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Differences in brain structure linked to social disadvantage
Brain volume disparities among young children of different races may be attributable to adverse childhood experiences related to socioeconomic conditions and structural racism, new research suggests.
Investigators from the Belmont, Mass.–based McLean Hospital, an affiliate of Mass General Brigham, found that 9- and 10-year-old children of different racial and socioeconomic backgrounds have subtle neurobiological differences in gray matter volume in certain brain regions associated with trauma and stress.
Lead investigator Nathaniel Harnett, PhD, of the department of psychiatry at Harvard Medical School, Boston, believes this research shows evidence that “structural racism” – broad socioeconomic disadvantages that lead to poverty and emotional trauma – may affect brain structures and growth and ultimately may lead to psychiatric illness.
“For clinicians, I think the take-home message is that we really need to be more aware about the ways in which the disproportionate burden of stress might impact some groups,” Dr. Harnett told this news organization.
“This in turn can affect the way they respond either to later stress or maybe even treatment outcomes.” He added that other brain regions and compensatory mechanisms are likely to be involved, and more work needs to explore these connections.
The study was published online in the American Journal of Psychiatry.
‘Toxic stressor’
Dr. Harnett and colleagues used MRI and survey data from the 2019 Adolescent Brain Cognitive Development (ABCD) study involving over 12,000 children from 21 sites across the United States.
Participating children provided information about emotional and physical conflicts in the household. The ABCD study also surveyed the parents about their race and ethnicity, parental education, employment, and family income. Another factor in the analysis was neighborhood disadvantage, based on the Area Deprivation Index utilizing 17 socioeconomic indicators from the U.S. Census, including poverty and housing.
Comparing brain MRI findings from approximately 7,300 White children and 1,800 Black children in the ABCD study, Dr. Harnett’s group found that Black children had lower gray matter volume in the amygdala, hippocampus, and other subregions of the prefrontal cortex.
Experience of adversity was the “sole factor” explaining brain volume differences, with household income being the predominant factor.
Compared with White children, Black children were three times less likely to have parents who were currently employed. In addition, White parents were more likely than Black parents to have higher education at 75.2% versus 40.6%. Black families had significantly lower household income than White families and experienced more family conflict, material hardship, neighborhood disadvantage, and traumatic events.
The researchers analyzed race-related differences in posttraumatic stress disorder symptoms and the relationship with adversity and found that Black children had significantly greater PTSD symptom severity, and that symptom severity was “further predicted by adversity.”
“Taken together, early-life adversity may act as a toxic stressor that disproportionately impacts Black children as a result of their significantly greater exposure to adversity and contributes to differential neural development of key threat-processing regions,” the investigators write.
“These parts of the brain are involved in what we typically call threat learning,” Dr. Harnett explained. “Threat learning is basically learning to recognize potential dangers in our environment and selecting behaviors to keep us safe, whether we’re going to run away from a danger or face it head on. When you have chronic exposure to things that can be dangerous or can make you feel unsafe, that might have an impact on how these brain regions develop, with potential implications for how these regions function later on in life.”
A consequence of toxic stress
This study is part of a growing body of work on the influence of “toxic stress” and other forms of PTSD on brain architecture. The authors note that prolonged exposure to adverse experiences leads to excessive activation of stress-response systems and accumulation of stress hormones. This disrupts immune and metabolic regulatory systems that influence the developing structures of the brain.
The study helps to contradict the “pseudoscientific falsehood” of biologic race-related differences in brain volume, instead emphasizing the role of adversity brought on by structural racism, the authors add.
In an accompanying editor’s note, the publication’s Editor-in-Chief Ned H. Kalin, MD, called childhood adversity, maltreatment, and stress, “significant risk factors for the development of psychopathology.”
These findings are “critically important, as they speak to the need for psychiatry as a field to be outspoken about the detrimental psychological impacts of race-related disparities in childhood adversity, to call out the fact that these disparities stem from structural racism, and to vigorously support rectifying efforts by pursuing policy changes,” he stated in a news release.
Social construct?
Joan Luby, MD, coauthor of an accompanying editorial, said she and her coauthor “really appreciate the study and think the findings are overall very consistent with the emerging literature, increasing the confidence [in the findings].”
Dr. Luby, a professor of child psychiatry and director of the Early Emotional Development Program, Washington University, St. Louis, noted that she “takes issue” with the fact that the study “makes inferences regarding race, when we think those inferences aren’t well justified, are misinterpretations, and could be misleading.”
Race is a “social construct” and there are many sources of adversity that the authors didn’t measure in the study and are likely the source of any remaining variance they found, including experiences of structural racism and discrimination,” said Dr. Luby, who was not involved in the study.
“How people look doesn’t have any bearing on their inherent biological characteristics, and more [needs to be studied] on how they experience the psychosocial environment and how the psychosocial environment rejects or reacts to them.”
These psychosocial issues “have to be taken into account and measured in a very comprehensive way,” she added.
The ABCD study was supported by the National Institutes of Health and additional federal partners. Dr. Harnett reports no relevant financial relationships. The other authors’ disclosures are listed on the original paper. Dr. Luby receives royalties from Guilford Press. Her coauthor reports no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Brain volume disparities among young children of different races may be attributable to adverse childhood experiences related to socioeconomic conditions and structural racism, new research suggests.
Investigators from the Belmont, Mass.–based McLean Hospital, an affiliate of Mass General Brigham, found that 9- and 10-year-old children of different racial and socioeconomic backgrounds have subtle neurobiological differences in gray matter volume in certain brain regions associated with trauma and stress.
Lead investigator Nathaniel Harnett, PhD, of the department of psychiatry at Harvard Medical School, Boston, believes this research shows evidence that “structural racism” – broad socioeconomic disadvantages that lead to poverty and emotional trauma – may affect brain structures and growth and ultimately may lead to psychiatric illness.
“For clinicians, I think the take-home message is that we really need to be more aware about the ways in which the disproportionate burden of stress might impact some groups,” Dr. Harnett told this news organization.
“This in turn can affect the way they respond either to later stress or maybe even treatment outcomes.” He added that other brain regions and compensatory mechanisms are likely to be involved, and more work needs to explore these connections.
The study was published online in the American Journal of Psychiatry.
‘Toxic stressor’
Dr. Harnett and colleagues used MRI and survey data from the 2019 Adolescent Brain Cognitive Development (ABCD) study involving over 12,000 children from 21 sites across the United States.
Participating children provided information about emotional and physical conflicts in the household. The ABCD study also surveyed the parents about their race and ethnicity, parental education, employment, and family income. Another factor in the analysis was neighborhood disadvantage, based on the Area Deprivation Index utilizing 17 socioeconomic indicators from the U.S. Census, including poverty and housing.
Comparing brain MRI findings from approximately 7,300 White children and 1,800 Black children in the ABCD study, Dr. Harnett’s group found that Black children had lower gray matter volume in the amygdala, hippocampus, and other subregions of the prefrontal cortex.
Experience of adversity was the “sole factor” explaining brain volume differences, with household income being the predominant factor.
Compared with White children, Black children were three times less likely to have parents who were currently employed. In addition, White parents were more likely than Black parents to have higher education at 75.2% versus 40.6%. Black families had significantly lower household income than White families and experienced more family conflict, material hardship, neighborhood disadvantage, and traumatic events.
The researchers analyzed race-related differences in posttraumatic stress disorder symptoms and the relationship with adversity and found that Black children had significantly greater PTSD symptom severity, and that symptom severity was “further predicted by adversity.”
“Taken together, early-life adversity may act as a toxic stressor that disproportionately impacts Black children as a result of their significantly greater exposure to adversity and contributes to differential neural development of key threat-processing regions,” the investigators write.
“These parts of the brain are involved in what we typically call threat learning,” Dr. Harnett explained. “Threat learning is basically learning to recognize potential dangers in our environment and selecting behaviors to keep us safe, whether we’re going to run away from a danger or face it head on. When you have chronic exposure to things that can be dangerous or can make you feel unsafe, that might have an impact on how these brain regions develop, with potential implications for how these regions function later on in life.”
A consequence of toxic stress
This study is part of a growing body of work on the influence of “toxic stress” and other forms of PTSD on brain architecture. The authors note that prolonged exposure to adverse experiences leads to excessive activation of stress-response systems and accumulation of stress hormones. This disrupts immune and metabolic regulatory systems that influence the developing structures of the brain.
The study helps to contradict the “pseudoscientific falsehood” of biologic race-related differences in brain volume, instead emphasizing the role of adversity brought on by structural racism, the authors add.
In an accompanying editor’s note, the publication’s Editor-in-Chief Ned H. Kalin, MD, called childhood adversity, maltreatment, and stress, “significant risk factors for the development of psychopathology.”
These findings are “critically important, as they speak to the need for psychiatry as a field to be outspoken about the detrimental psychological impacts of race-related disparities in childhood adversity, to call out the fact that these disparities stem from structural racism, and to vigorously support rectifying efforts by pursuing policy changes,” he stated in a news release.
Social construct?
Joan Luby, MD, coauthor of an accompanying editorial, said she and her coauthor “really appreciate the study and think the findings are overall very consistent with the emerging literature, increasing the confidence [in the findings].”
Dr. Luby, a professor of child psychiatry and director of the Early Emotional Development Program, Washington University, St. Louis, noted that she “takes issue” with the fact that the study “makes inferences regarding race, when we think those inferences aren’t well justified, are misinterpretations, and could be misleading.”
Race is a “social construct” and there are many sources of adversity that the authors didn’t measure in the study and are likely the source of any remaining variance they found, including experiences of structural racism and discrimination,” said Dr. Luby, who was not involved in the study.
“How people look doesn’t have any bearing on their inherent biological characteristics, and more [needs to be studied] on how they experience the psychosocial environment and how the psychosocial environment rejects or reacts to them.”
These psychosocial issues “have to be taken into account and measured in a very comprehensive way,” she added.
The ABCD study was supported by the National Institutes of Health and additional federal partners. Dr. Harnett reports no relevant financial relationships. The other authors’ disclosures are listed on the original paper. Dr. Luby receives royalties from Guilford Press. Her coauthor reports no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Brain volume disparities among young children of different races may be attributable to adverse childhood experiences related to socioeconomic conditions and structural racism, new research suggests.
Investigators from the Belmont, Mass.–based McLean Hospital, an affiliate of Mass General Brigham, found that 9- and 10-year-old children of different racial and socioeconomic backgrounds have subtle neurobiological differences in gray matter volume in certain brain regions associated with trauma and stress.
Lead investigator Nathaniel Harnett, PhD, of the department of psychiatry at Harvard Medical School, Boston, believes this research shows evidence that “structural racism” – broad socioeconomic disadvantages that lead to poverty and emotional trauma – may affect brain structures and growth and ultimately may lead to psychiatric illness.
“For clinicians, I think the take-home message is that we really need to be more aware about the ways in which the disproportionate burden of stress might impact some groups,” Dr. Harnett told this news organization.
“This in turn can affect the way they respond either to later stress or maybe even treatment outcomes.” He added that other brain regions and compensatory mechanisms are likely to be involved, and more work needs to explore these connections.
The study was published online in the American Journal of Psychiatry.
‘Toxic stressor’
Dr. Harnett and colleagues used MRI and survey data from the 2019 Adolescent Brain Cognitive Development (ABCD) study involving over 12,000 children from 21 sites across the United States.
Participating children provided information about emotional and physical conflicts in the household. The ABCD study also surveyed the parents about their race and ethnicity, parental education, employment, and family income. Another factor in the analysis was neighborhood disadvantage, based on the Area Deprivation Index utilizing 17 socioeconomic indicators from the U.S. Census, including poverty and housing.
Comparing brain MRI findings from approximately 7,300 White children and 1,800 Black children in the ABCD study, Dr. Harnett’s group found that Black children had lower gray matter volume in the amygdala, hippocampus, and other subregions of the prefrontal cortex.
Experience of adversity was the “sole factor” explaining brain volume differences, with household income being the predominant factor.
Compared with White children, Black children were three times less likely to have parents who were currently employed. In addition, White parents were more likely than Black parents to have higher education at 75.2% versus 40.6%. Black families had significantly lower household income than White families and experienced more family conflict, material hardship, neighborhood disadvantage, and traumatic events.
The researchers analyzed race-related differences in posttraumatic stress disorder symptoms and the relationship with adversity and found that Black children had significantly greater PTSD symptom severity, and that symptom severity was “further predicted by adversity.”
“Taken together, early-life adversity may act as a toxic stressor that disproportionately impacts Black children as a result of their significantly greater exposure to adversity and contributes to differential neural development of key threat-processing regions,” the investigators write.
“These parts of the brain are involved in what we typically call threat learning,” Dr. Harnett explained. “Threat learning is basically learning to recognize potential dangers in our environment and selecting behaviors to keep us safe, whether we’re going to run away from a danger or face it head on. When you have chronic exposure to things that can be dangerous or can make you feel unsafe, that might have an impact on how these brain regions develop, with potential implications for how these regions function later on in life.”
A consequence of toxic stress
This study is part of a growing body of work on the influence of “toxic stress” and other forms of PTSD on brain architecture. The authors note that prolonged exposure to adverse experiences leads to excessive activation of stress-response systems and accumulation of stress hormones. This disrupts immune and metabolic regulatory systems that influence the developing structures of the brain.
The study helps to contradict the “pseudoscientific falsehood” of biologic race-related differences in brain volume, instead emphasizing the role of adversity brought on by structural racism, the authors add.
In an accompanying editor’s note, the publication’s Editor-in-Chief Ned H. Kalin, MD, called childhood adversity, maltreatment, and stress, “significant risk factors for the development of psychopathology.”
These findings are “critically important, as they speak to the need for psychiatry as a field to be outspoken about the detrimental psychological impacts of race-related disparities in childhood adversity, to call out the fact that these disparities stem from structural racism, and to vigorously support rectifying efforts by pursuing policy changes,” he stated in a news release.
Social construct?
Joan Luby, MD, coauthor of an accompanying editorial, said she and her coauthor “really appreciate the study and think the findings are overall very consistent with the emerging literature, increasing the confidence [in the findings].”
Dr. Luby, a professor of child psychiatry and director of the Early Emotional Development Program, Washington University, St. Louis, noted that she “takes issue” with the fact that the study “makes inferences regarding race, when we think those inferences aren’t well justified, are misinterpretations, and could be misleading.”
Race is a “social construct” and there are many sources of adversity that the authors didn’t measure in the study and are likely the source of any remaining variance they found, including experiences of structural racism and discrimination,” said Dr. Luby, who was not involved in the study.
“How people look doesn’t have any bearing on their inherent biological characteristics, and more [needs to be studied] on how they experience the psychosocial environment and how the psychosocial environment rejects or reacts to them.”
