Pediatrics

VIENNA – Individuals born to younger or older parents are at increased risk of developing bipolar disorder, new research suggests.

Results from a meta-analysis of more than 210,000 patients with bipolar disorder and over 13 million healthy individuals showed that children of mothers younger than 20 years had a 23% increased risk for bipolar disorder vs. those whose parents were aged 25-29 years. For participants whose mothers were aged 35-39 years, there was a 10% increased risk for bipolar disorder, which rose to 20% if the mother was aged 40 or older.

Having a father younger than 20 years conferred a 29% increased risk for bipolar disorder, which was the same increase in risk found in individuals whose fathers were aged 45 years or older.

These findings, which are an update of data published in the journal European Pharmacology, were presented at the 35th European College of Neuropsychopharmacology (ECNP) Congress.
 

Fourteen studies included

Previous studies have suggested that parental age at birth is a risk factor for several psychiatric disorders in offspring, including bipolar disorder, and that advanced parental age, specifically, is associated with earlier onset schizophrenia.

To investigate further, the current researchers conducted a systematic review and meta-analysis, searching the PubMed/MEDLINE, EMBASE, Scopus, and PsychINFO databases for relevant studies published to Dec. 1, 2021.

From 712 studies initially identified, 16 met all the inclusion criteria and 14 were included in the quantitative analysis.

Five studies reported only paternal age and risk for bipolar disorder in their offspring, one included just maternal age, and eight reported both maternal and paternal age in relation to the risk for offspring bipolar disorder.

Individuals with a history of any psychiatric disorders were excluded, leaving a total of 13.4 million individuals without bipolar disorder and 217,089 who had received a diagnosis for the disorder.

The investigators also corrected for both socioeconomic status and, when assessing the impact of maternal or paternal age at birth, corrected for the age of the other parent. However, they were unable to correct for the number of children in a family.

Results after stratifying maternal and paternal age showed that, compared with those born to parents aged 25-29 years, there was an increased risk for bipolar disorder in the offspring of both fathers and mothers younger than 20 years of age, with adjusted odds ratios of 1.29 (95% confidence interval, 1.13-1.48) and 1.23 (95% CI, 1.14-1.33), respectively.

Compared with those aged 25-29 years, there was also an increased risk for bipolar disorder in children born to mothers aged 35-39 years (adjusted OR, 1.1; 95% CI, 1.01-1.19) and aged 40 or older (OR, 1.2; 95% CI, 1.02-1.40).

Among fathers, there was increased risk for offspring bipolar disorder in those aged 45 or older vs. those aged 25-29 years (adjusted OR, 1.29; 95% CI, 1.15-1.46).
 

Several hypotheses

There are several hypotheses that could explain the results, lead study author Giovanna Fico, MD, bipolar and depressive disorders unit, Hospital Clínic Barcelona, told this news organization.

In older age, it may be “more related to genetic or epigenetic modification, especially in fathers,” Dr. Fico said. “Some studies have shown that there are de novo mutations in the germ lines, which increase the risk of several diseases, including schizophrenia.”

In younger individuals, there could be a “mixed effect between sociocultural factors, such as substance abuse, low educational status,” and other issues, Dr. Fico noted.

Moreover, as bipolar disorder onset can be as late as 30 years of age, the younger group could include “undiagnosed patients with bipolar disorder, which would increase the risk” of the disease in their offspring, she added.

Dr. Fico noted the investigators are now planning on studying the impact of environmental factors such as pollution, climate change, and urbanization on risk for bipolar disorder, with the aim of being better able to inform parents or to develop prevention strategies.

Psychoeducation is “very common for infertility, birth defects, and Down syndrome, but it’s not so common for psychiatric disorders because we need more data. But I think it’s important that parents know they have an increased risk,” she said.

Nevertheless, “We must stress that this risk is moderate, and it must be kept in perspective,” Dr. Fico said in a news release.
 

‘Exciting’ questions raised

The study “raises several exciting research questions, including the possibility of early prevention and intervention,” Maj Vinberg, MD, PhD, clinical professor, department of clinical medicine, University of Copenhagen, said in the release.

She said she agrees there are likely to be different factors at play at different ages, with the risk for bipolar disorder associated with younger-age parenthood more likely to be related to socioeconomic status.

For older parents, “there has been a lot of speculation around the father’s age especially, which everybody thought didn’t matter,” said Dr. Vinberg, who was not involved with the research.

“But you might have some epigenetic changes as you grow older that might transfer into the next generation,” given that there is 20 years of additional exposure to potential epigenetic changes between a man aged 25 years and one aged 45 years, she noted.

Dr. Vinberg also highlighted that there could be cases of undiagnosed bipolar disorder among the younger parents, and she noted that “men with bipolar disorder tend to have more children,” particularly during manic phases.

She explained that if someone were to get divorced at 35 years of age, then have a new manic episode at 45 “and have a new wife and children, I don’t know whether it’s possible to correct for that.”

The research is supported by a fellowship from “la Caixa” Foundation. The investigators have reported no relevant financial relationships. Dr. Vinberg reported having relationships with Lundbeck and Janssen.

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

VIENNA – Individuals born to younger or older parents are at increased risk of developing bipolar disorder, new research suggests.

Results from a meta-analysis of more than 210,000 patients with bipolar disorder and over 13 million healthy individuals showed that children of mothers younger than 20 years had a 23% increased risk for bipolar disorder vs. those whose parents were aged 25-29 years. For participants whose mothers were aged 35-39 years, there was a 10% increased risk for bipolar disorder, which rose to 20% if the mother was aged 40 or older.

Having a father younger than 20 years conferred a 29% increased risk for bipolar disorder, which was the same increase in risk found in individuals whose fathers were aged 45 years or older.

These findings, which are an update of data published in the journal European Pharmacology, were presented at the 35th European College of Neuropsychopharmacology (ECNP) Congress.
 

Fourteen studies included

Previous studies have suggested that parental age at birth is a risk factor for several psychiatric disorders in offspring, including bipolar disorder, and that advanced parental age, specifically, is associated with earlier onset schizophrenia.

To investigate further, the current researchers conducted a systematic review and meta-analysis, searching the PubMed/MEDLINE, EMBASE, Scopus, and PsychINFO databases for relevant studies published to Dec. 1, 2021.

From 712 studies initially identified, 16 met all the inclusion criteria and 14 were included in the quantitative analysis.

Five studies reported only paternal age and risk for bipolar disorder in their offspring, one included just maternal age, and eight reported both maternal and paternal age in relation to the risk for offspring bipolar disorder.

Individuals with a history of any psychiatric disorders were excluded, leaving a total of 13.4 million individuals without bipolar disorder and 217,089 who had received a diagnosis for the disorder.

The investigators also corrected for both socioeconomic status and, when assessing the impact of maternal or paternal age at birth, corrected for the age of the other parent. However, they were unable to correct for the number of children in a family.

Results after stratifying maternal and paternal age showed that, compared with those born to parents aged 25-29 years, there was an increased risk for bipolar disorder in the offspring of both fathers and mothers younger than 20 years of age, with adjusted odds ratios of 1.29 (95% confidence interval, 1.13-1.48) and 1.23 (95% CI, 1.14-1.33), respectively.

Compared with those aged 25-29 years, there was also an increased risk for bipolar disorder in children born to mothers aged 35-39 years (adjusted OR, 1.1; 95% CI, 1.01-1.19) and aged 40 or older (OR, 1.2; 95% CI, 1.02-1.40).

Among fathers, there was increased risk for offspring bipolar disorder in those aged 45 or older vs. those aged 25-29 years (adjusted OR, 1.29; 95% CI, 1.15-1.46).
 

Several hypotheses

There are several hypotheses that could explain the results, lead study author Giovanna Fico, MD, bipolar and depressive disorders unit, Hospital Clínic Barcelona, told this news organization.

In older age, it may be “more related to genetic or epigenetic modification, especially in fathers,” Dr. Fico said. “Some studies have shown that there are de novo mutations in the germ lines, which increase the risk of several diseases, including schizophrenia.”

In younger individuals, there could be a “mixed effect between sociocultural factors, such as substance abuse, low educational status,” and other issues, Dr. Fico noted.

Moreover, as bipolar disorder onset can be as late as 30 years of age, the younger group could include “undiagnosed patients with bipolar disorder, which would increase the risk” of the disease in their offspring, she added.

Dr. Fico noted the investigators are now planning on studying the impact of environmental factors such as pollution, climate change, and urbanization on risk for bipolar disorder, with the aim of being better able to inform parents or to develop prevention strategies.

Psychoeducation is “very common for infertility, birth defects, and Down syndrome, but it’s not so common for psychiatric disorders because we need more data. But I think it’s important that parents know they have an increased risk,” she said.

Nevertheless, “We must stress that this risk is moderate, and it must be kept in perspective,” Dr. Fico said in a news release.
 

‘Exciting’ questions raised

The study “raises several exciting research questions, including the possibility of early prevention and intervention,” Maj Vinberg, MD, PhD, clinical professor, department of clinical medicine, University of Copenhagen, said in the release.

She said she agrees there are likely to be different factors at play at different ages, with the risk for bipolar disorder associated with younger-age parenthood more likely to be related to socioeconomic status.

For older parents, “there has been a lot of speculation around the father’s age especially, which everybody thought didn’t matter,” said Dr. Vinberg, who was not involved with the research.

“But you might have some epigenetic changes as you grow older that might transfer into the next generation,” given that there is 20 years of additional exposure to potential epigenetic changes between a man aged 25 years and one aged 45 years, she noted.

Dr. Vinberg also highlighted that there could be cases of undiagnosed bipolar disorder among the younger parents, and she noted that “men with bipolar disorder tend to have more children,” particularly during manic phases.

She explained that if someone were to get divorced at 35 years of age, then have a new manic episode at 45 “and have a new wife and children, I don’t know whether it’s possible to correct for that.”

The research is supported by a fellowship from “la Caixa” Foundation. The investigators have reported no relevant financial relationships. Dr. Vinberg reported having relationships with Lundbeck and Janssen.

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

VIENNA – Individuals born to younger or older parents are at increased risk of developing bipolar disorder, new research suggests.

Results from a meta-analysis of more than 210,000 patients with bipolar disorder and over 13 million healthy individuals showed that children of mothers younger than 20 years had a 23% increased risk for bipolar disorder vs. those whose parents were aged 25-29 years. For participants whose mothers were aged 35-39 years, there was a 10% increased risk for bipolar disorder, which rose to 20% if the mother was aged 40 or older.

Having a father younger than 20 years conferred a 29% increased risk for bipolar disorder, which was the same increase in risk found in individuals whose fathers were aged 45 years or older.

These findings, which are an update of data published in the journal European Pharmacology, were presented at the 35th European College of Neuropsychopharmacology (ECNP) Congress.
 

Fourteen studies included

Previous studies have suggested that parental age at birth is a risk factor for several psychiatric disorders in offspring, including bipolar disorder, and that advanced parental age, specifically, is associated with earlier onset schizophrenia.

To investigate further, the current researchers conducted a systematic review and meta-analysis, searching the PubMed/MEDLINE, EMBASE, Scopus, and PsychINFO databases for relevant studies published to Dec. 1, 2021.

From 712 studies initially identified, 16 met all the inclusion criteria and 14 were included in the quantitative analysis.

Five studies reported only paternal age and risk for bipolar disorder in their offspring, one included just maternal age, and eight reported both maternal and paternal age in relation to the risk for offspring bipolar disorder.

Individuals with a history of any psychiatric disorders were excluded, leaving a total of 13.4 million individuals without bipolar disorder and 217,089 who had received a diagnosis for the disorder.

The investigators also corrected for both socioeconomic status and, when assessing the impact of maternal or paternal age at birth, corrected for the age of the other parent. However, they were unable to correct for the number of children in a family.

Results after stratifying maternal and paternal age showed that, compared with those born to parents aged 25-29 years, there was an increased risk for bipolar disorder in the offspring of both fathers and mothers younger than 20 years of age, with adjusted odds ratios of 1.29 (95% confidence interval, 1.13-1.48) and 1.23 (95% CI, 1.14-1.33), respectively.

Compared with those aged 25-29 years, there was also an increased risk for bipolar disorder in children born to mothers aged 35-39 years (adjusted OR, 1.1; 95% CI, 1.01-1.19) and aged 40 or older (OR, 1.2; 95% CI, 1.02-1.40).

Among fathers, there was increased risk for offspring bipolar disorder in those aged 45 or older vs. those aged 25-29 years (adjusted OR, 1.29; 95% CI, 1.15-1.46).
 

Several hypotheses

There are several hypotheses that could explain the results, lead study author Giovanna Fico, MD, bipolar and depressive disorders unit, Hospital Clínic Barcelona, told this news organization.

In older age, it may be “more related to genetic or epigenetic modification, especially in fathers,” Dr. Fico said. “Some studies have shown that there are de novo mutations in the germ lines, which increase the risk of several diseases, including schizophrenia.”

In younger individuals, there could be a “mixed effect between sociocultural factors, such as substance abuse, low educational status,” and other issues, Dr. Fico noted.

Moreover, as bipolar disorder onset can be as late as 30 years of age, the younger group could include “undiagnosed patients with bipolar disorder, which would increase the risk” of the disease in their offspring, she added.

Dr. Fico noted the investigators are now planning on studying the impact of environmental factors such as pollution, climate change, and urbanization on risk for bipolar disorder, with the aim of being better able to inform parents or to develop prevention strategies.

Psychoeducation is “very common for infertility, birth defects, and Down syndrome, but it’s not so common for psychiatric disorders because we need more data. But I think it’s important that parents know they have an increased risk,” she said.

Nevertheless, “We must stress that this risk is moderate, and it must be kept in perspective,” Dr. Fico said in a news release.
 

‘Exciting’ questions raised

The study “raises several exciting research questions, including the possibility of early prevention and intervention,” Maj Vinberg, MD, PhD, clinical professor, department of clinical medicine, University of Copenhagen, said in the release.

She said she agrees there are likely to be different factors at play at different ages, with the risk for bipolar disorder associated with younger-age parenthood more likely to be related to socioeconomic status.

For older parents, “there has been a lot of speculation around the father’s age especially, which everybody thought didn’t matter,” said Dr. Vinberg, who was not involved with the research.

“But you might have some epigenetic changes as you grow older that might transfer into the next generation,” given that there is 20 years of additional exposure to potential epigenetic changes between a man aged 25 years and one aged 45 years, she noted.

Dr. Vinberg also highlighted that there could be cases of undiagnosed bipolar disorder among the younger parents, and she noted that “men with bipolar disorder tend to have more children,” particularly during manic phases.

She explained that if someone were to get divorced at 35 years of age, then have a new manic episode at 45 “and have a new wife and children, I don’t know whether it’s possible to correct for that.”

The research is supported by a fellowship from “la Caixa” Foundation. The investigators have reported no relevant financial relationships. Dr. Vinberg reported having relationships with Lundbeck and Janssen.

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

The number of chest reconstruction surgeries performed for adolescents rose nearly fourfold between 2016 and 2019, researchers report in a study published in JAMA Pediatrics.

“To our knowledge, this study is the largest investigation to date of gender-affirming chest reconstruction in a pediatric population. The results demonstrate substantial increases in gender-affirming chest reconstruction for adolescents,” the authors report.

The researchers, from Vanderbilt University School of Medicine, Nashville, Tenn., used the Nationwide Ambulatory Surgery Sample to identify youth with gender dysphoria who underwent top surgery to remove, or, in rare cases, to add breasts.

The authors identified 829 chest surgeries. They adjusted the number to a weighted figure of 1,130 patients who underwent chest reconstruction during the study period. Of those, 98.6% underwent masculinizing surgery to remove breasts, and 1.4% underwent feminizing surgery. Roughly 100 individuals received gender-affirming chest surgeries in 2016. In 2019, the number had risen to 489 – a 389% increase, the authors reported.

Approximately 44% of the patients in the study were aged 17 years at the time of surgery, while 5.5% were younger than 14.

Around 78% of the individuals who underwent chest surgeries in 2019 were White, 2.7% were Black, 12.2% were Hispanic, and 2.5% were Asian or Pacific Islander. Half of the patients who underwent surgery had a household income of $82,000 or more, according to the researchers.

“Most transgender adolescents had either public or private health insurance coverage for these procedures, contrasting with the predominance of self-payers reported in earlier studies on transgender adults,” write the researchers, citing a 2018 study of trends in transgender surgery.

Masculinizing chest reconstruction, such as mastectomy, and feminizing chest reconstruction, such as augmentation mammaplasty, can be performed as outpatient procedures or as ambulatory surgeries, according to another study .

The study was supported by a grant from the National Center for Advancing Translational Sciences Clinical and Translational Science Awards Program. One author has reported receiving grant funding from Merck.

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

The number of chest reconstruction surgeries performed for adolescents rose nearly fourfold between 2016 and 2019, researchers report in a study published in JAMA Pediatrics.

“To our knowledge, this study is the largest investigation to date of gender-affirming chest reconstruction in a pediatric population. The results demonstrate substantial increases in gender-affirming chest reconstruction for adolescents,” the authors report.

The researchers, from Vanderbilt University School of Medicine, Nashville, Tenn., used the Nationwide Ambulatory Surgery Sample to identify youth with gender dysphoria who underwent top surgery to remove, or, in rare cases, to add breasts.

The authors identified 829 chest surgeries. They adjusted the number to a weighted figure of 1,130 patients who underwent chest reconstruction during the study period. Of those, 98.6% underwent masculinizing surgery to remove breasts, and 1.4% underwent feminizing surgery. Roughly 100 individuals received gender-affirming chest surgeries in 2016. In 2019, the number had risen to 489 – a 389% increase, the authors reported.

Approximately 44% of the patients in the study were aged 17 years at the time of surgery, while 5.5% were younger than 14.

Around 78% of the individuals who underwent chest surgeries in 2019 were White, 2.7% were Black, 12.2% were Hispanic, and 2.5% were Asian or Pacific Islander. Half of the patients who underwent surgery had a household income of $82,000 or more, according to the researchers.

“Most transgender adolescents had either public or private health insurance coverage for these procedures, contrasting with the predominance of self-payers reported in earlier studies on transgender adults,” write the researchers, citing a 2018 study of trends in transgender surgery.

Masculinizing chest reconstruction, such as mastectomy, and feminizing chest reconstruction, such as augmentation mammaplasty, can be performed as outpatient procedures or as ambulatory surgeries, according to another study .

The study was supported by a grant from the National Center for Advancing Translational Sciences Clinical and Translational Science Awards Program. One author has reported receiving grant funding from Merck.

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

The number of chest reconstruction surgeries performed for adolescents rose nearly fourfold between 2016 and 2019, researchers report in a study published in JAMA Pediatrics.

