Pediatric News

Using combined genetic testing in early childhood may decrease the misdiagnosis rate for Global Development Delay (GDD) and may help identify intervention targets, a new study suggests.

Researchers, led by Jiamei Zhang, MS, Department of Rehabilitation Medicine, Third Affiliated Hospital of Zhengzhou University, Zhengzhou, China, in a multicenter, prospective cohort study enrolled patients ages 12 to 60 months with GDD from six centers in China from July 2020 through August 2023. Participants underwent trio whole exome sequencing (trio-WES) paired with copy number variation sequencing (CNV-seq).

“To the best of our knowledge, this study represents the largest prospective examination of combined genetic testing methods in a GDD cohort,” the authors reported in JAMA Network Open.

GDD is a common neurodevelopmental disorder, marked by cognitive impairment, and affects about 1% of children, the paper states. Most children with GDD develop intellectual disability (ID) after 5 years of age, with implications for quality of life, their physical abilities, and social functioning. Early and accurate diagnosis followed by appropriately targeted treatment is critical, but lacking. Researchers note that there is lack of consensus among health care professionals on whether genetic testing is necessary.

Genetics are known to play a significant role in pathogenesis of GDD, but definitive biomarkers have been elusive.
 

Positive Detection Rate of 61%

In this study, the combined use of trio-WES with CNV-seq in children with early-stage GDD resulted in a positive detection rate of 61%, a significant improvement over performing individual tests, “enhancing the positive detection rate by 18%-40%,” the researchers wrote. The combined approach also saves families time and costs, they note, while leading to more comprehensive genetic analysis and fewer missed diagnoses.

The combined approach also addressed the limitations of trio-WES and CNV-seq used alone, the authors wrote. Because of technological constraints, trio-WES may miss 55% of CNV variations, and CNV-seq has a missed diagnosis rate of 3%.

The study included 434 patients with GDD (60% male; average age, 25 months) with diverse degrees of cognitive impairment: mild (23%); moderate (32%); severe (28%); and profound (17%).

Three characteristics were linked with higher likelihood of having genetic variants: Craniofacial abnormalities (odds ratio [OR], 2.27; 95% confidence interval [CI], 1.45-3.56); moderate or severe cognitive impairment (OR, 1.69; 95% CI, 1.05-2.70); and age between 12 and 24 months (OR, 1.57; 95% CI, 1.05-2.35).
 

Dopaminergic Pathway Promising for Treatment

Researchers also discovered that GDD-related genes were primarily enriched in lysosome, dopaminergic synapse, and lysine degradation pathways. Dopaminergic synapse emerged as a significant pathway linked with GDD.

“In this cohort study, our findings support the correlation between dopaminergic synapse and cognitive impairment, as substantiated by prior research and animal models. Therefore, targeting the dopaminergic pathway holds promise for treating GDD and ID,” the authors wrote.

However, the authors note in the limitations that they used only a subset of 100 patients with GDD to measure dopamine concentration.

“Expanding the sample size and conducting in vivo and in vitro experiments are necessary steps to verify whether dopamine can be targeted for clinical precision medical intervention in patients with GDD,” they wrote.

The authors reported no relevant financial relationships.

Using combined genetic testing in early childhood may decrease the misdiagnosis rate for Global Development Delay (GDD) and may help identify intervention targets, a new study suggests.

Researchers, led by Jiamei Zhang, MS, Department of Rehabilitation Medicine, Third Affiliated Hospital of Zhengzhou University, Zhengzhou, China, in a multicenter, prospective cohort study enrolled patients ages 12 to 60 months with GDD from six centers in China from July 2020 through August 2023. Participants underwent trio whole exome sequencing (trio-WES) paired with copy number variation sequencing (CNV-seq).

“To the best of our knowledge, this study represents the largest prospective examination of combined genetic testing methods in a GDD cohort,” the authors reported in JAMA Network Open.

GDD is a common neurodevelopmental disorder, marked by cognitive impairment, and affects about 1% of children, the paper states. Most children with GDD develop intellectual disability (ID) after 5 years of age, with implications for quality of life, their physical abilities, and social functioning. Early and accurate diagnosis followed by appropriately targeted treatment is critical, but lacking. Researchers note that there is lack of consensus among health care professionals on whether genetic testing is necessary.

Genetics are known to play a significant role in pathogenesis of GDD, but definitive biomarkers have been elusive.
 

Positive Detection Rate of 61%

In this study, the combined use of trio-WES with CNV-seq in children with early-stage GDD resulted in a positive detection rate of 61%, a significant improvement over performing individual tests, “enhancing the positive detection rate by 18%-40%,” the researchers wrote. The combined approach also saves families time and costs, they note, while leading to more comprehensive genetic analysis and fewer missed diagnoses.

The combined approach also addressed the limitations of trio-WES and CNV-seq used alone, the authors wrote. Because of technological constraints, trio-WES may miss 55% of CNV variations, and CNV-seq has a missed diagnosis rate of 3%.

The study included 434 patients with GDD (60% male; average age, 25 months) with diverse degrees of cognitive impairment: mild (23%); moderate (32%); severe (28%); and profound (17%).

Three characteristics were linked with higher likelihood of having genetic variants: Craniofacial abnormalities (odds ratio [OR], 2.27; 95% confidence interval [CI], 1.45-3.56); moderate or severe cognitive impairment (OR, 1.69; 95% CI, 1.05-2.70); and age between 12 and 24 months (OR, 1.57; 95% CI, 1.05-2.35).
 

Dopaminergic Pathway Promising for Treatment

Researchers also discovered that GDD-related genes were primarily enriched in lysosome, dopaminergic synapse, and lysine degradation pathways. Dopaminergic synapse emerged as a significant pathway linked with GDD.

“In this cohort study, our findings support the correlation between dopaminergic synapse and cognitive impairment, as substantiated by prior research and animal models. Therefore, targeting the dopaminergic pathway holds promise for treating GDD and ID,” the authors wrote.

However, the authors note in the limitations that they used only a subset of 100 patients with GDD to measure dopamine concentration.

