, difficulty waking, or gastrointestinal symptoms like vomiting.

Transmission via breast milk has also, to date, proven relatively unlikely. One study in The Lancet detected the novel coronavirus in breast milk, although it’s not clear that the virus can be passed on in the fluid, says Christina Chambers, PhD, a professor of pediatrics at the University of California, San Diego. Dr. Chambers is studying breast milk to see if the virus or antibodies to it are present. She is also investigating how infection with SARS-CoV-2 impacts women at different times in pregnancy, something that’s still an open question.

“[In] pregnant women with a deteriorating infection, the decisions are the same you would make with any delivery: Save the mom and save the baby,” Dr. Chambers said. “Beyond that, I am encouraged to see that pregnant women are prioritized to being tested,” something that will help researchers understand prevalence of disease in order to better understand whether some symptoms are more dangerous than others.

The situation is evolving so quickly that hospitals and providers are simply trying to stay abreast of the flood of new research. In the absence of definitive answers, they are using the information available and adjusting on the fly. “We are cautiously waiting for more data,” said Dr. Rao. “With the information we have we are doing the best we can to keep our patients safe. And we’re just going to keep at it.”

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

As more and more reopened medical practices ramp up toward normal activity, the safety of patients and health care workers alike remains paramount. As always, the responsibility for enforcing all the new safety guidelines ultimately rests with the Occupational Health and Safety Administration (OSHA).

Most of the modified guidelines are already familiar: wear masks (and other personal protective equipment as necessary); maintain social distancing; have hand cleaner, soap, and water readily available; and sanitize between patient examinations.

It is also important to remember that COVID-19 is now a reportable disease; check with your local health authorities as to where and how. Also remember that, if you decide to screen employees and/or patients for fevers and other symptoms of COVID-19, those data are subject to HIPAA rules and must be kept confidential.

Now might be a good time to confirm that you remain in compliance with both the new and old regulations. Even if you hold regular safety meetings – which often is not the case – it is always a good idea to occasionally conduct a comprehensive review, which could save you a lot in fines.

So get your OSHA logs out, and walk through your office. Start by making sure you have an official OSHA poster, which enumerates employee rights and explains how to file complaints. Every office must have one posted in plain site, and is what an OSHA inspector will look for first. They are available for free at OSHA’s website or you can order one by calling 800-321-OSHA.

How long have you had your written exposure control plan for blood-borne pathogens? This plan should document your use of such protective equipment as gloves, face and eye protection, needle guards, and gowns, as well as your implementation of universal precautions. It should be updated annually to reflect changes in technology – and new threats, such as COVID-19.

Review your list of hazardous substances, which all employees have a right to know about. OSHA’s list includes alcohol, hydrogen peroxide, acetone, liquid nitrogen, and other substances that you might not consider particularly dangerous, but are classified as “hazardous.” Also remember that you’re probably using new disinfectants, which may need to be added to your list. For each substance, your employees must have access to the manufacturer-supplied Material Safety Data Sheet, which outlines the proper procedures for working with a specific material, and for handling and containing it in a spill or other emergency.

It is not necessary to adopt every new safety device as it comes on the market, but you should document which ones you are using and which ones you decide not to use – and why. For example, if you and your employees decide against buying a new safety needle because you don’t think it will improve safety, or that it will be more trouble than it is worth, you still should document how you made that decision and why you believe that your current protocol is as good or better.

All at-risk employees should be provided with hepatitis B vaccine at no cost to them. And after any exposure to dangerous pathogens – which now include COVID-19 – you also must provide and pay for appropriate medical treatment and follow-up.

Another important consideration in your review: Electrical devices and their power sources in the office. All electrically powered equipment – medical or clerical – must operate safely and should all be examined. It is particularly important to check how wall outlets are set up. Make sure each outlet has sufficient power to run the equipment plugged into it and that circuit breakers are present and functioning.

Other components of the rule include proper containment of regulated medical waste, identification of regulated-waste containers, sharps disposal boxes, and periodic employee training regarding all of these things.

Medical and dental offices are not required to keep an injury and illness log under federal OSHA regulations, which other businesses must. However, your state may have a requirement that supersedes the federal law so you should check with your state, or with your local OSHA office, regarding any such requirements.

It is important to take OSHA regulations seriously because failure to comply with them can result in stiff penalties running into many thousands of dollars.

To be certain you are complying with all the rules, you can call your local OSHA office and request an inspection. This is the easiest and cheapest way because OSHA issues no citations during voluntary inspections as long as you agree to remedy any violations they discover.
 

Dr. Eastern practices dermatology and dermatologic surgery in Belleville, N.J. He is the author of numerous articles and textbook chapters, and is a longtime monthly columnist for Dermatology News. Write to him at dermnews@mdedge.com.

As more and more reopened medical practices ramp up toward normal activity, the safety of patients and health care workers alike remains paramount. As always, the responsibility for enforcing all the new safety guidelines ultimately rests with the Occupational Health and Safety Administration (OSHA).

Most of the modified guidelines are already familiar: wear masks (and other personal protective equipment as necessary); maintain social distancing; have hand cleaner, soap, and water readily available; and sanitize between patient examinations.

It is also important to remember that COVID-19 is now a reportable disease; check with your local health authorities as to where and how. Also remember that, if you decide to screen employees and/or patients for fevers and other symptoms of COVID-19, those data are subject to HIPAA rules and must be kept confidential.

Now might be a good time to confirm that you remain in compliance with both the new and old regulations. Even if you hold regular safety meetings – which often is not the case – it is always a good idea to occasionally conduct a comprehensive review, which could save you a lot in fines.

So get your OSHA logs out, and walk through your office. Start by making sure you have an official OSHA poster, which enumerates employee rights and explains how to file complaints. Every office must have one posted in plain site, and is what an OSHA inspector will look for first. They are available for free at OSHA’s website or you can order one by calling 800-321-OSHA.

How long have you had your written exposure control plan for blood-borne pathogens? This plan should document your use of such protective equipment as gloves, face and eye protection, needle guards, and gowns, as well as your implementation of universal precautions. It should be updated annually to reflect changes in technology – and new threats, such as COVID-19.

Review your list of hazardous substances, which all employees have a right to know about. OSHA’s list includes alcohol, hydrogen peroxide, acetone, liquid nitrogen, and other substances that you might not consider particularly dangerous, but are classified as “hazardous.” Also remember that you’re probably using new disinfectants, which may need to be added to your list. For each substance, your employees must have access to the manufacturer-supplied Material Safety Data Sheet, which outlines the proper procedures for working with a specific material, and for handling and containing it in a spill or other emergency.