“To our knowledge, this study is the largest investigation to date of gender-affirming chest reconstruction in a pediatric population. The results demonstrate substantial increases in gender-affirming chest reconstruction for adolescents,” the authors report.

The researchers, from Vanderbilt University School of Medicine, Nashville, Tenn., used the Nationwide Ambulatory Surgery Sample to identify youth with gender dysphoria who underwent top surgery to remove, or, in rare cases, to add breasts.

The authors identified 829 chest surgeries. They adjusted the number to a weighted figure of 1,130 patients who underwent chest reconstruction during the study period. Of those, 98.6% underwent masculinizing surgery to remove breasts, and 1.4% underwent feminizing surgery. Roughly 100 individuals received gender-affirming chest surgeries in 2016. In 2019, the number had risen to 489 – a 389% increase, the authors reported.

Approximately 44% of the patients in the study were aged 17 years at the time of surgery, while 5.5% were younger than 14.

Around 78% of the individuals who underwent chest surgeries in 2019 were White, 2.7% were Black, 12.2% were Hispanic, and 2.5% were Asian or Pacific Islander. Half of the patients who underwent surgery had a household income of $82,000 or more, according to the researchers.

“Most transgender adolescents had either public or private health insurance coverage for these procedures, contrasting with the predominance of self-payers reported in earlier studies on transgender adults,” write the researchers, citing a 2018 study of trends in transgender surgery.

Masculinizing chest reconstruction, such as mastectomy, and feminizing chest reconstruction, such as augmentation mammaplasty, can be performed as outpatient procedures or as ambulatory surgeries, according to another study .

The study was supported by a grant from the National Center for Advancing Translational Sciences Clinical and Translational Science Awards Program. One author has reported receiving grant funding from Merck.

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

People with a rare genetic condition that causes extremely elevated levels of low-density lipoprotein cholesterol (LDL-C) may miss out on decades of treatment because of a lack of lipid screening in childhood, researchers reported at the annual meeting of the American Academy of Pediatrics.

The condition, homozygous familial hypercholesterolemia (FH), raises the risk for atherosclerotic cardiovascular disease (ASCVD) as early as the first decade of life.

Routine screening for FH is uncommon, however, the researchers said. Lack of familiarity with guidelines and limited access to lipid specialists have been cited as possible reasons for inconsistent screening practices.

“These findings and recent improvement in lipid lowering therapies make a compelling case for rigorous compliance with AAP’s guidelines on lipid screening for children with a family history of FH or ASCVD at age 2,” study coauthor Mary P. McGowan, MD, chief medical officer of the Family Heart Foundation, said in a statement about the new study.
 

Early consequences

To characterize patients with homozygous FH, Dr. McGowan and her colleagues examined data from 67 participants in the CASCADE-FH registry. The Family Heart Foundation created the registry in 2013, and 40 medical centers in the United States contribute data to the repository. The researchers had access to data about patients with homozygous FH from 20 centers in the registry.

Dr. McGowan’s group compared 16 patients with homozygous FH who enrolled in the registry when they were children and 51 patients who were adults at the time of their enrollment.

Patients enrolled as children had a median age at diagnosis of 2 years (interquartile range [IQR], 2-3.5), whereas patients enrolled as adults had a median age at diagnosis of 12.6 years (IQR, 4.1-26.5).

The median untreated level of LDL-C in those enrolled as children was 776 mg/dL (IQR, 704-892). Among those enrolled as adults, it was 533 mg/dL (IQR, 467-702).

Approximately 19% of those enrolled as children had evidence of aortic valve stenosis, and 43.8% had evidence of ASCVD. The median age at onset of ASCVD was 8.9 years. One child was diagnosed with ASCVD at age 2 years and underwent liver transplant at age 4 years. Another was diagnosed with the condition at age 3 years and underwent liver transplant at age 8 years. Two children underwent coronary artery bypass grafting at ages 6 years and 14 years. Five participants underwent liver transplant before age 18 years.

About 56% of participants who enrolled as children had xanthomas, or fat deposits in tendons, and none had corneal arcus — a gray-white line of fat deposits around the edge of the cornea, both of which can indicate homozygous FH in children.

Treatment reduced LDL-C substantially, but only 25% of children achieved goal levels of cholesterol, the researchers reported. Patients who received more lipid-lowering therapies had a better chance of reaching their target levels, they found.

The data raise “the possibility that only children with the most severe phenotypes are diagnosed before adulthood,” the researchers said.

Clinical diagnosis of homozygous FH can be based on LDL-C levels, family history, and the presence of xanthomas, the researchers noted. Many children do not have physical findings, however, and a lipid panel or genetic testing may be necessary.

“There is a clear need to implement universal screening” to identify all children with homozygous FH and heterozygous FH, a less severe and more common form of FH, Dr. McGowan said.
 

Possible missed cases

As many as 1 in 250 people may have heterozygous FH, and 1 in 300,000 people may have homozygous FH, according to estimates. Patients with homozygous FH have two FH genes, one from each parent. In patients with homozygous FH, levels of LDL-C levels typically range between 400 and 1,000 mg/dL without treatment, which is four to 10 times higher than normal concentrations of the blood fat, according to the Family Heart Foundation.

“This study adds to a growing body of literature – including our own work – demonstrating that recommended universal screening occurs in barely 1 in 5 children. This means some patients are not being recognized as having treatable diseases,” said Justin H. Berger, MD, PhD, a pediatric cardiologist at Children’s Hospital of Philadelphia.

Even among children who are at the highest risk for early onset adult-type heart disease, only a quarter to two-thirds receive recommended screening, said Dr. Berger, who was not a member of the study team.

While Dr. Berger advocates universal lipid screening, improving screening rates in practice probably isn’t as simple as telling clinicians to screen more, he said. “Increasing testing will increase health care spending and the burden on busy primary care providers without addressing who will subsequently evaluate and manage children with abnormal lipid screening results,” Dr. Berger said.

Instead, clinicians may want to focus on screening patients who are at risk, which “could have dramatic benefits for their life-long cardiovascular health,” he said.

Dr. McGowan disclosed ties to Abbott and Regeneron, and her coauthors disclosed ties to Esperion Therapeutics and research funding from Regeneron and REGENXBIO. Dr. Berger disclosed no relevant financial relationships.

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

People with a rare genetic condition that causes extremely elevated levels of low-density lipoprotein cholesterol (LDL-C) may miss out on decades of treatment because of a lack of lipid screening in childhood, researchers reported at the annual meeting of the American Academy of Pediatrics.

The condition, homozygous familial hypercholesterolemia (FH), raises the risk for atherosclerotic cardiovascular disease (ASCVD) as early as the first decade of life.

Routine screening for FH is uncommon, however, the researchers said. Lack of familiarity with guidelines and limited access to lipid specialists have been cited as possible reasons for inconsistent screening practices.

“These findings and recent improvement in lipid lowering therapies make a compelling case for rigorous compliance with AAP’s guidelines on lipid screening for children with a family history of FH or ASCVD at age 2,” study coauthor Mary P. McGowan, MD, chief medical officer of the Family Heart Foundation, said in a statement about the new study.
 

Early consequences

To characterize patients with homozygous FH, Dr. McGowan and her colleagues examined data from 67 participants in the CASCADE-FH registry. The Family Heart Foundation created the registry in 2013, and 40 medical centers in the United States contribute data to the repository. The researchers had access to data about patients with homozygous FH from 20 centers in the registry.

Dr. McGowan’s group compared 16 patients with homozygous FH who enrolled in the registry when they were children and 51 patients who were adults at the time of their enrollment.

Patients enrolled as children had a median age at diagnosis of 2 years (interquartile range [IQR], 2-3.5), whereas patients enrolled as adults had a median age at diagnosis of 12.6 years (IQR, 4.1-26.5).

The median untreated level of LDL-C in those enrolled as children was 776 mg/dL (IQR, 704-892). Among those enrolled as adults, it was 533 mg/dL (IQR, 467-702).

Approximately 19% of those enrolled as children had evidence of aortic valve stenosis, and 43.8% had evidence of ASCVD. The median age at onset of ASCVD was 8.9 years. One child was diagnosed with ASCVD at age 2 years and underwent liver transplant at age 4 years. Another was diagnosed with the condition at age 3 years and underwent liver transplant at age 8 years. Two children underwent coronary artery bypass grafting at ages 6 years and 14 years. Five participants underwent liver transplant before age 18 years.

About 56% of participants who enrolled as children had xanthomas, or fat deposits in tendons, and none had corneal arcus — a gray-white line of fat deposits around the edge of the cornea, both of which can indicate homozygous FH in children.

Treatment reduced LDL-C substantially, but only 25% of children achieved goal levels of cholesterol, the researchers reported. Patients who received more lipid-lowering therapies had a better chance of reaching their target levels, they found.

The data raise “the possibility that only children with the most severe phenotypes are diagnosed before adulthood,” the researchers said.

Clinical diagnosis of homozygous FH can be based on LDL-C levels, family history, and the presence of xanthomas, the researchers noted. Many children do not have physical findings, however, and a lipid panel or genetic testing may be necessary.

“There is a clear need to implement universal screening” to identify all children with homozygous FH and heterozygous FH, a less severe and more common form of FH, Dr. McGowan said.
 

Possible missed cases

As many as 1 in 250 people may have heterozygous FH, and 1 in 300,000 people may have homozygous FH, according to estimates. Patients with homozygous FH have two FH genes, one from each parent. In patients with homozygous FH, levels of LDL-C levels typically range between 400 and 1,000 mg/dL without treatment, which is four to 10 times higher than normal concentrations of the blood fat, according to the Family Heart Foundation.

“This study adds to a growing body of literature – including our own work – demonstrating that recommended universal screening occurs in barely 1 in 5 children. This means some patients are not being recognized as having treatable diseases,” said Justin H. Berger, MD, PhD, a pediatric cardiologist at Children’s Hospital of Philadelphia.

Even among children who are at the highest risk for early onset adult-type heart disease, only a quarter to two-thirds receive recommended screening, said Dr. Berger, who was not a member of the study team.

While Dr. Berger advocates universal lipid screening, improving screening rates in practice probably isn’t as simple as telling clinicians to screen more, he said. “Increasing testing will increase health care spending and the burden on busy primary care providers without addressing who will subsequently evaluate and manage children with abnormal lipid screening results,” Dr. Berger said.

Instead, clinicians may want to focus on screening patients who are at risk, which “could have dramatic benefits for their life-long cardiovascular health,” he said.

Dr. McGowan disclosed ties to Abbott and Regeneron, and her coauthors disclosed ties to Esperion Therapeutics and research funding from Regeneron and REGENXBIO. Dr. Berger disclosed no relevant financial relationships.

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

People with a rare genetic condition that causes extremely elevated levels of low-density lipoprotein cholesterol (LDL-C) may miss out on decades of treatment because of a lack of lipid screening in childhood, researchers reported at the annual meeting of the American Academy of Pediatrics.

The condition, homozygous familial hypercholesterolemia (FH), raises the risk for atherosclerotic cardiovascular disease (ASCVD) as early as the first decade of life.

Routine screening for FH is uncommon, however, the researchers said. Lack of familiarity with guidelines and limited access to lipid specialists have been cited as possible reasons for inconsistent screening practices.

“These findings and recent improvement in lipid lowering therapies make a compelling case for rigorous compliance with AAP’s guidelines on lipid screening for children with a family history of FH or ASCVD at age 2,” study coauthor Mary P. McGowan, MD, chief medical officer of the Family Heart Foundation, said in a statement about the new study.
 

Early consequences

To characterize patients with homozygous FH, Dr. McGowan and her colleagues examined data from 67 participants in the CASCADE-FH registry. The Family Heart Foundation created the registry in 2013, and 40 medical centers in the United States contribute data to the repository. The researchers had access to data about patients with homozygous FH from 20 centers in the registry.

Dr. McGowan’s group compared 16 patients with homozygous FH who enrolled in the registry when they were children and 51 patients who were adults at the time of their enrollment.

Patients enrolled as children had a median age at diagnosis of 2 years (interquartile range [IQR], 2-3.5), whereas patients enrolled as adults had a median age at diagnosis of 12.6 years (IQR, 4.1-26.5).

The median untreated level of LDL-C in those enrolled as children was 776 mg/dL (IQR, 704-892). Among those enrolled as adults, it was 533 mg/dL (IQR, 467-702).

Approximately 19% of those enrolled as children had evidence of aortic valve stenosis, and 43.8% had evidence of ASCVD. The median age at onset of ASCVD was 8.9 years. One child was diagnosed with ASCVD at age 2 years and underwent liver transplant at age 4 years. Another was diagnosed with the condition at age 3 years and underwent liver transplant at age 8 years. Two children underwent coronary artery bypass grafting at ages 6 years and 14 years. Five participants underwent liver transplant before age 18 years.

About 56% of participants who enrolled as children had xanthomas, or fat deposits in tendons, and none had corneal arcus — a gray-white line of fat deposits around the edge of the cornea, both of which can indicate homozygous FH in children.

Treatment reduced LDL-C substantially, but only 25% of children achieved goal levels of cholesterol, the researchers reported. Patients who received more lipid-lowering therapies had a better chance of reaching their target levels, they found.

The data raise “the possibility that only children with the most severe phenotypes are diagnosed before adulthood,” the researchers said.

Clinical diagnosis of homozygous FH can be based on LDL-C levels, family history, and the presence of xanthomas, the researchers noted. Many children do not have physical findings, however, and a lipid panel or genetic testing may be necessary.

“There is a clear need to implement universal screening” to identify all children with homozygous FH and heterozygous FH, a less severe and more common form of FH, Dr. McGowan said.
 

Possible missed cases

As many as 1 in 250 people may have heterozygous FH, and 1 in 300,000 people may have homozygous FH, according to estimates. Patients with homozygous FH have two FH genes, one from each parent. In patients with homozygous FH, levels of LDL-C levels typically range between 400 and 1,000 mg/dL without treatment, which is four to 10 times higher than normal concentrations of the blood fat, according to the Family Heart Foundation.

“This study adds to a growing body of literature – including our own work – demonstrating that recommended universal screening occurs in barely 1 in 5 children. This means some patients are not being recognized as having treatable diseases,” said Justin H. Berger, MD, PhD, a pediatric cardiologist at Children’s Hospital of Philadelphia.

Even among children who are at the highest risk for early onset adult-type heart disease, only a quarter to two-thirds receive recommended screening, said Dr. Berger, who was not a member of the study team.

While Dr. Berger advocates universal lipid screening, improving screening rates in practice probably isn’t as simple as telling clinicians to screen more, he said. “Increasing testing will increase health care spending and the burden on busy primary care providers without addressing who will subsequently evaluate and manage children with abnormal lipid screening results,” Dr. Berger said.

Instead, clinicians may want to focus on screening patients who are at risk, which “could have dramatic benefits for their life-long cardiovascular health,” he said.

Dr. McGowan disclosed ties to Abbott and Regeneron, and her coauthors disclosed ties to Esperion Therapeutics and research funding from Regeneron and REGENXBIO. Dr. Berger disclosed no relevant financial relationships.

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

A stuffed animal, aromatherapy, a night light. A kit containing these and other items can help children in foster care who have experienced trauma sleep more soundly, a critical step in helping them cope with their emotional distress. 

In a new study, researchers at the Children’s Hospital of Philadelphia reported that sleep kits specially tailored to foster children appeared to be helpful in most cases. The kits can be distributed by pediatricians in the office or clinic setting.

“Children who have experienced trauma can have issues with behavior, it can impact their school, and they have difficulties sleeping,” said Kristine Fortin, MD, MPH, director of the fostering health program at Safe Place: Center for Child Protection and Health at CHOP. “I thought, what could a pediatrician do in the office in one visit to help children with sleep?”

Dr. Fortin and colleagues designed sleep kits for both younger children and adolescents.

The version for teenagers contained a sound machine, aromatherapy spray, and a sleep mask. The kits for younger children contained matching stuffed toys to share with someone they felt connected to, and a rechargeable night-light. All kits included written materials about sleep hygiene, a journal, and directions for downloading a free age-appropriate relaxation app for belly breathing or a PTSD Coach app from the Department of Veterans Affairs to manage symptoms of trauma.

In a pilot study presented at the annual meeting of the American Academy of Pediatrics, Dr. Fortin and colleagues surveyed caregivers in foster homes about their use of the kits.

Of the 20 foster parents who responded to the survey, 11 said the kits helped “very much,” 5 others reported they helped “somewhat,” another 2 reported no improvements in sleep, and 2 said they didn’t know the effect. The children for whom results were unknown moved from the home without the sleep kit or had difficulties communicating with the foster parents, resulting in incomplete assessment, according to the researchers. 

Night-lights were used most in the kits, followed by the stuffed toys, sound machines, and sleep journals.

Dr. Fortin said existing resources like sleep therapy or medication can be costly or difficult to find, and many pediatricians don’t have enough time during wellness visits to address symptoms like sleep deprivation. She said the sleep kits could be an alternative to other forms of sleep therapy. “If these sleep kits were effective, and could really help them sleep, then maybe less children would need something like medication.”

Dr. Fortin said the kits her group has designed are tailored specifically for children with symptoms of trauma, or with difficult emotions associated with foster care.

“We’ve tried to design something that can be really practical and easy to use in a pediatric visit, where there’s a lot of written information that can be discussed with the child and their family,” Dr. Fortin said.

She added that she would like to see clinicians give out the sleep kits during in-office visits.

“These sleep issues are common in foster children,” she said. “We felt it was important to do an intervention.”

Kristina Lenker, PhD, a sleep psychologist at Penn State Health, Hershey, said children in foster care often struggle with falling or staying asleep, an inability to sleep alone, nightmares, and bed wetting.

“Sleep kits can be particularly helpful for these children, given how they can help caregivers to provide a safe sleep environment and predictable routine, and send messages of safety and comfort at bedtime, with tangible objects, and enable children to feel a sense of control,” she said.

Charitable organizations like Pajama Program and Sleeping Children Around the World provide sleep kits to children from underserved backgrounds. But Candice Alfano, PhD, director of the University of Houston’s Sleep and Anxiety Center of Houston, said the CHOP kits are the first to specifically target sleeping difficulties in foster children.

“Sleep is a largely neglected yet essential area of health, development, and well-being in this highly-vulnerable population of youth, so I am very excited to see this work being done,” Dr. Alfano said in an interview.

Dr. Fortin and Dr. Lenker reported no relevant financial relationships.

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

A stuffed animal, aromatherapy, a night light. A kit containing these and other items can help children in foster care who have experienced trauma sleep more soundly, a critical step in helping them cope with their emotional distress. 

In a new study, researchers at the Children’s Hospital of Philadelphia reported that sleep kits specially tailored to foster children appeared to be helpful in most cases. The kits can be distributed by pediatricians in the office or clinic setting.