“Expanding the sample size and conducting in vivo and in vitro experiments are necessary steps to verify whether dopamine can be targeted for clinical precision medical intervention in patients with GDD,” they wrote.

The authors reported no relevant financial relationships.

Using combined genetic testing in early childhood may decrease the misdiagnosis rate for Global Development Delay (GDD) and may help identify intervention targets, a new study suggests.

Researchers, led by Jiamei Zhang, MS, Department of Rehabilitation Medicine, Third Affiliated Hospital of Zhengzhou University, Zhengzhou, China, in a multicenter, prospective cohort study enrolled patients ages 12 to 60 months with GDD from six centers in China from July 2020 through August 2023. Participants underwent trio whole exome sequencing (trio-WES) paired with copy number variation sequencing (CNV-seq).

“To the best of our knowledge, this study represents the largest prospective examination of combined genetic testing methods in a GDD cohort,” the authors reported in JAMA Network Open.

GDD is a common neurodevelopmental disorder, marked by cognitive impairment, and affects about 1% of children, the paper states. Most children with GDD develop intellectual disability (ID) after 5 years of age, with implications for quality of life, their physical abilities, and social functioning. Early and accurate diagnosis followed by appropriately targeted treatment is critical, but lacking. Researchers note that there is lack of consensus among health care professionals on whether genetic testing is necessary.

Genetics are known to play a significant role in pathogenesis of GDD, but definitive biomarkers have been elusive.
 

Positive Detection Rate of 61%

In this study, the combined use of trio-WES with CNV-seq in children with early-stage GDD resulted in a positive detection rate of 61%, a significant improvement over performing individual tests, “enhancing the positive detection rate by 18%-40%,” the researchers wrote. The combined approach also saves families time and costs, they note, while leading to more comprehensive genetic analysis and fewer missed diagnoses.

The combined approach also addressed the limitations of trio-WES and CNV-seq used alone, the authors wrote. Because of technological constraints, trio-WES may miss 55% of CNV variations, and CNV-seq has a missed diagnosis rate of 3%.

The study included 434 patients with GDD (60% male; average age, 25 months) with diverse degrees of cognitive impairment: mild (23%); moderate (32%); severe (28%); and profound (17%).

Three characteristics were linked with higher likelihood of having genetic variants: Craniofacial abnormalities (odds ratio [OR], 2.27; 95% confidence interval [CI], 1.45-3.56); moderate or severe cognitive impairment (OR, 1.69; 95% CI, 1.05-2.70); and age between 12 and 24 months (OR, 1.57; 95% CI, 1.05-2.35).
 

Dopaminergic Pathway Promising for Treatment

Researchers also discovered that GDD-related genes were primarily enriched in lysosome, dopaminergic synapse, and lysine degradation pathways. Dopaminergic synapse emerged as a significant pathway linked with GDD.

“In this cohort study, our findings support the correlation between dopaminergic synapse and cognitive impairment, as substantiated by prior research and animal models. Therefore, targeting the dopaminergic pathway holds promise for treating GDD and ID,” the authors wrote.

However, the authors note in the limitations that they used only a subset of 100 patients with GDD to measure dopamine concentration.

“Expanding the sample size and conducting in vivo and in vitro experiments are necessary steps to verify whether dopamine can be targeted for clinical precision medical intervention in patients with GDD,” they wrote.

The authors reported no relevant financial relationships.

We recently shared a clinical case drawn from a family medicine practice about the effect of adverse childhood experiences (ACEs) on health. The widespread epidemiology and significant health consequences require a focus on the prevention and management of ACEs. 
 

The Centers for Disease Control and Prevention published an important monograph on ACEs in 2019. Although it is evidence based, most of the interventions recommended to reduce ACEs and their sequelae are larger policy and public health efforts that go well beyond the clinician’s office. Important highlights from these recommended strategies to reduce ACEs include:

• Strengthen economic support for families through policies such as the earned income tax credit and child tax credit.
• Establish routine parental work/shift times to optimize cognitive outcomes in children.
• Promote social norms for healthy families through public health campaigns and legislative efforts to reduce corporal punishment of children. Bystander training that targets boys and men has also proven effective in reducing sexual violence.
• Facilitate early in-home visitation for at-risk families as well as high-quality childcare.
• Employ social-emotional learning approaches for children and adolescents, which can improve aggressive or violent behavior, rates of substance use, and academic success.
• Connect youth to after-school programs featuring caring adults.

But clinicians still play a vital role in the prevention and management of ACEs among their patients. Akin to gathering a patient’s past medical history or family history is initiating universal ACE screening in practice and exploring related topics in conversation.

The ACEs Aware initiative in California provides a comprehensive ACE screening clinical workflow to help implement these conversations in practice, including the assessment of associated health conditions and their appropriate clinical follow-up. While it is encouraged to universally screen patients, the key screenings to prioritize for the pediatric population are “parental depression, severe stress, unhealthy drug use, domestic violence, harsh punishment, [and] food insecurity.” Moreover, a systematic review by Steen and colleagues shared insight into newer interpretations of ACE screening which relate trauma to “[...] community violence, poverty, housing instability, structural racism, environmental blight, and climate change.” 

These exposures are now being investigated for a connection to the toxic stress response. In the long term, this genetic regulatory mechanism can be affected by “high doses of cumulative adversity experienced during critical and sensitive periods of early life development — without the buffering protections of trusted, nurturing caregivers and safe, stable environments.” This micro and macro lens fosters a deeper clinician understanding of a patient’s trauma origin and can better guide appropriate clinical follow-up. 

ACE-associated health conditions can be neurologic, endocrine, metabolic, or immune system–related. Early diagnosis and treatment of these conditions can help prevent long-term health care complications, costly for both patient and the health care system. 

After the initial clinical assessment, physicians can educate patients about the ways that ACE-associated health conditions are a consequence of toxic stress exposure. From there, physicians should rely on a broader integrated health team, within the health system and the community, to offer clinical interventions and services to mitigate patients’ toxic stress. The ACEs Aware Stress Buster wheel highlights seven targets to strategize stress regulation. This wheel can be used to identify existing protective factors for patients and track treatment progress, which may buffer the negative impact of stressors and contribute to health and resilience. 