It is not necessary to adopt every new safety device as it comes on the market, but you should document which ones you are using and which ones you decide not to use – and why. For example, if you and your employees decide against buying a new safety needle because you don’t think it will improve safety, or that it will be more trouble than it is worth, you still should document how you made that decision and why you believe that your current protocol is as good or better.

All at-risk employees should be provided with hepatitis B vaccine at no cost to them. And after any exposure to dangerous pathogens – which now include COVID-19 – you also must provide and pay for appropriate medical treatment and follow-up.

Another important consideration in your review: Electrical devices and their power sources in the office. All electrically powered equipment – medical or clerical – must operate safely and should all be examined. It is particularly important to check how wall outlets are set up. Make sure each outlet has sufficient power to run the equipment plugged into it and that circuit breakers are present and functioning.

Other components of the rule include proper containment of regulated medical waste, identification of regulated-waste containers, sharps disposal boxes, and periodic employee training regarding all of these things.

Medical and dental offices are not required to keep an injury and illness log under federal OSHA regulations, which other businesses must. However, your state may have a requirement that supersedes the federal law so you should check with your state, or with your local OSHA office, regarding any such requirements.

It is important to take OSHA regulations seriously because failure to comply with them can result in stiff penalties running into many thousands of dollars.

To be certain you are complying with all the rules, you can call your local OSHA office and request an inspection. This is the easiest and cheapest way because OSHA issues no citations during voluntary inspections as long as you agree to remedy any violations they discover.
 

Dr. Eastern practices dermatology and dermatologic surgery in Belleville, N.J. He is the author of numerous articles and textbook chapters, and is a longtime monthly columnist for Dermatology News. Write to him at dermnews@mdedge.com.

As more and more reopened medical practices ramp up toward normal activity, the safety of patients and health care workers alike remains paramount. As always, the responsibility for enforcing all the new safety guidelines ultimately rests with the Occupational Health and Safety Administration (OSHA).

Most of the modified guidelines are already familiar: wear masks (and other personal protective equipment as necessary); maintain social distancing; have hand cleaner, soap, and water readily available; and sanitize between patient examinations.

It is also important to remember that COVID-19 is now a reportable disease; check with your local health authorities as to where and how. Also remember that, if you decide to screen employees and/or patients for fevers and other symptoms of COVID-19, those data are subject to HIPAA rules and must be kept confidential.

Now might be a good time to confirm that you remain in compliance with both the new and old regulations. Even if you hold regular safety meetings – which often is not the case – it is always a good idea to occasionally conduct a comprehensive review, which could save you a lot in fines.

So get your OSHA logs out, and walk through your office. Start by making sure you have an official OSHA poster, which enumerates employee rights and explains how to file complaints. Every office must have one posted in plain site, and is what an OSHA inspector will look for first. They are available for free at OSHA’s website or you can order one by calling 800-321-OSHA.

How long have you had your written exposure control plan for blood-borne pathogens? This plan should document your use of such protective equipment as gloves, face and eye protection, needle guards, and gowns, as well as your implementation of universal precautions. It should be updated annually to reflect changes in technology – and new threats, such as COVID-19.

Review your list of hazardous substances, which all employees have a right to know about. OSHA’s list includes alcohol, hydrogen peroxide, acetone, liquid nitrogen, and other substances that you might not consider particularly dangerous, but are classified as “hazardous.” Also remember that you’re probably using new disinfectants, which may need to be added to your list. For each substance, your employees must have access to the manufacturer-supplied Material Safety Data Sheet, which outlines the proper procedures for working with a specific material, and for handling and containing it in a spill or other emergency.

It is not necessary to adopt every new safety device as it comes on the market, but you should document which ones you are using and which ones you decide not to use – and why. For example, if you and your employees decide against buying a new safety needle because you don’t think it will improve safety, or that it will be more trouble than it is worth, you still should document how you made that decision and why you believe that your current protocol is as good or better.

All at-risk employees should be provided with hepatitis B vaccine at no cost to them. And after any exposure to dangerous pathogens – which now include COVID-19 – you also must provide and pay for appropriate medical treatment and follow-up.

Another important consideration in your review: Electrical devices and their power sources in the office. All electrically powered equipment – medical or clerical – must operate safely and should all be examined. It is particularly important to check how wall outlets are set up. Make sure each outlet has sufficient power to run the equipment plugged into it and that circuit breakers are present and functioning.

Other components of the rule include proper containment of regulated medical waste, identification of regulated-waste containers, sharps disposal boxes, and periodic employee training regarding all of these things.

Medical and dental offices are not required to keep an injury and illness log under federal OSHA regulations, which other businesses must. However, your state may have a requirement that supersedes the federal law so you should check with your state, or with your local OSHA office, regarding any such requirements.

It is important to take OSHA regulations seriously because failure to comply with them can result in stiff penalties running into many thousands of dollars.

To be certain you are complying with all the rules, you can call your local OSHA office and request an inspection. This is the easiest and cheapest way because OSHA issues no citations during voluntary inspections as long as you agree to remedy any violations they discover.
 

Dr. Eastern practices dermatology and dermatologic surgery in Belleville, N.J. He is the author of numerous articles and textbook chapters, and is a longtime monthly columnist for Dermatology News. Write to him at dermnews@mdedge.com.

We live in historic times. A worldwide pandemic is surging in the United States, with millions infected and the world’s highest death rate. Many of our hospitals are overwhelmed. Schools have been closed for months. Businesses are struggling, and unemployment is at record levels. The murder of George Floyd unleashed an outpouring of grief and rage over police brutality and structural racism.

Thinkstock

The value of knowing about these risk factors would seem self-evident; it would inform a patient’s health care from screening for cancer or heart disease, referral for mild depressive symptoms, and counseling about alcohol consumption. But this research did not lead to the establishment of routine screening for childhood adversity in primary care practices. There are multiple reasons for this, including growing pressure on physician time and discomfort with starting conversations about potentially traumatic material. But perhaps the greatest obstacle has been uncertainty about what to offer patients who screened in. What is the treatment for a high ACE score?

Even without treatments, we have learned much about childhood adversity since Dr. Anda and Dr. Felitti published their landmark study. Other more chronic adverse childhood experiences also contribute to adult health risk, such as poverty, homelessness, discrimination, community violence, parental chronic illness, or disability or placement in foster care. Having a high ACE score does not only affect health in adulthood. Children with an ACE score of 4 are 2 times as likely to have asthma^2,3 and allergies³, 2 times as likely to be obese⁴, 3 times as likely to have headaches³ and dental problems^5,6, 4 times as likely to have depression^7,8, 5 times as likely to have ADHD^8,9, 7 times as likely to have high rates of school absenteeism³ and aggression¹⁰, and over 30 times as likely to have learning or behavioral problems at school⁴. There is a growing body of knowledge about how chronic, severe stress in childhood affects can lead to pathological alterations in neuroendocrine and immune function. But this has not led to any concrete treatments that may be preventive or reparative.