“Children who have experienced trauma can have issues with behavior, it can impact their school, and they have difficulties sleeping,” said Kristine Fortin, MD, MPH, director of the fostering health program at Safe Place: Center for Child Protection and Health at CHOP. “I thought, what could a pediatrician do in the office in one visit to help children with sleep?”

Dr. Fortin and colleagues designed sleep kits for both younger children and adolescents.

The version for teenagers contained a sound machine, aromatherapy spray, and a sleep mask. The kits for younger children contained matching stuffed toys to share with someone they felt connected to, and a rechargeable night-light. All kits included written materials about sleep hygiene, a journal, and directions for downloading a free age-appropriate relaxation app for belly breathing or a PTSD Coach app from the Department of Veterans Affairs to manage symptoms of trauma.

In a pilot study presented at the annual meeting of the American Academy of Pediatrics, Dr. Fortin and colleagues surveyed caregivers in foster homes about their use of the kits.

Of the 20 foster parents who responded to the survey, 11 said the kits helped “very much,” 5 others reported they helped “somewhat,” another 2 reported no improvements in sleep, and 2 said they didn’t know the effect. The children for whom results were unknown moved from the home without the sleep kit or had difficulties communicating with the foster parents, resulting in incomplete assessment, according to the researchers. 

Night-lights were used most in the kits, followed by the stuffed toys, sound machines, and sleep journals.

Dr. Fortin said existing resources like sleep therapy or medication can be costly or difficult to find, and many pediatricians don’t have enough time during wellness visits to address symptoms like sleep deprivation. She said the sleep kits could be an alternative to other forms of sleep therapy. “If these sleep kits were effective, and could really help them sleep, then maybe less children would need something like medication.”

Dr. Fortin said the kits her group has designed are tailored specifically for children with symptoms of trauma, or with difficult emotions associated with foster care.

“We’ve tried to design something that can be really practical and easy to use in a pediatric visit, where there’s a lot of written information that can be discussed with the child and their family,” Dr. Fortin said.

She added that she would like to see clinicians give out the sleep kits during in-office visits.

“These sleep issues are common in foster children,” she said. “We felt it was important to do an intervention.”

Kristina Lenker, PhD, a sleep psychologist at Penn State Health, Hershey, said children in foster care often struggle with falling or staying asleep, an inability to sleep alone, nightmares, and bed wetting.

“Sleep kits can be particularly helpful for these children, given how they can help caregivers to provide a safe sleep environment and predictable routine, and send messages of safety and comfort at bedtime, with tangible objects, and enable children to feel a sense of control,” she said.

Charitable organizations like Pajama Program and Sleeping Children Around the World provide sleep kits to children from underserved backgrounds. But Candice Alfano, PhD, director of the University of Houston’s Sleep and Anxiety Center of Houston, said the CHOP kits are the first to specifically target sleeping difficulties in foster children.

“Sleep is a largely neglected yet essential area of health, development, and well-being in this highly-vulnerable population of youth, so I am very excited to see this work being done,” Dr. Alfano said in an interview.

Dr. Fortin and Dr. Lenker reported no relevant financial relationships.

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

A stuffed animal, aromatherapy, a night light. A kit containing these and other items can help children in foster care who have experienced trauma sleep more soundly, a critical step in helping them cope with their emotional distress. 

In a new study, researchers at the Children’s Hospital of Philadelphia reported that sleep kits specially tailored to foster children appeared to be helpful in most cases. The kits can be distributed by pediatricians in the office or clinic setting.

“Children who have experienced trauma can have issues with behavior, it can impact their school, and they have difficulties sleeping,” said Kristine Fortin, MD, MPH, director of the fostering health program at Safe Place: Center for Child Protection and Health at CHOP. “I thought, what could a pediatrician do in the office in one visit to help children with sleep?”

Dr. Fortin and colleagues designed sleep kits for both younger children and adolescents.

The version for teenagers contained a sound machine, aromatherapy spray, and a sleep mask. The kits for younger children contained matching stuffed toys to share with someone they felt connected to, and a rechargeable night-light. All kits included written materials about sleep hygiene, a journal, and directions for downloading a free age-appropriate relaxation app for belly breathing or a PTSD Coach app from the Department of Veterans Affairs to manage symptoms of trauma.

In a pilot study presented at the annual meeting of the American Academy of Pediatrics, Dr. Fortin and colleagues surveyed caregivers in foster homes about their use of the kits.

Of the 20 foster parents who responded to the survey, 11 said the kits helped “very much,” 5 others reported they helped “somewhat,” another 2 reported no improvements in sleep, and 2 said they didn’t know the effect. The children for whom results were unknown moved from the home without the sleep kit or had difficulties communicating with the foster parents, resulting in incomplete assessment, according to the researchers. 

Night-lights were used most in the kits, followed by the stuffed toys, sound machines, and sleep journals.

Dr. Fortin said existing resources like sleep therapy or medication can be costly or difficult to find, and many pediatricians don’t have enough time during wellness visits to address symptoms like sleep deprivation. She said the sleep kits could be an alternative to other forms of sleep therapy. “If these sleep kits were effective, and could really help them sleep, then maybe less children would need something like medication.”

Dr. Fortin said the kits her group has designed are tailored specifically for children with symptoms of trauma, or with difficult emotions associated with foster care.

“We’ve tried to design something that can be really practical and easy to use in a pediatric visit, where there’s a lot of written information that can be discussed with the child and their family,” Dr. Fortin said.

She added that she would like to see clinicians give out the sleep kits during in-office visits.

“These sleep issues are common in foster children,” she said. “We felt it was important to do an intervention.”

Kristina Lenker, PhD, a sleep psychologist at Penn State Health, Hershey, said children in foster care often struggle with falling or staying asleep, an inability to sleep alone, nightmares, and bed wetting.

“Sleep kits can be particularly helpful for these children, given how they can help caregivers to provide a safe sleep environment and predictable routine, and send messages of safety and comfort at bedtime, with tangible objects, and enable children to feel a sense of control,” she said.

Charitable organizations like Pajama Program and Sleeping Children Around the World provide sleep kits to children from underserved backgrounds. But Candice Alfano, PhD, director of the University of Houston’s Sleep and Anxiety Center of Houston, said the CHOP kits are the first to specifically target sleeping difficulties in foster children.

“Sleep is a largely neglected yet essential area of health, development, and well-being in this highly-vulnerable population of youth, so I am very excited to see this work being done,” Dr. Alfano said in an interview.

Dr. Fortin and Dr. Lenker reported no relevant financial relationships.

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

Martha Welch, MD, spent the better part of three decades in private practice treating children with emotional, behavioral, and developmental disorders before accepting a job on the faculty of Columbia University, New York, in 1997.

She took the position, she said, with a mission: to find evidence to support what she’d observed in her practice – that parents could, by making stronger emotional connections, change the trajectory of development for preemie infants.

With that understanding, Dr. Welch created Family Nurture Intervention (FNI), which has been shown to improve the development of premature babies.

“We saw that no matter what happened to the baby, no matter how avoidant the baby might be, we’re able to overcome this with emotional expression,” Dr. Welch said.

Over the course of the intervention, families work with a specialist who helps bring mother and baby together – both physically and emotionally – until both are calm, which can initially take several hours and over time, minutes.

FNI appears to help families – especially mothers – re-establish an emotional connection often interrupted by their babies’ stressful and uncertain stay in a neonatal intensive care unit (NICU). In turn, both the infant and maternal nervous systems become better regulated, according to researchers.
 

Early challenges

Babies born preterm can face a range of short-term and long-term challenges, such as breathing problems due to an underdeveloped respiratory system, an increased risk of infection from an underdeveloped immune system, and learning difficulties, according to the Mayo Clinic.

Many aspects of FNI are not new: The neonatal intensive care unit has long incorporated activities such as scent cloth exchanges, talking to the baby, and skin-to-skin contact. But the approach Dr. Welch and her colleagues advocate emphasizes building a bond between the mother and the infant.

Mounting evidence shows that FNI can improve a wide range of outcomes for premature babies. In a 2021 study, for example, Dr. Welch’s group showed that FNI was associated with lower heart rates among preemies in the NICU. A 2016 study linked the intervention to reduced depression and anxiety symptoms in mothers of preterm infants. And a 2015 randomized controlled trial showed FNI improved development and behavioral outcomes in infants up to 18 months.

A new study published in Science Translational Medicine showed that the intervention led to a greater likelihood that babies had improved cognitive development later on, narrowing the developmental gap between healthy, full-term babies.

Dr. Welch and her colleagues tested to see if FNI measurably changed brain development in preterm infants who were born at 26-34 weeks of a pregnancy.

“We were blown away by the strength of the effect,” said Pauliina Yrjölä, MSc, a doctoral student and medical physicist at the University of Helsinki, who led the study on which Dr. Welch is a co-author.

Mothers in the intervention group made as much eye contact with the infants as possible and spoke with infants about their feelings.

Intimate sensory interactions between mothers and infants physically altered infants’ cortical networks in the brain and was later correlated to improved neurocognitive performance, according to the researchers.

“I was convinced there were physiological changes; I knew that from my clinical work,” Dr. Welch said. “I wanted to show it in this concrete, scientific way.”
 

Preterm babies face many hurdles

“If we can prevent problems in brain network organization to the extent that’s shown in this study and improve their outcomes, this is worth millions of dollars in terms of cost to society, schooling, health care, especially education, and families,” said Ruth Grunau, PhD, a professor in the Division of Neonatology in the department of pediatrics at the University of British Columbia, Vancouver, who was not involved with the most recent study but has worked with Dr. Welch previously.

Babies born too early, especially before 32 weeks, have higher rates of death and disability, according to the Centers for Disease Control and Prevention.

And preterm babies overall may experience breathing problems and feeding difficulties almost immediately following birth. They may also experience long-term problems such as developmental delays, vision problems, and hearing problems.

Dr. Grunau said that while many other programs and interventions have been used in the neonatal intensive care unit to help infants and mothers, the results from FNI stand out.

Ms. Yrjölä said she was surprised by the strength of the correlation as the infants continued to develop. The infants receiving the Family Nurture Intervention showed brain development close to the control group, which was infants born at full-term.

“Emotional connection is a state, not a trait – and a state can be changed,” said Dr. Welch. “And in this case, it can be changed by the parent through emotional expression.”
 

Steps clinicians can take

Dr. Welch said the approach is highly scalable, and two NICUs that participated in the FNI studies have implemented the program as standard care.

The approach is also gaining interest outside of the clinical setting, as preschool partners have expressed interest in implementing some of the methods to promote development.

Parents, family members, and teachers can use many of the FNI techniques – such as eye contact and emotional expression – to continue to develop and strengthen connection.

For clinicians who want to implement parts of the intervention on their own, Dr. Welch said doctors can observe if the baby looks at or turns toward their mother.

Clinicians can encourage mothers to express deep, emotional feelings toward the infant. Dr. Welch stressed that feelings don’t have to be positive, as many mothers with babies in the NICU have a hard time expressing positive emotions. Crying or talking about the difficulties of their childbirth experience count as expressing emotion. The important part is that the baby hears emotion, of any kind, in the mother’s voice, Dr. Welch said.

As the connection develops, it will eventually take less time for the mother and the baby to form a bond, and eventually the pair will become autonomically regulated.

“This is what gives us hope,” she said. “We affect each other in our autonomic nervous systems. It’s why this treatment works.”

The study was funded by the Finnish Pediatric Foundation, The Finnish Academy, the Juselius Foundation, Aivosäätiö, Neuroscience Center at University of Helsinki and Helsinki University Central Hospital, gifts from the Einhorn Family Charitable Trust, the Fleur Fairman Family, M. D. Stephenson, and The National Health and Medical Research Council of Australia. The authors have disclosed no relevant financial relationships.

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

Martha Welch, MD, spent the better part of three decades in private practice treating children with emotional, behavioral, and developmental disorders before accepting a job on the faculty of Columbia University, New York, in 1997.

She took the position, she said, with a mission: to find evidence to support what she’d observed in her practice – that parents could, by making stronger emotional connections, change the trajectory of development for preemie infants.

With that understanding, Dr. Welch created Family Nurture Intervention (FNI), which has been shown to improve the development of premature babies.

“We saw that no matter what happened to the baby, no matter how avoidant the baby might be, we’re able to overcome this with emotional expression,” Dr. Welch said.

Over the course of the intervention, families work with a specialist who helps bring mother and baby together – both physically and emotionally – until both are calm, which can initially take several hours and over time, minutes.

FNI appears to help families – especially mothers – re-establish an emotional connection often interrupted by their babies’ stressful and uncertain stay in a neonatal intensive care unit (NICU). In turn, both the infant and maternal nervous systems become better regulated, according to researchers.
 

Early challenges

Babies born preterm can face a range of short-term and long-term challenges, such as breathing problems due to an underdeveloped respiratory system, an increased risk of infection from an underdeveloped immune system, and learning difficulties, according to the Mayo Clinic.

Many aspects of FNI are not new: The neonatal intensive care unit has long incorporated activities such as scent cloth exchanges, talking to the baby, and skin-to-skin contact. But the approach Dr. Welch and her colleagues advocate emphasizes building a bond between the mother and the infant.

Mounting evidence shows that FNI can improve a wide range of outcomes for premature babies. In a 2021 study, for example, Dr. Welch’s group showed that FNI was associated with lower heart rates among preemies in the NICU. A 2016 study linked the intervention to reduced depression and anxiety symptoms in mothers of preterm infants. And a 2015 randomized controlled trial showed FNI improved development and behavioral outcomes in infants up to 18 months.

A new study published in Science Translational Medicine showed that the intervention led to a greater likelihood that babies had improved cognitive development later on, narrowing the developmental gap between healthy, full-term babies.

Dr. Welch and her colleagues tested to see if FNI measurably changed brain development in preterm infants who were born at 26-34 weeks of a pregnancy.

“We were blown away by the strength of the effect,” said Pauliina Yrjölä, MSc, a doctoral student and medical physicist at the University of Helsinki, who led the study on which Dr. Welch is a co-author.

Mothers in the intervention group made as much eye contact with the infants as possible and spoke with infants about their feelings.

Intimate sensory interactions between mothers and infants physically altered infants’ cortical networks in the brain and was later correlated to improved neurocognitive performance, according to the researchers.

“I was convinced there were physiological changes; I knew that from my clinical work,” Dr. Welch said. “I wanted to show it in this concrete, scientific way.”
 

Preterm babies face many hurdles

“If we can prevent problems in brain network organization to the extent that’s shown in this study and improve their outcomes, this is worth millions of dollars in terms of cost to society, schooling, health care, especially education, and families,” said Ruth Grunau, PhD, a professor in the Division of Neonatology in the department of pediatrics at the University of British Columbia, Vancouver, who was not involved with the most recent study but has worked with Dr. Welch previously.

Babies born too early, especially before 32 weeks, have higher rates of death and disability, according to the Centers for Disease Control and Prevention.

And preterm babies overall may experience breathing problems and feeding difficulties almost immediately following birth. They may also experience long-term problems such as developmental delays, vision problems, and hearing problems.

Dr. Grunau said that while many other programs and interventions have been used in the neonatal intensive care unit to help infants and mothers, the results from FNI stand out.

Ms. Yrjölä said she was surprised by the strength of the correlation as the infants continued to develop. The infants receiving the Family Nurture Intervention showed brain development close to the control group, which was infants born at full-term.

“Emotional connection is a state, not a trait – and a state can be changed,” said Dr. Welch. “And in this case, it can be changed by the parent through emotional expression.”
 

Steps clinicians can take

Dr. Welch said the approach is highly scalable, and two NICUs that participated in the FNI studies have implemented the program as standard care.

The approach is also gaining interest outside of the clinical setting, as preschool partners have expressed interest in implementing some of the methods to promote development.

Parents, family members, and teachers can use many of the FNI techniques – such as eye contact and emotional expression – to continue to develop and strengthen connection.

For clinicians who want to implement parts of the intervention on their own, Dr. Welch said doctors can observe if the baby looks at or turns toward their mother.

Clinicians can encourage mothers to express deep, emotional feelings toward the infant. Dr. Welch stressed that feelings don’t have to be positive, as many mothers with babies in the NICU have a hard time expressing positive emotions. Crying or talking about the difficulties of their childbirth experience count as expressing emotion. The important part is that the baby hears emotion, of any kind, in the mother’s voice, Dr. Welch said.

As the connection develops, it will eventually take less time for the mother and the baby to form a bond, and eventually the pair will become autonomically regulated.

“This is what gives us hope,” she said. “We affect each other in our autonomic nervous systems. It’s why this treatment works.”

The study was funded by the Finnish Pediatric Foundation, The Finnish Academy, the Juselius Foundation, Aivosäätiö, Neuroscience Center at University of Helsinki and Helsinki University Central Hospital, gifts from the Einhorn Family Charitable Trust, the Fleur Fairman Family, M. D. Stephenson, and The National Health and Medical Research Council of Australia. The authors have disclosed no relevant financial relationships.

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

Martha Welch, MD, spent the better part of three decades in private practice treating children with emotional, behavioral, and developmental disorders before accepting a job on the faculty of Columbia University, New York, in 1997.

She took the position, she said, with a mission: to find evidence to support what she’d observed in her practice – that parents could, by making stronger emotional connections, change the trajectory of development for preemie infants.

With that understanding, Dr. Welch created Family Nurture Intervention (FNI), which has been shown to improve the development of premature babies.

“We saw that no matter what happened to the baby, no matter how avoidant the baby might be, we’re able to overcome this with emotional expression,” Dr. Welch said.

Over the course of the intervention, families work with a specialist who helps bring mother and baby together – both physically and emotionally – until both are calm, which can initially take several hours and over time, minutes.

FNI appears to help families – especially mothers – re-establish an emotional connection often interrupted by their babies’ stressful and uncertain stay in a neonatal intensive care unit (NICU). In turn, both the infant and maternal nervous systems become better regulated, according to researchers.
 

Early challenges

Babies born preterm can face a range of short-term and long-term challenges, such as breathing problems due to an underdeveloped respiratory system, an increased risk of infection from an underdeveloped immune system, and learning difficulties, according to the Mayo Clinic.

Many aspects of FNI are not new: The neonatal intensive care unit has long incorporated activities such as scent cloth exchanges, talking to the baby, and skin-to-skin contact. But the approach Dr. Welch and her colleagues advocate emphasizes building a bond between the mother and the infant.

Mounting evidence shows that FNI can improve a wide range of outcomes for premature babies. In a 2021 study, for example, Dr. Welch’s group showed that FNI was associated with lower heart rates among preemies in the NICU. A 2016 study linked the intervention to reduced depression and anxiety symptoms in mothers of preterm infants. And a 2015 randomized controlled trial showed FNI improved development and behavioral outcomes in infants up to 18 months.

A new study published in Science Translational Medicine showed that the intervention led to a greater likelihood that babies had improved cognitive development later on, narrowing the developmental gap between healthy, full-term babies.