The burden of universal screenings in primary care is high. Without ACE screening, however, the opportunity to address downstream health effects from toxic stress may be lost. Dubowitz and colleagues suggest ways to successfully incorporate ACE screenings in clinical workflow:

• Utilize technology to implement a streamlined referral processing/tracking system.
• Train clinicians to respond competently to positive ACE screens.
• Gather in-network and community-based resources for patients.

In addition, prioritize screening for families with children younger than 6 years of age to begin interventions as early as possible. Primary care clinicians have the unique opportunity to provide appropriate intervention over continual care. An intervention as simple as encouraging pediatric patient involvement in after-school programs may mitigate toxic stress and prevent the development of an ACE-associated health condition. 

Dr. Vega, Health Sciences Clinical Professor, Family Medicine, University of California, Irvine, disclosed ties with McNeil Pharmaceuticals. Alejandra Hurtado, MD candidate, University of California, Irvine School of Medicine, has disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

We recently shared a clinical case drawn from a family medicine practice about the effect of adverse childhood experiences (ACEs) on health. The widespread epidemiology and significant health consequences require a focus on the prevention and management of ACEs. 
 

The Centers for Disease Control and Prevention published an important monograph on ACEs in 2019. Although it is evidence based, most of the interventions recommended to reduce ACEs and their sequelae are larger policy and public health efforts that go well beyond the clinician’s office. Important highlights from these recommended strategies to reduce ACEs include:

• Strengthen economic support for families through policies such as the earned income tax credit and child tax credit.
• Establish routine parental work/shift times to optimize cognitive outcomes in children.
• Promote social norms for healthy families through public health campaigns and legislative efforts to reduce corporal punishment of children. Bystander training that targets boys and men has also proven effective in reducing sexual violence.
• Facilitate early in-home visitation for at-risk families as well as high-quality childcare.
• Employ social-emotional learning approaches for children and adolescents, which can improve aggressive or violent behavior, rates of substance use, and academic success.
• Connect youth to after-school programs featuring caring adults.

But clinicians still play a vital role in the prevention and management of ACEs among their patients. Akin to gathering a patient’s past medical history or family history is initiating universal ACE screening in practice and exploring related topics in conversation.

The ACEs Aware initiative in California provides a comprehensive ACE screening clinical workflow to help implement these conversations in practice, including the assessment of associated health conditions and their appropriate clinical follow-up. While it is encouraged to universally screen patients, the key screenings to prioritize for the pediatric population are “parental depression, severe stress, unhealthy drug use, domestic violence, harsh punishment, [and] food insecurity.” Moreover, a systematic review by Steen and colleagues shared insight into newer interpretations of ACE screening which relate trauma to “[...] community violence, poverty, housing instability, structural racism, environmental blight, and climate change.” 

These exposures are now being investigated for a connection to the toxic stress response. In the long term, this genetic regulatory mechanism can be affected by “high doses of cumulative adversity experienced during critical and sensitive periods of early life development — without the buffering protections of trusted, nurturing caregivers and safe, stable environments.” This micro and macro lens fosters a deeper clinician understanding of a patient’s trauma origin and can better guide appropriate clinical follow-up. 

ACE-associated health conditions can be neurologic, endocrine, metabolic, or immune system–related. Early diagnosis and treatment of these conditions can help prevent long-term health care complications, costly for both patient and the health care system. 

After the initial clinical assessment, physicians can educate patients about the ways that ACE-associated health conditions are a consequence of toxic stress exposure. From there, physicians should rely on a broader integrated health team, within the health system and the community, to offer clinical interventions and services to mitigate patients’ toxic stress. The ACEs Aware Stress Buster wheel highlights seven targets to strategize stress regulation. This wheel can be used to identify existing protective factors for patients and track treatment progress, which may buffer the negative impact of stressors and contribute to health and resilience. 

The burden of universal screenings in primary care is high. Without ACE screening, however, the opportunity to address downstream health effects from toxic stress may be lost. Dubowitz and colleagues suggest ways to successfully incorporate ACE screenings in clinical workflow:

• Utilize technology to implement a streamlined referral processing/tracking system.
• Train clinicians to respond competently to positive ACE screens.
• Gather in-network and community-based resources for patients.

In addition, prioritize screening for families with children younger than 6 years of age to begin interventions as early as possible. Primary care clinicians have the unique opportunity to provide appropriate intervention over continual care. An intervention as simple as encouraging pediatric patient involvement in after-school programs may mitigate toxic stress and prevent the development of an ACE-associated health condition. 

Dr. Vega, Health Sciences Clinical Professor, Family Medicine, University of California, Irvine, disclosed ties with McNeil Pharmaceuticals. Alejandra Hurtado, MD candidate, University of California, Irvine School of Medicine, has disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

We recently shared a clinical case drawn from a family medicine practice about the effect of adverse childhood experiences (ACEs) on health. The widespread epidemiology and significant health consequences require a focus on the prevention and management of ACEs. 
 

The Centers for Disease Control and Prevention published an important monograph on ACEs in 2019. Although it is evidence based, most of the interventions recommended to reduce ACEs and their sequelae are larger policy and public health efforts that go well beyond the clinician’s office. Important highlights from these recommended strategies to reduce ACEs include:

• Strengthen economic support for families through policies such as the earned income tax credit and child tax credit.
• Establish routine parental work/shift times to optimize cognitive outcomes in children.
• Promote social norms for healthy families through public health campaigns and legislative efforts to reduce corporal punishment of children. Bystander training that targets boys and men has also proven effective in reducing sexual violence.
• Facilitate early in-home visitation for at-risk families as well as high-quality childcare.
• Employ social-emotional learning approaches for children and adolescents, which can improve aggressive or violent behavior, rates of substance use, and academic success.
• Connect youth to after-school programs featuring caring adults.

But clinicians still play a vital role in the prevention and management of ACEs among their patients. Akin to gathering a patient’s past medical history or family history is initiating universal ACE screening in practice and exploring related topics in conversation.