Movement toward expanding screening nonetheless has accelerated. In California, Nadine Burke-Harris, MD, a pediatrician who studied ACEs and children’s health was named the state’s first Surgeon General in 2019 and spearheaded an effort to make screening for ACEs easier. Starting in 2020, MediCal will pay for annual screenings, and the state is offering training and resources on how to screen and what to do with the information to help patients and families.

The coronavirus pandemic has only highlighted the risks of childhood adversity. The burden of infection and mortality has been borne disproportionately by people of color and those with multiple chronic medical conditions (obesity, cardiovascular disease, diabetes, etc.). While viruses do not discriminate, they are more likely to infect those with higher risk of exposure and to kill those who are physiologically vulnerable.

And the pandemic increases the risk for adversity for today’s children and families. When children cannot attend school, financially vulnerable parents may have to choose between supervising them or feeding them. Families who suddenly are all in a small apartment together without school or other outside supports may be at higher risk for domestic violence and child abuse. Unemployment and financial uncertainty will increase the rates of substance abuse and depression amongst parents. And the serious illness or death of a parent will be a more common event for children in the year ahead. One of these risk factors may increase the likelihood of others.

Beyond the obvious need for substantial policy changes focused on housing, education, and health care, there are immediate and concrete strategies that can build resilience in children and their families. And resilience can build on itself, as children face subsequent challenges with the support of caring connected adults.

The critical first step is asking. Then listen calmly and supportively, normalizing for parents and children how common these experiences are. Explain how they affect health and well-being. Explain that adversity and its consequences are not their fault. Then educate them about what is in their control: the skills they can practice to buffer against the consequences of adversity and build resilience. They sound simple, but still require effort and work. And the pandemic has created some difficulty (social distancing) and opportunity (more family time, fewer school demands).
 

Sleep

Help parents establish and protect consistent, restful sleep for their children. They can set a consistent bedtime and a calm routine, with screens all off at least 30 minutes before sleep and reading before sleep. Restful sleep is physiologically and psychologically protective to everyone in a family.

Movement

Beyond directly improving physical health, establishing habits of exercise – especially outside – every day can effectively manage ongoing stress, build skills of self-regulation, and help with sleep.

Find out what parents and their children like to do together (walking the dog, shooting hoops, even dancing) and help them devise ways to create family routines around exercise.
 

Nutrition

Food should be a source of pleasure, but stress can make food into a source of comfort or escape. Help parents to create realistic ways to consistently offer healthy family meals and discourage unhealthy habits.

Even small changes like water instead of soda can help, and there are nutritional and emotional benefits to eating a healthy breakfast or dinner together as a family.
 

Connections

Nourishing social connections are protective. Help parents think about protecting time to spend with their children for talking, playing games, or even singing.

They should support their children’s connections to other caring adults, through community organizations (church, community centers, or sports), and they should know who their children’s reliable friends are. Parents will benefit from these supports for themselves, which in turn will benefit the full family.
 

Self-awareness

Activities that cultivate mindfulness are protective. Parents can simply ask how their children are feeling, physically or emotionally, and be able to bear it when it is uncomfortable. Work towards nonjudgmental awareness of how they are feeling. Learning what is relaxing or recharging for them (exercise, music, a hot bath, a good book, time with a friend) will protect against defaulting into maladaptive coping such as escape, numbing, or avoidance.

Of course, if you learn about symptoms that suggest PTSD, depression, or addiction, you should help your patient connect with effective treatment. The difficulty of referring to a mental health provider does not mean you should not try and bring as many people onto the team and into the orbit of the child and family at risk. It may be easier to access some therapy given the new availability of telemedicine visits across many more systems of care. Although the heaviest burdens of adversity are not being borne equally, the fact that adversity is currently a shared experience makes this a moment of promise.

Dr. Swick is physician in chief at Ohana, Center for Child and Adolescent Behavioral Health, Community Hospital of the Monterey (Calif.) Peninsula. Dr. Jellinek is professor emeritus of psychiatry and pediatrics, Harvard Medical School, Boston. Dr. Swick and Dr. Jellinek had no relevant financial disclosures. Email them at pdnews@mdedge.com.

References
1. Am J Prev Med. 1998 May;14(4):245-58.
2. Ann Allergy Asthma Immunol. 2015;114: 379-84.
3. BMC Public Health. 2018. doi: 10.1186/s12889-018-5699-8.
4. Child Abuse Negl. 2011 Jun;35(6):408-13.
5. Community Dent Oral Epidemiol. 2015;43:193-9.
6. Community Dent Oral Epidemiol. 2018 Oct;46(5): 442-8.
7. Pediatrics 2016 Apr. doi: 10.1542/peds.2015-4016.
8. Matern Child Health J. 2016 Apr. doi: 10.1007/s10995-015-1915-7.
9. Acad Pediatr. 2017 May-Jun. doi: 10.1016/j.acap.2016.08.013.
10. Pediatrics. 2010 Apr. doi: 10.1542/peds.2009-0597.
 

This article was updated 7/27/2020.

We live in historic times. A worldwide pandemic is surging in the United States, with millions infected and the world’s highest death rate. Many of our hospitals are overwhelmed. Schools have been closed for months. Businesses are struggling, and unemployment is at record levels. The murder of George Floyd unleashed an outpouring of grief and rage over police brutality and structural racism.

Thinkstock

The value of knowing about these risk factors would seem self-evident; it would inform a patient’s health care from screening for cancer or heart disease, referral for mild depressive symptoms, and counseling about alcohol consumption. But this research did not lead to the establishment of routine screening for childhood adversity in primary care practices. There are multiple reasons for this, including growing pressure on physician time and discomfort with starting conversations about potentially traumatic material. But perhaps the greatest obstacle has been uncertainty about what to offer patients who screened in. What is the treatment for a high ACE score?

Even without treatments, we have learned much about childhood adversity since Dr. Anda and Dr. Felitti published their landmark study. Other more chronic adverse childhood experiences also contribute to adult health risk, such as poverty, homelessness, discrimination, community violence, parental chronic illness, or disability or placement in foster care. Having a high ACE score does not only affect health in adulthood. Children with an ACE score of 4 are 2 times as likely to have asthma^2,3 and allergies³, 2 times as likely to be obese⁴, 3 times as likely to have headaches³ and dental problems^5,6, 4 times as likely to have depression^7,8, 5 times as likely to have ADHD^8,9, 7 times as likely to have high rates of school absenteeism³ and aggression¹⁰, and over 30 times as likely to have learning or behavioral problems at school⁴. There is a growing body of knowledge about how chronic, severe stress in childhood affects can lead to pathological alterations in neuroendocrine and immune function. But this has not led to any concrete treatments that may be preventive or reparative.