These psychosocial issues “have to be taken into account and measured in a very comprehensive way,” she added.
The ABCD study was supported by the National Institutes of Health and additional federal partners. Dr. Harnett reports no relevant financial relationships. The other authors’ disclosures are listed on the original paper. Dr. Luby receives royalties from Guilford Press. Her coauthor reports no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Algorithm can spot signs of autism in babies, study says
, a study from Duke University, Durham, N.C., says.
“We can use the first 30 days of a child’s health care experience to say, ‘This child is really at risk,’ ” said David Mandell, DSc, a professor of psychiatry at the University of Pennsylvania, Philadelphia, in USA Today. He was not involved in the research.
Researchers analyzed electronic medical records of 45,000 children treated in the Duke University Health System as infants between 2006 and 2020. They created an algorithm that could predict which babies later developed autism. These babies were more likely to have been to an ophthalmologist or neurologist; had stomach or gastrointestinal issues; or received physical therapy.
“A huge number of factors across the infant’s entire health profile” went into the models, said study coauthor Matthew Engelhard, MD, an assistant professor of biostatistics and bioinformatics at Duke University. “Each one of those factors contributes incrementally.”
USA Today said the team “paid particular attention to how the model performed in groups of children who are often overlooked by traditional screening methods and, therefore, miss the advantages of early diagnosis, including girls, children of color, and children with combined diagnoses of autism and ADHD,” according to Dr. Engelhard.
The study could lead to the algorithm being used with other tools to diagnose and help children earlier, said study author Geraldine Dawson, PhD, who directs the Duke Center for Autism and Brain Development.
“We need to be thinking about autism as not only a behavioral health condition but also a condition that involves physical health,” she said. “This is one way to take advantage of that information: in doing a better job at early detection.”
Autism is a complicated condition that includes communication and behavior challenges involving a range of symptoms and skills. It can be minor or a disability that requires full-time care.
A version of this article first appeared on WebMD.com.
, a study from Duke University, Durham, N.C., says.
“We can use the first 30 days of a child’s health care experience to say, ‘This child is really at risk,’ ” said David Mandell, DSc, a professor of psychiatry at the University of Pennsylvania, Philadelphia, in USA Today. He was not involved in the research.
Researchers analyzed electronic medical records of 45,000 children treated in the Duke University Health System as infants between 2006 and 2020. They created an algorithm that could predict which babies later developed autism. These babies were more likely to have been to an ophthalmologist or neurologist; had stomach or gastrointestinal issues; or received physical therapy.
“A huge number of factors across the infant’s entire health profile” went into the models, said study coauthor Matthew Engelhard, MD, an assistant professor of biostatistics and bioinformatics at Duke University. “Each one of those factors contributes incrementally.”
USA Today said the team “paid particular attention to how the model performed in groups of children who are often overlooked by traditional screening methods and, therefore, miss the advantages of early diagnosis, including girls, children of color, and children with combined diagnoses of autism and ADHD,” according to Dr. Engelhard.
The study could lead to the algorithm being used with other tools to diagnose and help children earlier, said study author Geraldine Dawson, PhD, who directs the Duke Center for Autism and Brain Development.
“We need to be thinking about autism as not only a behavioral health condition but also a condition that involves physical health,” she said. “This is one way to take advantage of that information: in doing a better job at early detection.”
Autism is a complicated condition that includes communication and behavior challenges involving a range of symptoms and skills. It can be minor or a disability that requires full-time care.
A version of this article first appeared on WebMD.com.
, a study from Duke University, Durham, N.C., says.
“We can use the first 30 days of a child’s health care experience to say, ‘This child is really at risk,’ ” said David Mandell, DSc, a professor of psychiatry at the University of Pennsylvania, Philadelphia, in USA Today. He was not involved in the research.
Researchers analyzed electronic medical records of 45,000 children treated in the Duke University Health System as infants between 2006 and 2020. They created an algorithm that could predict which babies later developed autism. These babies were more likely to have been to an ophthalmologist or neurologist; had stomach or gastrointestinal issues; or received physical therapy.
“A huge number of factors across the infant’s entire health profile” went into the models, said study coauthor Matthew Engelhard, MD, an assistant professor of biostatistics and bioinformatics at Duke University. “Each one of those factors contributes incrementally.”
USA Today said the team “paid particular attention to how the model performed in groups of children who are often overlooked by traditional screening methods and, therefore, miss the advantages of early diagnosis, including girls, children of color, and children with combined diagnoses of autism and ADHD,” according to Dr. Engelhard.
The study could lead to the algorithm being used with other tools to diagnose and help children earlier, said study author Geraldine Dawson, PhD, who directs the Duke Center for Autism and Brain Development.
“We need to be thinking about autism as not only a behavioral health condition but also a condition that involves physical health,” she said. “This is one way to take advantage of that information: in doing a better job at early detection.”
Autism is a complicated condition that includes communication and behavior challenges involving a range of symptoms and skills. It can be minor or a disability that requires full-time care.
A version of this article first appeared on WebMD.com.
FROM JAMA NETWORK OPEN
Brain scans show effect of poverty, stress on Black children
Childhood stress can change the brain negatively, according to a new study that says Black children are affected more because they experience more poverty and adversity.
“The researchers analyzed MRI scans to identify small differences in the volume of certain brain structures, and said these could accumulate as children age and play a role in the later development of mental health problems,” STAT News reported. “The finding, part of an emerging research field looking at how racism and other social factors may affect the physical architecture of the brain, may help explain longstanding racial disparities in the prevalence of psychiatric disorders such as PTSD.”
The study was published in The American Journal of Psychiatry.
Brain development is affected by “disparities faced by certain groups of people,” even among children as young as 9 years old, said Nathaniel Harnett, an assistant professor of psychiatry at Harvard Medical School, Boston, and the study’s senior author. “If we’re going to treat the world as colorblind, we’re not going to create mental health solutions that are effective for all people.”
The study used evidence from the Adolescent Brain Cognitive Development Study, which the National Institutes of Health established in 2015 to study the brains and experiences of thousands of American children through early adulthood.
Brain scans revealed that Black children had less gray matter in 11 of 14 brain areas that were examined. Disparities in 8 of the 14 brain areas were affected by childhood adversity, particularly poverty.
A version of this article first appeared on WebMD.com.
Childhood stress can change the brain negatively, according to a new study that says Black children are affected more because they experience more poverty and adversity.
“The researchers analyzed MRI scans to identify small differences in the volume of certain brain structures, and said these could accumulate as children age and play a role in the later development of mental health problems,” STAT News reported. “The finding, part of an emerging research field looking at how racism and other social factors may affect the physical architecture of the brain, may help explain longstanding racial disparities in the prevalence of psychiatric disorders such as PTSD.”
The study was published in The American Journal of Psychiatry.
Brain development is affected by “disparities faced by certain groups of people,” even among children as young as 9 years old, said Nathaniel Harnett, an assistant professor of psychiatry at Harvard Medical School, Boston, and the study’s senior author. “If we’re going to treat the world as colorblind, we’re not going to create mental health solutions that are effective for all people.”
The study used evidence from the Adolescent Brain Cognitive Development Study, which the National Institutes of Health established in 2015 to study the brains and experiences of thousands of American children through early adulthood.
Brain scans revealed that Black children had less gray matter in 11 of 14 brain areas that were examined. Disparities in 8 of the 14 brain areas were affected by childhood adversity, particularly poverty.
A version of this article first appeared on WebMD.com.
Childhood stress can change the brain negatively, according to a new study that says Black children are affected more because they experience more poverty and adversity.
“The researchers analyzed MRI scans to identify small differences in the volume of certain brain structures, and said these could accumulate as children age and play a role in the later development of mental health problems,” STAT News reported. “The finding, part of an emerging research field looking at how racism and other social factors may affect the physical architecture of the brain, may help explain longstanding racial disparities in the prevalence of psychiatric disorders such as PTSD.”
The study was published in The American Journal of Psychiatry.
Brain development is affected by “disparities faced by certain groups of people,” even among children as young as 9 years old, said Nathaniel Harnett, an assistant professor of psychiatry at Harvard Medical School, Boston, and the study’s senior author. “If we’re going to treat the world as colorblind, we’re not going to create mental health solutions that are effective for all people.”
The study used evidence from the Adolescent Brain Cognitive Development Study, which the National Institutes of Health established in 2015 to study the brains and experiences of thousands of American children through early adulthood.
Brain scans revealed that Black children had less gray matter in 11 of 14 brain areas that were examined. Disparities in 8 of the 14 brain areas were affected by childhood adversity, particularly poverty.
A version of this article first appeared on WebMD.com.
FROM THE AMERICAN JOURNAL OF PSYCHIATRY
Autism linked to problems with cardiovascular health
People with autism are more likely to face diabetes, high cholesterol, and heart disease than those without the neurologic condition, according to a study published in JAMA Pediatrics. Researchers also found that children with autism are especially likely to develop diabetes compared with their peers, and are at greater risk of hypertension, too.
While the link between autism and risk for obesity and gastrointestinal ailments is well-established, the new findings suggest that clinicians who care for these patients – particularly children – should focus on cardiometabolic health more broadly.
“Clinicians who are treating kids with autism need to pay more attention to this,” said Chanaka N. Kahathuduwa, MD, PhD, MPhil, of the department of neurology at Texas Tech University Health Sciences Center, in Lubbock, and a coauthor of the new study.
A pediatrician may prescribe an atypical antipsychotic medication such as risperidone to regulate the behavior of an autistic child, Dr. Kahathuduwa said, which may increase their cholesterol levels. Although this or similar drugs may be necessary in some cases, Dr. Kahathuduwa advised that clinicians explore other treatment options first.
Mining data from previously published studies
For the new analysis, Dr. Kahathuduwa and his colleagues pooled the results of 34 previously published studies, which included medical records of more than 276,000 people with autism and close to 8 million people without the condition.
Study participants were an average age of 31 years, and 47% were female. Some studies reported age ranges that enabled the researchers to differentiate between children and adults.
People with autism were 64% more likely to develop type 1 diabetes, 146% more likely to experience type 2 diabetes, and 46% more likely to have heart disease, overall, the study found. Children with autism were almost twice as likely as their peers to develop diabetes (184%) and high blood pressure (154%).
The study found associations, not causation, and does not include detailed data about medication prescribing patterns. While it would be ideal to understand why autism is linked to cardiometabolic risk, to address the link most effectively, Dr. Kahathuduwa said the causes likely are multifactorial. Medication history and genetics each play a role in a way that is hard to untangle. Even so, Dr. Kahathuduwa said he hoped the findings prompt clinicians to reevaluate how they treat their patients with autism.
“This may be an eye opener,” he said.
An editorial accompanying the study noted that people with autism may die up to 30 years earlier than people without autism, in part because of the physical health problems surfaced in the new research. They also are more likely than others to attempt suicide.
Elizabeth M. Weir, PhD, of the Autism Research Centre at the University of Cambridge (England) and author of the editorial, argued that current health delivery models often fail autistic people by not taking their needs into account.
Dr. Weir told this news organization that making adjustments such as dimming the lights for a light-sensitive patient or allowing people with autism to bring an advocate to appointments could build rapport.
“I diagnose autism pretty much every day and I know families get so overwhelmed with all the recommendations that we give,” said Sonia Monteiro, MD, a developmental and behavioral pediatrician at Texas Children’s Hospital in Houston. Still, Dr. Monteiro said clinicians should help parents of children with autism address the potential long-term cardiovascular risks – but to do so by layering in the information rather than merely adding more bullet points to an already long presentation.
“We know this information now, but finding a way to share that with families without overwhelming them even more, I think is challenging,” Dr. Monteiro said. “But it’s not something we can ignore.”
Dr. Kahathuduwa, Dr. Weir, and Dr. Monteiro report no relevant financial relationships.
A version of this article first appeared on Medscape.com.
People with autism are more likely to face diabetes, high cholesterol, and heart disease than those without the neurologic condition, according to a study published in JAMA Pediatrics. Researchers also found that children with autism are especially likely to develop diabetes compared with their peers, and are at greater risk of hypertension, too.
While the link between autism and risk for obesity and gastrointestinal ailments is well-established, the new findings suggest that clinicians who care for these patients – particularly children – should focus on cardiometabolic health more broadly.
“Clinicians who are treating kids with autism need to pay more attention to this,” said Chanaka N. Kahathuduwa, MD, PhD, MPhil, of the department of neurology at Texas Tech University Health Sciences Center, in Lubbock, and a coauthor of the new study.
A pediatrician may prescribe an atypical antipsychotic medication such as risperidone to regulate the behavior of an autistic child, Dr. Kahathuduwa said, which may increase their cholesterol levels. Although this or similar drugs may be necessary in some cases, Dr. Kahathuduwa advised that clinicians explore other treatment options first.
Mining data from previously published studies
For the new analysis, Dr. Kahathuduwa and his colleagues pooled the results of 34 previously published studies, which included medical records of more than 276,000 people with autism and close to 8 million people without the condition.
Study participants were an average age of 31 years, and 47% were female. Some studies reported age ranges that enabled the researchers to differentiate between children and adults.
People with autism were 64% more likely to develop type 1 diabetes, 146% more likely to experience type 2 diabetes, and 46% more likely to have heart disease, overall, the study found. Children with autism were almost twice as likely as their peers to develop diabetes (184%) and high blood pressure (154%).
The study found associations, not causation, and does not include detailed data about medication prescribing patterns. While it would be ideal to understand why autism is linked to cardiometabolic risk, to address the link most effectively, Dr. Kahathuduwa said the causes likely are multifactorial. Medication history and genetics each play a role in a way that is hard to untangle. Even so, Dr. Kahathuduwa said he hoped the findings prompt clinicians to reevaluate how they treat their patients with autism.
“This may be an eye opener,” he said.
An editorial accompanying the study noted that people with autism may die up to 30 years earlier than people without autism, in part because of the physical health problems surfaced in the new research. They also are more likely than others to attempt suicide.
Elizabeth M. Weir, PhD, of the Autism Research Centre at the University of Cambridge (England) and author of the editorial, argued that current health delivery models often fail autistic people by not taking their needs into account.
Dr. Weir told this news organization that making adjustments such as dimming the lights for a light-sensitive patient or allowing people with autism to bring an advocate to appointments could build rapport.
“I diagnose autism pretty much every day and I know families get so overwhelmed with all the recommendations that we give,” said Sonia Monteiro, MD, a developmental and behavioral pediatrician at Texas Children’s Hospital in Houston. Still, Dr. Monteiro said clinicians should help parents of children with autism address the potential long-term cardiovascular risks – but to do so by layering in the information rather than merely adding more bullet points to an already long presentation.