The ACEs Aware initiative in California provides a comprehensive ACE screening clinical workflow to help implement these conversations in practice, including the assessment of associated health conditions and their appropriate clinical follow-up. While it is encouraged to universally screen patients, the key screenings to prioritize for the pediatric population are “parental depression, severe stress, unhealthy drug use, domestic violence, harsh punishment, [and] food insecurity.” Moreover, a systematic review by Steen and colleagues shared insight into newer interpretations of ACE screening which relate trauma to “[...] community violence, poverty, housing instability, structural racism, environmental blight, and climate change.” 

These exposures are now being investigated for a connection to the toxic stress response. In the long term, this genetic regulatory mechanism can be affected by “high doses of cumulative adversity experienced during critical and sensitive periods of early life development — without the buffering protections of trusted, nurturing caregivers and safe, stable environments.” This micro and macro lens fosters a deeper clinician understanding of a patient’s trauma origin and can better guide appropriate clinical follow-up. 

ACE-associated health conditions can be neurologic, endocrine, metabolic, or immune system–related. Early diagnosis and treatment of these conditions can help prevent long-term health care complications, costly for both patient and the health care system. 

After the initial clinical assessment, physicians can educate patients about the ways that ACE-associated health conditions are a consequence of toxic stress exposure. From there, physicians should rely on a broader integrated health team, within the health system and the community, to offer clinical interventions and services to mitigate patients’ toxic stress. The ACEs Aware Stress Buster wheel highlights seven targets to strategize stress regulation. This wheel can be used to identify existing protective factors for patients and track treatment progress, which may buffer the negative impact of stressors and contribute to health and resilience. 

The burden of universal screenings in primary care is high. Without ACE screening, however, the opportunity to address downstream health effects from toxic stress may be lost. Dubowitz and colleagues suggest ways to successfully incorporate ACE screenings in clinical workflow:

• Utilize technology to implement a streamlined referral processing/tracking system.
• Train clinicians to respond competently to positive ACE screens.
• Gather in-network and community-based resources for patients.

In addition, prioritize screening for families with children younger than 6 years of age to begin interventions as early as possible. Primary care clinicians have the unique opportunity to provide appropriate intervention over continual care. An intervention as simple as encouraging pediatric patient involvement in after-school programs may mitigate toxic stress and prevent the development of an ACE-associated health condition. 

Dr. Vega, Health Sciences Clinical Professor, Family Medicine, University of California, Irvine, disclosed ties with McNeil Pharmaceuticals. Alejandra Hurtado, MD candidate, University of California, Irvine School of Medicine, has disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

Almost all primary care providers (PCPs) have taken on diagnosing and managing ADHD. With about 12% of school aged children affected, typical PCPs can expect about 240 children with ADHD under their care. Adopting this primary care function has been helped by having clear diagnostic criteria for the three DMS 5 “presentations” of ADHD, open source tools (e.g. Vanderbilts), expectation of collaboration by educators, American Academy of Pediatrics (AAP) guidelines for diagnosis and management, Society for Developmental–Behavioral Pediatrics guidelines for “complex ADHD,” and access to effective medication treatments PCPs can provide (although less so for behavioral ones), cultural acceptance of individuals with ADHD, and especially reliable payment by insurers.

Screening

But what about PCP management of autism spectrum disorder (ASD), now affecting 2.8%, for an expected 60 children under care for each of us? PCP detection and care for children with ASD is more complex than ADHD, but even more essential, so we need to learn the skills. It is more essential because very early detection and entry into evidence-based intervention has long-term benefits for the child and family that are not as crucial for ADHD. While ADHD symptoms may not impact functioning until age 7 or even 12 years of age, signs of ASD usually emerge earlier (by 18 months) but gradually and about 30% after apparently normal development even to age 2 years.

Screening is crucial, but unfortunately not perfect. Recent AAP surveys show that most PCPs screen for autism at the recommended 18 and 24 months. But what happens after that? How many offices are tracking referrals for positive screens for needed evaluations and early intervention? Our data shows that tracking is rarely done and children do not start to get the benefit of early intervention until 4.5 years of age, on average.
 

Diagnostic Testing

And screening is the easiest part of addressing ASD. Wait times for diagnostic testing can be agonizing months to years. Multiple programs are training PCPs to perform hands-on 10- to 30-minute secondary screening with considerable success. You can become proficient on tools such as STAT (Screening Tool for Autism in Two-Year-Olds), RITA-T (Rapid Interactive Screening Test for Autism in Toddlers), BISCUIT (Baby and Infant Screen for Children with Autism Traits), SORF (Systematic Observation of Red Flags), ADEC (Autism Detection in Early Childhood) or CARS (Childhood Autism Rating Scale) with a few hours of training. Even secondary assessments done virtually by PCPs such as TELE-ASD-PEDS quite accurately predict a verifiable ASD diagnosis for those referred by concerns. Some problems of the reported accuracy of these secondary screening processes have to do with validation in samples of children for whom parents or clinicians already had concern and generally not including many younger children in whom it is so important to detect. Level of confidence of developmental and behavioral pediatricians of the presence of ASD is highly related to ultimate diagnosis. But success with PCPs’ mastering secondary screening has not yet been reported to convince insurers to approve payment for intervention services such as Applied Behavior Analysis (ABA).

Comorbidity

Co-existing conditions affect the majority of patients with ASD (70%), compared with ADHD, but with a broader range and more debilitating and difficult to manage conditions. More medical co-existing issues such as intellectual disability (25%-75%), seizures (12%-26%), motor incoordination (51%), GI conditions (9%-91%), sleep difficulty (50%-80%), sleep apnea, congenital heart disease, avoidant-restrictive food intake disorder, autoimmune disorders, and genetic syndromes (e.g. Fragile X, tuberous sclerosis, Down, Angelman’s, untreated PKU, neurofibromatosis, Klinefelter syndrome) reflect the range of underpinnings of ASD. The need to detect and manage these co-existing issues, besides assessing hearing and vision, makes our skilled involvement and vigilance in ASD care essential. Referring for help from OTs, PTs, speech pathologists, neurologists, psychologists, and special educators as issues in their domains are prioritized is also our responsibility. We must also help families balance utilizing these resources so as to avoid overwhelm.