Movement toward expanding screening nonetheless has accelerated. In California, Nadine Burke-Harris, MD, a pediatrician who studied ACEs and children’s health was named the state’s first Surgeon General in 2019 and spearheaded an effort to make screening for ACEs easier. Starting in 2020, MediCal will pay for annual screenings, and the state is offering training and resources on how to screen and what to do with the information to help patients and families.

The coronavirus pandemic has only highlighted the risks of childhood adversity. The burden of infection and mortality has been borne disproportionately by people of color and those with multiple chronic medical conditions (obesity, cardiovascular disease, diabetes, etc.). While viruses do not discriminate, they are more likely to infect those with higher risk of exposure and to kill those who are physiologically vulnerable.

And the pandemic increases the risk for adversity for today’s children and families. When children cannot attend school, financially vulnerable parents may have to choose between supervising them or feeding them. Families who suddenly are all in a small apartment together without school or other outside supports may be at higher risk for domestic violence and child abuse. Unemployment and financial uncertainty will increase the rates of substance abuse and depression amongst parents. And the serious illness or death of a parent will be a more common event for children in the year ahead. One of these risk factors may increase the likelihood of others.

Beyond the obvious need for substantial policy changes focused on housing, education, and health care, there are immediate and concrete strategies that can build resilience in children and their families. And resilience can build on itself, as children face subsequent challenges with the support of caring connected adults.

The critical first step is asking. Then listen calmly and supportively, normalizing for parents and children how common these experiences are. Explain how they affect health and well-being. Explain that adversity and its consequences are not their fault. Then educate them about what is in their control: the skills they can practice to buffer against the consequences of adversity and build resilience. They sound simple, but still require effort and work. And the pandemic has created some difficulty (social distancing) and opportunity (more family time, fewer school demands).
 

Sleep

Help parents establish and protect consistent, restful sleep for their children. They can set a consistent bedtime and a calm routine, with screens all off at least 30 minutes before sleep and reading before sleep. Restful sleep is physiologically and psychologically protective to everyone in a family.

Movement

Beyond directly improving physical health, establishing habits of exercise – especially outside – every day can effectively manage ongoing stress, build skills of self-regulation, and help with sleep.

Find out what parents and their children like to do together (walking the dog, shooting hoops, even dancing) and help them devise ways to create family routines around exercise.
 

Nutrition

Food should be a source of pleasure, but stress can make food into a source of comfort or escape. Help parents to create realistic ways to consistently offer healthy family meals and discourage unhealthy habits.

Even small changes like water instead of soda can help, and there are nutritional and emotional benefits to eating a healthy breakfast or dinner together as a family.
 

Connections

Nourishing social connections are protective. Help parents think about protecting time to spend with their children for talking, playing games, or even singing.

They should support their children’s connections to other caring adults, through community organizations (church, community centers, or sports), and they should know who their children’s reliable friends are. Parents will benefit from these supports for themselves, which in turn will benefit the full family.
 

Self-awareness

Activities that cultivate mindfulness are protective. Parents can simply ask how their children are feeling, physically or emotionally, and be able to bear it when it is uncomfortable. Work towards nonjudgmental awareness of how they are feeling. Learning what is relaxing or recharging for them (exercise, music, a hot bath, a good book, time with a friend) will protect against defaulting into maladaptive coping such as escape, numbing, or avoidance.

Of course, if you learn about symptoms that suggest PTSD, depression, or addiction, you should help your patient connect with effective treatment. The difficulty of referring to a mental health provider does not mean you should not try and bring as many people onto the team and into the orbit of the child and family at risk. It may be easier to access some therapy given the new availability of telemedicine visits across many more systems of care. Although the heaviest burdens of adversity are not being borne equally, the fact that adversity is currently a shared experience makes this a moment of promise.

Dr. Swick is physician in chief at Ohana, Center for Child and Adolescent Behavioral Health, Community Hospital of the Monterey (Calif.) Peninsula. Dr. Jellinek is professor emeritus of psychiatry and pediatrics, Harvard Medical School, Boston. Dr. Swick and Dr. Jellinek had no relevant financial disclosures. Email them at pdnews@mdedge.com.

References
1. Am J Prev Med. 1998 May;14(4):245-58.
2. Ann Allergy Asthma Immunol. 2015;114: 379-84.
3. BMC Public Health. 2018. doi: 10.1186/s12889-018-5699-8.
4. Child Abuse Negl. 2011 Jun;35(6):408-13.
5. Community Dent Oral Epidemiol. 2015;43:193-9.
6. Community Dent Oral Epidemiol. 2018 Oct;46(5): 442-8.
7. Pediatrics 2016 Apr. doi: 10.1542/peds.2015-4016.
8. Matern Child Health J. 2016 Apr. doi: 10.1007/s10995-015-1915-7.
9. Acad Pediatr. 2017 May-Jun. doi: 10.1016/j.acap.2016.08.013.
10. Pediatrics. 2010 Apr. doi: 10.1542/peds.2009-0597.
 

This article was updated 7/27/2020.

We live in historic times. A worldwide pandemic is surging in the United States, with millions infected and the world’s highest death rate. Many of our hospitals are overwhelmed. Schools have been closed for months. Businesses are struggling, and unemployment is at record levels. The murder of George Floyd unleashed an outpouring of grief and rage over police brutality and structural racism.

Thinkstock

The value of knowing about these risk factors would seem self-evident; it would inform a patient’s health care from screening for cancer or heart disease, referral for mild depressive symptoms, and counseling about alcohol consumption. But this research did not lead to the establishment of routine screening for childhood adversity in primary care practices. There are multiple reasons for this, including growing pressure on physician time and discomfort with starting conversations about potentially traumatic material. But perhaps the greatest obstacle has been uncertainty about what to offer patients who screened in. What is the treatment for a high ACE score?

Even without treatments, we have learned much about childhood adversity since Dr. Anda and Dr. Felitti published their landmark study. Other more chronic adverse childhood experiences also contribute to adult health risk, such as poverty, homelessness, discrimination, community violence, parental chronic illness, or disability or placement in foster care. Having a high ACE score does not only affect health in adulthood. Children with an ACE score of 4 are 2 times as likely to have asthma^2,3 and allergies³, 2 times as likely to be obese⁴, 3 times as likely to have headaches³ and dental problems^5,6, 4 times as likely to have depression^7,8, 5 times as likely to have ADHD^8,9, 7 times as likely to have high rates of school absenteeism³ and aggression¹⁰, and over 30 times as likely to have learning or behavioral problems at school⁴. There is a growing body of knowledge about how chronic, severe stress in childhood affects can lead to pathological alterations in neuroendocrine and immune function. But this has not led to any concrete treatments that may be preventive or reparative.