Dr. Welch and her colleagues tested to see if FNI measurably changed brain development in preterm infants who were born at 26-34 weeks of a pregnancy.

“We were blown away by the strength of the effect,” said Pauliina Yrjölä, MSc, a doctoral student and medical physicist at the University of Helsinki, who led the study on which Dr. Welch is a co-author.

Mothers in the intervention group made as much eye contact with the infants as possible and spoke with infants about their feelings.

Intimate sensory interactions between mothers and infants physically altered infants’ cortical networks in the brain and was later correlated to improved neurocognitive performance, according to the researchers.

“I was convinced there were physiological changes; I knew that from my clinical work,” Dr. Welch said. “I wanted to show it in this concrete, scientific way.”
 

Preterm babies face many hurdles

“If we can prevent problems in brain network organization to the extent that’s shown in this study and improve their outcomes, this is worth millions of dollars in terms of cost to society, schooling, health care, especially education, and families,” said Ruth Grunau, PhD, a professor in the Division of Neonatology in the department of pediatrics at the University of British Columbia, Vancouver, who was not involved with the most recent study but has worked with Dr. Welch previously.

Babies born too early, especially before 32 weeks, have higher rates of death and disability, according to the Centers for Disease Control and Prevention.

And preterm babies overall may experience breathing problems and feeding difficulties almost immediately following birth. They may also experience long-term problems such as developmental delays, vision problems, and hearing problems.

Dr. Grunau said that while many other programs and interventions have been used in the neonatal intensive care unit to help infants and mothers, the results from FNI stand out.

Ms. Yrjölä said she was surprised by the strength of the correlation as the infants continued to develop. The infants receiving the Family Nurture Intervention showed brain development close to the control group, which was infants born at full-term.

“Emotional connection is a state, not a trait – and a state can be changed,” said Dr. Welch. “And in this case, it can be changed by the parent through emotional expression.”
 

Steps clinicians can take

Dr. Welch said the approach is highly scalable, and two NICUs that participated in the FNI studies have implemented the program as standard care.

The approach is also gaining interest outside of the clinical setting, as preschool partners have expressed interest in implementing some of the methods to promote development.

Parents, family members, and teachers can use many of the FNI techniques – such as eye contact and emotional expression – to continue to develop and strengthen connection.

For clinicians who want to implement parts of the intervention on their own, Dr. Welch said doctors can observe if the baby looks at or turns toward their mother.

Clinicians can encourage mothers to express deep, emotional feelings toward the infant. Dr. Welch stressed that feelings don’t have to be positive, as many mothers with babies in the NICU have a hard time expressing positive emotions. Crying or talking about the difficulties of their childbirth experience count as expressing emotion. The important part is that the baby hears emotion, of any kind, in the mother’s voice, Dr. Welch said.

As the connection develops, it will eventually take less time for the mother and the baby to form a bond, and eventually the pair will become autonomically regulated.

“This is what gives us hope,” she said. “We affect each other in our autonomic nervous systems. It’s why this treatment works.”

The study was funded by the Finnish Pediatric Foundation, The Finnish Academy, the Juselius Foundation, Aivosäätiö, Neuroscience Center at University of Helsinki and Helsinki University Central Hospital, gifts from the Einhorn Family Charitable Trust, the Fleur Fairman Family, M. D. Stephenson, and The National Health and Medical Research Council of Australia. The authors have disclosed no relevant financial relationships.

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

CINCINNATI – Dystonia is a frequent complication seen in cerebral palsy, but it often goes undiagnosed. Using a unique video analysis, researchers have identified some movement features that have the potential to simplify diagnosis.

“[We have] previously demonstrated that by the age of 5 years, only 30% of children seen in a clinical setting have had their predominant motor phenotype identified, including dystonia. This helps demonstrate a broad diagnostic gap and the need for novel solutions,” said Laura Gilbert, DO, during her presentation of the results at the 2022 annual meeting of the Child Neurology Society.

Diagnosis of dystonia is challenging because of its clinical variability, and diagnostic tools often require a trained physician, which limits access to diagnoses. Expert clinician consensus therefore remains the gold standard for diagnosis of dystonia.

Another clinical need is that specific features of dystonia have not been well described in the upper extremities, and the research suggests there could be differences in brain injuries contributing to dystonia in the two domains.

The researchers set out to discover expert-identified features of patient videos that could be used to allow nonexperts to make a diagnosis of dystonia.

The researchers analyzed 26 videos with upper extremity exam maneuvers performed on children with periventricular leukomalacia at St. Louis Children’s Hospital Cerebral Palsy Center from 2005 to 2018. Among the study cohort, 65% of patients were male, 77% were White, and 11% were Black; 24% of patients were Gross Motor Function Classification Scale I, 24% were GMFCS II, 24% were GMFCS III, 16% were GMFCS IV, and 12% were GMFCS V. A total of 12% of patients were older than 20, 11% were aged 15-20, 38% were aged 10-15, 31% were aged 5-10, and 8% were age 5 or younger.
 

Video clues aid diagnosis

Three pediatric movement disorder specialists independently reviewed each video and assessed severity of dystonia. They then met over Zoom to reach a diagnostic consensus for each case.

The research team performed a content analysis of the experts’ discussions and identified specific statement fragments. The frequency of these fragments was then linked to severity of dystonia.

A total of 45% of the statement fragments referenced movement codes, which in turn comprised five content areas: 33% referenced a body part, 24% focused on laterality, 22% described movement features, 18% an action, and 3% described exam maneuvers. Examples included shoulder as a body part, flexion as an action descriptor, brisk as a movement feature, unilateral, and finger-nose-finger for exam maneuver.

With increasing dystonia severity, the shoulder was more often cited and hand was cited less often. Mirror movements, defined as involuntary, contralateral movements that are similar to the voluntary action, occurred more often in patients with no dystonia or only mild dystonia. Variability of movement over time, which is a distinguishing feature found in lower extremities, was not significantly associated with dystonia severity.

Within the category of exam maneuver, hand opening and closing was the most commonly cited, and it was cited more frequently among individuals with mild dystonia (70% vs. about 10% for both no dystonia and moderate to severe dystonia; P < .005).

“So how can we adopt this clinically? First, we can add in a very brief exam maneuver of hand opening and closing that can help assess for mild dystonia. Shoulder involvement may suggest more severe dystonia, and we must recognize the dystonia features seem to differ by body region and the triggering task. Overall, to help improve dystonia diagnosis, we must continue to work towards understanding these salient features to fully grasp the breadth of dystonia manifestations in people with [cerebral palsy],” said Dr. Gilbert, who is a pediatric movements disorder fellow at Washington University in St. Louis.
 

Key features help determine dystonia severity

The study is particularly interesting for its different findings in upper extremities versus lower extremities, according to Keith Coffman, MD, who comoderated the session where the study was presented. “That same group showed that there are very clear differences in lower-extremity function, but when they looked at upper extremity, there really weren’t robust differences. What it may show is that the features of cerebral palsy regarding dystonia may be very dependent on what type of injury you have to your brain. Because when you think about where the motor fibers that provide leg function, they live along the medial walls of the brain right along the midline, whereas the representation of the hand and arm are more out on the lateral side of the brain. So it may be that those regional anatomy differences and where the injury occurred could be at the baseline of why they had such differences in motor function,” said Dr. Coffman, who is a professor of pediatrics at University of Missouri–Kansas City and director of the movement disorders program at Children’s Mercy Hospital, also in Kansas City, Mo.

He suggested that the researchers might also do kinematic analysis of the videos to make predictions using quantitative differences in movement.

The research has the potential to improve dystonia diagnosis, according to comoderator Marc Patterson, MD, professor of neurology, pediatrics, and medical genetics at Mayo Clinic in Rochester, Minn. “I think they really pointed to some key features that can help clinicians distinguish [dystonia severity]. Something like the speed of opening and closing the hands [is a] fairly simple thing. That was to me the chief value of that study,” Dr. Patterson said.

Dr. Gilbert reported no relevant disclosures.

CINCINNATI – Dystonia is a frequent complication seen in cerebral palsy, but it often goes undiagnosed. Using a unique video analysis, researchers have identified some movement features that have the potential to simplify diagnosis.

“[We have] previously demonstrated that by the age of 5 years, only 30% of children seen in a clinical setting have had their predominant motor phenotype identified, including dystonia. This helps demonstrate a broad diagnostic gap and the need for novel solutions,” said Laura Gilbert, DO, during her presentation of the results at the 2022 annual meeting of the Child Neurology Society.

Diagnosis of dystonia is challenging because of its clinical variability, and diagnostic tools often require a trained physician, which limits access to diagnoses. Expert clinician consensus therefore remains the gold standard for diagnosis of dystonia.

Another clinical need is that specific features of dystonia have not been well described in the upper extremities, and the research suggests there could be differences in brain injuries contributing to dystonia in the two domains.

The researchers set out to discover expert-identified features of patient videos that could be used to allow nonexperts to make a diagnosis of dystonia.

The researchers analyzed 26 videos with upper extremity exam maneuvers performed on children with periventricular leukomalacia at St. Louis Children’s Hospital Cerebral Palsy Center from 2005 to 2018. Among the study cohort, 65% of patients were male, 77% were White, and 11% were Black; 24% of patients were Gross Motor Function Classification Scale I, 24% were GMFCS II, 24% were GMFCS III, 16% were GMFCS IV, and 12% were GMFCS V. A total of 12% of patients were older than 20, 11% were aged 15-20, 38% were aged 10-15, 31% were aged 5-10, and 8% were age 5 or younger.
 

Video clues aid diagnosis

Three pediatric movement disorder specialists independently reviewed each video and assessed severity of dystonia. They then met over Zoom to reach a diagnostic consensus for each case.

The research team performed a content analysis of the experts’ discussions and identified specific statement fragments. The frequency of these fragments was then linked to severity of dystonia.

A total of 45% of the statement fragments referenced movement codes, which in turn comprised five content areas: 33% referenced a body part, 24% focused on laterality, 22% described movement features, 18% an action, and 3% described exam maneuvers. Examples included shoulder as a body part, flexion as an action descriptor, brisk as a movement feature, unilateral, and finger-nose-finger for exam maneuver.

With increasing dystonia severity, the shoulder was more often cited and hand was cited less often. Mirror movements, defined as involuntary, contralateral movements that are similar to the voluntary action, occurred more often in patients with no dystonia or only mild dystonia. Variability of movement over time, which is a distinguishing feature found in lower extremities, was not significantly associated with dystonia severity.

Within the category of exam maneuver, hand opening and closing was the most commonly cited, and it was cited more frequently among individuals with mild dystonia (70% vs. about 10% for both no dystonia and moderate to severe dystonia; P < .005).

“So how can we adopt this clinically? First, we can add in a very brief exam maneuver of hand opening and closing that can help assess for mild dystonia. Shoulder involvement may suggest more severe dystonia, and we must recognize the dystonia features seem to differ by body region and the triggering task. Overall, to help improve dystonia diagnosis, we must continue to work towards understanding these salient features to fully grasp the breadth of dystonia manifestations in people with [cerebral palsy],” said Dr. Gilbert, who is a pediatric movements disorder fellow at Washington University in St. Louis.
 

Key features help determine dystonia severity

The study is particularly interesting for its different findings in upper extremities versus lower extremities, according to Keith Coffman, MD, who comoderated the session where the study was presented. “That same group showed that there are very clear differences in lower-extremity function, but when they looked at upper extremity, there really weren’t robust differences. What it may show is that the features of cerebral palsy regarding dystonia may be very dependent on what type of injury you have to your brain. Because when you think about where the motor fibers that provide leg function, they live along the medial walls of the brain right along the midline, whereas the representation of the hand and arm are more out on the lateral side of the brain. So it may be that those regional anatomy differences and where the injury occurred could be at the baseline of why they had such differences in motor function,” said Dr. Coffman, who is a professor of pediatrics at University of Missouri–Kansas City and director of the movement disorders program at Children’s Mercy Hospital, also in Kansas City, Mo.

He suggested that the researchers might also do kinematic analysis of the videos to make predictions using quantitative differences in movement.

The research has the potential to improve dystonia diagnosis, according to comoderator Marc Patterson, MD, professor of neurology, pediatrics, and medical genetics at Mayo Clinic in Rochester, Minn. “I think they really pointed to some key features that can help clinicians distinguish [dystonia severity]. Something like the speed of opening and closing the hands [is a] fairly simple thing. That was to me the chief value of that study,” Dr. Patterson said.

Dr. Gilbert reported no relevant disclosures.

CINCINNATI – Dystonia is a frequent complication seen in cerebral palsy, but it often goes undiagnosed. Using a unique video analysis, researchers have identified some movement features that have the potential to simplify diagnosis.

“[We have] previously demonstrated that by the age of 5 years, only 30% of children seen in a clinical setting have had their predominant motor phenotype identified, including dystonia. This helps demonstrate a broad diagnostic gap and the need for novel solutions,” said Laura Gilbert, DO, during her presentation of the results at the 2022 annual meeting of the Child Neurology Society.

Diagnosis of dystonia is challenging because of its clinical variability, and diagnostic tools often require a trained physician, which limits access to diagnoses. Expert clinician consensus therefore remains the gold standard for diagnosis of dystonia.

Another clinical need is that specific features of dystonia have not been well described in the upper extremities, and the research suggests there could be differences in brain injuries contributing to dystonia in the two domains.

The researchers set out to discover expert-identified features of patient videos that could be used to allow nonexperts to make a diagnosis of dystonia.

The researchers analyzed 26 videos with upper extremity exam maneuvers performed on children with periventricular leukomalacia at St. Louis Children’s Hospital Cerebral Palsy Center from 2005 to 2018. Among the study cohort, 65% of patients were male, 77% were White, and 11% were Black; 24% of patients were Gross Motor Function Classification Scale I, 24% were GMFCS II, 24% were GMFCS III, 16% were GMFCS IV, and 12% were GMFCS V. A total of 12% of patients were older than 20, 11% were aged 15-20, 38% were aged 10-15, 31% were aged 5-10, and 8% were age 5 or younger.
 

Video clues aid diagnosis

Three pediatric movement disorder specialists independently reviewed each video and assessed severity of dystonia. They then met over Zoom to reach a diagnostic consensus for each case.

The research team performed a content analysis of the experts’ discussions and identified specific statement fragments. The frequency of these fragments was then linked to severity of dystonia.

A total of 45% of the statement fragments referenced movement codes, which in turn comprised five content areas: 33% referenced a body part, 24% focused on laterality, 22% described movement features, 18% an action, and 3% described exam maneuvers. Examples included shoulder as a body part, flexion as an action descriptor, brisk as a movement feature, unilateral, and finger-nose-finger for exam maneuver.

With increasing dystonia severity, the shoulder was more often cited and hand was cited less often. Mirror movements, defined as involuntary, contralateral movements that are similar to the voluntary action, occurred more often in patients with no dystonia or only mild dystonia. Variability of movement over time, which is a distinguishing feature found in lower extremities, was not significantly associated with dystonia severity.

Within the category of exam maneuver, hand opening and closing was the most commonly cited, and it was cited more frequently among individuals with mild dystonia (70% vs. about 10% for both no dystonia and moderate to severe dystonia; P < .005).

“So how can we adopt this clinically? First, we can add in a very brief exam maneuver of hand opening and closing that can help assess for mild dystonia. Shoulder involvement may suggest more severe dystonia, and we must recognize the dystonia features seem to differ by body region and the triggering task. Overall, to help improve dystonia diagnosis, we must continue to work towards understanding these salient features to fully grasp the breadth of dystonia manifestations in people with [cerebral palsy],” said Dr. Gilbert, who is a pediatric movements disorder fellow at Washington University in St. Louis.
 

Key features help determine dystonia severity

The study is particularly interesting for its different findings in upper extremities versus lower extremities, according to Keith Coffman, MD, who comoderated the session where the study was presented. “That same group showed that there are very clear differences in lower-extremity function, but when they looked at upper extremity, there really weren’t robust differences. What it may show is that the features of cerebral palsy regarding dystonia may be very dependent on what type of injury you have to your brain. Because when you think about where the motor fibers that provide leg function, they live along the medial walls of the brain right along the midline, whereas the representation of the hand and arm are more out on the lateral side of the brain. So it may be that those regional anatomy differences and where the injury occurred could be at the baseline of why they had such differences in motor function,” said Dr. Coffman, who is a professor of pediatrics at University of Missouri–Kansas City and director of the movement disorders program at Children’s Mercy Hospital, also in Kansas City, Mo.

He suggested that the researchers might also do kinematic analysis of the videos to make predictions using quantitative differences in movement.

The research has the potential to improve dystonia diagnosis, according to comoderator Marc Patterson, MD, professor of neurology, pediatrics, and medical genetics at Mayo Clinic in Rochester, Minn. “I think they really pointed to some key features that can help clinicians distinguish [dystonia severity]. Something like the speed of opening and closing the hands [is a] fairly simple thing. That was to me the chief value of that study,” Dr. Patterson said.

Dr. Gilbert reported no relevant disclosures.

Courtesy of Daniel Stulberg, MD

These lesions, called Bohn nodules, manifest on the buccal or lingual portion of the maxillary alveolar ridge and, less frequently, on the mandibular alveolar ridge. Because Bohn nodules are white and have a firm consistency, they are often confused with teeth. They can be differentiated by location, as teeth usually erupt from the distal aspect of the alveolar ridge.

Bohn nodules are epithelial cysts that are filled with keratin, which gives them their white color. They are caused by portions of epithelium that get trapped under surrounding epithelial cells. Bohn nodules usually resolve when the overlying epithelium ruptures and releases the keratinaceous material (usually by the time the child is 3 months of age).¹

These nodules can be confused with neonatal or supernumerary teeth. Neonatal teeth can be abnormally small and pointed; they are true deciduous teeth that have erupted early. If they are removed, the child will not replace them until the time of their adult tooth eruption. Additionally, there are supernumerary teeth, which are extra teeth that are often abnormally shaped and loosely adherent. These abnormal teeth warrant extraction to avoid trauma to the tongue or aspiration.²

In this case, the family was advised regarding the benign nature of the nodules and the expectation that they would spontaneously resolve.

‌

Images and text courtesy of Daniel Stulberg, MD, FAAFP, Professor and Chair, Department of Family and Community Medicine, Western Michigan University Homer Stryker, MD School of Medicine Kalamazoo.

Courtesy of Daniel Stulberg, MD

These lesions, called Bohn nodules, manifest on the buccal or lingual portion of the maxillary alveolar ridge and, less frequently, on the mandibular alveolar ridge. Because Bohn nodules are white and have a firm consistency, they are often confused with teeth. They can be differentiated by location, as teeth usually erupt from the distal aspect of the alveolar ridge.