“We know this information now, but finding a way to share that with families without overwhelming them even more, I think is challenging,” Dr. Monteiro said. “But it’s not something we can ignore.”
Dr. Kahathuduwa, Dr. Weir, and Dr. Monteiro report no relevant financial relationships.
A version of this article first appeared on Medscape.com.
People with autism are more likely to face diabetes, high cholesterol, and heart disease than those without the neurologic condition, according to a study published in JAMA Pediatrics. Researchers also found that children with autism are especially likely to develop diabetes compared with their peers, and are at greater risk of hypertension, too.
While the link between autism and risk for obesity and gastrointestinal ailments is well-established, the new findings suggest that clinicians who care for these patients – particularly children – should focus on cardiometabolic health more broadly.
“Clinicians who are treating kids with autism need to pay more attention to this,” said Chanaka N. Kahathuduwa, MD, PhD, MPhil, of the department of neurology at Texas Tech University Health Sciences Center, in Lubbock, and a coauthor of the new study.
A pediatrician may prescribe an atypical antipsychotic medication such as risperidone to regulate the behavior of an autistic child, Dr. Kahathuduwa said, which may increase their cholesterol levels. Although this or similar drugs may be necessary in some cases, Dr. Kahathuduwa advised that clinicians explore other treatment options first.
Mining data from previously published studies
For the new analysis, Dr. Kahathuduwa and his colleagues pooled the results of 34 previously published studies, which included medical records of more than 276,000 people with autism and close to 8 million people without the condition.
Study participants were an average age of 31 years, and 47% were female. Some studies reported age ranges that enabled the researchers to differentiate between children and adults.
People with autism were 64% more likely to develop type 1 diabetes, 146% more likely to experience type 2 diabetes, and 46% more likely to have heart disease, overall, the study found. Children with autism were almost twice as likely as their peers to develop diabetes (184%) and high blood pressure (154%).
The study found associations, not causation, and does not include detailed data about medication prescribing patterns. While it would be ideal to understand why autism is linked to cardiometabolic risk, to address the link most effectively, Dr. Kahathuduwa said the causes likely are multifactorial. Medication history and genetics each play a role in a way that is hard to untangle. Even so, Dr. Kahathuduwa said he hoped the findings prompt clinicians to reevaluate how they treat their patients with autism.
“This may be an eye opener,” he said.
An editorial accompanying the study noted that people with autism may die up to 30 years earlier than people without autism, in part because of the physical health problems surfaced in the new research. They also are more likely than others to attempt suicide.
Elizabeth M. Weir, PhD, of the Autism Research Centre at the University of Cambridge (England) and author of the editorial, argued that current health delivery models often fail autistic people by not taking their needs into account.
Dr. Weir told this news organization that making adjustments such as dimming the lights for a light-sensitive patient or allowing people with autism to bring an advocate to appointments could build rapport.
“I diagnose autism pretty much every day and I know families get so overwhelmed with all the recommendations that we give,” said Sonia Monteiro, MD, a developmental and behavioral pediatrician at Texas Children’s Hospital in Houston. Still, Dr. Monteiro said clinicians should help parents of children with autism address the potential long-term cardiovascular risks – but to do so by layering in the information rather than merely adding more bullet points to an already long presentation.
“We know this information now, but finding a way to share that with families without overwhelming them even more, I think is challenging,” Dr. Monteiro said. “But it’s not something we can ignore.”
Dr. Kahathuduwa, Dr. Weir, and Dr. Monteiro report no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Pediatricians, specialists largely agree on ASD diagnoses
General pediatricians and a multidisciplinary team of specialists agreed most of the time on which children should be diagnosed with autism spectrum disorder (ASD), data from a new study suggest.
But when it came to ruling out ASD, the agreement rate was much lower.
The study by Melanie Penner, MSc, MD, with the Autism Research Centre at Bloorview Research Institute, Toronto, and colleagues found that 89% of the time when a physician determined a child had ASD, the multidisciplinary team agreed. But when a pediatrician thought a child did not have ASD, the multidisciplinary team agreed only 60% of the time. The study was published in JAMA Network Open.
Multidisciplinary team model can’t keep up with demand
The findings are important as many guidelines recommend multidisciplinary teams (MDTs) for all ASD diagnostic assessment. However, the resources for this model can’t meet the demand of children needing a diagnosis and can lead to long waits for ASD therapies.
In Canada, the researchers note, the average wait time from referral to receipt of ASD diagnosis has been reported as 7 months and “has likely lengthened since the COVID-19 pandemic.”
Jennifer Gerdts, PhD, an attending psychologist at the Seattle Children’s Autism Center, said in an interview that the wait there for diagnosis in children older than 4 is “multiple years,” a length of time that’s common across the United States. Meanwhile, in many states families can’t access services without a diagnosis.
Expanding capacity with diagnoses by general pediatricians may improve access, but the diagnostic accuracy is critical.
Dr. Gerdts, who was not part of the study, said this research is “hugely important in the work that is under way to build community capacity for diagnostic evaluation.”
She said this study shows that not all diagnoses need the resources of a multiple-disciplinary team and that “pediatricians can do it, too, and they can do it pretty accurately.” Dr. Gerdts evaluates children for autism and helps train pediatricians to make diagnoses.
Pediatricians, specialist team completed blinded assessments
The 17 pediatricians in the study and the specialist team independently completed blinded assessment and each recorded a decision on whether the child had ASD. The prospective diagnostic study was conducted in a specialist assessment center in Toronto and in general pediatrician practices in Ontario from June 2016 to March 2020.
Children were younger than 5.5 years, did not have an ASD diagnosis and were referred because there was a development concern. The pediatricians referred 106 children (75% boys; average age, 3.5 years). More than half (57%) of the participating children were from minority racial and ethnic groups.
The children were randomly assigned to two groups: One included children who had their MDT visits before their pediatrician assessment and the other group included those who had their MDT visits after their pediatrician assessment.
The MDT diagnosed more than two-thirds of the children (68%) with ASD.
Sensitivity and specificity of the pediatrician assessments, compared with that of the specialist team, were 0.75 (95% confidence interval, 0.67-0.83) and 0.79 (95% CI, 0.62-0.91), respectively.
A look at pediatricians’ accuracy
Pediatricians reported the decisions they would have made had the child not been in the study.
- In 69% of the true-positive cases, pediatricians would have given an ASD diagnosis.
- In 44% of true-negative cases, they would have told the family the child did not have autism; in 30% of those case, they would give alternative diagnoses (most commonly ADHD and language delay).
- The pediatrician would have diagnosed ASD in only one of the seven false-positive cases and would refer those patients to a subspecialist 71% of the time.
- In false-negative cases, the pediatrician would incorrectly tell the family the child does not have autism 44% of the time.
Regarding the false-negative cases, the authors wrote, “more caution is needed for pediatricians when definitively ruling out ASD, which might result in diagnostic delays.”
Confidence is key
Physician confidence was also correlated with accuracy.
The authors wrote: “Among true-positive cases (MDT and pediatrician agree the child has ASD), the pediatrician was certain or very certain 80% of the time (43 cases) and the MDT was certain or very certain 96% of the time (52 cases). As such, if pediatricians conferred ASD diagnoses when feeling certain or very certain, they would make 46 correct diagnoses and 2 incorrect diagnoses.”
The high accuracy of diagnosis when physicians are confident suggests “listening to that sense of certainty is important,” Dr. Gerdts said. Conversely, these numbers show when a physician is uncertain about diagnosing ASD, they should listen to that instinct, too, and refer.
The results of the study support having general pediatricians diagnose and move forward with their patients when the signs of ASD are more definitive, saving the less-certain cases for the more resource-intensive teams to diagnose. Many states are moving toward that “tiered” system, Dr. Gerdts said.
“For many, and in fact most children, general pediatricians are pretty accurate when making an autism diagnosis,” she said.
“Let’s get [general pediatricians] confident in recognizing when this is outside their skill and ability level,” she said. “If you’re not sure, it is better to refer them on than to misdiagnose them.”
The important missing piece she said is how to support them “so they don’t feel pressure to make that call,” Dr. Gerdts said.
This project was funded by a grant from the Bloorview Research Institute, a grant from the Canadian Institutes of Health Research and a grant from the Canadian Institutes of Health. Three coauthors consult for and receive grants from several pharmaceutical companies and other organizations. Dr. Gerdts declared no relevant financial relationships.
General pediatricians and a multidisciplinary team of specialists agreed most of the time on which children should be diagnosed with autism spectrum disorder (ASD), data from a new study suggest.
But when it came to ruling out ASD, the agreement rate was much lower.
The study by Melanie Penner, MSc, MD, with the Autism Research Centre at Bloorview Research Institute, Toronto, and colleagues found that 89% of the time when a physician determined a child had ASD, the multidisciplinary team agreed. But when a pediatrician thought a child did not have ASD, the multidisciplinary team agreed only 60% of the time. The study was published in JAMA Network Open.
Multidisciplinary team model can’t keep up with demand
The findings are important as many guidelines recommend multidisciplinary teams (MDTs) for all ASD diagnostic assessment. However, the resources for this model can’t meet the demand of children needing a diagnosis and can lead to long waits for ASD therapies.
In Canada, the researchers note, the average wait time from referral to receipt of ASD diagnosis has been reported as 7 months and “has likely lengthened since the COVID-19 pandemic.”
Jennifer Gerdts, PhD, an attending psychologist at the Seattle Children’s Autism Center, said in an interview that the wait there for diagnosis in children older than 4 is “multiple years,” a length of time that’s common across the United States. Meanwhile, in many states families can’t access services without a diagnosis.
Expanding capacity with diagnoses by general pediatricians may improve access, but the diagnostic accuracy is critical.
Dr. Gerdts, who was not part of the study, said this research is “hugely important in the work that is under way to build community capacity for diagnostic evaluation.”
She said this study shows that not all diagnoses need the resources of a multiple-disciplinary team and that “pediatricians can do it, too, and they can do it pretty accurately.” Dr. Gerdts evaluates children for autism and helps train pediatricians to make diagnoses.
Pediatricians, specialist team completed blinded assessments
The 17 pediatricians in the study and the specialist team independently completed blinded assessment and each recorded a decision on whether the child had ASD. The prospective diagnostic study was conducted in a specialist assessment center in Toronto and in general pediatrician practices in Ontario from June 2016 to March 2020.
Children were younger than 5.5 years, did not have an ASD diagnosis and were referred because there was a development concern. The pediatricians referred 106 children (75% boys; average age, 3.5 years). More than half (57%) of the participating children were from minority racial and ethnic groups.
The children were randomly assigned to two groups: One included children who had their MDT visits before their pediatrician assessment and the other group included those who had their MDT visits after their pediatrician assessment.
The MDT diagnosed more than two-thirds of the children (68%) with ASD.
Sensitivity and specificity of the pediatrician assessments, compared with that of the specialist team, were 0.75 (95% confidence interval, 0.67-0.83) and 0.79 (95% CI, 0.62-0.91), respectively.
A look at pediatricians’ accuracy
Pediatricians reported the decisions they would have made had the child not been in the study.
- In 69% of the true-positive cases, pediatricians would have given an ASD diagnosis.
- In 44% of true-negative cases, they would have told the family the child did not have autism; in 30% of those case, they would give alternative diagnoses (most commonly ADHD and language delay).
- The pediatrician would have diagnosed ASD in only one of the seven false-positive cases and would refer those patients to a subspecialist 71% of the time.
- In false-negative cases, the pediatrician would incorrectly tell the family the child does not have autism 44% of the time.
Regarding the false-negative cases, the authors wrote, “more caution is needed for pediatricians when definitively ruling out ASD, which might result in diagnostic delays.”
Confidence is key
Physician confidence was also correlated with accuracy.
The authors wrote: “Among true-positive cases (MDT and pediatrician agree the child has ASD), the pediatrician was certain or very certain 80% of the time (43 cases) and the MDT was certain or very certain 96% of the time (52 cases). As such, if pediatricians conferred ASD diagnoses when feeling certain or very certain, they would make 46 correct diagnoses and 2 incorrect diagnoses.”
The high accuracy of diagnosis when physicians are confident suggests “listening to that sense of certainty is important,” Dr. Gerdts said. Conversely, these numbers show when a physician is uncertain about diagnosing ASD, they should listen to that instinct, too, and refer.
The results of the study support having general pediatricians diagnose and move forward with their patients when the signs of ASD are more definitive, saving the less-certain cases for the more resource-intensive teams to diagnose. Many states are moving toward that “tiered” system, Dr. Gerdts said.
“For many, and in fact most children, general pediatricians are pretty accurate when making an autism diagnosis,” she said.
“Let’s get [general pediatricians] confident in recognizing when this is outside their skill and ability level,” she said. “If you’re not sure, it is better to refer them on than to misdiagnose them.”
The important missing piece she said is how to support them “so they don’t feel pressure to make that call,” Dr. Gerdts said.
This project was funded by a grant from the Bloorview Research Institute, a grant from the Canadian Institutes of Health Research and a grant from the Canadian Institutes of Health. Three coauthors consult for and receive grants from several pharmaceutical companies and other organizations. Dr. Gerdts declared no relevant financial relationships.
General pediatricians and a multidisciplinary team of specialists agreed most of the time on which children should be diagnosed with autism spectrum disorder (ASD), data from a new study suggest.
But when it came to ruling out ASD, the agreement rate was much lower.
The study by Melanie Penner, MSc, MD, with the Autism Research Centre at Bloorview Research Institute, Toronto, and colleagues found that 89% of the time when a physician determined a child had ASD, the multidisciplinary team agreed. But when a pediatrician thought a child did not have ASD, the multidisciplinary team agreed only 60% of the time. The study was published in JAMA Network Open.
Multidisciplinary team model can’t keep up with demand
The findings are important as many guidelines recommend multidisciplinary teams (MDTs) for all ASD diagnostic assessment. However, the resources for this model can’t meet the demand of children needing a diagnosis and can lead to long waits for ASD therapies.
In Canada, the researchers note, the average wait time from referral to receipt of ASD diagnosis has been reported as 7 months and “has likely lengthened since the COVID-19 pandemic.”
Jennifer Gerdts, PhD, an attending psychologist at the Seattle Children’s Autism Center, said in an interview that the wait there for diagnosis in children older than 4 is “multiple years,” a length of time that’s common across the United States. Meanwhile, in many states families can’t access services without a diagnosis.
Expanding capacity with diagnoses by general pediatricians may improve access, but the diagnostic accuracy is critical.
Dr. Gerdts, who was not part of the study, said this research is “hugely important in the work that is under way to build community capacity for diagnostic evaluation.”