Movement toward expanding screening nonetheless has accelerated. In California, Nadine Burke-Harris, MD, a pediatrician who studied ACEs and children’s health was named the state’s first Surgeon General in 2019 and spearheaded an effort to make screening for ACEs easier. Starting in 2020, MediCal will pay for annual screenings, and the state is offering training and resources on how to screen and what to do with the information to help patients and families.

The coronavirus pandemic has only highlighted the risks of childhood adversity. The burden of infection and mortality has been borne disproportionately by people of color and those with multiple chronic medical conditions (obesity, cardiovascular disease, diabetes, etc.). While viruses do not discriminate, they are more likely to infect those with higher risk of exposure and to kill those who are physiologically vulnerable.

And the pandemic increases the risk for adversity for today’s children and families. When children cannot attend school, financially vulnerable parents may have to choose between supervising them or feeding them. Families who suddenly are all in a small apartment together without school or other outside supports may be at higher risk for domestic violence and child abuse. Unemployment and financial uncertainty will increase the rates of substance abuse and depression amongst parents. And the serious illness or death of a parent will be a more common event for children in the year ahead. One of these risk factors may increase the likelihood of others.

Beyond the obvious need for substantial policy changes focused on housing, education, and health care, there are immediate and concrete strategies that can build resilience in children and their families. And resilience can build on itself, as children face subsequent challenges with the support of caring connected adults.

The critical first step is asking. Then listen calmly and supportively, normalizing for parents and children how common these experiences are. Explain how they affect health and well-being. Explain that adversity and its consequences are not their fault. Then educate them about what is in their control: the skills they can practice to buffer against the consequences of adversity and build resilience. They sound simple, but still require effort and work. And the pandemic has created some difficulty (social distancing) and opportunity (more family time, fewer school demands).
 

Sleep

Help parents establish and protect consistent, restful sleep for their children. They can set a consistent bedtime and a calm routine, with screens all off at least 30 minutes before sleep and reading before sleep. Restful sleep is physiologically and psychologically protective to everyone in a family.

Movement

Beyond directly improving physical health, establishing habits of exercise – especially outside – every day can effectively manage ongoing stress, build skills of self-regulation, and help with sleep.

Find out what parents and their children like to do together (walking the dog, shooting hoops, even dancing) and help them devise ways to create family routines around exercise.
 

Nutrition

Food should be a source of pleasure, but stress can make food into a source of comfort or escape. Help parents to create realistic ways to consistently offer healthy family meals and discourage unhealthy habits.

Even small changes like water instead of soda can help, and there are nutritional and emotional benefits to eating a healthy breakfast or dinner together as a family.
 

Connections

Nourishing social connections are protective. Help parents think about protecting time to spend with their children for talking, playing games, or even singing.

They should support their children’s connections to other caring adults, through community organizations (church, community centers, or sports), and they should know who their children’s reliable friends are. Parents will benefit from these supports for themselves, which in turn will benefit the full family.
 

Self-awareness

Activities that cultivate mindfulness are protective. Parents can simply ask how their children are feeling, physically or emotionally, and be able to bear it when it is uncomfortable. Work towards nonjudgmental awareness of how they are feeling. Learning what is relaxing or recharging for them (exercise, music, a hot bath, a good book, time with a friend) will protect against defaulting into maladaptive coping such as escape, numbing, or avoidance.

Of course, if you learn about symptoms that suggest PTSD, depression, or addiction, you should help your patient connect with effective treatment. The difficulty of referring to a mental health provider does not mean you should not try and bring as many people onto the team and into the orbit of the child and family at risk. It may be easier to access some therapy given the new availability of telemedicine visits across many more systems of care. Although the heaviest burdens of adversity are not being borne equally, the fact that adversity is currently a shared experience makes this a moment of promise.

Dr. Swick is physician in chief at Ohana, Center for Child and Adolescent Behavioral Health, Community Hospital of the Monterey (Calif.) Peninsula. Dr. Jellinek is professor emeritus of psychiatry and pediatrics, Harvard Medical School, Boston. Dr. Swick and Dr. Jellinek had no relevant financial disclosures. Email them at pdnews@mdedge.com.

References
1. Am J Prev Med. 1998 May;14(4):245-58.
2. Ann Allergy Asthma Immunol. 2015;114: 379-84.
3. BMC Public Health. 2018. doi: 10.1186/s12889-018-5699-8.
4. Child Abuse Negl. 2011 Jun;35(6):408-13.
5. Community Dent Oral Epidemiol. 2015;43:193-9.
6. Community Dent Oral Epidemiol. 2018 Oct;46(5): 442-8.
7. Pediatrics 2016 Apr. doi: 10.1542/peds.2015-4016.
8. Matern Child Health J. 2016 Apr. doi: 10.1007/s10995-015-1915-7.
9. Acad Pediatr. 2017 May-Jun. doi: 10.1016/j.acap.2016.08.013.
10. Pediatrics. 2010 Apr. doi: 10.1542/peds.2009-0597.
 

This article was updated 7/27/2020.

The absence of in-person school has harmed children in ways beyond loss of academic learning, according to Josh Sharfstein, MD, vice dean for public health practice and community engagement at the Johns Hopkins Bloomberg School of Public Health, Baltimore. In addition to learning, school is a place where many children receive breakfast and lunch every day, as well as support services and the benefits of being in a safe and secure environment, Dr. Sharfstein said in a press briefing sponsored by Johns Hopkins University.

However, although it is an important priority for children to return to school, “we are in the midst of a pandemic that poses real risk,” he said.

In the press briefing, several experts shared ideas and considerations for safely reopening K-12 schools in the fall of 2020.

Data from other countries where schools have reopened, notably Austria and Denmark, have been reassuring about the lack of transmission of SARS-CoV-2 among children in a school setting, said Jennifer Nuzzo, DrPH, an epidemiologist at the Johns Hopkins Center for Health Security. However, other countries where schools have reopened successfully have reported low levels of viral transmission locally, and a responsible strategy for school reopening in the United States should follow a similar plan, she said. In areas where transmission and infection rates are increasing “it may not be safe to reopen,” but in areas where rates are declining or stable, schools could potentially reopen if they follow safety measures.

Dr. Nuzzo suggested that schools should prioritize students who will benefit most from in-person learning, such as younger children and those with special needs. Considerations include protocols for handwashing and sanitation, and maintaining physical distance by creative use of outdoor classrooms (weather permitting) or other spaces within school buildings. Transportation to and from school also will be an issue to address, she noted.