Bohn nodules are epithelial cysts that are filled with keratin, which gives them their white color. They are caused by portions of epithelium that get trapped under surrounding epithelial cells. Bohn nodules usually resolve when the overlying epithelium ruptures and releases the keratinaceous material (usually by the time the child is 3 months of age).¹

These nodules can be confused with neonatal or supernumerary teeth. Neonatal teeth can be abnormally small and pointed; they are true deciduous teeth that have erupted early. If they are removed, the child will not replace them until the time of their adult tooth eruption. Additionally, there are supernumerary teeth, which are extra teeth that are often abnormally shaped and loosely adherent. These abnormal teeth warrant extraction to avoid trauma to the tongue or aspiration.²

In this case, the family was advised regarding the benign nature of the nodules and the expectation that they would spontaneously resolve.

‌

Images and text courtesy of Daniel Stulberg, MD, FAAFP, Professor and Chair, Department of Family and Community Medicine, Western Michigan University Homer Stryker, MD School of Medicine Kalamazoo.

Courtesy of Daniel Stulberg, MD

These lesions, called Bohn nodules, manifest on the buccal or lingual portion of the maxillary alveolar ridge and, less frequently, on the mandibular alveolar ridge. Because Bohn nodules are white and have a firm consistency, they are often confused with teeth. They can be differentiated by location, as teeth usually erupt from the distal aspect of the alveolar ridge.

Bohn nodules are epithelial cysts that are filled with keratin, which gives them their white color. They are caused by portions of epithelium that get trapped under surrounding epithelial cells. Bohn nodules usually resolve when the overlying epithelium ruptures and releases the keratinaceous material (usually by the time the child is 3 months of age).¹

These nodules can be confused with neonatal or supernumerary teeth. Neonatal teeth can be abnormally small and pointed; they are true deciduous teeth that have erupted early. If they are removed, the child will not replace them until the time of their adult tooth eruption. Additionally, there are supernumerary teeth, which are extra teeth that are often abnormally shaped and loosely adherent. These abnormal teeth warrant extraction to avoid trauma to the tongue or aspiration.²

In this case, the family was advised regarding the benign nature of the nodules and the expectation that they would spontaneously resolve.

‌

Images and text courtesy of Daniel Stulberg, MD, FAAFP, Professor and Chair, Department of Family and Community Medicine, Western Michigan University Homer Stryker, MD School of Medicine Kalamazoo.

MADRID – Because of the hormone changes that occur throughout their lives, women experience sleep problems that differ significantly from those experienced by men. Indeed, 75%-84% of pregnant women don’t sleep well during the third trimester, and up to 80% of women in menopause have symptoms that prevent them from getting a good night’s rest. For those seeking a precision medicine approach, the challenge is to identify the relationship between the different sex-related phenotypes and the sleep conditions.

Irene Cano, MD, PhD, is the coordinator of the sleep department at the Spanish Society of Pulmonology and Thoracic Surgery. She spoke with this news organization about the significant impact of hormones on sleep disorders in women.

“Reproductive hormones like estrogen and progesterone play a meaningful role in brain functions – not only those linked to the regulation of reproduction but also other physiological processes related to the regulation of circadian rhythms, cognitive performance, mood, and sleep. In addition, other hormones – for example, prolactin, growth hormone, cortisol, and melatonin – have sex-dependent effects on sleep,” Dr. Cano said.

Girls start puberty at a younger age than boys. As girls enter adolescence, they go to bed later and waking up earlier. So, girls are getting less than the 10 hours of sleep that they should be getting at this stage of life. The result is sleep debt, which gives rise to various problems: poor academic performance, ADHD, obesity, and metabolic problems, to name a few. As Ariadna Farré, RN, a sleep unit nurse, noted at SEPAR’s Joint Winter Meeting, “schools would have to start morning classes later to get adolescents to perform well academically. As the situation is now, half of the kids are falling asleep at their desks.”
 

Influencing sleep quality

Dr. Cano explained the issue as follows: “In adolescence, along with changes in young women’s hormone levels, we begin to see differences between the sexes. The changes in levels of estrogens and progesterone are what’s responsible for the changes that, to some extent, cause those disturbances in the quality of our sleep and in the stages of our sleep.”

Thus, sleep can be affected by the changes in hormone level that occur during a menstrual cycle. Estrogens, which increase during the follicular phase, are associated with REM sleep, while progesterone, which increases during the luteal phase, increases non-REM sleep. “In the 3-6 days prior to menstruation, it’s quite common for a woman to report difficulties falling asleep and staying asleep, in connection with a decline in the percentage of time she spends in REM sleep, in the context of premenstrual syndrome. In addition,” Dr. Cano pointed out, “menstrual bleeding, that loss of blood, is associated with a drop in iron levels, making it more likely that the woman will experience restless legs syndrome.”
 

Cardiovascular system

This news organization also spoke with Milagros Merino, MD, PhD, president of the Spanish Sleep Society. “The consequences that lack of sleep have on the cardiovascular system – we’re essentially talking about certain arrhythmias, high blood pressure, thrombosis in some cases, stroke, and heart attack. Lack of sleep also gives rise to endocrine and metabolic issues, like overweight and being at a greater risk of developing diabetes. And as for mental health, we see, among other things, attention and memory problems, emotional lability, and irascibility. Numerous studies have confirmed all of this.”

Sleep apnea also deserves mention, Dr. Merino added. “Although this disorder is more common in men, we’re seeing it more and more now in women, along with the cardiovascular issues that it brings about.”

Another cardiovascular risk factor is insomnia, said Dr. Merino. “This sleep disorder is more prevalent in women. As hormones constantly change, the ways women sleep constantly change, from one stage of life to the next. They sleep one way in childhood, another way in adolescence, and yet another way in menopause.”
 

Sleep in pregnancy

During pregnancy, hormone changes are much more pronounced. During the first trimester, progesterone levels increase, making the woman drowsy. On top of that, her sleep is interrupted by more frequent visits to the bathroom as well as greater general discomfort.

In the second trimester, sleep interruptions persist but are not as bad as they were during the first 3 months. In the third trimester, 75%-84% of pregnant women find it difficult to sleep because of aches and pains, the need to urinate during the night, cramps, and heartburn.

“Major physical changes are happening. When the bladder gets compressed, the woman has to get up and go to the bathroom. There’s an interruption in her sleep,” Ms. Farré explained. In addition, as the pregnancy progresses, the woman gains weight and her body mass index (BMI) increases, which can bring on obstructive sleep apnea, high blood pressure, preeclampsia, and diabetes, if not closely monitored.

Other factors include concomitant treatments, such as contraceptives, and the stages of life, such as pregnancy and lactation. “When a woman of childbearing age has restless legs syndrome, more often than not, this means that she has an iron deficiency that needs to be treated with oral iron supplements,” said Dr. Merino. “However, there are few medications that can be given to a pregnant woman – and RLS is relatively common during pregnancy. So, we have to turn to oral or intravenous iron supplements. Yet another matter is narcolepsy. In these cases, all medications have to be stopped during pregnancy and lactation, as they can be harmful to the baby.”
 

Sleep apnea

While one in five menopausal women are asymptomatic, the others experience mild to severe symptoms of apnea that frequently interrupt their sleep. In this stage of life, which begins around age 50 years, the hormones that had provided protection against sleep disruptions start to decrease. As a result, there is a rise in sleep problems, especially insomnia, breathing-related sleep disorders (for example, apnea), and restless legs syndrome.

The prevalence of breathing-related sleep disorders during menopause is attributable to weight gain, the drop in levels of estrogens, and the redistribution of adipose tissue in the body. Other factors also increase a woman’s risk of experiencing apnea. They range from stress, depression, and other psychological and psychiatric conditions to health status, medication use, and simply the fact of getting older. “Sleep apnea is more common in men than in premenopausal women. The numbers even out, though, when we compare men against menopausal women,” Dr. Cano noted.

In women, symptoms of sleep apnea are frequently attributed to menopause. There is some overlap: insomnia, headache, irritability, low mood, decreased libido, fatigue during the day, and feeling sleepy. Only much later is the woman’s condition correctly diagnosed as sleep apnea. So, even though presenting with the same complaints, a man will be diagnosed with sleep apnea sooner than a woman will – in some cases, around 10 years sooner.

“On the other hand, we’d always thought that, in menopause, insomnia was characterized by awakenings occurring throughout the second half of the night. But perhaps what happens more often is that women are regularly waking up repeatedly over the course of the entire night, as opposed to experiencing a wakefulness that starts early and lasts throughout the night or having a problem falling asleep to begin with,” said Dr. Merino. “The good news is that hormone replacement therapy can get things back to the way they were. And getting better sleep will help to overcome insomnia.”
 

Socioeconomic status

Insomnia is the most common sleep disorder. It affects 10%-20% of people, mostly women. “The fact that sleep problems are more prevalent in women can be explained by the fact that among women, there is a higher incidence of conditions that disrupt sleep, such as depression,” said Dr. Cano.

“Insomnia is much more common in adult women than adult men. And at menopause, women find that the insomnia only gets worse,” Dr. Merino added. “But around that same age, 50 years old, what we start to see more frequently in men is REM sleep behavior disorder, a type of parasomnia that’s a risk marker of degenerative nerve diseases.”

Dr. Cano emphasized one finding that, though basic, is not well known. “After adjusting for socioeconomic characteristics, the difference between the sexes in reporting sleep problems is cut in half. This suggests that an important factor that explains why there are differences in sleep problems between the sexes is that women’s socioeconomic status is generally lower than men’s.

“As for sleep apnea in particular,” Dr. Cano continued, “the kinds of symptoms that women have can be different from the classic ones seen in men – snoring, pauses in breathing, and daytime sleepiness; women are being underdiagnosed, and when they are diagnosed, that’s happening at a later age and at a higher BMI.”

So, it’s alarming that, as reported by SEPAR, 90% of women with obstructive sleep apnea are not being diagnosed.
 

Precision medicine approach

“The majority of research studies on sleep apnea have focused on men – given the prevalence of cases – and the results have been extrapolated to women. This is why there’s still a lot of work to be done in terms of better defining the characteristics specific to each sleep disorder and how they relate to each sex,” said Dr. Cano. “Being able to identify the relationship between the different sex-related phenotypes and each condition will allow us to take a precision medicine approach tailored to a patient’s particular characteristics.”

As Dr. Merino put it: “The approach to sleep disorders is always personalized. The patient’s sex, in and of itself, doesn’t have that great of an impact on this approach. What does have a great impact are women’s life stages. There are some subtle differences here and there, such as types of continuous positive airway pressure machines. The ones that are designed for women have masks that are better suited to their facial features, which differ from men’s.”

A precision medicine approach can be taken to treat any sleep disorder. For insomnia, the approach allows healthcare professionals to employ an appropriate cognitive-behavioral therapy plan or to determine which drugs would be more effective – all on the basis of symptoms and the characteristics of the particular case. Regarding sleep apnea, Dr. Cano explained, “taking into account the different anatomical characteristics or the higher prevalence of positional apnea will also allow us to offer different therapeutic alternatives to continuous positive airway pressure, such as mandibular advancement devices or positional therapy devices.”

Women should be encouraged to develop good sleep habits. These include taking circadian rhythms into account and aligning lifestyles accordingly. It also means going to bed earlier than the men in the household. For menopausal women, recommended sleep habits range from keeping their bedroom at an ideal temperature, following a diet rich in vegetables to avoid becoming overweight, and exercising daily. While this advice may be more applicable to teenagers, adults can benefit from it as well: Electronic devices should be turned off well before bedtime. Whether from a phone screen, a tablet screen, or a TV screen, the light emitted can keep one awake, which can be harmful to one’s health.

Dr. Cano and Dr. Merino disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com. This article was translated from the Medscape Spanish edition.

MADRID – Because of the hormone changes that occur throughout their lives, women experience sleep problems that differ significantly from those experienced by men. Indeed, 75%-84% of pregnant women don’t sleep well during the third trimester, and up to 80% of women in menopause have symptoms that prevent them from getting a good night’s rest. For those seeking a precision medicine approach, the challenge is to identify the relationship between the different sex-related phenotypes and the sleep conditions.

Irene Cano, MD, PhD, is the coordinator of the sleep department at the Spanish Society of Pulmonology and Thoracic Surgery. She spoke with this news organization about the significant impact of hormones on sleep disorders in women.

“Reproductive hormones like estrogen and progesterone play a meaningful role in brain functions – not only those linked to the regulation of reproduction but also other physiological processes related to the regulation of circadian rhythms, cognitive performance, mood, and sleep. In addition, other hormones – for example, prolactin, growth hormone, cortisol, and melatonin – have sex-dependent effects on sleep,” Dr. Cano said.

Girls start puberty at a younger age than boys. As girls enter adolescence, they go to bed later and waking up earlier. So, girls are getting less than the 10 hours of sleep that they should be getting at this stage of life. The result is sleep debt, which gives rise to various problems: poor academic performance, ADHD, obesity, and metabolic problems, to name a few. As Ariadna Farré, RN, a sleep unit nurse, noted at SEPAR’s Joint Winter Meeting, “schools would have to start morning classes later to get adolescents to perform well academically. As the situation is now, half of the kids are falling asleep at their desks.”
 

Influencing sleep quality

Dr. Cano explained the issue as follows: “In adolescence, along with changes in young women’s hormone levels, we begin to see differences between the sexes. The changes in levels of estrogens and progesterone are what’s responsible for the changes that, to some extent, cause those disturbances in the quality of our sleep and in the stages of our sleep.”

Thus, sleep can be affected by the changes in hormone level that occur during a menstrual cycle. Estrogens, which increase during the follicular phase, are associated with REM sleep, while progesterone, which increases during the luteal phase, increases non-REM sleep. “In the 3-6 days prior to menstruation, it’s quite common for a woman to report difficulties falling asleep and staying asleep, in connection with a decline in the percentage of time she spends in REM sleep, in the context of premenstrual syndrome. In addition,” Dr. Cano pointed out, “menstrual bleeding, that loss of blood, is associated with a drop in iron levels, making it more likely that the woman will experience restless legs syndrome.”
 

Cardiovascular system

This news organization also spoke with Milagros Merino, MD, PhD, president of the Spanish Sleep Society. “The consequences that lack of sleep have on the cardiovascular system – we’re essentially talking about certain arrhythmias, high blood pressure, thrombosis in some cases, stroke, and heart attack. Lack of sleep also gives rise to endocrine and metabolic issues, like overweight and being at a greater risk of developing diabetes. And as for mental health, we see, among other things, attention and memory problems, emotional lability, and irascibility. Numerous studies have confirmed all of this.”

Sleep apnea also deserves mention, Dr. Merino added. “Although this disorder is more common in men, we’re seeing it more and more now in women, along with the cardiovascular issues that it brings about.”

Another cardiovascular risk factor is insomnia, said Dr. Merino. “This sleep disorder is more prevalent in women. As hormones constantly change, the ways women sleep constantly change, from one stage of life to the next. They sleep one way in childhood, another way in adolescence, and yet another way in menopause.”
 

Sleep in pregnancy

During pregnancy, hormone changes are much more pronounced. During the first trimester, progesterone levels increase, making the woman drowsy. On top of that, her sleep is interrupted by more frequent visits to the bathroom as well as greater general discomfort.

In the second trimester, sleep interruptions persist but are not as bad as they were during the first 3 months. In the third trimester, 75%-84% of pregnant women find it difficult to sleep because of aches and pains, the need to urinate during the night, cramps, and heartburn.

“Major physical changes are happening. When the bladder gets compressed, the woman has to get up and go to the bathroom. There’s an interruption in her sleep,” Ms. Farré explained. In addition, as the pregnancy progresses, the woman gains weight and her body mass index (BMI) increases, which can bring on obstructive sleep apnea, high blood pressure, preeclampsia, and diabetes, if not closely monitored.

Other factors include concomitant treatments, such as contraceptives, and the stages of life, such as pregnancy and lactation. “When a woman of childbearing age has restless legs syndrome, more often than not, this means that she has an iron deficiency that needs to be treated with oral iron supplements,” said Dr. Merino. “However, there are few medications that can be given to a pregnant woman – and RLS is relatively common during pregnancy. So, we have to turn to oral or intravenous iron supplements. Yet another matter is narcolepsy. In these cases, all medications have to be stopped during pregnancy and lactation, as they can be harmful to the baby.”
 

Sleep apnea

While one in five menopausal women are asymptomatic, the others experience mild to severe symptoms of apnea that frequently interrupt their sleep. In this stage of life, which begins around age 50 years, the hormones that had provided protection against sleep disruptions start to decrease. As a result, there is a rise in sleep problems, especially insomnia, breathing-related sleep disorders (for example, apnea), and restless legs syndrome.

The prevalence of breathing-related sleep disorders during menopause is attributable to weight gain, the drop in levels of estrogens, and the redistribution of adipose tissue in the body. Other factors also increase a woman’s risk of experiencing apnea. They range from stress, depression, and other psychological and psychiatric conditions to health status, medication use, and simply the fact of getting older. “Sleep apnea is more common in men than in premenopausal women. The numbers even out, though, when we compare men against menopausal women,” Dr. Cano noted.

In women, symptoms of sleep apnea are frequently attributed to menopause. There is some overlap: insomnia, headache, irritability, low mood, decreased libido, fatigue during the day, and feeling sleepy. Only much later is the woman’s condition correctly diagnosed as sleep apnea. So, even though presenting with the same complaints, a man will be diagnosed with sleep apnea sooner than a woman will – in some cases, around 10 years sooner.

“On the other hand, we’d always thought that, in menopause, insomnia was characterized by awakenings occurring throughout the second half of the night. But perhaps what happens more often is that women are regularly waking up repeatedly over the course of the entire night, as opposed to experiencing a wakefulness that starts early and lasts throughout the night or having a problem falling asleep to begin with,” said Dr. Merino. “The good news is that hormone replacement therapy can get things back to the way they were. And getting better sleep will help to overcome insomnia.”
 

Socioeconomic status

Insomnia is the most common sleep disorder. It affects 10%-20% of people, mostly women. “The fact that sleep problems are more prevalent in women can be explained by the fact that among women, there is a higher incidence of conditions that disrupt sleep, such as depression,” said Dr. Cano.

“Insomnia is much more common in adult women than adult men. And at menopause, women find that the insomnia only gets worse,” Dr. Merino added. “But around that same age, 50 years old, what we start to see more frequently in men is REM sleep behavior disorder, a type of parasomnia that’s a risk marker of degenerative nerve diseases.”

Dr. Cano emphasized one finding that, though basic, is not well known. “After adjusting for socioeconomic characteristics, the difference between the sexes in reporting sleep problems is cut in half. This suggests that an important factor that explains why there are differences in sleep problems between the sexes is that women’s socioeconomic status is generally lower than men’s.