Anxiety (50%), ADHD (37%-85%), depression (54%), bipolar (7.3%), suicidal ideation (40% starting < 8 years), and emotion dysregulation, familiar to us from our management of ADHD, may develop but are often less well defined and more intractable in ASD, making use of screening tools essential. Using a system like CHADIS that has online pre-visit and monitoring screens delivered based on algorithms for the numerous co-existing conditions, automated handouts, and functions to make and track referral success can facilitate care for this complex chronic condition. Identifying mental health providers with ASD expertise is more difficult, so more management is on us. While medications for these conditions can be beneficial, we need to learn to use lower doses, slower dose increases, and employ problem-solving of side effects with more parent collaboration than for ADHD as children with ASD often cannot self-report effectively. We need to ask about the common ad hoc use of complementary medications and substances (32%-87%) that may be complicating. Of course, these conditions and the caveats of management require more of our time with the patient and family as well as communication with the many other professionals involved. It is important to set our own and our families’ expectations (and schedules) for much more frequent contact and also to bill appropriately with chronic care (99487,89,90) and collaborative care CPT codes (99492,3,4 or G2214).
 

Behavioral Manifestations

During our care, the often extreme behavioral manifestations of ASD may be the most pressing issues. We need new understanding and skills to sort out and counsel on inflexible, explosive, and sensory triggered behaviors. Just as for ADHD, using the approach of Functional Behavioral Assessment and plans for home as well as school behavior can be key. More difficult in ASD is looking for physical causes, since the child may not provide clear cues because of communication and sensory differences. Conditions common in children with ASD such as constipation, dental caries, otitis, dietary intolerances, allergies, migraine, sleep deficits, menstrual cramps, or fears and changes from puberty manifesting behaviorally are often tricky to sort out.

While the diagnosis of ASD, as for ADHD, does not require any laboratory testing, looking for possible causes is important information for the family and someday may also lead to genetic or other therapies. We need to know that recommendations include screening for Ferritin, Pb, chromosomal microarray and FMR I testing as well as checking that PKU was normal; MECP 2 is indicated in females and symptomatic males; and PTENS testing for children with head circumference greater than 2.5-3 SD. Metabolic and mitochondrial assays are indicated only when symptoms suggest. We need to develop confidence to reserve MRIs or EEGs for cases with abnormal neuro. exams, regression, or history of seizures. It is demanding to keep up with AAP recommendations in this very active area of research.
 

Interventions

The interventions for ADHD are generally school accommodations and therapies for comorbidities. In contrast, since core social communication skills are the main deficit in ASD, all children screened positive for ASD should be referred for early intervention while awaiting, as well as after, diagnosis. While all states have no or low-cost early intervention, quality and quantity (of hours offered) varies. We should also recommend and try to determine if evidence-based intervention is being provided, such as pivotal response training, UCLA discrete trial therapy, Carbone’s verbal behavior, applied behavior analysis (ABA), Early Start Denver Model, and sometimes music and social skills trainings (effect size 0.42-0.76). Such professional interventions have best evidence with more than 25 hours/week but 15 hours has benefit for higher functioning children. CBT can help anxiety even in younger children. One way for families to provide more hours and more generalizable intervention is coaching by the PLAY Project or DIRFloortime, parent mediated interventions with evidence, some with training both in person or online. Alternative communication training and other condition specific assistance are often needed (e.g. Picture Exchange Communication System for nonverbal children).

While we should already be familiar with writing 504 plan and IEP requests to schools, which also apply to children with ASD, in addition we need to be ready to advise about other legal rights including autism waivers, wraparound services, guardianship, and trust accounts. We can share quality educational materials available online (e.g. from Autism Speaks, SPARK, and Autism Navigator). Social media groups may be supportive, but also may contain disinformation we need to dispel.

Unfortunately, templates, questionnaires, and lack of interdisciplinary referral and communication functions of EHRs don’t support the complexities of care for ASD. While the AAP has guidelines for diagnosis and management and an online toolkit, consider adding a system with an autism-specific module like CHADIS and joining the Autism Care Network or ECHO Autism sessions to get both information and support to take on the evolving critical role of autism care.
 

Dr. Howard is assistant professor of pediatrics at Johns Hopkins University, Baltimore, and creator of CHADIS. She had no other relevant disclosures. Dr. Howard’s contribution to this publication was as a paid expert to MDedge News. E-mail her at [email protected].

Almost all primary care providers (PCPs) have taken on diagnosing and managing ADHD. With about 12% of school aged children affected, typical PCPs can expect about 240 children with ADHD under their care. Adopting this primary care function has been helped by having clear diagnostic criteria for the three DMS 5 “presentations” of ADHD, open source tools (e.g. Vanderbilts), expectation of collaboration by educators, American Academy of Pediatrics (AAP) guidelines for diagnosis and management, Society for Developmental–Behavioral Pediatrics guidelines for “complex ADHD,” and access to effective medication treatments PCPs can provide (although less so for behavioral ones), cultural acceptance of individuals with ADHD, and especially reliable payment by insurers.

Screening

But what about PCP management of autism spectrum disorder (ASD), now affecting 2.8%, for an expected 60 children under care for each of us? PCP detection and care for children with ASD is more complex than ADHD, but even more essential, so we need to learn the skills. It is more essential because very early detection and entry into evidence-based intervention has long-term benefits for the child and family that are not as crucial for ADHD. While ADHD symptoms may not impact functioning until age 7 or even 12 years of age, signs of ASD usually emerge earlier (by 18 months) but gradually and about 30% after apparently normal development even to age 2 years.

Screening is crucial, but unfortunately not perfect. Recent AAP surveys show that most PCPs screen for autism at the recommended 18 and 24 months. But what happens after that? How many offices are tracking referrals for positive screens for needed evaluations and early intervention? Our data shows that tracking is rarely done and children do not start to get the benefit of early intervention until 4.5 years of age, on average.
 