None of the strategies being considered will completely eliminate risk of SARS-CoV-2 infection in school settings, so allowing parents and students to opt out and choose distance learning will be important as well, said Dr. Nuzzo. In addition, schools may need to consider alternative roles for teachers and staff who don’t feel comfortable being in contact with students and fellow staff members. “All of these things are going to be hard,” Dr. Nuzzo acknowledged. “Hard should not be a deterrent,” to reopening schools, but “we acknowledge the resources that schools will need in order to do this.”

At present, all 50 states and the District of Columbia have released some type of plan for reopening schools, said Megan Collins, MD, MPH, codirector the Johns Hopkins Consortium for School-Based Health Solutions.

Dr. Collins and colleagues have developed a school reopening tracker, which is “a national snapshot of current reopening plans that have been released,” she said. The tracker is being updated continuously as plans evolve. The eSchool+ K-12 School Reopening Tracker identifies 12 reopening categories that states could potentially address in the plans. These categories are divided into Operational and Ethics/Equity. The operational categories include:

• Core academics
• SARS-CoV-2 protection
• Before and after school programs
• School access and transportation
• Student health services
• Food and nutrition.

Ethics/equity categories include the following:

• Parent choice
• Teacher and staff choice
• Children of poverty and systemic disadvantage
• Children with special needs/English as second language/gifted and twice exceptional
• Privacy
• Engagement and transparency.

As of July 15, 2020, 16 states (Arizona, Colorado, Connecticut, Georgia, Maryland, Minnesota, New Mexico, North Carolina, North Dakota, Ohio, Rhode Island, Tennessee, Texas, Virginia, Washington, and Wisconsin) had addressed all 12 categories in their reopening plans, Dr. Collins said.

School reopening plans must take equity issues into account, said Annette Anderson, PhD, of the Johns Hopkins University School of Education.

Specifically, developing learning plans for special education students and others at the most risk for learning loss will be essential. “The digital divide has become a digital canyon” in some areas, Dr. Anderson noted, and schools need to rethink eligibility and work to provide access to devices for online learning for all students.

In addition, schools need to convince parents that schools are safe. She recommended that schools consider inviting parents and families to visit buildings in advance of reopening so they can see the safety measures, such as space between desks, cleaning stations, and other protective strategies.

The message to pediatricians and health care professionals when counseling families about returning individual children to school is to consider the risk to the child and the family directly in the context of the local plans, Dr. Sharfstein said during a question and answer session. “One school system’s plan is one school system’s plan,” he said, and added that families who are concerned about the risk should have an online option. However, “if you see a thoughtful approach” to reopening, with safety steps taken and parents informed, with protocols such as keeping small groups of children together to reduce transmission, “it is a pretty good trade-off,” and that is why the American Academy of Pediatrics currently favors children returning to school, he said.

The briefing participants had no relevant financial conflicts to disclose.

The absence of in-person school has harmed children in ways beyond loss of academic learning, according to Josh Sharfstein, MD, vice dean for public health practice and community engagement at the Johns Hopkins Bloomberg School of Public Health, Baltimore. In addition to learning, school is a place where many children receive breakfast and lunch every day, as well as support services and the benefits of being in a safe and secure environment, Dr. Sharfstein said in a press briefing sponsored by Johns Hopkins University.

However, although it is an important priority for children to return to school, “we are in the midst of a pandemic that poses real risk,” he said.

In the press briefing, several experts shared ideas and considerations for safely reopening K-12 schools in the fall of 2020.

Data from other countries where schools have reopened, notably Austria and Denmark, have been reassuring about the lack of transmission of SARS-CoV-2 among children in a school setting, said Jennifer Nuzzo, DrPH, an epidemiologist at the Johns Hopkins Center for Health Security. However, other countries where schools have reopened successfully have reported low levels of viral transmission locally, and a responsible strategy for school reopening in the United States should follow a similar plan, she said. In areas where transmission and infection rates are increasing “it may not be safe to reopen,” but in areas where rates are declining or stable, schools could potentially reopen if they follow safety measures.

Dr. Nuzzo suggested that schools should prioritize students who will benefit most from in-person learning, such as younger children and those with special needs. Considerations include protocols for handwashing and sanitation, and maintaining physical distance by creative use of outdoor classrooms (weather permitting) or other spaces within school buildings. Transportation to and from school also will be an issue to address, she noted.

None of the strategies being considered will completely eliminate risk of SARS-CoV-2 infection in school settings, so allowing parents and students to opt out and choose distance learning will be important as well, said Dr. Nuzzo. In addition, schools may need to consider alternative roles for teachers and staff who don’t feel comfortable being in contact with students and fellow staff members. “All of these things are going to be hard,” Dr. Nuzzo acknowledged. “Hard should not be a deterrent,” to reopening schools, but “we acknowledge the resources that schools will need in order to do this.”

At present, all 50 states and the District of Columbia have released some type of plan for reopening schools, said Megan Collins, MD, MPH, codirector the Johns Hopkins Consortium for School-Based Health Solutions.

Dr. Collins and colleagues have developed a school reopening tracker, which is “a national snapshot of current reopening plans that have been released,” she said. The tracker is being updated continuously as plans evolve. The eSchool+ K-12 School Reopening Tracker identifies 12 reopening categories that states could potentially address in the plans. These categories are divided into Operational and Ethics/Equity. The operational categories include:

• Core academics
• SARS-CoV-2 protection
• Before and after school programs
• School access and transportation
• Student health services
• Food and nutrition.

Ethics/equity categories include the following:

• Parent choice
• Teacher and staff choice
• Children of poverty and systemic disadvantage
• Children with special needs/English as second language/gifted and twice exceptional
• Privacy
• Engagement and transparency.

As of July 15, 2020, 16 states (Arizona, Colorado, Connecticut, Georgia, Maryland, Minnesota, New Mexico, North Carolina, North Dakota, Ohio, Rhode Island, Tennessee, Texas, Virginia, Washington, and Wisconsin) had addressed all 12 categories in their reopening plans, Dr. Collins said.

School reopening plans must take equity issues into account, said Annette Anderson, PhD, of the Johns Hopkins University School of Education.

Specifically, developing learning plans for special education students and others at the most risk for learning loss will be essential. “The digital divide has become a digital canyon” in some areas, Dr. Anderson noted, and schools need to rethink eligibility and work to provide access to devices for online learning for all students.

In addition, schools need to convince parents that schools are safe. She recommended that schools consider inviting parents and families to visit buildings in advance of reopening so they can see the safety measures, such as space between desks, cleaning stations, and other protective strategies.