“As for sleep apnea in particular,” Dr. Cano continued, “the kinds of symptoms that women have can be different from the classic ones seen in men – snoring, pauses in breathing, and daytime sleepiness; women are being underdiagnosed, and when they are diagnosed, that’s happening at a later age and at a higher BMI.”

So, it’s alarming that, as reported by SEPAR, 90% of women with obstructive sleep apnea are not being diagnosed.
 

Precision medicine approach

“The majority of research studies on sleep apnea have focused on men – given the prevalence of cases – and the results have been extrapolated to women. This is why there’s still a lot of work to be done in terms of better defining the characteristics specific to each sleep disorder and how they relate to each sex,” said Dr. Cano. “Being able to identify the relationship between the different sex-related phenotypes and each condition will allow us to take a precision medicine approach tailored to a patient’s particular characteristics.”

As Dr. Merino put it: “The approach to sleep disorders is always personalized. The patient’s sex, in and of itself, doesn’t have that great of an impact on this approach. What does have a great impact are women’s life stages. There are some subtle differences here and there, such as types of continuous positive airway pressure machines. The ones that are designed for women have masks that are better suited to their facial features, which differ from men’s.”

A precision medicine approach can be taken to treat any sleep disorder. For insomnia, the approach allows healthcare professionals to employ an appropriate cognitive-behavioral therapy plan or to determine which drugs would be more effective – all on the basis of symptoms and the characteristics of the particular case. Regarding sleep apnea, Dr. Cano explained, “taking into account the different anatomical characteristics or the higher prevalence of positional apnea will also allow us to offer different therapeutic alternatives to continuous positive airway pressure, such as mandibular advancement devices or positional therapy devices.”

Women should be encouraged to develop good sleep habits. These include taking circadian rhythms into account and aligning lifestyles accordingly. It also means going to bed earlier than the men in the household. For menopausal women, recommended sleep habits range from keeping their bedroom at an ideal temperature, following a diet rich in vegetables to avoid becoming overweight, and exercising daily. While this advice may be more applicable to teenagers, adults can benefit from it as well: Electronic devices should be turned off well before bedtime. Whether from a phone screen, a tablet screen, or a TV screen, the light emitted can keep one awake, which can be harmful to one’s health.

Dr. Cano and Dr. Merino disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com. This article was translated from the Medscape Spanish edition.

MADRID – Because of the hormone changes that occur throughout their lives, women experience sleep problems that differ significantly from those experienced by men. Indeed, 75%-84% of pregnant women don’t sleep well during the third trimester, and up to 80% of women in menopause have symptoms that prevent them from getting a good night’s rest. For those seeking a precision medicine approach, the challenge is to identify the relationship between the different sex-related phenotypes and the sleep conditions.

Irene Cano, MD, PhD, is the coordinator of the sleep department at the Spanish Society of Pulmonology and Thoracic Surgery. She spoke with this news organization about the significant impact of hormones on sleep disorders in women.

“Reproductive hormones like estrogen and progesterone play a meaningful role in brain functions – not only those linked to the regulation of reproduction but also other physiological processes related to the regulation of circadian rhythms, cognitive performance, mood, and sleep. In addition, other hormones – for example, prolactin, growth hormone, cortisol, and melatonin – have sex-dependent effects on sleep,” Dr. Cano said.

Girls start puberty at a younger age than boys. As girls enter adolescence, they go to bed later and waking up earlier. So, girls are getting less than the 10 hours of sleep that they should be getting at this stage of life. The result is sleep debt, which gives rise to various problems: poor academic performance, ADHD, obesity, and metabolic problems, to name a few. As Ariadna Farré, RN, a sleep unit nurse, noted at SEPAR’s Joint Winter Meeting, “schools would have to start morning classes later to get adolescents to perform well academically. As the situation is now, half of the kids are falling asleep at their desks.”
 

Influencing sleep quality

Dr. Cano explained the issue as follows: “In adolescence, along with changes in young women’s hormone levels, we begin to see differences between the sexes. The changes in levels of estrogens and progesterone are what’s responsible for the changes that, to some extent, cause those disturbances in the quality of our sleep and in the stages of our sleep.”

Thus, sleep can be affected by the changes in hormone level that occur during a menstrual cycle. Estrogens, which increase during the follicular phase, are associated with REM sleep, while progesterone, which increases during the luteal phase, increases non-REM sleep. “In the 3-6 days prior to menstruation, it’s quite common for a woman to report difficulties falling asleep and staying asleep, in connection with a decline in the percentage of time she spends in REM sleep, in the context of premenstrual syndrome. In addition,” Dr. Cano pointed out, “menstrual bleeding, that loss of blood, is associated with a drop in iron levels, making it more likely that the woman will experience restless legs syndrome.”
 

Cardiovascular system

This news organization also spoke with Milagros Merino, MD, PhD, president of the Spanish Sleep Society. “The consequences that lack of sleep have on the cardiovascular system – we’re essentially talking about certain arrhythmias, high blood pressure, thrombosis in some cases, stroke, and heart attack. Lack of sleep also gives rise to endocrine and metabolic issues, like overweight and being at a greater risk of developing diabetes. And as for mental health, we see, among other things, attention and memory problems, emotional lability, and irascibility. Numerous studies have confirmed all of this.”

Sleep apnea also deserves mention, Dr. Merino added. “Although this disorder is more common in men, we’re seeing it more and more now in women, along with the cardiovascular issues that it brings about.”

Another cardiovascular risk factor is insomnia, said Dr. Merino. “This sleep disorder is more prevalent in women. As hormones constantly change, the ways women sleep constantly change, from one stage of life to the next. They sleep one way in childhood, another way in adolescence, and yet another way in menopause.”
 

Sleep in pregnancy

During pregnancy, hormone changes are much more pronounced. During the first trimester, progesterone levels increase, making the woman drowsy. On top of that, her sleep is interrupted by more frequent visits to the bathroom as well as greater general discomfort.

In the second trimester, sleep interruptions persist but are not as bad as they were during the first 3 months. In the third trimester, 75%-84% of pregnant women find it difficult to sleep because of aches and pains, the need to urinate during the night, cramps, and heartburn.

“Major physical changes are happening. When the bladder gets compressed, the woman has to get up and go to the bathroom. There’s an interruption in her sleep,” Ms. Farré explained. In addition, as the pregnancy progresses, the woman gains weight and her body mass index (BMI) increases, which can bring on obstructive sleep apnea, high blood pressure, preeclampsia, and diabetes, if not closely monitored.

Other factors include concomitant treatments, such as contraceptives, and the stages of life, such as pregnancy and lactation. “When a woman of childbearing age has restless legs syndrome, more often than not, this means that she has an iron deficiency that needs to be treated with oral iron supplements,” said Dr. Merino. “However, there are few medications that can be given to a pregnant woman – and RLS is relatively common during pregnancy. So, we have to turn to oral or intravenous iron supplements. Yet another matter is narcolepsy. In these cases, all medications have to be stopped during pregnancy and lactation, as they can be harmful to the baby.”
 

Sleep apnea

While one in five menopausal women are asymptomatic, the others experience mild to severe symptoms of apnea that frequently interrupt their sleep. In this stage of life, which begins around age 50 years, the hormones that had provided protection against sleep disruptions start to decrease. As a result, there is a rise in sleep problems, especially insomnia, breathing-related sleep disorders (for example, apnea), and restless legs syndrome.

The prevalence of breathing-related sleep disorders during menopause is attributable to weight gain, the drop in levels of estrogens, and the redistribution of adipose tissue in the body. Other factors also increase a woman’s risk of experiencing apnea. They range from stress, depression, and other psychological and psychiatric conditions to health status, medication use, and simply the fact of getting older. “Sleep apnea is more common in men than in premenopausal women. The numbers even out, though, when we compare men against menopausal women,” Dr. Cano noted.

In women, symptoms of sleep apnea are frequently attributed to menopause. There is some overlap: insomnia, headache, irritability, low mood, decreased libido, fatigue during the day, and feeling sleepy. Only much later is the woman’s condition correctly diagnosed as sleep apnea. So, even though presenting with the same complaints, a man will be diagnosed with sleep apnea sooner than a woman will – in some cases, around 10 years sooner.

“On the other hand, we’d always thought that, in menopause, insomnia was characterized by awakenings occurring throughout the second half of the night. But perhaps what happens more often is that women are regularly waking up repeatedly over the course of the entire night, as opposed to experiencing a wakefulness that starts early and lasts throughout the night or having a problem falling asleep to begin with,” said Dr. Merino. “The good news is that hormone replacement therapy can get things back to the way they were. And getting better sleep will help to overcome insomnia.”
 

Socioeconomic status

Insomnia is the most common sleep disorder. It affects 10%-20% of people, mostly women. “The fact that sleep problems are more prevalent in women can be explained by the fact that among women, there is a higher incidence of conditions that disrupt sleep, such as depression,” said Dr. Cano.

“Insomnia is much more common in adult women than adult men. And at menopause, women find that the insomnia only gets worse,” Dr. Merino added. “But around that same age, 50 years old, what we start to see more frequently in men is REM sleep behavior disorder, a type of parasomnia that’s a risk marker of degenerative nerve diseases.”

Dr. Cano emphasized one finding that, though basic, is not well known. “After adjusting for socioeconomic characteristics, the difference between the sexes in reporting sleep problems is cut in half. This suggests that an important factor that explains why there are differences in sleep problems between the sexes is that women’s socioeconomic status is generally lower than men’s.

“As for sleep apnea in particular,” Dr. Cano continued, “the kinds of symptoms that women have can be different from the classic ones seen in men – snoring, pauses in breathing, and daytime sleepiness; women are being underdiagnosed, and when they are diagnosed, that’s happening at a later age and at a higher BMI.”

So, it’s alarming that, as reported by SEPAR, 90% of women with obstructive sleep apnea are not being diagnosed.
 

Precision medicine approach

“The majority of research studies on sleep apnea have focused on men – given the prevalence of cases – and the results have been extrapolated to women. This is why there’s still a lot of work to be done in terms of better defining the characteristics specific to each sleep disorder and how they relate to each sex,” said Dr. Cano. “Being able to identify the relationship between the different sex-related phenotypes and each condition will allow us to take a precision medicine approach tailored to a patient’s particular characteristics.”

As Dr. Merino put it: “The approach to sleep disorders is always personalized. The patient’s sex, in and of itself, doesn’t have that great of an impact on this approach. What does have a great impact are women’s life stages. There are some subtle differences here and there, such as types of continuous positive airway pressure machines. The ones that are designed for women have masks that are better suited to their facial features, which differ from men’s.”

A precision medicine approach can be taken to treat any sleep disorder. For insomnia, the approach allows healthcare professionals to employ an appropriate cognitive-behavioral therapy plan or to determine which drugs would be more effective – all on the basis of symptoms and the characteristics of the particular case. Regarding sleep apnea, Dr. Cano explained, “taking into account the different anatomical characteristics or the higher prevalence of positional apnea will also allow us to offer different therapeutic alternatives to continuous positive airway pressure, such as mandibular advancement devices or positional therapy devices.”

Women should be encouraged to develop good sleep habits. These include taking circadian rhythms into account and aligning lifestyles accordingly. It also means going to bed earlier than the men in the household. For menopausal women, recommended sleep habits range from keeping their bedroom at an ideal temperature, following a diet rich in vegetables to avoid becoming overweight, and exercising daily. While this advice may be more applicable to teenagers, adults can benefit from it as well: Electronic devices should be turned off well before bedtime. Whether from a phone screen, a tablet screen, or a TV screen, the light emitted can keep one awake, which can be harmful to one’s health.

Dr. Cano and Dr. Merino disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com. This article was translated from the Medscape Spanish edition.

Teens diagnosed with attention-deficit/hyperactivity disorder in childhood reported similar overall quality of life compared with teens with ADHD behaviors but no childhood diagnosis, a new study finds.

The results align with findings from other studies suggesting lower quality of life (QOL) in teens with ADHD, but the current study is the first known to focus on the association between ADHD diagnosis itself vs. ADHD symptoms, and QOL, the researchers wrote. The findings show that at least some of the reduced QOL is associated with the diagnosis itself, they explained.

The researchers directly compared 393 teens with a childhood ADHD diagnosis to 393 matched teens with no ADHD diagnosis but who had hyperactive/inattentive behaviors.

The researchers reviewed self-reports from individuals who were enrolled in a population-based prospective study in Australia. The primary outcome was quality of life at age 14-15, which was measured with Child Health Utility 9D (CHU9D), a validated quality of life measure.
 

Study results

Overall, teens with and without an ADHD diagnosis reported similar levels of overall quality of life; the mean difference in the primary outcome CHU9D score was –0.03 (P = .10). Teens with and without an ADHD diagnosis also showed similar scores on measures of general health, happiness, and peer trust, the researchers noted.

The researchers also reviewed eight other prespecified, self-reported measures: academic self-concept, global health, negative social behaviors, overall happiness, peer trust, psychological sense of school membership, self-efficacy, and self-harm.

Teens diagnosed with ADHD in childhood were more than twice as likely to report self-harm (odds ratio 2.53, P less than .001) and displayed significantly more negative social behaviors (mean difference 1.56, P = .002), compared with teens without an ADHD diagnosis.

Teens diagnosed with ADHD in childhood also scored significantly worse on measures of sense of school membership (mean difference −2.58, P less than .001), academic self-concept (mean difference, −0.14; P = .02), and self-efficacy (mean difference −0.20; P = .007), compared to teens without an ADHD diagnosis.

The average age at ADHD diagnosis was 10 years, and 72% of the ADHD-diagnosed group were boys. No significant differences were noted for levels of hyperactive/inattentive behaviors and between girls and boys, but girls overall and children with the highest levels of hyperactive and inattentive behaviors reported generally worse outcomes, regardless of ADHD diagnosis, the researchers noted.
 

Don’t rush to diagnosis

Although rates of ADHD diagnosis in children continue to rise, the prevalence of hyperactivity and inattentive behaviors appears stable, which suggests a problem with diagnosis, senior author Alexandra Barratt, MBBS, MPH, PhD, professor of public health at the University of Sydney, Australia, said in an interview.

“Our hypothesis was that children who had been diagnosed, and we assume treated for, ADHD would have better outcomes, compared to children matched for hyperactivity/inattention behaviors who were left undiagnosed and untreated, but we were surprised to find that, at best, outcomes were unchanged, and for some outcomes, worse,” Dr. Barratt said.

“Our study provides evidence that diagnosing ADHD may lead, inadvertently, to long-term harms, particularly for children with mild or borderline hyperactivity and inattention behaviors,” she emphasized.

“We can’t say from this study what to do instead, but previously one of our team has looked at stepped diagnosis as an alternative option for children with mild or borderline hyperactivity and inattention behaviors,” she said.

The stepped diagnosis includes such actions as gathering behavior data from multiple sources, and conducting a period of watchful waiting without presumption of a diagnosis or active treatment.

Given the findings of the new study, “I would ask that health professionals considering a child who may have ADHD be aware that there is an evidence gap around the long-term impact of an ADHD diagnosis on children, and to proceed cautiously,” Dr. Barratt said. As for additional research, independent, high-quality, randomized controlled trials of ADHD diagnosis in children with mild or borderline hyperactivity/inattention behaviors are urgently needed, with long-term, patient-centered outcomes including quality of life she noted.

ADHD screening needs improvement

The incidence and prevalence of ADHD is on the rise, but much of the perceived increase in ADHD may be due to overdiagnosis, “and a lack of robust thorough psychological testing as standard of care for diagnosis,” Peter Loper, MD, a pediatrician and psychiatrist at the University of South Carolina, Columbia, said in an interview.

The current study “reinforces the necessity of consistent screening for comorbid mental health problems, and specifically for thoughts of self-harm, in those children who are diagnosed with ADHD,” he said.

Expressing his lack of astonishment about the study findings, Dr. Loper said: “Previous data indicates that while following initial diagnosis of a medical or mental health problem, patients may experience a sense of relief; however, this is followed shortly thereafter by feelings of insufficiency or anxiety related to their specific diagnosis.”

“As it stands now, ADHD is often diagnosed in children and adolescents using basic screening questionnaires,” said Dr. Loper. “The findings of this study may bolster calls for more robust and thorough psychological testing for supporting the diagnosis of ADHD,” he said.

Individuals diagnosed with ADHD can sometimes have difficulty with social skills and relating to others, said Dr. Loper. “They may be more prone to internalize their poor school performance as due to being ‘stupid’ or ‘dumb,’ ” he said. Children and teens with ADHD should, whenever possible, be involved in extracurricular activities that support the development of social skills, he said. Parents’ praise of the process/effort, rather than focusing only on outcomes such as grades, is very important for the esteem of children and teens with ADHD, he added.

The study limitations included the use of observational data vs. data from randomized trials, and the potential for confounding factors in propensity scoring, the researchers wrote. Additional limitations include the size of the sample, which may have been too small to detect additional differences between diagnosed teens and matched controls, they noted.

“As the study authors appropriately cite, a large, randomized trial would be very helpful in supporting additional understanding of this issue,” Dr. Loper added.

The study was supported by the National Health and Medical Research Council The researchers and Dr. Loper had no financial conflicts to disclose.

Teens diagnosed with attention-deficit/hyperactivity disorder in childhood reported similar overall quality of life compared with teens with ADHD behaviors but no childhood diagnosis, a new study finds.

The results align with findings from other studies suggesting lower quality of life (QOL) in teens with ADHD, but the current study is the first known to focus on the association between ADHD diagnosis itself vs. ADHD symptoms, and QOL, the researchers wrote. The findings show that at least some of the reduced QOL is associated with the diagnosis itself, they explained.

The researchers directly compared 393 teens with a childhood ADHD diagnosis to 393 matched teens with no ADHD diagnosis but who had hyperactive/inattentive behaviors.

The researchers reviewed self-reports from individuals who were enrolled in a population-based prospective study in Australia. The primary outcome was quality of life at age 14-15, which was measured with Child Health Utility 9D (CHU9D), a validated quality of life measure.
 

Study results

Overall, teens with and without an ADHD diagnosis reported similar levels of overall quality of life; the mean difference in the primary outcome CHU9D score was –0.03 (P = .10). Teens with and without an ADHD diagnosis also showed similar scores on measures of general health, happiness, and peer trust, the researchers noted.

The researchers also reviewed eight other prespecified, self-reported measures: academic self-concept, global health, negative social behaviors, overall happiness, peer trust, psychological sense of school membership, self-efficacy, and self-harm.

Teens diagnosed with ADHD in childhood were more than twice as likely to report self-harm (odds ratio 2.53, P less than .001) and displayed significantly more negative social behaviors (mean difference 1.56, P = .002), compared with teens without an ADHD diagnosis.

Teens diagnosed with ADHD in childhood also scored significantly worse on measures of sense of school membership (mean difference −2.58, P less than .001), academic self-concept (mean difference, −0.14; P = .02), and self-efficacy (mean difference −0.20; P = .007), compared to teens without an ADHD diagnosis.