She said this study shows that not all diagnoses need the resources of a multiple-disciplinary team and that “pediatricians can do it, too, and they can do it pretty accurately.” Dr. Gerdts evaluates children for autism and helps train pediatricians to make diagnoses.
Pediatricians, specialist team completed blinded assessments
The 17 pediatricians in the study and the specialist team independently completed blinded assessment and each recorded a decision on whether the child had ASD. The prospective diagnostic study was conducted in a specialist assessment center in Toronto and in general pediatrician practices in Ontario from June 2016 to March 2020.
Children were younger than 5.5 years, did not have an ASD diagnosis and were referred because there was a development concern. The pediatricians referred 106 children (75% boys; average age, 3.5 years). More than half (57%) of the participating children were from minority racial and ethnic groups.
The children were randomly assigned to two groups: One included children who had their MDT visits before their pediatrician assessment and the other group included those who had their MDT visits after their pediatrician assessment.
The MDT diagnosed more than two-thirds of the children (68%) with ASD.
Sensitivity and specificity of the pediatrician assessments, compared with that of the specialist team, were 0.75 (95% confidence interval, 0.67-0.83) and 0.79 (95% CI, 0.62-0.91), respectively.
A look at pediatricians’ accuracy
Pediatricians reported the decisions they would have made had the child not been in the study.
- In 69% of the true-positive cases, pediatricians would have given an ASD diagnosis.
- In 44% of true-negative cases, they would have told the family the child did not have autism; in 30% of those case, they would give alternative diagnoses (most commonly ADHD and language delay).
- The pediatrician would have diagnosed ASD in only one of the seven false-positive cases and would refer those patients to a subspecialist 71% of the time.
- In false-negative cases, the pediatrician would incorrectly tell the family the child does not have autism 44% of the time.
Regarding the false-negative cases, the authors wrote, “more caution is needed for pediatricians when definitively ruling out ASD, which might result in diagnostic delays.”
Confidence is key
Physician confidence was also correlated with accuracy.
The authors wrote: “Among true-positive cases (MDT and pediatrician agree the child has ASD), the pediatrician was certain or very certain 80% of the time (43 cases) and the MDT was certain or very certain 96% of the time (52 cases). As such, if pediatricians conferred ASD diagnoses when feeling certain or very certain, they would make 46 correct diagnoses and 2 incorrect diagnoses.”
The high accuracy of diagnosis when physicians are confident suggests “listening to that sense of certainty is important,” Dr. Gerdts said. Conversely, these numbers show when a physician is uncertain about diagnosing ASD, they should listen to that instinct, too, and refer.
The results of the study support having general pediatricians diagnose and move forward with their patients when the signs of ASD are more definitive, saving the less-certain cases for the more resource-intensive teams to diagnose. Many states are moving toward that “tiered” system, Dr. Gerdts said.
“For many, and in fact most children, general pediatricians are pretty accurate when making an autism diagnosis,” she said.
“Let’s get [general pediatricians] confident in recognizing when this is outside their skill and ability level,” she said. “If you’re not sure, it is better to refer them on than to misdiagnose them.”
The important missing piece she said is how to support them “so they don’t feel pressure to make that call,” Dr. Gerdts said.
This project was funded by a grant from the Bloorview Research Institute, a grant from the Canadian Institutes of Health Research and a grant from the Canadian Institutes of Health. Three coauthors consult for and receive grants from several pharmaceutical companies and other organizations. Dr. Gerdts declared no relevant financial relationships.
FROM JAMA NETWORK OPEN
Children with autism but no intellectual disability may be falling through the cracks
Approximately two out of three children with autism spectrum disorder (ASD) do not have concurrent intellectual disability, according to a population study of ASD trends.
Intellectual functioning remains the best predictor of functional outcomes in kids with ASD, and missing those with no cognitive impairment (ASD-N) can prevent intervention and affect future achievement.
Furthermore, while the study found that ASD-N increased among all demographic subgroups from 2000 to 2016, it also observed widespread health disparities in identifying ASD-N, especially in Black, Hispanic, and underprivileged children.
“ASD is a major public health concern and prevalence estimates are likely to continue to rise as disparities are reduced and ASD identification is improved,” wrote researchers led by Josephine Shenouda, DrPH, MS, of Rutgers School of Public Health in Piscataway, N.J., in Pediatrics .
The study period saw a surprising 500% increase in the prevalence of ASD-N and a 200% increase in the prevalence of cognitive impairment–associated ASD-I , with higher rates across all sex, race, ethnicity, and socioeconomic subgroups. The five- and twofold respective increases are consistent with previous research.
“To a large degree, the rise in autism estimates has been driven by individuals without intellectual disability,” Dr. Shenouda said in an interview. “The best way to address increasing autism and to affect disparities in autism identification is through universal autism screening during the toddler period. And different metrics of functional outcomes need to be developed to understand the expression of autism better.”
Her group had previously seen autism estimates of approximately 1% in 2000 rise to 3% by 2016 but had noted variations, with some communities exceeding 5% for autism estimates. “That led to the question of why, and we saw that in areas with high estimates, we are identifying more children with autism without intellectual disability,” she said. “We wanted to know if the increase over time was equally distributed among children with autism with and without intellectual disability.”
A study in disparities
The cross-sectional study examined data from active ASD surveillance by the CDC’s Autism and Developmental Disabilities Monitoring Network in 8-year-olds residing in the New York/New Jersey Metropolitan Area. Overall, 4,661 children were identified with ASD, with ASD-I affecting 1,505 (32.3%), and ASD-N affecting 2,764 (59.3%). Non-Hispanic Black children who were affected numbered 946 (20.3%), while 1,230 (26.4%) were Hispanic, and 2,114 (45.4%) were non-Hispanic White.
Notably, Black children were 30% less likely to be identified with ASD-N compared with White children, and children residing in affluent areas were 80% more likely to be identified with ASD-N versus those in underserved areas. Furthermore, a greater proportion of children with ASD-I resided in vulnerable areas compared with their counterparts with ASD-N.
While males had a higher prevalence compared with females regardless of intellectual disability status, male-to-female ratios were slightly lower among ASD-I compared with ASD-N cases.
Commenting on the study but not involved in it, Barbara J. Howard, MD, an assistant professor of medicine at Johns Hopkins University, Baltimore, said the increasing gap in identifying ASD-N according to race, ethnicity, and socioeconomic status measures probably reflects greater parental awareness of ASD and access to diagnostic services in White families and those of higher socioeconomic status. “There were no racial, ethnicity, or socioeconomic status differences in the prevalence of the more obvious and impairing ASD-I in the sample, but its prevalence was also increasing over this period,” she said.
Although the greater recognition of the less impairing ASD-N is important for optimal outcomes through intervention, the increasing discrepancies mean that more children generally and more marginalized children specifically are not being diagnosed or served. “There should be no differences in prevalence by these characteristics,” Dr. Howard said. “The striking inequity for non-White children and those of lower socioeconomic status in being diagnosed with ASD-N and thus qualifying for intervention that could improve their long-term functioning is likely also compounded by service, educational, and social disadvantages they may experience.”
In light of these disparities, an accompanying editorial by Emily Hotez, PhD, of the University of California, Los Angeles, and Lindsay Shea, DrPH, of the A.J. Drexel Autism Institute at Drexel University, Philadelphia, argues that social determinants of health (SDOH) should be prioritized in the public health surveillance of autism since these factors potentially contribute to the general underdiagnosis of autism in minority groups and merit more attention from pediatricians. While SDOH affects many nonautistic conditions, it may be even more important for families dealing with the stressors and isolation associated with autism, the commentators said. “Our commentary speaks to the utility of increasing SDOH surveillance in improving our understanding of autistic individuals’ needs, experiences, and priorities on a population level,” Dr. Hotez said in an interview. She added that integrating SDOH surveillance into pediatricians’ workflows will lead to improvements in clinical practice and patient care in the long term.
“Specifically, increased uptake of universal SDOH screening and referral practices will allow pediatricians to more proactively link autistic children and families, particularly those from marginalized groups, with much-needed health-promoting services and supports.” She cautioned, however, that while most providers believe universal SDOH screening is important, fewer report that screening is feasible or feel prepared to address families’ social needs when they are identified.
This study was supported by the Centers for Disease Control and Prevention and the National Institutes of Health/National Institute of Environmental Health Sciences. The authors had no conflicts of interest to disclose. The commentators had no potential conflicts of interest to disclose. Dr. Howard disclosed no competing interests relevant to her comments.
Approximately two out of three children with autism spectrum disorder (ASD) do not have concurrent intellectual disability, according to a population study of ASD trends.
Intellectual functioning remains the best predictor of functional outcomes in kids with ASD, and missing those with no cognitive impairment (ASD-N) can prevent intervention and affect future achievement.
Furthermore, while the study found that ASD-N increased among all demographic subgroups from 2000 to 2016, it also observed widespread health disparities in identifying ASD-N, especially in Black, Hispanic, and underprivileged children.
“ASD is a major public health concern and prevalence estimates are likely to continue to rise as disparities are reduced and ASD identification is improved,” wrote researchers led by Josephine Shenouda, DrPH, MS, of Rutgers School of Public Health in Piscataway, N.J., in Pediatrics .
The study period saw a surprising 500% increase in the prevalence of ASD-N and a 200% increase in the prevalence of cognitive impairment–associated ASD-I , with higher rates across all sex, race, ethnicity, and socioeconomic subgroups. The five- and twofold respective increases are consistent with previous research.
“To a large degree, the rise in autism estimates has been driven by individuals without intellectual disability,” Dr. Shenouda said in an interview. “The best way to address increasing autism and to affect disparities in autism identification is through universal autism screening during the toddler period. And different metrics of functional outcomes need to be developed to understand the expression of autism better.”
Her group had previously seen autism estimates of approximately 1% in 2000 rise to 3% by 2016 but had noted variations, with some communities exceeding 5% for autism estimates. “That led to the question of why, and we saw that in areas with high estimates, we are identifying more children with autism without intellectual disability,” she said. “We wanted to know if the increase over time was equally distributed among children with autism with and without intellectual disability.”
A study in disparities
The cross-sectional study examined data from active ASD surveillance by the CDC’s Autism and Developmental Disabilities Monitoring Network in 8-year-olds residing in the New York/New Jersey Metropolitan Area. Overall, 4,661 children were identified with ASD, with ASD-I affecting 1,505 (32.3%), and ASD-N affecting 2,764 (59.3%). Non-Hispanic Black children who were affected numbered 946 (20.3%), while 1,230 (26.4%) were Hispanic, and 2,114 (45.4%) were non-Hispanic White.
Notably, Black children were 30% less likely to be identified with ASD-N compared with White children, and children residing in affluent areas were 80% more likely to be identified with ASD-N versus those in underserved areas. Furthermore, a greater proportion of children with ASD-I resided in vulnerable areas compared with their counterparts with ASD-N.
While males had a higher prevalence compared with females regardless of intellectual disability status, male-to-female ratios were slightly lower among ASD-I compared with ASD-N cases.
Commenting on the study but not involved in it, Barbara J. Howard, MD, an assistant professor of medicine at Johns Hopkins University, Baltimore, said the increasing gap in identifying ASD-N according to race, ethnicity, and socioeconomic status measures probably reflects greater parental awareness of ASD and access to diagnostic services in White families and those of higher socioeconomic status. “There were no racial, ethnicity, or socioeconomic status differences in the prevalence of the more obvious and impairing ASD-I in the sample, but its prevalence was also increasing over this period,” she said.
Although the greater recognition of the less impairing ASD-N is important for optimal outcomes through intervention, the increasing discrepancies mean that more children generally and more marginalized children specifically are not being diagnosed or served. “There should be no differences in prevalence by these characteristics,” Dr. Howard said. “The striking inequity for non-White children and those of lower socioeconomic status in being diagnosed with ASD-N and thus qualifying for intervention that could improve their long-term functioning is likely also compounded by service, educational, and social disadvantages they may experience.”
In light of these disparities, an accompanying editorial by Emily Hotez, PhD, of the University of California, Los Angeles, and Lindsay Shea, DrPH, of the A.J. Drexel Autism Institute at Drexel University, Philadelphia, argues that social determinants of health (SDOH) should be prioritized in the public health surveillance of autism since these factors potentially contribute to the general underdiagnosis of autism in minority groups and merit more attention from pediatricians. While SDOH affects many nonautistic conditions, it may be even more important for families dealing with the stressors and isolation associated with autism, the commentators said. “Our commentary speaks to the utility of increasing SDOH surveillance in improving our understanding of autistic individuals’ needs, experiences, and priorities on a population level,” Dr. Hotez said in an interview. She added that integrating SDOH surveillance into pediatricians’ workflows will lead to improvements in clinical practice and patient care in the long term.
“Specifically, increased uptake of universal SDOH screening and referral practices will allow pediatricians to more proactively link autistic children and families, particularly those from marginalized groups, with much-needed health-promoting services and supports.” She cautioned, however, that while most providers believe universal SDOH screening is important, fewer report that screening is feasible or feel prepared to address families’ social needs when they are identified.
This study was supported by the Centers for Disease Control and Prevention and the National Institutes of Health/National Institute of Environmental Health Sciences. The authors had no conflicts of interest to disclose. The commentators had no potential conflicts of interest to disclose. Dr. Howard disclosed no competing interests relevant to her comments.
Approximately two out of three children with autism spectrum disorder (ASD) do not have concurrent intellectual disability, according to a population study of ASD trends.
Intellectual functioning remains the best predictor of functional outcomes in kids with ASD, and missing those with no cognitive impairment (ASD-N) can prevent intervention and affect future achievement.
Furthermore, while the study found that ASD-N increased among all demographic subgroups from 2000 to 2016, it also observed widespread health disparities in identifying ASD-N, especially in Black, Hispanic, and underprivileged children.
“ASD is a major public health concern and prevalence estimates are likely to continue to rise as disparities are reduced and ASD identification is improved,” wrote researchers led by Josephine Shenouda, DrPH, MS, of Rutgers School of Public Health in Piscataway, N.J., in Pediatrics .
The study period saw a surprising 500% increase in the prevalence of ASD-N and a 200% increase in the prevalence of cognitive impairment–associated ASD-I , with higher rates across all sex, race, ethnicity, and socioeconomic subgroups. The five- and twofold respective increases are consistent with previous research.
“To a large degree, the rise in autism estimates has been driven by individuals without intellectual disability,” Dr. Shenouda said in an interview. “The best way to address increasing autism and to affect disparities in autism identification is through universal autism screening during the toddler period. And different metrics of functional outcomes need to be developed to understand the expression of autism better.”