The message to pediatricians and health care professionals when counseling families about returning individual children to school is to consider the risk to the child and the family directly in the context of the local plans, Dr. Sharfstein said during a question and answer session. “One school system’s plan is one school system’s plan,” he said, and added that families who are concerned about the risk should have an online option. However, “if you see a thoughtful approach” to reopening, with safety steps taken and parents informed, with protocols such as keeping small groups of children together to reduce transmission, “it is a pretty good trade-off,” and that is why the American Academy of Pediatrics currently favors children returning to school, he said.

The briefing participants had no relevant financial conflicts to disclose.

The absence of in-person school has harmed children in ways beyond loss of academic learning, according to Josh Sharfstein, MD, vice dean for public health practice and community engagement at the Johns Hopkins Bloomberg School of Public Health, Baltimore. In addition to learning, school is a place where many children receive breakfast and lunch every day, as well as support services and the benefits of being in a safe and secure environment, Dr. Sharfstein said in a press briefing sponsored by Johns Hopkins University.

However, although it is an important priority for children to return to school, “we are in the midst of a pandemic that poses real risk,” he said.

In the press briefing, several experts shared ideas and considerations for safely reopening K-12 schools in the fall of 2020.

Data from other countries where schools have reopened, notably Austria and Denmark, have been reassuring about the lack of transmission of SARS-CoV-2 among children in a school setting, said Jennifer Nuzzo, DrPH, an epidemiologist at the Johns Hopkins Center for Health Security. However, other countries where schools have reopened successfully have reported low levels of viral transmission locally, and a responsible strategy for school reopening in the United States should follow a similar plan, she said. In areas where transmission and infection rates are increasing “it may not be safe to reopen,” but in areas where rates are declining or stable, schools could potentially reopen if they follow safety measures.

Dr. Nuzzo suggested that schools should prioritize students who will benefit most from in-person learning, such as younger children and those with special needs. Considerations include protocols for handwashing and sanitation, and maintaining physical distance by creative use of outdoor classrooms (weather permitting) or other spaces within school buildings. Transportation to and from school also will be an issue to address, she noted.

None of the strategies being considered will completely eliminate risk of SARS-CoV-2 infection in school settings, so allowing parents and students to opt out and choose distance learning will be important as well, said Dr. Nuzzo. In addition, schools may need to consider alternative roles for teachers and staff who don’t feel comfortable being in contact with students and fellow staff members. “All of these things are going to be hard,” Dr. Nuzzo acknowledged. “Hard should not be a deterrent,” to reopening schools, but “we acknowledge the resources that schools will need in order to do this.”

At present, all 50 states and the District of Columbia have released some type of plan for reopening schools, said Megan Collins, MD, MPH, codirector the Johns Hopkins Consortium for School-Based Health Solutions.

Dr. Collins and colleagues have developed a school reopening tracker, which is “a national snapshot of current reopening plans that have been released,” she said. The tracker is being updated continuously as plans evolve. The eSchool+ K-12 School Reopening Tracker identifies 12 reopening categories that states could potentially address in the plans. These categories are divided into Operational and Ethics/Equity. The operational categories include:

• Core academics
• SARS-CoV-2 protection
• Before and after school programs
• School access and transportation
• Student health services
• Food and nutrition.

Ethics/equity categories include the following:

• Parent choice
• Teacher and staff choice
• Children of poverty and systemic disadvantage
• Children with special needs/English as second language/gifted and twice exceptional
• Privacy
• Engagement and transparency.

As of July 15, 2020, 16 states (Arizona, Colorado, Connecticut, Georgia, Maryland, Minnesota, New Mexico, North Carolina, North Dakota, Ohio, Rhode Island, Tennessee, Texas, Virginia, Washington, and Wisconsin) had addressed all 12 categories in their reopening plans, Dr. Collins said.

School reopening plans must take equity issues into account, said Annette Anderson, PhD, of the Johns Hopkins University School of Education.

Specifically, developing learning plans for special education students and others at the most risk for learning loss will be essential. “The digital divide has become a digital canyon” in some areas, Dr. Anderson noted, and schools need to rethink eligibility and work to provide access to devices for online learning for all students.

In addition, schools need to convince parents that schools are safe. She recommended that schools consider inviting parents and families to visit buildings in advance of reopening so they can see the safety measures, such as space between desks, cleaning stations, and other protective strategies.

The message to pediatricians and health care professionals when counseling families about returning individual children to school is to consider the risk to the child and the family directly in the context of the local plans, Dr. Sharfstein said during a question and answer session. “One school system’s plan is one school system’s plan,” he said, and added that families who are concerned about the risk should have an online option. However, “if you see a thoughtful approach” to reopening, with safety steps taken and parents informed, with protocols such as keeping small groups of children together to reduce transmission, “it is a pretty good trade-off,” and that is why the American Academy of Pediatrics currently favors children returning to school, he said.

The briefing participants had no relevant financial conflicts to disclose.

The incidence of stillbirth has increased since the COVID-19 pandemic began, according to a comparative study of pregnancy outcomes in a London hospital.

“The increase in stillbirths may have resulted from indirect effects such as reluctance to attend hospital when needed (e.g., with reduced fetal movements), fear of contracting infection, or not wanting to add to the National Health Service burden,” Asma Khalil, MD, of St George’s University of London and coauthors reported in JAMA.

To further assess reported changes in stillbirth and preterm delivery rates during the pandemic, the researchers began a retrospective study of pregnancy outcomes at St George’s University Hospital in London. They compared two periods: from Oct. 1, 2019, to Jan. 31, 2020 as the pre–COVID-19 period and from Feb. 1, 2020, to June 14, 2020 as the pandemic period. The median age of the mother at time of birth in both periods was 33 years. The prepandemic period had 1,681 births, and the pandemic period had 1,718 births.

Although there were found to be fewer nulliparous women and fewer women with hypertension in the pandemic period, the incidence of stillbirth in that period was significantly higher (n = 16 [9 per 1,000 births]) than in the prepandemic period (n = 4 [2 per 1,000 births]) (difference, 7 per 1,000 births; 95% confidence interval, 1.83-12.0; P = .01). The pandemic rate remained higher when late terminations for fetal abnormality were excluded (difference 6 per 1,000 births; 95% CI 1.54-10.1; P = .01).

None of the pregnant women who experienced stillbirth had COVID-19 symptoms, and none of the postmortems or placental exams indicated infection. There were no significant differences between the two periods in regard to births before 37 weeks’ gestation, births after 34 weeks’ gestation, neonatal unit admission, or cesarean delivery.

“It’s very important to highlight the effects of the pandemic on pregnant patients, even if they’re not infected with COVID-19,” Shannon Clark, MD, of the University of Texas Medical Branch in Galveston said in an interview.

She noted several COVID-related considerations that could have contributed to this increase: the reluctance of both low-risk and high-risk patients to enter a hospital setting during a pandemic, along with safety-centered changes made in antenatal services and care, which includes a reduced number of ultrasounds and screening exams.