The average age at ADHD diagnosis was 10 years, and 72% of the ADHD-diagnosed group were boys. No significant differences were noted for levels of hyperactive/inattentive behaviors and between girls and boys, but girls overall and children with the highest levels of hyperactive and inattentive behaviors reported generally worse outcomes, regardless of ADHD diagnosis, the researchers noted.
 

Don’t rush to diagnosis

Although rates of ADHD diagnosis in children continue to rise, the prevalence of hyperactivity and inattentive behaviors appears stable, which suggests a problem with diagnosis, senior author Alexandra Barratt, MBBS, MPH, PhD, professor of public health at the University of Sydney, Australia, said in an interview.

“Our hypothesis was that children who had been diagnosed, and we assume treated for, ADHD would have better outcomes, compared to children matched for hyperactivity/inattention behaviors who were left undiagnosed and untreated, but we were surprised to find that, at best, outcomes were unchanged, and for some outcomes, worse,” Dr. Barratt said.

“Our study provides evidence that diagnosing ADHD may lead, inadvertently, to long-term harms, particularly for children with mild or borderline hyperactivity and inattention behaviors,” she emphasized.

“We can’t say from this study what to do instead, but previously one of our team has looked at stepped diagnosis as an alternative option for children with mild or borderline hyperactivity and inattention behaviors,” she said.

The stepped diagnosis includes such actions as gathering behavior data from multiple sources, and conducting a period of watchful waiting without presumption of a diagnosis or active treatment.

Given the findings of the new study, “I would ask that health professionals considering a child who may have ADHD be aware that there is an evidence gap around the long-term impact of an ADHD diagnosis on children, and to proceed cautiously,” Dr. Barratt said. As for additional research, independent, high-quality, randomized controlled trials of ADHD diagnosis in children with mild or borderline hyperactivity/inattention behaviors are urgently needed, with long-term, patient-centered outcomes including quality of life she noted.

ADHD screening needs improvement

The incidence and prevalence of ADHD is on the rise, but much of the perceived increase in ADHD may be due to overdiagnosis, “and a lack of robust thorough psychological testing as standard of care for diagnosis,” Peter Loper, MD, a pediatrician and psychiatrist at the University of South Carolina, Columbia, said in an interview.

The current study “reinforces the necessity of consistent screening for comorbid mental health problems, and specifically for thoughts of self-harm, in those children who are diagnosed with ADHD,” he said.

Expressing his lack of astonishment about the study findings, Dr. Loper said: “Previous data indicates that while following initial diagnosis of a medical or mental health problem, patients may experience a sense of relief; however, this is followed shortly thereafter by feelings of insufficiency or anxiety related to their specific diagnosis.”

“As it stands now, ADHD is often diagnosed in children and adolescents using basic screening questionnaires,” said Dr. Loper. “The findings of this study may bolster calls for more robust and thorough psychological testing for supporting the diagnosis of ADHD,” he said.

Individuals diagnosed with ADHD can sometimes have difficulty with social skills and relating to others, said Dr. Loper. “They may be more prone to internalize their poor school performance as due to being ‘stupid’ or ‘dumb,’ ” he said. Children and teens with ADHD should, whenever possible, be involved in extracurricular activities that support the development of social skills, he said. Parents’ praise of the process/effort, rather than focusing only on outcomes such as grades, is very important for the esteem of children and teens with ADHD, he added.

The study limitations included the use of observational data vs. data from randomized trials, and the potential for confounding factors in propensity scoring, the researchers wrote. Additional limitations include the size of the sample, which may have been too small to detect additional differences between diagnosed teens and matched controls, they noted.

“As the study authors appropriately cite, a large, randomized trial would be very helpful in supporting additional understanding of this issue,” Dr. Loper added.

The study was supported by the National Health and Medical Research Council The researchers and Dr. Loper had no financial conflicts to disclose.

Teens diagnosed with attention-deficit/hyperactivity disorder in childhood reported similar overall quality of life compared with teens with ADHD behaviors but no childhood diagnosis, a new study finds.

The results align with findings from other studies suggesting lower quality of life (QOL) in teens with ADHD, but the current study is the first known to focus on the association between ADHD diagnosis itself vs. ADHD symptoms, and QOL, the researchers wrote. The findings show that at least some of the reduced QOL is associated with the diagnosis itself, they explained.

The researchers directly compared 393 teens with a childhood ADHD diagnosis to 393 matched teens with no ADHD diagnosis but who had hyperactive/inattentive behaviors.

The researchers reviewed self-reports from individuals who were enrolled in a population-based prospective study in Australia. The primary outcome was quality of life at age 14-15, which was measured with Child Health Utility 9D (CHU9D), a validated quality of life measure.
 

Study results

Overall, teens with and without an ADHD diagnosis reported similar levels of overall quality of life; the mean difference in the primary outcome CHU9D score was –0.03 (P = .10). Teens with and without an ADHD diagnosis also showed similar scores on measures of general health, happiness, and peer trust, the researchers noted.

The researchers also reviewed eight other prespecified, self-reported measures: academic self-concept, global health, negative social behaviors, overall happiness, peer trust, psychological sense of school membership, self-efficacy, and self-harm.

Teens diagnosed with ADHD in childhood were more than twice as likely to report self-harm (odds ratio 2.53, P less than .001) and displayed significantly more negative social behaviors (mean difference 1.56, P = .002), compared with teens without an ADHD diagnosis.

Teens diagnosed with ADHD in childhood also scored significantly worse on measures of sense of school membership (mean difference −2.58, P less than .001), academic self-concept (mean difference, −0.14; P = .02), and self-efficacy (mean difference −0.20; P = .007), compared to teens without an ADHD diagnosis.

The average age at ADHD diagnosis was 10 years, and 72% of the ADHD-diagnosed group were boys. No significant differences were noted for levels of hyperactive/inattentive behaviors and between girls and boys, but girls overall and children with the highest levels of hyperactive and inattentive behaviors reported generally worse outcomes, regardless of ADHD diagnosis, the researchers noted.
 

Don’t rush to diagnosis

Although rates of ADHD diagnosis in children continue to rise, the prevalence of hyperactivity and inattentive behaviors appears stable, which suggests a problem with diagnosis, senior author Alexandra Barratt, MBBS, MPH, PhD, professor of public health at the University of Sydney, Australia, said in an interview.

“Our hypothesis was that children who had been diagnosed, and we assume treated for, ADHD would have better outcomes, compared to children matched for hyperactivity/inattention behaviors who were left undiagnosed and untreated, but we were surprised to find that, at best, outcomes were unchanged, and for some outcomes, worse,” Dr. Barratt said.

“Our study provides evidence that diagnosing ADHD may lead, inadvertently, to long-term harms, particularly for children with mild or borderline hyperactivity and inattention behaviors,” she emphasized.

“We can’t say from this study what to do instead, but previously one of our team has looked at stepped diagnosis as an alternative option for children with mild or borderline hyperactivity and inattention behaviors,” she said.

The stepped diagnosis includes such actions as gathering behavior data from multiple sources, and conducting a period of watchful waiting without presumption of a diagnosis or active treatment.

Given the findings of the new study, “I would ask that health professionals considering a child who may have ADHD be aware that there is an evidence gap around the long-term impact of an ADHD diagnosis on children, and to proceed cautiously,” Dr. Barratt said. As for additional research, independent, high-quality, randomized controlled trials of ADHD diagnosis in children with mild or borderline hyperactivity/inattention behaviors are urgently needed, with long-term, patient-centered outcomes including quality of life she noted.

ADHD screening needs improvement

The incidence and prevalence of ADHD is on the rise, but much of the perceived increase in ADHD may be due to overdiagnosis, “and a lack of robust thorough psychological testing as standard of care for diagnosis,” Peter Loper, MD, a pediatrician and psychiatrist at the University of South Carolina, Columbia, said in an interview.

The current study “reinforces the necessity of consistent screening for comorbid mental health problems, and specifically for thoughts of self-harm, in those children who are diagnosed with ADHD,” he said.

Expressing his lack of astonishment about the study findings, Dr. Loper said: “Previous data indicates that while following initial diagnosis of a medical or mental health problem, patients may experience a sense of relief; however, this is followed shortly thereafter by feelings of insufficiency or anxiety related to their specific diagnosis.”

“As it stands now, ADHD is often diagnosed in children and adolescents using basic screening questionnaires,” said Dr. Loper. “The findings of this study may bolster calls for more robust and thorough psychological testing for supporting the diagnosis of ADHD,” he said.

Individuals diagnosed with ADHD can sometimes have difficulty with social skills and relating to others, said Dr. Loper. “They may be more prone to internalize their poor school performance as due to being ‘stupid’ or ‘dumb,’ ” he said. Children and teens with ADHD should, whenever possible, be involved in extracurricular activities that support the development of social skills, he said. Parents’ praise of the process/effort, rather than focusing only on outcomes such as grades, is very important for the esteem of children and teens with ADHD, he added.

The study limitations included the use of observational data vs. data from randomized trials, and the potential for confounding factors in propensity scoring, the researchers wrote. Additional limitations include the size of the sample, which may have been too small to detect additional differences between diagnosed teens and matched controls, they noted.

“As the study authors appropriately cite, a large, randomized trial would be very helpful in supporting additional understanding of this issue,” Dr. Loper added.

The study was supported by the National Health and Medical Research Council The researchers and Dr. Loper had no financial conflicts to disclose.

ANAHEIM – A wide range of factors can cause myocarditis; most often viral infections cause myocarditis in children and teens, according to Ryan Butts, MD, medical director of the pediatric advanced cardiac care program at the University of Texas Southwestern Medical Center and Children’s Health of Texas.

Dr. Butts provided an overview of what pediatricians and other clinicians caring for children and teens should know about myocarditis at the annual meeting of the American Academy of Pediatrics.

The important new things that attendees may want to take away from this for their practice are improved recognition and diagnostic workup for acute viral myocarditis, making sure cardiology follow-up occurs after an admission for the condition, enhanced evaluation of the child before they return to competitive sports, and the availability of written or verbal education for patients relating to COVID vaccine–associated myocarditis, Dr. Butts said.

He also provided a set of key takeaways:

• Myocarditis is rare.
• The most common viruses causing myocarditis are always changing.
• Myocarditis is most common in infants and teenagers but it has different clinical patterns in each population.
• MRI is becoming the diagnostic tool of choice.
• IVIG frequently is used but good evidence for the therapy is lacking.
• Patients may go home on cardiac medications but have good long-term outcomes.
• Patients must have a 6-month restriction on competitive sports after diagnosis.

Frank Han, MD, a pediatric cardiologist at OSF Medical Center and Children’s Hospital of Illinois in Peoria, said he found the most helpful parts of Dr. Butts’ presentation to be the diagnosis and triage of myocarditis in the major age groups.

“Myocarditis can have variable presentations, and its cause may influence how the myocarditis behaves,” Dr. Han said. Pediatric cardiologists, he said, are uniquely positioned to triage and diagnose myocarditis.
 

Epidemiology and presentation

Just 0.05% of admissions from 28.6 million U.S. pediatric ED visits every year are for myocarditis, Dr. Butts said. While viruses are the most common cause of myocarditis, bacterial infections and noninfectious causes, including hypersensitivity reactions, systemic disorders, and toxic substances, can also cause the condition. The dominant viruses causing myocarditis have shifted over the years as well. Coxsackie B was the most common cause in the 1980s, but adenovirus became more common in the 1990s and parvovirus B19 in the 2000s. Why some kids develop myocarditis while others don’t is unclear, but the host-immune response to the virus likely plays an important role.

Research has shown two substantial spikes in the incidence of myocarditis children: infants under 2 years old and teens aged 14-19. Although myocarditis refers to any inflammation of myocardium not caused by ischemia, the signs, symptoms, and lab results vary according to patient’s age group. The only constant is that diaphoresis is rare across all ages.

Infants are more likely to show respiratory distress (68%) and an enlarged liver (40%) but can also present with gastrointestinal symptoms (24%). Vomiting without fever or diarrhea should arouse clinical suspicion of myocarditis in infants, although fever and diarrhea can occur.

In young children, who have the lowest incidence, fatigue presents in about one-third, with 20% presenting with chest pain and 20% with hepatomegaly. The most common symptom in teens by far (80%) is chest pain. About one-third also have respiratory distress but gastrointestinal symptoms are less common (20%).

When should a clinician suspect myocarditis in a teen presenting with chest pain? “If the chest pain is reproducible and if you can localize it, they don’t need further evaluation,” Dr. Butts said. “After that, it’s a lot about the history.”

In terms of lab results, ventricular function measured by brain natriuretic peptide is significantly depressed in infants and young children but often near normal in teens. Inflammatory markers (C-reactive protein) tend to be low in infants but elevated in young children and teens. And troponin levels, denoting myocardial injury, are minimal in infants and young children but elevated in teens. Median ejection fraction on echocardiograms, about 55% in normal hearts, will often be low in infants and young children, around 30%-33%, but is near normal (54%) in teens.
 

Diagnosis and management

Cardiac MRI increasingly has been replacing endomyocardial biopsy for diagnosis, with MRI exceeding biopsy use between 2009 and 2010, Dr. Butts said. The advantage of endomyocardial biopsy is that it’s specific, if not very sensitive. The test is invasive, however, requiring sedation and carrying the risk of tricuspid injury. The most common finding on cardiac MRI is late gadolinium enhancement (80%) while early gadolinium enhancement is less common (55%).

Although Dr. Butts mentioned the Dallas diagnostic criteria from 1987, he advocated for the more recent Lake Louise Criteria, which require clinical suspicion of myocarditis and at least two of three findings on MRI: T2-weighted myocardial abnormalities, T1 early or late gadolinium enhancement, or regional wall motion abnormalities or evidence of pericarditis

Point-of-care ultrasound can be useful for detecting myocarditis, but its success depends on whether the user can pick up on the subtle changes in ventricular function. “Just because someone has a point-of-care ultrasound that’s normal or thought to be normal, it shouldn’t rule out the diagnosis,” he said.

Learning the etiology of viral myocarditis often is difficult, and etiology doesn’t affect management of the condition, Dr. Butts said. Even in cases of myocarditis confirmed by biopsy, the virus may be identified in only about 60%-70% of cases with myocardial polymerase chain reaction. In clinical cases, the virus can be determined only about 25%-30% of the time with serum PCR.

Prognosis is usually good, with 80%-90% of children and teens going home transplant free despite most arriving critically ill and 50%-80% initially being admitted to ICU. Two-thirds of those discharged go home with heart failure medications, but only one in six are readmitted within a year.

The strongest risk factors for poor prognosis are younger age and being critically ill at presentation but other risk factors include female sex, poor ventricular function, poor perfusion on exam, increased dilation on echocardiogram, and a need for ECMO or inotropes or mechanical ventilation.

That said, Dr. Butts cautioned attendees not to ignore normal function. In one study of 171 patients, among 75 who presented with normal function, 15% went home with inotropes, 12% required mechanical ventilation, 9% had arrhythmia, and 5% needed extracorporeal membrane oxygenation.

A big question in treatment is whether to give IVIG or not and the evidence is murky, Dr. Butts said. He reviewed a couple studies on IVIG, including one that suggested better ventricular functional recovery with the treatment but those who received IVIG were also more likely to be on an ACE inhibitor.

“Was it the ACE inhibitor or was it IVIG? We don’t know,” he said. Different cardiologists may give different opinions on IVIG. “It has nothing to do with the actual evidence behind it.”

IVIG has drawbacks: It’s very expensive and it involves risks that include serum sickness and interstitial nephritis.

“Pediatricians typically aren’t going to directly decide on giving or not giving IVIG,” Dr. Han said. “Typically, the ultimate choice comes from a group discussion between the hospital cardiologist – perhaps the hospitalist pediatrician if they are involved – and the family. We acknowledge the ambiguity of the evidence and decide based upon the severity of the initial disease process.”
 

Return to competitive sports; Follow-up critical

Experts are much more confident, however, about when teens admitted with viral myocarditis can return to competitive sports. But Dr. Butts said he suspects the guidelines for these children aren’t followed as closely as they should be. The American Heart Association recommends waiting 6 months after discharge and ensuring the athlete has a normal echocardiogram, Holter monitoring, and stress test.

“It’s incredibly important to have them come back and see the cardiologist 6 months after admission,” Dr. Butts said. “The only patient I’ve ever had who died 6-7 months post myocarditis is somebody who, during their stress test, had increasing ventricular ectopy. I told him not to do sports. He didn’t listen to me and unfortunately passed away – I’m assuming from arrhythmia.”
 

COVID and vaccine-associated myocarditis

Vaccine-associated myocarditis is substantially milder than viral myocarditis, Dr. Butts said. A small study from a single center in Atlanta found that ejection fraction at admission was normal, around 56%, in those with vaccine-associated myocarditis, compared with 45% with non-COVID viral myocarditis and 50% with multisystem inflammatory syndrome in children or myocarditis from COVID-19. All patients with vaccine-associated myocarditis had normal function at discharge, compared with 73% of those with viral myocarditis and 93% with COVID-associated myocarditis.

While 22% of those with vaccine-associated myocarditis were admitted to the ICU, twice as many (40%) with viral myocarditis were, and three times as many (68%) with COVID-associated myocarditis ended up in intensive care.

Dr. Butts also noted a Morbidity and Mortality Weekly Report from the Centers of Disease Control and Prevention that found teen boys had two to six times greater risk of heart complications after COVID-19 infection than after COVID vaccination.

In terms of direct comparisons, vaccine-related myocarditis occurred about 12-18 times per 100,000 doses for boys ages 5-11 years, compared with cardiac involvement in 93-133 cases out of 100,000 COVID-19 infections. Boys aged 12-17 years experienced 12-21 cases of myocarditis per 100,000 doses of the vaccine, compared with cardiac involvement in 50-64 out of 100,000 infections.

The bottom line, Dr. Butts said, is that cardiac involvement in MIS-C is common, but typically improves by discharge. “Vaccine-associated myocarditis is a mild clinical syndrome that has a very short duration, and, in my opinion, should never lead us to ever advise anybody not to get the vaccine. I’ve had many patients, even patients in their first year post transplant, who have gotten the COVID-19 vaccine and were just fine.”

Dr. Butts acknowledged that talking with families about the risk of myocarditis with the vaccine is challenging. He often starts these conversations by sharing the statistics, but he said relatable stories are the key. He will also relate the statistics to something the parents and teen will understand, whether it’s sports or another comparison. He does recommend that teens who develop vaccine-associated myocarditis complete the series and get the booster. Their chances of developing myocarditis again are extremely low, whereas “the likelihood of them being really ill from COVID-19 is much, much higher.”

Dr. Butts and Dr. Han had no disclosures. The presentation involved no external funding.