Her group had previously seen autism estimates of approximately 1% in 2000 rise to 3% by 2016 but had noted variations, with some communities exceeding 5% for autism estimates. “That led to the question of why, and we saw that in areas with high estimates, we are identifying more children with autism without intellectual disability,” she said. “We wanted to know if the increase over time was equally distributed among children with autism with and without intellectual disability.”
A study in disparities
The cross-sectional study examined data from active ASD surveillance by the CDC’s Autism and Developmental Disabilities Monitoring Network in 8-year-olds residing in the New York/New Jersey Metropolitan Area. Overall, 4,661 children were identified with ASD, with ASD-I affecting 1,505 (32.3%), and ASD-N affecting 2,764 (59.3%). Non-Hispanic Black children who were affected numbered 946 (20.3%), while 1,230 (26.4%) were Hispanic, and 2,114 (45.4%) were non-Hispanic White.
Notably, Black children were 30% less likely to be identified with ASD-N compared with White children, and children residing in affluent areas were 80% more likely to be identified with ASD-N versus those in underserved areas. Furthermore, a greater proportion of children with ASD-I resided in vulnerable areas compared with their counterparts with ASD-N.
While males had a higher prevalence compared with females regardless of intellectual disability status, male-to-female ratios were slightly lower among ASD-I compared with ASD-N cases.
Commenting on the study but not involved in it, Barbara J. Howard, MD, an assistant professor of medicine at Johns Hopkins University, Baltimore, said the increasing gap in identifying ASD-N according to race, ethnicity, and socioeconomic status measures probably reflects greater parental awareness of ASD and access to diagnostic services in White families and those of higher socioeconomic status. “There were no racial, ethnicity, or socioeconomic status differences in the prevalence of the more obvious and impairing ASD-I in the sample, but its prevalence was also increasing over this period,” she said.
Although the greater recognition of the less impairing ASD-N is important for optimal outcomes through intervention, the increasing discrepancies mean that more children generally and more marginalized children specifically are not being diagnosed or served. “There should be no differences in prevalence by these characteristics,” Dr. Howard said. “The striking inequity for non-White children and those of lower socioeconomic status in being diagnosed with ASD-N and thus qualifying for intervention that could improve their long-term functioning is likely also compounded by service, educational, and social disadvantages they may experience.”
In light of these disparities, an accompanying editorial by Emily Hotez, PhD, of the University of California, Los Angeles, and Lindsay Shea, DrPH, of the A.J. Drexel Autism Institute at Drexel University, Philadelphia, argues that social determinants of health (SDOH) should be prioritized in the public health surveillance of autism since these factors potentially contribute to the general underdiagnosis of autism in minority groups and merit more attention from pediatricians. While SDOH affects many nonautistic conditions, it may be even more important for families dealing with the stressors and isolation associated with autism, the commentators said. “Our commentary speaks to the utility of increasing SDOH surveillance in improving our understanding of autistic individuals’ needs, experiences, and priorities on a population level,” Dr. Hotez said in an interview. She added that integrating SDOH surveillance into pediatricians’ workflows will lead to improvements in clinical practice and patient care in the long term.
“Specifically, increased uptake of universal SDOH screening and referral practices will allow pediatricians to more proactively link autistic children and families, particularly those from marginalized groups, with much-needed health-promoting services and supports.” She cautioned, however, that while most providers believe universal SDOH screening is important, fewer report that screening is feasible or feel prepared to address families’ social needs when they are identified.
This study was supported by the Centers for Disease Control and Prevention and the National Institutes of Health/National Institute of Environmental Health Sciences. The authors had no conflicts of interest to disclose. The commentators had no potential conflicts of interest to disclose. Dr. Howard disclosed no competing interests relevant to her comments.
FROM PEDIATRICS
Hope for catching infants with CP early
A new prognostic tool may help identify infants with cerebral palsy (CP) earlier, allowing them to receive therapies to improve later outcomes.
Researchers from Canada used 12 clinical variables to predict the condition. The tool accurately predicted 75% of CP cases. The study was published in JAMA Pediatrics.
The prevalence of CP in the United States is 2-3 children per 1,000, a rate that has been relatively unchanged for decades. Although recent innovations in diagnosis using motor scores and MRI scans have aided in diagnosis, these techniques have historically been reserved only for infants who were cared for in neonatal intensive care units, were born prematurely, or who had other neurologic risk factors, such as birth defects.
The tool identified 2.4 times more children with CP than would have been detected using current diagnostic methods, according to the researchers.
“We developed the prediction tool to try to make these findings accessible to any health care provider, which will hopefully help break down the long-held perception that CP is usually related to prematurity or a difficult delivery,” said Mary Dunbar, MD, an author of the study. “We know that about half of children with CP aren’t premature and didn’t have a particularly difficult birth.”
The bedside tool weighs factors such as the use by mothers of illicit drugs and tobacco; the presence of diabetes and preeclampsia during pregnancy; whether the infant is male; birth weight; and the number of miscarriages the mother had prior to the birth. The tool also factors in results from a test that measures how well the infant is adjusting to life outside the womb.
Dr. Dunbar and colleagues compared 1,265 infants with CP from the Canadian Cerebral Palsy Registry from 2003 to 2019 with a control group of 1,985 children without CP from the Alberta Pregnancy Outcomes and Nutrition longitudinal study.
The study authors hope that the prognostic tool can be integrated into existing newborn screenings and completed by nurses or physicians as part of routine care.
“Its cost is low especially in comparison to MRI and specialized neurological assessments,” said Sarah Taylor, MD, section chief of neonatal-perinatal medicine at Yale New Haven Children’s Hospital in New Haven, Conn. Health systems and doctors may be more apt to adopt the tool, since it does not require specialized equipment or training.
Surprising findings
Several clinical variables independently increased the risk of CP, including independent 5-minute Apgar test scores of <6, chorioamnionitis, and illicit drug use during the pregnancy. Dr. Dunbar and colleagues recommend that primary care clinicians provide enhanced surveillance for these infants.
“I think there are also really important public health implications to address maternal and reproductive health to support pregnant people, since this study shows that common pregnancy conditions that are potentially treatable may additively contribute to cerebral palsy risk,” said Dr. Dunbar, a pediatric neurologist and assistant professor at the University of Calgary (Alta.)
For infants identified as being at risk, the study authors also suggest that doctors conduct focused examinations for CP at 3-, 6- and 12-month well-baby visits. If results of an examination are abnormal, doctors can advise the caregiver to conduct an early expert evaluation for a general movements assessment. Interventions for children with CP usually start in the first few years of life and can include occupational therapy, use of orthotic devices, and medication.
Dr. Dunbar and colleagues acknowledge that the test is not perfect and that additional work is needed.
“As helpful as the prediction tool may be to identify cases of CP early, we know there are still a minority of CP cases that it won’t catch because they don’t have any of the known risk factors,” Dr. Dunbar said. “We’re currently working on further research about this unique group.”
The researchers cited several limitations to the dataset used in the study, including a control group that was skewed toward older patients and persons of higher socioeconomic status. In addition, the data included a greater proportion of White women than the average Canadian population.
The Canadian Cerebral Palsy Registry was supported by the NeuroDevNet, KidsBrainHealth, the Harvey Guyda Chair of McGill University, Montreal Children’s Hospital, and the Public Health Agency of Canada. The authors disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
A new prognostic tool may help identify infants with cerebral palsy (CP) earlier, allowing them to receive therapies to improve later outcomes.
Researchers from Canada used 12 clinical variables to predict the condition. The tool accurately predicted 75% of CP cases. The study was published in JAMA Pediatrics.
The prevalence of CP in the United States is 2-3 children per 1,000, a rate that has been relatively unchanged for decades. Although recent innovations in diagnosis using motor scores and MRI scans have aided in diagnosis, these techniques have historically been reserved only for infants who were cared for in neonatal intensive care units, were born prematurely, or who had other neurologic risk factors, such as birth defects.
The tool identified 2.4 times more children with CP than would have been detected using current diagnostic methods, according to the researchers.
“We developed the prediction tool to try to make these findings accessible to any health care provider, which will hopefully help break down the long-held perception that CP is usually related to prematurity or a difficult delivery,” said Mary Dunbar, MD, an author of the study. “We know that about half of children with CP aren’t premature and didn’t have a particularly difficult birth.”
The bedside tool weighs factors such as the use by mothers of illicit drugs and tobacco; the presence of diabetes and preeclampsia during pregnancy; whether the infant is male; birth weight; and the number of miscarriages the mother had prior to the birth. The tool also factors in results from a test that measures how well the infant is adjusting to life outside the womb.
Dr. Dunbar and colleagues compared 1,265 infants with CP from the Canadian Cerebral Palsy Registry from 2003 to 2019 with a control group of 1,985 children without CP from the Alberta Pregnancy Outcomes and Nutrition longitudinal study.
The study authors hope that the prognostic tool can be integrated into existing newborn screenings and completed by nurses or physicians as part of routine care.
“Its cost is low especially in comparison to MRI and specialized neurological assessments,” said Sarah Taylor, MD, section chief of neonatal-perinatal medicine at Yale New Haven Children’s Hospital in New Haven, Conn. Health systems and doctors may be more apt to adopt the tool, since it does not require specialized equipment or training.
Surprising findings
Several clinical variables independently increased the risk of CP, including independent 5-minute Apgar test scores of <6, chorioamnionitis, and illicit drug use during the pregnancy. Dr. Dunbar and colleagues recommend that primary care clinicians provide enhanced surveillance for these infants.
“I think there are also really important public health implications to address maternal and reproductive health to support pregnant people, since this study shows that common pregnancy conditions that are potentially treatable may additively contribute to cerebral palsy risk,” said Dr. Dunbar, a pediatric neurologist and assistant professor at the University of Calgary (Alta.)
For infants identified as being at risk, the study authors also suggest that doctors conduct focused examinations for CP at 3-, 6- and 12-month well-baby visits. If results of an examination are abnormal, doctors can advise the caregiver to conduct an early expert evaluation for a general movements assessment. Interventions for children with CP usually start in the first few years of life and can include occupational therapy, use of orthotic devices, and medication.
Dr. Dunbar and colleagues acknowledge that the test is not perfect and that additional work is needed.
“As helpful as the prediction tool may be to identify cases of CP early, we know there are still a minority of CP cases that it won’t catch because they don’t have any of the known risk factors,” Dr. Dunbar said. “We’re currently working on further research about this unique group.”
The researchers cited several limitations to the dataset used in the study, including a control group that was skewed toward older patients and persons of higher socioeconomic status. In addition, the data included a greater proportion of White women than the average Canadian population.
The Canadian Cerebral Palsy Registry was supported by the NeuroDevNet, KidsBrainHealth, the Harvey Guyda Chair of McGill University, Montreal Children’s Hospital, and the Public Health Agency of Canada. The authors disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
A new prognostic tool may help identify infants with cerebral palsy (CP) earlier, allowing them to receive therapies to improve later outcomes.
Researchers from Canada used 12 clinical variables to predict the condition. The tool accurately predicted 75% of CP cases. The study was published in JAMA Pediatrics.
The prevalence of CP in the United States is 2-3 children per 1,000, a rate that has been relatively unchanged for decades. Although recent innovations in diagnosis using motor scores and MRI scans have aided in diagnosis, these techniques have historically been reserved only for infants who were cared for in neonatal intensive care units, were born prematurely, or who had other neurologic risk factors, such as birth defects.
The tool identified 2.4 times more children with CP than would have been detected using current diagnostic methods, according to the researchers.
“We developed the prediction tool to try to make these findings accessible to any health care provider, which will hopefully help break down the long-held perception that CP is usually related to prematurity or a difficult delivery,” said Mary Dunbar, MD, an author of the study. “We know that about half of children with CP aren’t premature and didn’t have a particularly difficult birth.”
The bedside tool weighs factors such as the use by mothers of illicit drugs and tobacco; the presence of diabetes and preeclampsia during pregnancy; whether the infant is male; birth weight; and the number of miscarriages the mother had prior to the birth. The tool also factors in results from a test that measures how well the infant is adjusting to life outside the womb.
Dr. Dunbar and colleagues compared 1,265 infants with CP from the Canadian Cerebral Palsy Registry from 2003 to 2019 with a control group of 1,985 children without CP from the Alberta Pregnancy Outcomes and Nutrition longitudinal study.
The study authors hope that the prognostic tool can be integrated into existing newborn screenings and completed by nurses or physicians as part of routine care.
“Its cost is low especially in comparison to MRI and specialized neurological assessments,” said Sarah Taylor, MD, section chief of neonatal-perinatal medicine at Yale New Haven Children’s Hospital in New Haven, Conn. Health systems and doctors may be more apt to adopt the tool, since it does not require specialized equipment or training.
Surprising findings
Several clinical variables independently increased the risk of CP, including independent 5-minute Apgar test scores of <6, chorioamnionitis, and illicit drug use during the pregnancy. Dr. Dunbar and colleagues recommend that primary care clinicians provide enhanced surveillance for these infants.
“I think there are also really important public health implications to address maternal and reproductive health to support pregnant people, since this study shows that common pregnancy conditions that are potentially treatable may additively contribute to cerebral palsy risk,” said Dr. Dunbar, a pediatric neurologist and assistant professor at the University of Calgary (Alta.)
For infants identified as being at risk, the study authors also suggest that doctors conduct focused examinations for CP at 3-, 6- and 12-month well-baby visits. If results of an examination are abnormal, doctors can advise the caregiver to conduct an early expert evaluation for a general movements assessment. Interventions for children with CP usually start in the first few years of life and can include occupational therapy, use of orthotic devices, and medication.
Dr. Dunbar and colleagues acknowledge that the test is not perfect and that additional work is needed.
“As helpful as the prediction tool may be to identify cases of CP early, we know there are still a minority of CP cases that it won’t catch because they don’t have any of the known risk factors,” Dr. Dunbar said. “We’re currently working on further research about this unique group.”
The researchers cited several limitations to the dataset used in the study, including a control group that was skewed toward older patients and persons of higher socioeconomic status. In addition, the data included a greater proportion of White women than the average Canadian population.
The Canadian Cerebral Palsy Registry was supported by the NeuroDevNet, KidsBrainHealth, the Harvey Guyda Chair of McGill University, Montreal Children’s Hospital, and the Public Health Agency of Canada. The authors disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
FROM JAMA PEDIATRICS
Ecopipam reduces Tourette’s tics without common side effects in phase 2 trial
Ecopipam, in development for Tourette syndrome in children and adolescents, has shown in a randomized, controlled trial that, compared with placebo, it reduced tics and reduced the risk for some of the common side effects of other treatments, including weight gain.