“Checking a patient’s blood pressure, checking their weight changes, checking how the baby is growing,” she said. “They’re all simple things that just can’t be done via telemedicine.”

“We’ve thought a lot about the potential effects of getting COVID in pregnancy,” she added, “but it’s just as important to think about what might happen to those who don’t have it and are considered low risk otherwise.”

The study authors noted its limitations, including it being retrospective, analyzing a short time frame, and focusing on a single medical center. It also didn’t factor in the causes of the stillbirths, nor were the time periods precisely comparable, although they did add that “there is no seasonality to stillbirths in the UK.”

One doctor reported receiving grants outside of the submitted work. No other potential conflicts of interest were noted. Dr. Clark said she had no relevant financial disclosures.

SOURCE: Khalil A et al. JAMA. 2020 Jul. doi: 10.1001/jama.2020.12746.

The incidence of stillbirth has increased since the COVID-19 pandemic began, according to a comparative study of pregnancy outcomes in a London hospital.

“The increase in stillbirths may have resulted from indirect effects such as reluctance to attend hospital when needed (e.g., with reduced fetal movements), fear of contracting infection, or not wanting to add to the National Health Service burden,” Asma Khalil, MD, of St George’s University of London and coauthors reported in JAMA.

To further assess reported changes in stillbirth and preterm delivery rates during the pandemic, the researchers began a retrospective study of pregnancy outcomes at St George’s University Hospital in London. They compared two periods: from Oct. 1, 2019, to Jan. 31, 2020 as the pre–COVID-19 period and from Feb. 1, 2020, to June 14, 2020 as the pandemic period. The median age of the mother at time of birth in both periods was 33 years. The prepandemic period had 1,681 births, and the pandemic period had 1,718 births.

Although there were found to be fewer nulliparous women and fewer women with hypertension in the pandemic period, the incidence of stillbirth in that period was significantly higher (n = 16 [9 per 1,000 births]) than in the prepandemic period (n = 4 [2 per 1,000 births]) (difference, 7 per 1,000 births; 95% confidence interval, 1.83-12.0; P = .01). The pandemic rate remained higher when late terminations for fetal abnormality were excluded (difference 6 per 1,000 births; 95% CI 1.54-10.1; P = .01).

None of the pregnant women who experienced stillbirth had COVID-19 symptoms, and none of the postmortems or placental exams indicated infection. There were no significant differences between the two periods in regard to births before 37 weeks’ gestation, births after 34 weeks’ gestation, neonatal unit admission, or cesarean delivery.

“It’s very important to highlight the effects of the pandemic on pregnant patients, even if they’re not infected with COVID-19,” Shannon Clark, MD, of the University of Texas Medical Branch in Galveston said in an interview.

She noted several COVID-related considerations that could have contributed to this increase: the reluctance of both low-risk and high-risk patients to enter a hospital setting during a pandemic, along with safety-centered changes made in antenatal services and care, which includes a reduced number of ultrasounds and screening exams.

“Checking a patient’s blood pressure, checking their weight changes, checking how the baby is growing,” she said. “They’re all simple things that just can’t be done via telemedicine.”

“We’ve thought a lot about the potential effects of getting COVID in pregnancy,” she added, “but it’s just as important to think about what might happen to those who don’t have it and are considered low risk otherwise.”

The study authors noted its limitations, including it being retrospective, analyzing a short time frame, and focusing on a single medical center. It also didn’t factor in the causes of the stillbirths, nor were the time periods precisely comparable, although they did add that “there is no seasonality to stillbirths in the UK.”

One doctor reported receiving grants outside of the submitted work. No other potential conflicts of interest were noted. Dr. Clark said she had no relevant financial disclosures.

SOURCE: Khalil A et al. JAMA. 2020 Jul. doi: 10.1001/jama.2020.12746.

The incidence of stillbirth has increased since the COVID-19 pandemic began, according to a comparative study of pregnancy outcomes in a London hospital.

“The increase in stillbirths may have resulted from indirect effects such as reluctance to attend hospital when needed (e.g., with reduced fetal movements), fear of contracting infection, or not wanting to add to the National Health Service burden,” Asma Khalil, MD, of St George’s University of London and coauthors reported in JAMA.

To further assess reported changes in stillbirth and preterm delivery rates during the pandemic, the researchers began a retrospective study of pregnancy outcomes at St George’s University Hospital in London. They compared two periods: from Oct. 1, 2019, to Jan. 31, 2020 as the pre–COVID-19 period and from Feb. 1, 2020, to June 14, 2020 as the pandemic period. The median age of the mother at time of birth in both periods was 33 years. The prepandemic period had 1,681 births, and the pandemic period had 1,718 births.

Although there were found to be fewer nulliparous women and fewer women with hypertension in the pandemic period, the incidence of stillbirth in that period was significantly higher (n = 16 [9 per 1,000 births]) than in the prepandemic period (n = 4 [2 per 1,000 births]) (difference, 7 per 1,000 births; 95% confidence interval, 1.83-12.0; P = .01). The pandemic rate remained higher when late terminations for fetal abnormality were excluded (difference 6 per 1,000 births; 95% CI 1.54-10.1; P = .01).

None of the pregnant women who experienced stillbirth had COVID-19 symptoms, and none of the postmortems or placental exams indicated infection. There were no significant differences between the two periods in regard to births before 37 weeks’ gestation, births after 34 weeks’ gestation, neonatal unit admission, or cesarean delivery.

“It’s very important to highlight the effects of the pandemic on pregnant patients, even if they’re not infected with COVID-19,” Shannon Clark, MD, of the University of Texas Medical Branch in Galveston said in an interview.

She noted several COVID-related considerations that could have contributed to this increase: the reluctance of both low-risk and high-risk patients to enter a hospital setting during a pandemic, along with safety-centered changes made in antenatal services and care, which includes a reduced number of ultrasounds and screening exams.

“Checking a patient’s blood pressure, checking their weight changes, checking how the baby is growing,” she said. “They’re all simple things that just can’t be done via telemedicine.”

“We’ve thought a lot about the potential effects of getting COVID in pregnancy,” she added, “but it’s just as important to think about what might happen to those who don’t have it and are considered low risk otherwise.”

The study authors noted its limitations, including it being retrospective, analyzing a short time frame, and focusing on a single medical center. It also didn’t factor in the causes of the stillbirths, nor were the time periods precisely comparable, although they did add that “there is no seasonality to stillbirths in the UK.”

One doctor reported receiving grants outside of the submitted work. No other potential conflicts of interest were noted. Dr. Clark said she had no relevant financial disclosures.

SOURCE: Khalil A et al. JAMA. 2020 Jul. doi: 10.1001/jama.2020.12746.