ANAHEIM – A wide range of factors can cause myocarditis; most often viral infections cause myocarditis in children and teens, according to Ryan Butts, MD, medical director of the pediatric advanced cardiac care program at the University of Texas Southwestern Medical Center and Children’s Health of Texas.

Dr. Butts provided an overview of what pediatricians and other clinicians caring for children and teens should know about myocarditis at the annual meeting of the American Academy of Pediatrics.

The important new things that attendees may want to take away from this for their practice are improved recognition and diagnostic workup for acute viral myocarditis, making sure cardiology follow-up occurs after an admission for the condition, enhanced evaluation of the child before they return to competitive sports, and the availability of written or verbal education for patients relating to COVID vaccine–associated myocarditis, Dr. Butts said.

He also provided a set of key takeaways:

• Myocarditis is rare.
• The most common viruses causing myocarditis are always changing.
• Myocarditis is most common in infants and teenagers but it has different clinical patterns in each population.
• MRI is becoming the diagnostic tool of choice.
• IVIG frequently is used but good evidence for the therapy is lacking.
• Patients may go home on cardiac medications but have good long-term outcomes.
• Patients must have a 6-month restriction on competitive sports after diagnosis.

Frank Han, MD, a pediatric cardiologist at OSF Medical Center and Children’s Hospital of Illinois in Peoria, said he found the most helpful parts of Dr. Butts’ presentation to be the diagnosis and triage of myocarditis in the major age groups.

“Myocarditis can have variable presentations, and its cause may influence how the myocarditis behaves,” Dr. Han said. Pediatric cardiologists, he said, are uniquely positioned to triage and diagnose myocarditis.
 

Epidemiology and presentation

Just 0.05% of admissions from 28.6 million U.S. pediatric ED visits every year are for myocarditis, Dr. Butts said. While viruses are the most common cause of myocarditis, bacterial infections and noninfectious causes, including hypersensitivity reactions, systemic disorders, and toxic substances, can also cause the condition. The dominant viruses causing myocarditis have shifted over the years as well. Coxsackie B was the most common cause in the 1980s, but adenovirus became more common in the 1990s and parvovirus B19 in the 2000s. Why some kids develop myocarditis while others don’t is unclear, but the host-immune response to the virus likely plays an important role.

Research has shown two substantial spikes in the incidence of myocarditis children: infants under 2 years old and teens aged 14-19. Although myocarditis refers to any inflammation of myocardium not caused by ischemia, the signs, symptoms, and lab results vary according to patient’s age group. The only constant is that diaphoresis is rare across all ages.

Infants are more likely to show respiratory distress (68%) and an enlarged liver (40%) but can also present with gastrointestinal symptoms (24%). Vomiting without fever or diarrhea should arouse clinical suspicion of myocarditis in infants, although fever and diarrhea can occur.

In young children, who have the lowest incidence, fatigue presents in about one-third, with 20% presenting with chest pain and 20% with hepatomegaly. The most common symptom in teens by far (80%) is chest pain. About one-third also have respiratory distress but gastrointestinal symptoms are less common (20%).

When should a clinician suspect myocarditis in a teen presenting with chest pain? “If the chest pain is reproducible and if you can localize it, they don’t need further evaluation,” Dr. Butts said. “After that, it’s a lot about the history.”

In terms of lab results, ventricular function measured by brain natriuretic peptide is significantly depressed in infants and young children but often near normal in teens. Inflammatory markers (C-reactive protein) tend to be low in infants but elevated in young children and teens. And troponin levels, denoting myocardial injury, are minimal in infants and young children but elevated in teens. Median ejection fraction on echocardiograms, about 55% in normal hearts, will often be low in infants and young children, around 30%-33%, but is near normal (54%) in teens.
 

Diagnosis and management

Cardiac MRI increasingly has been replacing endomyocardial biopsy for diagnosis, with MRI exceeding biopsy use between 2009 and 2010, Dr. Butts said. The advantage of endomyocardial biopsy is that it’s specific, if not very sensitive. The test is invasive, however, requiring sedation and carrying the risk of tricuspid injury. The most common finding on cardiac MRI is late gadolinium enhancement (80%) while early gadolinium enhancement is less common (55%).

Although Dr. Butts mentioned the Dallas diagnostic criteria from 1987, he advocated for the more recent Lake Louise Criteria, which require clinical suspicion of myocarditis and at least two of three findings on MRI: T2-weighted myocardial abnormalities, T1 early or late gadolinium enhancement, or regional wall motion abnormalities or evidence of pericarditis

Point-of-care ultrasound can be useful for detecting myocarditis, but its success depends on whether the user can pick up on the subtle changes in ventricular function. “Just because someone has a point-of-care ultrasound that’s normal or thought to be normal, it shouldn’t rule out the diagnosis,” he said.

Learning the etiology of viral myocarditis often is difficult, and etiology doesn’t affect management of the condition, Dr. Butts said. Even in cases of myocarditis confirmed by biopsy, the virus may be identified in only about 60%-70% of cases with myocardial polymerase chain reaction. In clinical cases, the virus can be determined only about 25%-30% of the time with serum PCR.

Prognosis is usually good, with 80%-90% of children and teens going home transplant free despite most arriving critically ill and 50%-80% initially being admitted to ICU. Two-thirds of those discharged go home with heart failure medications, but only one in six are readmitted within a year.

The strongest risk factors for poor prognosis are younger age and being critically ill at presentation but other risk factors include female sex, poor ventricular function, poor perfusion on exam, increased dilation on echocardiogram, and a need for ECMO or inotropes or mechanical ventilation.

That said, Dr. Butts cautioned attendees not to ignore normal function. In one study of 171 patients, among 75 who presented with normal function, 15% went home with inotropes, 12% required mechanical ventilation, 9% had arrhythmia, and 5% needed extracorporeal membrane oxygenation.

A big question in treatment is whether to give IVIG or not and the evidence is murky, Dr. Butts said. He reviewed a couple studies on IVIG, including one that suggested better ventricular functional recovery with the treatment but those who received IVIG were also more likely to be on an ACE inhibitor.

“Was it the ACE inhibitor or was it IVIG? We don’t know,” he said. Different cardiologists may give different opinions on IVIG. “It has nothing to do with the actual evidence behind it.”

IVIG has drawbacks: It’s very expensive and it involves risks that include serum sickness and interstitial nephritis.

“Pediatricians typically aren’t going to directly decide on giving or not giving IVIG,” Dr. Han said. “Typically, the ultimate choice comes from a group discussion between the hospital cardiologist – perhaps the hospitalist pediatrician if they are involved – and the family. We acknowledge the ambiguity of the evidence and decide based upon the severity of the initial disease process.”
 

Return to competitive sports; Follow-up critical

Experts are much more confident, however, about when teens admitted with viral myocarditis can return to competitive sports. But Dr. Butts said he suspects the guidelines for these children aren’t followed as closely as they should be. The American Heart Association recommends waiting 6 months after discharge and ensuring the athlete has a normal echocardiogram, Holter monitoring, and stress test.

“It’s incredibly important to have them come back and see the cardiologist 6 months after admission,” Dr. Butts said. “The only patient I’ve ever had who died 6-7 months post myocarditis is somebody who, during their stress test, had increasing ventricular ectopy. I told him not to do sports. He didn’t listen to me and unfortunately passed away – I’m assuming from arrhythmia.”
 

COVID and vaccine-associated myocarditis

Vaccine-associated myocarditis is substantially milder than viral myocarditis, Dr. Butts said. A small study from a single center in Atlanta found that ejection fraction at admission was normal, around 56%, in those with vaccine-associated myocarditis, compared with 45% with non-COVID viral myocarditis and 50% with multisystem inflammatory syndrome in children or myocarditis from COVID-19. All patients with vaccine-associated myocarditis had normal function at discharge, compared with 73% of those with viral myocarditis and 93% with COVID-associated myocarditis.

While 22% of those with vaccine-associated myocarditis were admitted to the ICU, twice as many (40%) with viral myocarditis were, and three times as many (68%) with COVID-associated myocarditis ended up in intensive care.

Dr. Butts also noted a Morbidity and Mortality Weekly Report from the Centers of Disease Control and Prevention that found teen boys had two to six times greater risk of heart complications after COVID-19 infection than after COVID vaccination.

In terms of direct comparisons, vaccine-related myocarditis occurred about 12-18 times per 100,000 doses for boys ages 5-11 years, compared with cardiac involvement in 93-133 cases out of 100,000 COVID-19 infections. Boys aged 12-17 years experienced 12-21 cases of myocarditis per 100,000 doses of the vaccine, compared with cardiac involvement in 50-64 out of 100,000 infections.

The bottom line, Dr. Butts said, is that cardiac involvement in MIS-C is common, but typically improves by discharge. “Vaccine-associated myocarditis is a mild clinical syndrome that has a very short duration, and, in my opinion, should never lead us to ever advise anybody not to get the vaccine. I’ve had many patients, even patients in their first year post transplant, who have gotten the COVID-19 vaccine and were just fine.”

Dr. Butts acknowledged that talking with families about the risk of myocarditis with the vaccine is challenging. He often starts these conversations by sharing the statistics, but he said relatable stories are the key. He will also relate the statistics to something the parents and teen will understand, whether it’s sports or another comparison. He does recommend that teens who develop vaccine-associated myocarditis complete the series and get the booster. Their chances of developing myocarditis again are extremely low, whereas “the likelihood of them being really ill from COVID-19 is much, much higher.”

Dr. Butts and Dr. Han had no disclosures. The presentation involved no external funding.

ANAHEIM – A wide range of factors can cause myocarditis; most often viral infections cause myocarditis in children and teens, according to Ryan Butts, MD, medical director of the pediatric advanced cardiac care program at the University of Texas Southwestern Medical Center and Children’s Health of Texas.

Dr. Butts provided an overview of what pediatricians and other clinicians caring for children and teens should know about myocarditis at the annual meeting of the American Academy of Pediatrics.

The important new things that attendees may want to take away from this for their practice are improved recognition and diagnostic workup for acute viral myocarditis, making sure cardiology follow-up occurs after an admission for the condition, enhanced evaluation of the child before they return to competitive sports, and the availability of written or verbal education for patients relating to COVID vaccine–associated myocarditis, Dr. Butts said.

He also provided a set of key takeaways:

• Myocarditis is rare.
• The most common viruses causing myocarditis are always changing.
• Myocarditis is most common in infants and teenagers but it has different clinical patterns in each population.
• MRI is becoming the diagnostic tool of choice.
• IVIG frequently is used but good evidence for the therapy is lacking.
• Patients may go home on cardiac medications but have good long-term outcomes.
• Patients must have a 6-month restriction on competitive sports after diagnosis.

Frank Han, MD, a pediatric cardiologist at OSF Medical Center and Children’s Hospital of Illinois in Peoria, said he found the most helpful parts of Dr. Butts’ presentation to be the diagnosis and triage of myocarditis in the major age groups.

“Myocarditis can have variable presentations, and its cause may influence how the myocarditis behaves,” Dr. Han said. Pediatric cardiologists, he said, are uniquely positioned to triage and diagnose myocarditis.
 

Epidemiology and presentation

Just 0.05% of admissions from 28.6 million U.S. pediatric ED visits every year are for myocarditis, Dr. Butts said. While viruses are the most common cause of myocarditis, bacterial infections and noninfectious causes, including hypersensitivity reactions, systemic disorders, and toxic substances, can also cause the condition. The dominant viruses causing myocarditis have shifted over the years as well. Coxsackie B was the most common cause in the 1980s, but adenovirus became more common in the 1990s and parvovirus B19 in the 2000s. Why some kids develop myocarditis while others don’t is unclear, but the host-immune response to the virus likely plays an important role.

Research has shown two substantial spikes in the incidence of myocarditis children: infants under 2 years old and teens aged 14-19. Although myocarditis refers to any inflammation of myocardium not caused by ischemia, the signs, symptoms, and lab results vary according to patient’s age group. The only constant is that diaphoresis is rare across all ages.

Infants are more likely to show respiratory distress (68%) and an enlarged liver (40%) but can also present with gastrointestinal symptoms (24%). Vomiting without fever or diarrhea should arouse clinical suspicion of myocarditis in infants, although fever and diarrhea can occur.

In young children, who have the lowest incidence, fatigue presents in about one-third, with 20% presenting with chest pain and 20% with hepatomegaly. The most common symptom in teens by far (80%) is chest pain. About one-third also have respiratory distress but gastrointestinal symptoms are less common (20%).

When should a clinician suspect myocarditis in a teen presenting with chest pain? “If the chest pain is reproducible and if you can localize it, they don’t need further evaluation,” Dr. Butts said. “After that, it’s a lot about the history.”

In terms of lab results, ventricular function measured by brain natriuretic peptide is significantly depressed in infants and young children but often near normal in teens. Inflammatory markers (C-reactive protein) tend to be low in infants but elevated in young children and teens. And troponin levels, denoting myocardial injury, are minimal in infants and young children but elevated in teens. Median ejection fraction on echocardiograms, about 55% in normal hearts, will often be low in infants and young children, around 30%-33%, but is near normal (54%) in teens.
 

Diagnosis and management

Cardiac MRI increasingly has been replacing endomyocardial biopsy for diagnosis, with MRI exceeding biopsy use between 2009 and 2010, Dr. Butts said. The advantage of endomyocardial biopsy is that it’s specific, if not very sensitive. The test is invasive, however, requiring sedation and carrying the risk of tricuspid injury. The most common finding on cardiac MRI is late gadolinium enhancement (80%) while early gadolinium enhancement is less common (55%).

Although Dr. Butts mentioned the Dallas diagnostic criteria from 1987, he advocated for the more recent Lake Louise Criteria, which require clinical suspicion of myocarditis and at least two of three findings on MRI: T2-weighted myocardial abnormalities, T1 early or late gadolinium enhancement, or regional wall motion abnormalities or evidence of pericarditis

Point-of-care ultrasound can be useful for detecting myocarditis, but its success depends on whether the user can pick up on the subtle changes in ventricular function. “Just because someone has a point-of-care ultrasound that’s normal or thought to be normal, it shouldn’t rule out the diagnosis,” he said.

Learning the etiology of viral myocarditis often is difficult, and etiology doesn’t affect management of the condition, Dr. Butts said. Even in cases of myocarditis confirmed by biopsy, the virus may be identified in only about 60%-70% of cases with myocardial polymerase chain reaction. In clinical cases, the virus can be determined only about 25%-30% of the time with serum PCR.

Prognosis is usually good, with 80%-90% of children and teens going home transplant free despite most arriving critically ill and 50%-80% initially being admitted to ICU. Two-thirds of those discharged go home with heart failure medications, but only one in six are readmitted within a year.

The strongest risk factors for poor prognosis are younger age and being critically ill at presentation but other risk factors include female sex, poor ventricular function, poor perfusion on exam, increased dilation on echocardiogram, and a need for ECMO or inotropes or mechanical ventilation.

That said, Dr. Butts cautioned attendees not to ignore normal function. In one study of 171 patients, among 75 who presented with normal function, 15% went home with inotropes, 12% required mechanical ventilation, 9% had arrhythmia, and 5% needed extracorporeal membrane oxygenation.

A big question in treatment is whether to give IVIG or not and the evidence is murky, Dr. Butts said. He reviewed a couple studies on IVIG, including one that suggested better ventricular functional recovery with the treatment but those who received IVIG were also more likely to be on an ACE inhibitor.

“Was it the ACE inhibitor or was it IVIG? We don’t know,” he said. Different cardiologists may give different opinions on IVIG. “It has nothing to do with the actual evidence behind it.”

IVIG has drawbacks: It’s very expensive and it involves risks that include serum sickness and interstitial nephritis.

“Pediatricians typically aren’t going to directly decide on giving or not giving IVIG,” Dr. Han said. “Typically, the ultimate choice comes from a group discussion between the hospital cardiologist – perhaps the hospitalist pediatrician if they are involved – and the family. We acknowledge the ambiguity of the evidence and decide based upon the severity of the initial disease process.”
 

Return to competitive sports; Follow-up critical

Experts are much more confident, however, about when teens admitted with viral myocarditis can return to competitive sports. But Dr. Butts said he suspects the guidelines for these children aren’t followed as closely as they should be. The American Heart Association recommends waiting 6 months after discharge and ensuring the athlete has a normal echocardiogram, Holter monitoring, and stress test.

“It’s incredibly important to have them come back and see the cardiologist 6 months after admission,” Dr. Butts said. “The only patient I’ve ever had who died 6-7 months post myocarditis is somebody who, during their stress test, had increasing ventricular ectopy. I told him not to do sports. He didn’t listen to me and unfortunately passed away – I’m assuming from arrhythmia.”
 

COVID and vaccine-associated myocarditis

Vaccine-associated myocarditis is substantially milder than viral myocarditis, Dr. Butts said. A small study from a single center in Atlanta found that ejection fraction at admission was normal, around 56%, in those with vaccine-associated myocarditis, compared with 45% with non-COVID viral myocarditis and 50% with multisystem inflammatory syndrome in children or myocarditis from COVID-19. All patients with vaccine-associated myocarditis had normal function at discharge, compared with 73% of those with viral myocarditis and 93% with COVID-associated myocarditis.

While 22% of those with vaccine-associated myocarditis were admitted to the ICU, twice as many (40%) with viral myocarditis were, and three times as many (68%) with COVID-associated myocarditis ended up in intensive care.

Dr. Butts also noted a Morbidity and Mortality Weekly Report from the Centers of Disease Control and Prevention that found teen boys had two to six times greater risk of heart complications after COVID-19 infection than after COVID vaccination.

In terms of direct comparisons, vaccine-related myocarditis occurred about 12-18 times per 100,000 doses for boys ages 5-11 years, compared with cardiac involvement in 93-133 cases out of 100,000 COVID-19 infections. Boys aged 12-17 years experienced 12-21 cases of myocarditis per 100,000 doses of the vaccine, compared with cardiac involvement in 50-64 out of 100,000 infections.

The bottom line, Dr. Butts said, is that cardiac involvement in MIS-C is common, but typically improves by discharge. “Vaccine-associated myocarditis is a mild clinical syndrome that has a very short duration, and, in my opinion, should never lead us to ever advise anybody not to get the vaccine. I’ve had many patients, even patients in their first year post transplant, who have gotten the COVID-19 vaccine and were just fine.”

Dr. Butts acknowledged that talking with families about the risk of myocarditis with the vaccine is challenging. He often starts these conversations by sharing the statistics, but he said relatable stories are the key. He will also relate the statistics to something the parents and teen will understand, whether it’s sports or another comparison. He does recommend that teens who develop vaccine-associated myocarditis complete the series and get the booster. Their chances of developing myocarditis again are extremely low, whereas “the likelihood of them being really ill from COVID-19 is much, much higher.”

Dr. Butts and Dr. Han had no disclosures. The presentation involved no external funding.