Diagnostic Testing

And screening is the easiest part of addressing ASD. Wait times for diagnostic testing can be agonizing months to years. Multiple programs are training PCPs to perform hands-on 10- to 30-minute secondary screening with considerable success. You can become proficient on tools such as STAT (Screening Tool for Autism in Two-Year-Olds), RITA-T (Rapid Interactive Screening Test for Autism in Toddlers), BISCUIT (Baby and Infant Screen for Children with Autism Traits), SORF (Systematic Observation of Red Flags), ADEC (Autism Detection in Early Childhood) or CARS (Childhood Autism Rating Scale) with a few hours of training. Even secondary assessments done virtually by PCPs such as TELE-ASD-PEDS quite accurately predict a verifiable ASD diagnosis for those referred by concerns. Some problems of the reported accuracy of these secondary screening processes have to do with validation in samples of children for whom parents or clinicians already had concern and generally not including many younger children in whom it is so important to detect. Level of confidence of developmental and behavioral pediatricians of the presence of ASD is highly related to ultimate diagnosis. But success with PCPs’ mastering secondary screening has not yet been reported to convince insurers to approve payment for intervention services such as Applied Behavior Analysis (ABA).

Comorbidity

Co-existing conditions affect the majority of patients with ASD (70%), compared with ADHD, but with a broader range and more debilitating and difficult to manage conditions. More medical co-existing issues such as intellectual disability (25%-75%), seizures (12%-26%), motor incoordination (51%), GI conditions (9%-91%), sleep difficulty (50%-80%), sleep apnea, congenital heart disease, avoidant-restrictive food intake disorder, autoimmune disorders, and genetic syndromes (e.g. Fragile X, tuberous sclerosis, Down, Angelman’s, untreated PKU, neurofibromatosis, Klinefelter syndrome) reflect the range of underpinnings of ASD. The need to detect and manage these co-existing issues, besides assessing hearing and vision, makes our skilled involvement and vigilance in ASD care essential. Referring for help from OTs, PTs, speech pathologists, neurologists, psychologists, and special educators as issues in their domains are prioritized is also our responsibility. We must also help families balance utilizing these resources so as to avoid overwhelm.

Anxiety (50%), ADHD (37%-85%), depression (54%), bipolar (7.3%), suicidal ideation (40% starting < 8 years), and emotion dysregulation, familiar to us from our management of ADHD, may develop but are often less well defined and more intractable in ASD, making use of screening tools essential. Using a system like CHADIS that has online pre-visit and monitoring screens delivered based on algorithms for the numerous co-existing conditions, automated handouts, and functions to make and track referral success can facilitate care for this complex chronic condition. Identifying mental health providers with ASD expertise is more difficult, so more management is on us. While medications for these conditions can be beneficial, we need to learn to use lower doses, slower dose increases, and employ problem-solving of side effects with more parent collaboration than for ADHD as children with ASD often cannot self-report effectively. We need to ask about the common ad hoc use of complementary medications and substances (32%-87%) that may be complicating. Of course, these conditions and the caveats of management require more of our time with the patient and family as well as communication with the many other professionals involved. It is important to set our own and our families’ expectations (and schedules) for much more frequent contact and also to bill appropriately with chronic care (99487,89,90) and collaborative care CPT codes (99492,3,4 or G2214).
 

Behavioral Manifestations

During our care, the often extreme behavioral manifestations of ASD may be the most pressing issues. We need new understanding and skills to sort out and counsel on inflexible, explosive, and sensory triggered behaviors. Just as for ADHD, using the approach of Functional Behavioral Assessment and plans for home as well as school behavior can be key. More difficult in ASD is looking for physical causes, since the child may not provide clear cues because of communication and sensory differences. Conditions common in children with ASD such as constipation, dental caries, otitis, dietary intolerances, allergies, migraine, sleep deficits, menstrual cramps, or fears and changes from puberty manifesting behaviorally are often tricky to sort out.

While the diagnosis of ASD, as for ADHD, does not require any laboratory testing, looking for possible causes is important information for the family and someday may also lead to genetic or other therapies. We need to know that recommendations include screening for Ferritin, Pb, chromosomal microarray and FMR I testing as well as checking that PKU was normal; MECP 2 is indicated in females and symptomatic males; and PTENS testing for children with head circumference greater than 2.5-3 SD. Metabolic and mitochondrial assays are indicated only when symptoms suggest. We need to develop confidence to reserve MRIs or EEGs for cases with abnormal neuro. exams, regression, or history of seizures. It is demanding to keep up with AAP recommendations in this very active area of research.
 

Interventions

The interventions for ADHD are generally school accommodations and therapies for comorbidities. In contrast, since core social communication skills are the main deficit in ASD, all children screened positive for ASD should be referred for early intervention while awaiting, as well as after, diagnosis. While all states have no or low-cost early intervention, quality and quantity (of hours offered) varies. We should also recommend and try to determine if evidence-based intervention is being provided, such as pivotal response training, UCLA discrete trial therapy, Carbone’s verbal behavior, applied behavior analysis (ABA), Early Start Denver Model, and sometimes music and social skills trainings (effect size 0.42-0.76). Such professional interventions have best evidence with more than 25 hours/week but 15 hours has benefit for higher functioning children. CBT can help anxiety even in younger children. One way for families to provide more hours and more generalizable intervention is coaching by the PLAY Project or DIRFloortime, parent mediated interventions with evidence, some with training both in person or online. Alternative communication training and other condition specific assistance are often needed (e.g. Picture Exchange Communication System for nonverbal children).

While we should already be familiar with writing 504 plan and IEP requests to schools, which also apply to children with ASD, in addition we need to be ready to advise about other legal rights including autism waivers, wraparound services, guardianship, and trust accounts. We can share quality educational materials available online (e.g. from Autism Speaks, SPARK, and Autism Navigator). Social media groups may be supportive, but also may contain disinformation we need to dispel.

Unfortunately, templates, questionnaires, and lack of interdisciplinary referral and communication functions of EHRs don’t support the complexities of care for ASD. While the AAP has guidelines for diagnosis and management and an online toolkit, consider adding a system with an autism-specific module like CHADIS and joining the Autism Care Network or ECHO Autism sessions to get both information and support to take on the evolving critical role of autism care.
 