Findings of the multicenter, double-blind, trial funded by the drug maker, Emalex Biosciences, were published online in Pediatrics. The trial was conducted at 68 sites in the United States, Canada, Germany, France, and Poland between May 2019 and September 2021.
Donald L. Gilbert, MD, MS, with the division of neurology at Cincinnati Children’s Hospital, and colleagues noted that all Food and Drug Administration–approved medications for Tourette syndrome are antipsychotics. The medications carry a risk of weight gain, electrocardiogram abnormalities, metabolic changes, and drug-induced movement disorders.
First-in-class medication ecopipam, targets the D1 dopamine receptor, while currently approved medications block the D2 receptor. It “may be a safe and effective treatment of Tourette syndrome with advantages over other currently approved therapeutic agents,” the authors wrote.
The study included 153 individuals at least 6 years old up to age 18 with a baseline Yale Global Tic Severity Score Total Tic Score of at least 20.
They were randomly assigned 1:1 to ecopipam or placebo.
Significant reduction in tic severity
Researchers saw a 30% reduction in the tic severity score from baseline to week 12 for the ecopipam group compared with the placebo group.
The data showed a least-squares mean difference of 3.44 (95% confidence interval [CI], 6.09-0.79, P = .01). Researchers also saw improvement in Clinical Global Impression of Tourette Syndrome Severity in the ecopipam group (P = .03).
Sara Pawlowski, MD, division chief for primary care mental health integration at University of Vermont Health Network and assistant professor of psychiatry, University of Vermont, Burlington, said in an interview that several things should be considered with this research.
One is that, though the results show a reduction in tics, the study lasted only 12 weeks and “tics can last a lifetime,” she noted.
“They also can ebb and flow with major life events, stressors, and various other variables. So, I wonder how the effects of improvement can be teased out from the natural ebb and flow of the condition in a 3-month window, which is a snapshot into the course of a known relapsing, remitting, lifetime, and chronically variable condition,” she said.
Headaches, insomnia among side effects
Weight gain was larger in the placebo group than in the ecopipam group: 17.1% in the ecopipam group and 20.3% of those who got a placebo had a weight gain of more than 7% over the study period.
The most common side effects of the study drug were headache (15.8%), insomnia (14.5%), fatigue (7.9%), and somnolence (7.9%).
A limitation of the study was lack of racial and ethnic diversity, as 93.5% of those in the placebo group and 86.8% in the ecopipam group were White.
Guidelines in North America and Europe agree that behavioral treatments should be the first-line therapy.
Dr. Pawlowski said that although effective medications are needed, she urges focusing on better access to nonmedication treatments “that work for children and adolescents” as children who start taking the medications early may take them for the rest of their lives.
Also, while the research didn’t find weight gain in the ecopipam group, the side effects they did find in the group, including headache and insomnia, “do impact a child’s life,” she noted.
“We also can’t be reassured that over the course of chronic treatment there wouldn’t be movement disorders or metabolic disorders that emerge. Those are side effects or disorders that can emerge surreptitiously over time, and more time than 12 weeks,” she said.
The study was funded by Emalex Biosciences. Dr. Gilbert has received consulting fees from Biogen and PTC therapeutics. Study coauthors disclosed ties with Emalex, Alkermes, and Paragon Biosciences. Dr. Pawlowski reports no relevant financial relationships.
Ecopipam, in development for Tourette syndrome in children and adolescents, has shown in a randomized, controlled trial that, compared with placebo, it reduced tics and reduced the risk for some of the common side effects of other treatments, including weight gain.
Findings of the multicenter, double-blind, trial funded by the drug maker, Emalex Biosciences, were published online in Pediatrics. The trial was conducted at 68 sites in the United States, Canada, Germany, France, and Poland between May 2019 and September 2021.
Donald L. Gilbert, MD, MS, with the division of neurology at Cincinnati Children’s Hospital, and colleagues noted that all Food and Drug Administration–approved medications for Tourette syndrome are antipsychotics. The medications carry a risk of weight gain, electrocardiogram abnormalities, metabolic changes, and drug-induced movement disorders.
First-in-class medication ecopipam, targets the D1 dopamine receptor, while currently approved medications block the D2 receptor. It “may be a safe and effective treatment of Tourette syndrome with advantages over other currently approved therapeutic agents,” the authors wrote.
The study included 153 individuals at least 6 years old up to age 18 with a baseline Yale Global Tic Severity Score Total Tic Score of at least 20.
They were randomly assigned 1:1 to ecopipam or placebo.
Significant reduction in tic severity
Researchers saw a 30% reduction in the tic severity score from baseline to week 12 for the ecopipam group compared with the placebo group.
The data showed a least-squares mean difference of 3.44 (95% confidence interval [CI], 6.09-0.79, P = .01). Researchers also saw improvement in Clinical Global Impression of Tourette Syndrome Severity in the ecopipam group (P = .03).
Sara Pawlowski, MD, division chief for primary care mental health integration at University of Vermont Health Network and assistant professor of psychiatry, University of Vermont, Burlington, said in an interview that several things should be considered with this research.
One is that, though the results show a reduction in tics, the study lasted only 12 weeks and “tics can last a lifetime,” she noted.
“They also can ebb and flow with major life events, stressors, and various other variables. So, I wonder how the effects of improvement can be teased out from the natural ebb and flow of the condition in a 3-month window, which is a snapshot into the course of a known relapsing, remitting, lifetime, and chronically variable condition,” she said.
Headaches, insomnia among side effects
Weight gain was larger in the placebo group than in the ecopipam group: 17.1% in the ecopipam group and 20.3% of those who got a placebo had a weight gain of more than 7% over the study period.
The most common side effects of the study drug were headache (15.8%), insomnia (14.5%), fatigue (7.9%), and somnolence (7.9%).
A limitation of the study was lack of racial and ethnic diversity, as 93.5% of those in the placebo group and 86.8% in the ecopipam group were White.
Guidelines in North America and Europe agree that behavioral treatments should be the first-line therapy.
Dr. Pawlowski said that although effective medications are needed, she urges focusing on better access to nonmedication treatments “that work for children and adolescents” as children who start taking the medications early may take them for the rest of their lives.
Also, while the research didn’t find weight gain in the ecopipam group, the side effects they did find in the group, including headache and insomnia, “do impact a child’s life,” she noted.
“We also can’t be reassured that over the course of chronic treatment there wouldn’t be movement disorders or metabolic disorders that emerge. Those are side effects or disorders that can emerge surreptitiously over time, and more time than 12 weeks,” she said.
The study was funded by Emalex Biosciences. Dr. Gilbert has received consulting fees from Biogen and PTC therapeutics. Study coauthors disclosed ties with Emalex, Alkermes, and Paragon Biosciences. Dr. Pawlowski reports no relevant financial relationships.
Ecopipam, in development for Tourette syndrome in children and adolescents, has shown in a randomized, controlled trial that, compared with placebo, it reduced tics and reduced the risk for some of the common side effects of other treatments, including weight gain.
Findings of the multicenter, double-blind, trial funded by the drug maker, Emalex Biosciences, were published online in Pediatrics. The trial was conducted at 68 sites in the United States, Canada, Germany, France, and Poland between May 2019 and September 2021.
Donald L. Gilbert, MD, MS, with the division of neurology at Cincinnati Children’s Hospital, and colleagues noted that all Food and Drug Administration–approved medications for Tourette syndrome are antipsychotics. The medications carry a risk of weight gain, electrocardiogram abnormalities, metabolic changes, and drug-induced movement disorders.
First-in-class medication ecopipam, targets the D1 dopamine receptor, while currently approved medications block the D2 receptor. It “may be a safe and effective treatment of Tourette syndrome with advantages over other currently approved therapeutic agents,” the authors wrote.
The study included 153 individuals at least 6 years old up to age 18 with a baseline Yale Global Tic Severity Score Total Tic Score of at least 20.
They were randomly assigned 1:1 to ecopipam or placebo.
Significant reduction in tic severity
Researchers saw a 30% reduction in the tic severity score from baseline to week 12 for the ecopipam group compared with the placebo group.
The data showed a least-squares mean difference of 3.44 (95% confidence interval [CI], 6.09-0.79, P = .01). Researchers also saw improvement in Clinical Global Impression of Tourette Syndrome Severity in the ecopipam group (P = .03).
Sara Pawlowski, MD, division chief for primary care mental health integration at University of Vermont Health Network and assistant professor of psychiatry, University of Vermont, Burlington, said in an interview that several things should be considered with this research.
One is that, though the results show a reduction in tics, the study lasted only 12 weeks and “tics can last a lifetime,” she noted.
“They also can ebb and flow with major life events, stressors, and various other variables. So, I wonder how the effects of improvement can be teased out from the natural ebb and flow of the condition in a 3-month window, which is a snapshot into the course of a known relapsing, remitting, lifetime, and chronically variable condition,” she said.
Headaches, insomnia among side effects
Weight gain was larger in the placebo group than in the ecopipam group: 17.1% in the ecopipam group and 20.3% of those who got a placebo had a weight gain of more than 7% over the study period.
The most common side effects of the study drug were headache (15.8%), insomnia (14.5%), fatigue (7.9%), and somnolence (7.9%).
A limitation of the study was lack of racial and ethnic diversity, as 93.5% of those in the placebo group and 86.8% in the ecopipam group were White.
Guidelines in North America and Europe agree that behavioral treatments should be the first-line therapy.
Dr. Pawlowski said that although effective medications are needed, she urges focusing on better access to nonmedication treatments “that work for children and adolescents” as children who start taking the medications early may take them for the rest of their lives.
Also, while the research didn’t find weight gain in the ecopipam group, the side effects they did find in the group, including headache and insomnia, “do impact a child’s life,” she noted.
“We also can’t be reassured that over the course of chronic treatment there wouldn’t be movement disorders or metabolic disorders that emerge. Those are side effects or disorders that can emerge surreptitiously over time, and more time than 12 weeks,” she said.
The study was funded by Emalex Biosciences. Dr. Gilbert has received consulting fees from Biogen and PTC therapeutics. Study coauthors disclosed ties with Emalex, Alkermes, and Paragon Biosciences. Dr. Pawlowski reports no relevant financial relationships.
FROM PEDIATRICS
Telehealth parent-child interaction therapy improved behavior in children with developmental delay
The children received the therapy with their parents or caregivers, who were more likely to demonstrate positive parenting behaviors than parents in the control group, authors of the new research published in JAMA Pediatrics found.
Approximately 13% of children have some form of developmental delay (DD) and more than half of these children also have at least one mental health disorder, which makes behavior problems a common and ongoing challenge, Daniel M. Bagner, PhD, a psychologist at Florida International University, Miami, and colleagues wrote.
Clinic-based interventions such as parent-child interaction therapy (PCIT) have been effective for improving behavior in children with DD, the researchers said. PCIT involves in-session caregiver coaching using a 1-way mirror and a wireless earpiece worn by the caregiver.
Barriers to the use of PCIT, especially in marginalized and low-income communities, include transportation, clinician shortages, and stigma-related concerns about a clinic visit, the researchers wrote. Technology now allows for Internet-delivered PCIT to reach more children and families, but its effectiveness for children with DD has not been well studied.
In the new study, the researchers randomized 150 children with DD and externalizing behavior problems to up to 20 weeks of Internet-delivered parent-child interaction therapy (iPCIT) or to referral as usual (RAU, the control group). The children were randomized after completion of early intervention services within 3 months of their third birthday, and participated in the sessions with a parent or caregiver. Most of the participants were from economically disadvantaged households and underrepresented ethnic backgrounds.
The iPCIT intervention was conducted weekly with a remote therapist and lasted for 1-1.5 hours; approximately half of the families received the intervention in Spanish.
The primary outcome was rating on the Child Behavior Checklist (CBCL) and assessment of children and caregivers using the Dyadic Parent-Child Interaction Coding System, fourth edition (DPICS). Assessments occurred at baseline and at week 20 (post treatment), with follow ups at 6 and 12 months.
Scores on the CBCL in the iPCIT group decreased from a mean of 61.18 at baseline to 53.83 post intervention. Scores for the control group started at 64.05 and decreased to 59.49 post intervention. At 6-12 months, the scores for both groups remained stable.
Children who received iPCIT with their parent or caregiver also showed significantly lower levels of externalizing behavior problems, compared with the RAU controls post treatment, and at 6-month and 12-month follow-ups based on the Cohen d measure of standardized effect size for differences between groups.
Significantly more children in the iPCIT group showed clinically significant improvements in externalizing problems at post treatment, compared with the RAU group (74% vs. 42%; P < .001) and at 6 months’ follow-up (73% vs. 45%; P = .002). However, the differences from baseline were not significantly different between the two groups after 12 months, which suggests that the effects may wane over time, the researchers noted.
In addition, the rate of child compliance with parent commands, as measured by a cleanup task, approximately doubled by the 12-month follow-up among children in the iPCIT group versus an increase of approximately one-third in the RAU group.
For secondary outcome measures related to caregiver behaviors, the proportion of observed positive parenting behaviors increased in the iPCIT group during the course of the intervention (postintervention odds ratio, 1.10), and the proportion of controlling and critical behaviors decreased (postintervention OR, 1.40). Harsh and inconsistent discipline decreased in both groups based on self-reports, but the decrease was steeper in iPCIT families.
iPCIT did not have a greater impact than RAU in reducing caregiver stress. The researchers wrote that they were not surprised by the lack of stress reduction “given mixed findings on the impact of parenting interventions on stress in caregivers of children with DD.”
Data support iPCIT potential
Overall, the results support findings from previous studies of clinic-based PCIT for children with DD and previous studies of telehealth interventions for typically developing children, the researchers said.
“Moreover, iPCIT-treated children not only showed reductions in behavior problems, such as aggression, but demonstrated higher rates of following directions, which is especially important for children entering kindergarten,” they wrote.
The findings were limited by several factors including the narrow focus on the primary and secondary outcomes, the use of data from a single site in a single metropolitan area – which may limit generalizability – and the lack of comparison between iPCIT and a clinic-based PCIT control group, the researchers noted. The equipment in the current study was provided to families; therefore, differences in treatment response could not be attributed to differences in technology.
The study represents the first known randomized controlled trial to evaluate a telehealth parenting intervention for children with, according to the researchers. The results suggest that technology can be leveraged to help these patients, including those from ethnic minority families who may be underserved by clinic-based care in overcoming barriers to treatment such as transportation and availability of clinicians. Use of iPCIT could be a critical resource as young children with DD complete Part C services and enter the school system.
Practical pediatric takeaways
“This was a great study, well-designed and very important and helpful for pediatric providers,” Cathy Haut, DNP, CPNP-AC, CPNP-PC, a pediatric nurse practitioner in Rehoboth Beach, Del., said in an interview.