Dr. Howard is assistant professor of pediatrics at Johns Hopkins University, Baltimore, and creator of CHADIS. She had no other relevant disclosures. Dr. Howard’s contribution to this publication was as a paid expert to MDedge News. E-mail her at [email protected].

Almost all primary care providers (PCPs) have taken on diagnosing and managing ADHD. With about 12% of school aged children affected, typical PCPs can expect about 240 children with ADHD under their care. Adopting this primary care function has been helped by having clear diagnostic criteria for the three DMS 5 “presentations” of ADHD, open source tools (e.g. Vanderbilts), expectation of collaboration by educators, American Academy of Pediatrics (AAP) guidelines for diagnosis and management, Society for Developmental–Behavioral Pediatrics guidelines for “complex ADHD,” and access to effective medication treatments PCPs can provide (although less so for behavioral ones), cultural acceptance of individuals with ADHD, and especially reliable payment by insurers.

Screening

But what about PCP management of autism spectrum disorder (ASD), now affecting 2.8%, for an expected 60 children under care for each of us? PCP detection and care for children with ASD is more complex than ADHD, but even more essential, so we need to learn the skills. It is more essential because very early detection and entry into evidence-based intervention has long-term benefits for the child and family that are not as crucial for ADHD. While ADHD symptoms may not impact functioning until age 7 or even 12 years of age, signs of ASD usually emerge earlier (by 18 months) but gradually and about 30% after apparently normal development even to age 2 years.

Screening is crucial, but unfortunately not perfect. Recent AAP surveys show that most PCPs screen for autism at the recommended 18 and 24 months. But what happens after that? How many offices are tracking referrals for positive screens for needed evaluations and early intervention? Our data shows that tracking is rarely done and children do not start to get the benefit of early intervention until 4.5 years of age, on average.
 

Diagnostic Testing

And screening is the easiest part of addressing ASD. Wait times for diagnostic testing can be agonizing months to years. Multiple programs are training PCPs to perform hands-on 10- to 30-minute secondary screening with considerable success. You can become proficient on tools such as STAT (Screening Tool for Autism in Two-Year-Olds), RITA-T (Rapid Interactive Screening Test for Autism in Toddlers), BISCUIT (Baby and Infant Screen for Children with Autism Traits), SORF (Systematic Observation of Red Flags), ADEC (Autism Detection in Early Childhood) or CARS (Childhood Autism Rating Scale) with a few hours of training. Even secondary assessments done virtually by PCPs such as TELE-ASD-PEDS quite accurately predict a verifiable ASD diagnosis for those referred by concerns. Some problems of the reported accuracy of these secondary screening processes have to do with validation in samples of children for whom parents or clinicians already had concern and generally not including many younger children in whom it is so important to detect. Level of confidence of developmental and behavioral pediatricians of the presence of ASD is highly related to ultimate diagnosis. But success with PCPs’ mastering secondary screening has not yet been reported to convince insurers to approve payment for intervention services such as Applied Behavior Analysis (ABA).

Comorbidity

Co-existing conditions affect the majority of patients with ASD (70%), compared with ADHD, but with a broader range and more debilitating and difficult to manage conditions. More medical co-existing issues such as intellectual disability (25%-75%), seizures (12%-26%), motor incoordination (51%), GI conditions (9%-91%), sleep difficulty (50%-80%), sleep apnea, congenital heart disease, avoidant-restrictive food intake disorder, autoimmune disorders, and genetic syndromes (e.g. Fragile X, tuberous sclerosis, Down, Angelman’s, untreated PKU, neurofibromatosis, Klinefelter syndrome) reflect the range of underpinnings of ASD. The need to detect and manage these co-existing issues, besides assessing hearing and vision, makes our skilled involvement and vigilance in ASD care essential. Referring for help from OTs, PTs, speech pathologists, neurologists, psychologists, and special educators as issues in their domains are prioritized is also our responsibility. We must also help families balance utilizing these resources so as to avoid overwhelm.

Anxiety (50%), ADHD (37%-85%), depression (54%), bipolar (7.3%), suicidal ideation (40% starting < 8 years), and emotion dysregulation, familiar to us from our management of ADHD, may develop but are often less well defined and more intractable in ASD, making use of screening tools essential. Using a system like CHADIS that has online pre-visit and monitoring screens delivered based on algorithms for the numerous co-existing conditions, automated handouts, and functions to make and track referral success can facilitate care for this complex chronic condition. Identifying mental health providers with ASD expertise is more difficult, so more management is on us. While medications for these conditions can be beneficial, we need to learn to use lower doses, slower dose increases, and employ problem-solving of side effects with more parent collaboration than for ADHD as children with ASD often cannot self-report effectively. We need to ask about the common ad hoc use of complementary medications and substances (32%-87%) that may be complicating. Of course, these conditions and the caveats of management require more of our time with the patient and family as well as communication with the many other professionals involved. It is important to set our own and our families’ expectations (and schedules) for much more frequent contact and also to bill appropriately with chronic care (99487,89,90) and collaborative care CPT codes (99492,3,4 or G2214).
 

Behavioral Manifestations

During our care, the often extreme behavioral manifestations of ASD may be the most pressing issues. We need new understanding and skills to sort out and counsel on inflexible, explosive, and sensory triggered behaviors. Just as for ADHD, using the approach of Functional Behavioral Assessment and plans for home as well as school behavior can be key. More difficult in ASD is looking for physical causes, since the child may not provide clear cues because of communication and sensory differences. Conditions common in children with ASD such as constipation, dental caries, otitis, dietary intolerances, allergies, migraine, sleep deficits, menstrual cramps, or fears and changes from puberty manifesting behaviorally are often tricky to sort out.