“Young children with developmental delay and/or mental and behavioral health disorders require early identification and intervention,” said Dr. Haut. However, obstacles to intervention include stigma or parental denial of the disorder, as well as more practical challenges related to transportation, time to access a clinic or office, potential long length of treatment, and cost.
“Despite availability of state programs for young children, follow up and continued services can be challenging to complete. Once the child outgrows the state program finding alternative therapy can be difficult with the current shortage of pediatric mental health providers,” Dr. Haut noted.
“I was surprised to see that this study treatment phase was completed prior to the COVID-19 pandemic, when telehealth was not as popular a mode for health care and was not utilized to the extent that it is now, especially for pediatric care,” said Dr. Haut. “I was not surprised at the results, as the traditional mode of PCIT includes therapy and training in a space that may not be as familiar to the child as their home environment, and would include live presence of the therapist/s, which may add to anxiety for both the parent and child.”
That almost half of the parents participating in the study had graduated from college and/or completed graduate degrees “may have contributed to some of the success of this study,” Dr. Haut noted.
Benefits and barriers
“The COVID-19 pandemic brought significant change to the frequency of use and overall success of telehealth services,” Dr. Haut said. “Additional provider education in aspects such as provider technique and the use of medical devices with improved specific health care technology assisted in advancing the experience and opportunity for successful telehealth visits. Telehealth therapy offers a cost-effective option for any pediatric patients and for providers, as the time and space commitment for the patient visit can be considerably less than live office visits.
“Unfortunately, there are still overall barriers that I have personally experienced with telehealth, including interruptions in connectivity, background noise, and lack of an available computer or tablet; and with the use of cell phones not always allowing full inclusion of the caregiver and child,” said Dr. Haut. Children with DD, behavioral problems, or other mental health disorders may pose challenges for parents to manage at home while simultaneously trying to fully focus on the therapy in an online setting.
Although the current study is encouraging, “larger studies focused on specific or individual pediatric mental health and/or behavioral disorders may offer more information for providers, and better document the success of telehealth delivery of services,” Dr. Haut said.
The study was supported by the National Institute of Child Health and Human Development. Dr. Bagner disclosed funding from the National Institutes of Health. He also disclosed personal fees from PCIT International to train clinicians in PCIT supported by a grant from the Florida Department of Children and Families outside the current study. Dr. Haut had no financial conflicts to disclose, but serves on the editorial advisory board of Pediatric News.
The children received the therapy with their parents or caregivers, who were more likely to demonstrate positive parenting behaviors than parents in the control group, authors of the new research published in JAMA Pediatrics found.
Approximately 13% of children have some form of developmental delay (DD) and more than half of these children also have at least one mental health disorder, which makes behavior problems a common and ongoing challenge, Daniel M. Bagner, PhD, a psychologist at Florida International University, Miami, and colleagues wrote.
Clinic-based interventions such as parent-child interaction therapy (PCIT) have been effective for improving behavior in children with DD, the researchers said. PCIT involves in-session caregiver coaching using a 1-way mirror and a wireless earpiece worn by the caregiver.
Barriers to the use of PCIT, especially in marginalized and low-income communities, include transportation, clinician shortages, and stigma-related concerns about a clinic visit, the researchers wrote. Technology now allows for Internet-delivered PCIT to reach more children and families, but its effectiveness for children with DD has not been well studied.
In the new study, the researchers randomized 150 children with DD and externalizing behavior problems to up to 20 weeks of Internet-delivered parent-child interaction therapy (iPCIT) or to referral as usual (RAU, the control group). The children were randomized after completion of early intervention services within 3 months of their third birthday, and participated in the sessions with a parent or caregiver. Most of the participants were from economically disadvantaged households and underrepresented ethnic backgrounds.
The iPCIT intervention was conducted weekly with a remote therapist and lasted for 1-1.5 hours; approximately half of the families received the intervention in Spanish.
The primary outcome was rating on the Child Behavior Checklist (CBCL) and assessment of children and caregivers using the Dyadic Parent-Child Interaction Coding System, fourth edition (DPICS). Assessments occurred at baseline and at week 20 (post treatment), with follow ups at 6 and 12 months.
Scores on the CBCL in the iPCIT group decreased from a mean of 61.18 at baseline to 53.83 post intervention. Scores for the control group started at 64.05 and decreased to 59.49 post intervention. At 6-12 months, the scores for both groups remained stable.
Children who received iPCIT with their parent or caregiver also showed significantly lower levels of externalizing behavior problems, compared with the RAU controls post treatment, and at 6-month and 12-month follow-ups based on the Cohen d measure of standardized effect size for differences between groups.
Significantly more children in the iPCIT group showed clinically significant improvements in externalizing problems at post treatment, compared with the RAU group (74% vs. 42%; P < .001) and at 6 months’ follow-up (73% vs. 45%; P = .002). However, the differences from baseline were not significantly different between the two groups after 12 months, which suggests that the effects may wane over time, the researchers noted.
In addition, the rate of child compliance with parent commands, as measured by a cleanup task, approximately doubled by the 12-month follow-up among children in the iPCIT group versus an increase of approximately one-third in the RAU group.
For secondary outcome measures related to caregiver behaviors, the proportion of observed positive parenting behaviors increased in the iPCIT group during the course of the intervention (postintervention odds ratio, 1.10), and the proportion of controlling and critical behaviors decreased (postintervention OR, 1.40). Harsh and inconsistent discipline decreased in both groups based on self-reports, but the decrease was steeper in iPCIT families.
iPCIT did not have a greater impact than RAU in reducing caregiver stress. The researchers wrote that they were not surprised by the lack of stress reduction “given mixed findings on the impact of parenting interventions on stress in caregivers of children with DD.”
Data support iPCIT potential
Overall, the results support findings from previous studies of clinic-based PCIT for children with DD and previous studies of telehealth interventions for typically developing children, the researchers said.
“Moreover, iPCIT-treated children not only showed reductions in behavior problems, such as aggression, but demonstrated higher rates of following directions, which is especially important for children entering kindergarten,” they wrote.
The findings were limited by several factors including the narrow focus on the primary and secondary outcomes, the use of data from a single site in a single metropolitan area – which may limit generalizability – and the lack of comparison between iPCIT and a clinic-based PCIT control group, the researchers noted. The equipment in the current study was provided to families; therefore, differences in treatment response could not be attributed to differences in technology.
The study represents the first known randomized controlled trial to evaluate a telehealth parenting intervention for children with, according to the researchers. The results suggest that technology can be leveraged to help these patients, including those from ethnic minority families who may be underserved by clinic-based care in overcoming barriers to treatment such as transportation and availability of clinicians. Use of iPCIT could be a critical resource as young children with DD complete Part C services and enter the school system.
Practical pediatric takeaways
“This was a great study, well-designed and very important and helpful for pediatric providers,” Cathy Haut, DNP, CPNP-AC, CPNP-PC, a pediatric nurse practitioner in Rehoboth Beach, Del., said in an interview.
“Young children with developmental delay and/or mental and behavioral health disorders require early identification and intervention,” said Dr. Haut. However, obstacles to intervention include stigma or parental denial of the disorder, as well as more practical challenges related to transportation, time to access a clinic or office, potential long length of treatment, and cost.
“Despite availability of state programs for young children, follow up and continued services can be challenging to complete. Once the child outgrows the state program finding alternative therapy can be difficult with the current shortage of pediatric mental health providers,” Dr. Haut noted.
“I was surprised to see that this study treatment phase was completed prior to the COVID-19 pandemic, when telehealth was not as popular a mode for health care and was not utilized to the extent that it is now, especially for pediatric care,” said Dr. Haut. “I was not surprised at the results, as the traditional mode of PCIT includes therapy and training in a space that may not be as familiar to the child as their home environment, and would include live presence of the therapist/s, which may add to anxiety for both the parent and child.”
That almost half of the parents participating in the study had graduated from college and/or completed graduate degrees “may have contributed to some of the success of this study,” Dr. Haut noted.
Benefits and barriers
“The COVID-19 pandemic brought significant change to the frequency of use and overall success of telehealth services,” Dr. Haut said. “Additional provider education in aspects such as provider technique and the use of medical devices with improved specific health care technology assisted in advancing the experience and opportunity for successful telehealth visits. Telehealth therapy offers a cost-effective option for any pediatric patients and for providers, as the time and space commitment for the patient visit can be considerably less than live office visits.
“Unfortunately, there are still overall barriers that I have personally experienced with telehealth, including interruptions in connectivity, background noise, and lack of an available computer or tablet; and with the use of cell phones not always allowing full inclusion of the caregiver and child,” said Dr. Haut. Children with DD, behavioral problems, or other mental health disorders may pose challenges for parents to manage at home while simultaneously trying to fully focus on the therapy in an online setting.
Although the current study is encouraging, “larger studies focused on specific or individual pediatric mental health and/or behavioral disorders may offer more information for providers, and better document the success of telehealth delivery of services,” Dr. Haut said.
The study was supported by the National Institute of Child Health and Human Development. Dr. Bagner disclosed funding from the National Institutes of Health. He also disclosed personal fees from PCIT International to train clinicians in PCIT supported by a grant from the Florida Department of Children and Families outside the current study. Dr. Haut had no financial conflicts to disclose, but serves on the editorial advisory board of Pediatric News.
The children received the therapy with their parents or caregivers, who were more likely to demonstrate positive parenting behaviors than parents in the control group, authors of the new research published in JAMA Pediatrics found.
Approximately 13% of children have some form of developmental delay (DD) and more than half of these children also have at least one mental health disorder, which makes behavior problems a common and ongoing challenge, Daniel M. Bagner, PhD, a psychologist at Florida International University, Miami, and colleagues wrote.
Clinic-based interventions such as parent-child interaction therapy (PCIT) have been effective for improving behavior in children with DD, the researchers said. PCIT involves in-session caregiver coaching using a 1-way mirror and a wireless earpiece worn by the caregiver.
Barriers to the use of PCIT, especially in marginalized and low-income communities, include transportation, clinician shortages, and stigma-related concerns about a clinic visit, the researchers wrote. Technology now allows for Internet-delivered PCIT to reach more children and families, but its effectiveness for children with DD has not been well studied.
In the new study, the researchers randomized 150 children with DD and externalizing behavior problems to up to 20 weeks of Internet-delivered parent-child interaction therapy (iPCIT) or to referral as usual (RAU, the control group). The children were randomized after completion of early intervention services within 3 months of their third birthday, and participated in the sessions with a parent or caregiver. Most of the participants were from economically disadvantaged households and underrepresented ethnic backgrounds.
The iPCIT intervention was conducted weekly with a remote therapist and lasted for 1-1.5 hours; approximately half of the families received the intervention in Spanish.
The primary outcome was rating on the Child Behavior Checklist (CBCL) and assessment of children and caregivers using the Dyadic Parent-Child Interaction Coding System, fourth edition (DPICS). Assessments occurred at baseline and at week 20 (post treatment), with follow ups at 6 and 12 months.
Scores on the CBCL in the iPCIT group decreased from a mean of 61.18 at baseline to 53.83 post intervention. Scores for the control group started at 64.05 and decreased to 59.49 post intervention. At 6-12 months, the scores for both groups remained stable.
Children who received iPCIT with their parent or caregiver also showed significantly lower levels of externalizing behavior problems, compared with the RAU controls post treatment, and at 6-month and 12-month follow-ups based on the Cohen d measure of standardized effect size for differences between groups.
Significantly more children in the iPCIT group showed clinically significant improvements in externalizing problems at post treatment, compared with the RAU group (74% vs. 42%; P < .001) and at 6 months’ follow-up (73% vs. 45%; P = .002). However, the differences from baseline were not significantly different between the two groups after 12 months, which suggests that the effects may wane over time, the researchers noted.
In addition, the rate of child compliance with parent commands, as measured by a cleanup task, approximately doubled by the 12-month follow-up among children in the iPCIT group versus an increase of approximately one-third in the RAU group.
For secondary outcome measures related to caregiver behaviors, the proportion of observed positive parenting behaviors increased in the iPCIT group during the course of the intervention (postintervention odds ratio, 1.10), and the proportion of controlling and critical behaviors decreased (postintervention OR, 1.40). Harsh and inconsistent discipline decreased in both groups based on self-reports, but the decrease was steeper in iPCIT families.
iPCIT did not have a greater impact than RAU in reducing caregiver stress. The researchers wrote that they were not surprised by the lack of stress reduction “given mixed findings on the impact of parenting interventions on stress in caregivers of children with DD.”
Data support iPCIT potential
Overall, the results support findings from previous studies of clinic-based PCIT for children with DD and previous studies of telehealth interventions for typically developing children, the researchers said.
“Moreover, iPCIT-treated children not only showed reductions in behavior problems, such as aggression, but demonstrated higher rates of following directions, which is especially important for children entering kindergarten,” they wrote.
The findings were limited by several factors including the narrow focus on the primary and secondary outcomes, the use of data from a single site in a single metropolitan area – which may limit generalizability – and the lack of comparison between iPCIT and a clinic-based PCIT control group, the researchers noted. The equipment in the current study was provided to families; therefore, differences in treatment response could not be attributed to differences in technology.
The study represents the first known randomized controlled trial to evaluate a telehealth parenting intervention for children with, according to the researchers. The results suggest that technology can be leveraged to help these patients, including those from ethnic minority families who may be underserved by clinic-based care in overcoming barriers to treatment such as transportation and availability of clinicians. Use of iPCIT could be a critical resource as young children with DD complete Part C services and enter the school system.
Practical pediatric takeaways
“This was a great study, well-designed and very important and helpful for pediatric providers,” Cathy Haut, DNP, CPNP-AC, CPNP-PC, a pediatric nurse practitioner in Rehoboth Beach, Del., said in an interview.
“Young children with developmental delay and/or mental and behavioral health disorders require early identification and intervention,” said Dr. Haut. However, obstacles to intervention include stigma or parental denial of the disorder, as well as more practical challenges related to transportation, time to access a clinic or office, potential long length of treatment, and cost.
“Despite availability of state programs for young children, follow up and continued services can be challenging to complete. Once the child outgrows the state program finding alternative therapy can be difficult with the current shortage of pediatric mental health providers,” Dr. Haut noted.
“I was surprised to see that this study treatment phase was completed prior to the COVID-19 pandemic, when telehealth was not as popular a mode for health care and was not utilized to the extent that it is now, especially for pediatric care,” said Dr. Haut. “I was not surprised at the results, as the traditional mode of PCIT includes therapy and training in a space that may not be as familiar to the child as their home environment, and would include live presence of the therapist/s, which may add to anxiety for both the parent and child.”
That almost half of the parents participating in the study had graduated from college and/or completed graduate degrees “may have contributed to some of the success of this study,” Dr. Haut noted.
Benefits and barriers
“The COVID-19 pandemic brought significant change to the frequency of use and overall success of telehealth services,” Dr. Haut said. “Additional provider education in aspects such as provider technique and the use of medical devices with improved specific health care technology assisted in advancing the experience and opportunity for successful telehealth visits. Telehealth therapy offers a cost-effective option for any pediatric patients and for providers, as the time and space commitment for the patient visit can be considerably less than live office visits.
“Unfortunately, there are still overall barriers that I have personally experienced with telehealth, including interruptions in connectivity, background noise, and lack of an available computer or tablet; and with the use of cell phones not always allowing full inclusion of the caregiver and child,” said Dr. Haut. Children with DD, behavioral problems, or other mental health disorders may pose challenges for parents to manage at home while simultaneously trying to fully focus on the therapy in an online setting.
Although the current study is encouraging, “larger studies focused on specific or individual pediatric mental health and/or behavioral disorders may offer more information for providers, and better document the success of telehealth delivery of services,” Dr. Haut said.
The study was supported by the National Institute of Child Health and Human Development. Dr. Bagner disclosed funding from the National Institutes of Health. He also disclosed personal fees from PCIT International to train clinicians in PCIT supported by a grant from the Florida Department of Children and Families outside the current study. Dr. Haut had no financial conflicts to disclose, but serves on the editorial advisory board of Pediatric News.
FROM JAMA PEDIATRICS
More evidence in utero exposure to antiseizure meds safe for children’s cognition
NASHVILLE, TENN. – There is no negative impact of in utero exposure to antiseizure medications on children’s creativity, new research shows.
The results of this study, along with other research, suggest the risk for cognitive problems “is fairly low” overall for children of women with epilepsy taking lamotrigine or levetiracetam, study investigator, Kimford J. Meador, MD, professor, department of neurology & neurological sciences, Stanford (Calif.) University School of Medicine, told this news organization.
“This is another encouraging piece that’s showing these new drugs are safe with regard to cognition.”
The findings were presented at the annual meeting of the American Epilepsy Society.
Capturing creativity
Fetal exposure to antiseizure medications can produce adverse neurodevelopmental effects. These are typically assessed using measures such as general intelligence, verbal/nonverbal abilities, or additional educational needs.
However, these measures don’t capture creativity, which “is related to intelligence but not completely,” said Dr. Meador. “I have seen wonderful examples of creativity in people who have a lot of cognitive impairment.”
He referred to one of his patients with epilepsy who is “spectacularly good” at painting with watercolors, even though she has significant cognitive impairment.
The new analysis is part of the MONEAD study, a prospective, observational multicenter study examining pregnancy outcomes for both mother and child. It included pregnant women who were enrolled at under 20 weeks’ gestational age.
The women with epilepsy in the study were primarily on monotherapy (73%), and of these, 82% were on lamotrigine or levetiracetam. About 22% were on polytherapy, of which 42% were on dual therapy with lamotrigine and levetiracetam.
Fluency, originality
Researchers assessed the children of these women at age 4½ years using the Torrance Test of Creative Thinking-Figural (TTCT-F). This is a standardized assessment of creative thinking with index scores measuring such things as fluency, originality, abstractness, and elaboration.
Dr. Meador noted the research team used a shorter version of the test battery “so as to not wear out the families and kids.”
During the test, children were given lines of different shapes and asked to draw a picture using these lines. Dr. Meador pointed out the drawings ranged from quite basic to more intricate.
One child cleverly turned a few squiggly lines into a car. “I can look at this and say this kid’s going to do very well,” said Dr. Meador.
Investigators compared scores between 241 children of women with epilepsy (WWE) and 65 children of healthy women (HW). They adjusted for the mother’s IQ, education level, age at enrollment, gestation age at enrollment, post-birth average anxiety score, and the child’s ethnicity and sex.
Investigators found the mean TTCT-F scores did not differ significantly between the two groups: adjusted least squares mean of 89.5 (95% confidence interval, 86.7-92.3) for children of WWE, compared with adjusted least square mean of 92.0 (95% CI, 86.4-97.6) for children of HW.
Balancing act
The researchers haven’t looked at a dose effect in this current study, but Dr. Meador said it’s always “a balancing act” between giving enough of the drug to keep mothers from seizing, which affect both the mother and fetus, and giving as low a dose as possible to protect the fetus.
In addition, as medication levels change during pregnancy, he said he recommends that drug levels are monitored monthly so that medication can be adjusted as necessary.
Looking at what factors might predict creativity scores, researchers found children did less well creatively if their mother didn’t have a college degree (estimate –9.5; 95% CI, –17.9 to –1.2; P = .025).
“It looks like being in a home where the mother has had more education is going to have an impact on the kid’s thinking and creativity,” said Dr. Meador.
These new findings are consistent with a lack of differences in other cognitive abilities that Dr. Meador and his team found when the children were younger.
“At age 3, we did not find an overall difference in cognitive and verbal abilities and intelligence between the children of mothers with epilepsy and those of healthy women,” he said.
The researchers aim to assess cognitive and behavioral outcomes in these children when they are 6 years old.
Helpful information
Commenting on the findings, Stéphane Auvin, MD, PhD, chair of the department of pediatric neurology at the University of Paris, who co-moderated a platform session featuring the research, said the study “is an interesting measure of the impact of being exposed to antiseizure medications.”
Creativity is “complex,” he said. “It’s not only cognition; it could be things like behavior and impulsivity.”
The new information is “very helpful.” Focusing on something broader than just IQ “gives you a better picture of what’s going on.”
The study received funding from NIH, NINDS, and NICH. Dr. Meador has received grants from NIH/NINDS, NIH/NICHD, Veterans Administration, and Eisai. He has been a consultant for Epilepsy Consortium, Novartis, Supernus, Upsher Smith Labs, and UCB Pharma. Dr. Auvin reports no relevant financial relationships.
A version of this article first appeared on Medscape.com.
NASHVILLE, TENN. – There is no negative impact of in utero exposure to antiseizure medications on children’s creativity, new research shows.
The results of this study, along with other research, suggest the risk for cognitive problems “is fairly low” overall for children of women with epilepsy taking lamotrigine or levetiracetam, study investigator, Kimford J. Meador, MD, professor, department of neurology & neurological sciences, Stanford (Calif.) University School of Medicine, told this news organization.
“This is another encouraging piece that’s showing these new drugs are safe with regard to cognition.”
The findings were presented at the annual meeting of the American Epilepsy Society.
Capturing creativity
Fetal exposure to antiseizure medications can produce adverse neurodevelopmental effects. These are typically assessed using measures such as general intelligence, verbal/nonverbal abilities, or additional educational needs.
However, these measures don’t capture creativity, which “is related to intelligence but not completely,” said Dr. Meador. “I have seen wonderful examples of creativity in people who have a lot of cognitive impairment.”
He referred to one of his patients with epilepsy who is “spectacularly good” at painting with watercolors, even though she has significant cognitive impairment.
The new analysis is part of the MONEAD study, a prospective, observational multicenter study examining pregnancy outcomes for both mother and child. It included pregnant women who were enrolled at under 20 weeks’ gestational age.
The women with epilepsy in the study were primarily on monotherapy (73%), and of these, 82% were on lamotrigine or levetiracetam. About 22% were on polytherapy, of which 42% were on dual therapy with lamotrigine and levetiracetam.
Fluency, originality
Researchers assessed the children of these women at age 4½ years using the Torrance Test of Creative Thinking-Figural (TTCT-F). This is a standardized assessment of creative thinking with index scores measuring such things as fluency, originality, abstractness, and elaboration.
Dr. Meador noted the research team used a shorter version of the test battery “so as to not wear out the families and kids.”
During the test, children were given lines of different shapes and asked to draw a picture using these lines. Dr. Meador pointed out the drawings ranged from quite basic to more intricate.
One child cleverly turned a few squiggly lines into a car. “I can look at this and say this kid’s going to do very well,” said Dr. Meador.
Investigators compared scores between 241 children of women with epilepsy (WWE) and 65 children of healthy women (HW). They adjusted for the mother’s IQ, education level, age at enrollment, gestation age at enrollment, post-birth average anxiety score, and the child’s ethnicity and sex.
Investigators found the mean TTCT-F scores did not differ significantly between the two groups: adjusted least squares mean of 89.5 (95% confidence interval, 86.7-92.3) for children of WWE, compared with adjusted least square mean of 92.0 (95% CI, 86.4-97.6) for children of HW.
Balancing act
The researchers haven’t looked at a dose effect in this current study, but Dr. Meador said it’s always “a balancing act” between giving enough of the drug to keep mothers from seizing, which affect both the mother and fetus, and giving as low a dose as possible to protect the fetus.
In addition, as medication levels change during pregnancy, he said he recommends that drug levels are monitored monthly so that medication can be adjusted as necessary.
Looking at what factors might predict creativity scores, researchers found children did less well creatively if their mother didn’t have a college degree (estimate –9.5; 95% CI, –17.9 to –1.2; P = .025).
“It looks like being in a home where the mother has had more education is going to have an impact on the kid’s thinking and creativity,” said Dr. Meador.
These new findings are consistent with a lack of differences in other cognitive abilities that Dr. Meador and his team found when the children were younger.
“At age 3, we did not find an overall difference in cognitive and verbal abilities and intelligence between the children of mothers with epilepsy and those of healthy women,” he said.
The researchers aim to assess cognitive and behavioral outcomes in these children when they are 6 years old.
Helpful information
Commenting on the findings, Stéphane Auvin, MD, PhD, chair of the department of pediatric neurology at the University of Paris, who co-moderated a platform session featuring the research, said the study “is an interesting measure of the impact of being exposed to antiseizure medications.”
Creativity is “complex,” he said. “It’s not only cognition; it could be things like behavior and impulsivity.”
The new information is “very helpful.” Focusing on something broader than just IQ “gives you a better picture of what’s going on.”
The study received funding from NIH, NINDS, and NICH. Dr. Meador has received grants from NIH/NINDS, NIH/NICHD, Veterans Administration, and Eisai. He has been a consultant for Epilepsy Consortium, Novartis, Supernus, Upsher Smith Labs, and UCB Pharma. Dr. Auvin reports no relevant financial relationships.
A version of this article first appeared on Medscape.com.
NASHVILLE, TENN. – There is no negative impact of in utero exposure to antiseizure medications on children’s creativity, new research shows.
The results of this study, along with other research, suggest the risk for cognitive problems “is fairly low” overall for children of women with epilepsy taking lamotrigine or levetiracetam, study investigator, Kimford J. Meador, MD, professor, department of neurology & neurological sciences, Stanford (Calif.) University School of Medicine, told this news organization.
“This is another encouraging piece that’s showing these new drugs are safe with regard to cognition.”
The findings were presented at the annual meeting of the American Epilepsy Society.
Capturing creativity
Fetal exposure to antiseizure medications can produce adverse neurodevelopmental effects. These are typically assessed using measures such as general intelligence, verbal/nonverbal abilities, or additional educational needs.
However, these measures don’t capture creativity, which “is related to intelligence but not completely,” said Dr. Meador. “I have seen wonderful examples of creativity in people who have a lot of cognitive impairment.”
He referred to one of his patients with epilepsy who is “spectacularly good” at painting with watercolors, even though she has significant cognitive impairment.
The new analysis is part of the MONEAD study, a prospective, observational multicenter study examining pregnancy outcomes for both mother and child. It included pregnant women who were enrolled at under 20 weeks’ gestational age.
The women with epilepsy in the study were primarily on monotherapy (73%), and of these, 82% were on lamotrigine or levetiracetam. About 22% were on polytherapy, of which 42% were on dual therapy with lamotrigine and levetiracetam.
Fluency, originality
Researchers assessed the children of these women at age 4½ years using the Torrance Test of Creative Thinking-Figural (TTCT-F). This is a standardized assessment of creative thinking with index scores measuring such things as fluency, originality, abstractness, and elaboration.
Dr. Meador noted the research team used a shorter version of the test battery “so as to not wear out the families and kids.”
During the test, children were given lines of different shapes and asked to draw a picture using these lines. Dr. Meador pointed out the drawings ranged from quite basic to more intricate.
One child cleverly turned a few squiggly lines into a car. “I can look at this and say this kid’s going to do very well,” said Dr. Meador.
Investigators compared scores between 241 children of women with epilepsy (WWE) and 65 children of healthy women (HW). They adjusted for the mother’s IQ, education level, age at enrollment, gestation age at enrollment, post-birth average anxiety score, and the child’s ethnicity and sex.
Investigators found the mean TTCT-F scores did not differ significantly between the two groups: adjusted least squares mean of 89.5 (95% confidence interval, 86.7-92.3) for children of WWE, compared with adjusted least square mean of 92.0 (95% CI, 86.4-97.6) for children of HW.
Balancing act
The researchers haven’t looked at a dose effect in this current study, but Dr. Meador said it’s always “a balancing act” between giving enough of the drug to keep mothers from seizing, which affect both the mother and fetus, and giving as low a dose as possible to protect the fetus.
In addition, as medication levels change during pregnancy, he said he recommends that drug levels are monitored monthly so that medication can be adjusted as necessary.
Looking at what factors might predict creativity scores, researchers found children did less well creatively if their mother didn’t have a college degree (estimate –9.5; 95% CI, –17.9 to –1.2; P = .025).
“It looks like being in a home where the mother has had more education is going to have an impact on the kid’s thinking and creativity,” said Dr. Meador.
These new findings are consistent with a lack of differences in other cognitive abilities that Dr. Meador and his team found when the children were younger.
“At age 3, we did not find an overall difference in cognitive and verbal abilities and intelligence between the children of mothers with epilepsy and those of healthy women,” he said.
The researchers aim to assess cognitive and behavioral outcomes in these children when they are 6 years old.
Helpful information
Commenting on the findings, Stéphane Auvin, MD, PhD, chair of the department of pediatric neurology at the University of Paris, who co-moderated a platform session featuring the research, said the study “is an interesting measure of the impact of being exposed to antiseizure medications.”
Creativity is “complex,” he said. “It’s not only cognition; it could be things like behavior and impulsivity.”
The new information is “very helpful.” Focusing on something broader than just IQ “gives you a better picture of what’s going on.”
The study received funding from NIH, NINDS, and NICH. Dr. Meador has received grants from NIH/NINDS, NIH/NICHD, Veterans Administration, and Eisai. He has been a consultant for Epilepsy Consortium, Novartis, Supernus, Upsher Smith Labs, and UCB Pharma. Dr. Auvin reports no relevant financial relationships.
A version of this article first appeared on Medscape.com.
FROM AES 2022