While the diagnosis of ASD, as for ADHD, does not require any laboratory testing, looking for possible causes is important information for the family and someday may also lead to genetic or other therapies. We need to know that recommendations include screening for Ferritin, Pb, chromosomal microarray and FMR I testing as well as checking that PKU was normal; MECP 2 is indicated in females and symptomatic males; and PTENS testing for children with head circumference greater than 2.5-3 SD. Metabolic and mitochondrial assays are indicated only when symptoms suggest. We need to develop confidence to reserve MRIs or EEGs for cases with abnormal neuro. exams, regression, or history of seizures. It is demanding to keep up with AAP recommendations in this very active area of research.
 

Interventions

The interventions for ADHD are generally school accommodations and therapies for comorbidities. In contrast, since core social communication skills are the main deficit in ASD, all children screened positive for ASD should be referred for early intervention while awaiting, as well as after, diagnosis. While all states have no or low-cost early intervention, quality and quantity (of hours offered) varies. We should also recommend and try to determine if evidence-based intervention is being provided, such as pivotal response training, UCLA discrete trial therapy, Carbone’s verbal behavior, applied behavior analysis (ABA), Early Start Denver Model, and sometimes music and social skills trainings (effect size 0.42-0.76). Such professional interventions have best evidence with more than 25 hours/week but 15 hours has benefit for higher functioning children. CBT can help anxiety even in younger children. One way for families to provide more hours and more generalizable intervention is coaching by the PLAY Project or DIRFloortime, parent mediated interventions with evidence, some with training both in person or online. Alternative communication training and other condition specific assistance are often needed (e.g. Picture Exchange Communication System for nonverbal children).

While we should already be familiar with writing 504 plan and IEP requests to schools, which also apply to children with ASD, in addition we need to be ready to advise about other legal rights including autism waivers, wraparound services, guardianship, and trust accounts. We can share quality educational materials available online (e.g. from Autism Speaks, SPARK, and Autism Navigator). Social media groups may be supportive, but also may contain disinformation we need to dispel.

Unfortunately, templates, questionnaires, and lack of interdisciplinary referral and communication functions of EHRs don’t support the complexities of care for ASD. While the AAP has guidelines for diagnosis and management and an online toolkit, consider adding a system with an autism-specific module like CHADIS and joining the Autism Care Network or ECHO Autism sessions to get both information and support to take on the evolving critical role of autism care.
 

Dr. Howard is assistant professor of pediatrics at Johns Hopkins University, Baltimore, and creator of CHADIS. She had no other relevant disclosures. Dr. Howard’s contribution to this publication was as a paid expert to MDedge News. E-mail her at [email protected].

This transcript has been edited for clarity. 

Matthew F. Watto, MD: Welcome back to The Curbsiders. I’m Dr. Matthew Frank Watto, here with my great friend and America’s primary care physician, Dr. Paul Nelson Williams. Paul, are you ready to talk about anxiety?

Paul N. Williams, MD: Always. It’s one of my favorite topics. 

Dr. Watto: We had a great guest for this podcast on anxiety — Dr. Jessi Gold, who gave us a lot of practical tips. The way she talks to her patients about anxiety is really useful. When patients say “my anxiety” or “I feel anxious,” she considers that a symptom. Anxiety can be a diagnosis or a symptom. You need to clarify what they mean when they refer to their anxiety and dig into how it affects their life. 

We asked her about the Generalized Anxiety Disorder (GAD)-7 score. Like most of the experts we’ve talked to, she’s internalized that, so she doesn’t need to rely on a questionnaire. But I still rely on a questionnaire when I’m taking a history for anxiety. 

We also asked her how she explains anxiety to patients. I don’t know about you, Paul, but I’ve never really thought about explaining to patients why they have anxiety. 

Dr. Williams: I’ve done my best to try to normalize it, but I haven’t actually talked to patients about the evolutionary advantage of anxiety. 

Dr. Watto: She frames it to patients this way: As we were evolving, it was somewhat of an advantage to be hypervigilant, to have some anxiety and a healthy amount of fear so that you weren’t killed or eaten. But now, in the modern world, anxiety isn’t playing to our advantage. Anxiety is not making them safer; it’s making their lives worse. She explains to patients that she’s trying to help them overcome that. 

In terms of pharmacotherapy for anxiety, I always think about SSRIs as one of the first steps. Why not use an SNRI as first-line treatment?

Dr. Williams: I was glad we had this conversation because I feel, for whatever reason, a bit more comfortable treating depression than anxiety. In any case, Dr. Gold reaches for the SSRI first, in part because getting off an SNRI (for example, to switch to something else) can be absolutely miserable. The discontinuation effects can be severe enough to have to bridge some patients with a benzodiazepine to get them fully off the SNRI. So, an SNRI is not the first drug you should necessarily reach for. 

She thinks about using an SNRI if she has tried a couple of SSRIs that have been ineffective, or if the patient has a comorbid condition that might also benefit from the SNRI in the same way that you might use a tricyclic antidepressant in the patient with both migraines and anxiety. An SNRI might be a good medication to consider in the patient with neuropathic pain and anxiety but rarely as a first-line treatment, because if it doesn’t work out, getting the patient off that medication can be a challenge.

Dr. Watto: She mentioned venlafaxine as being especially difficult to get people off of. I’ve heard that bupropion should never be used in anxiety, and if you give it, you are a terrible doctor. What did we learn about that? 

Dr. Williams: It’s a drug I’ve hesitated to prescribe to patients with anxiety or even comorbid anxiety. I’m a little bit nervous for someone who has depression and anxiety to prescribe bupropion because it can be activating and make things worse. But Dr. Gold says that she has seen bupropion work for some patients so she will consider it, especially for patients who don’t want to gain weight, or for whom sexual side effects would be bothersome. So, it’s not always the wrong answer. In her expert opinion, you can try it and see how the patient responds, using shared decision-making and letting the patient know that they may not tolerate it as well as other medications. 

Dr. Watto: She sees a lot of younger people — students, working professionals — who do not want to gain weight, and that’s understandable. She will tell patients, “We can try bupropion, but if you get more anxious, we might not be able to continue it. We might have to use one of the first-line agents instead.” 

Dr. Williams: We talked about mirtazapine as well. She tells patients they are going to gain weight with it. You have to have that conversation with the patient to see whether that is something they are willing to tolerate. If so, mirtazapine might be worth a try, but you have to be upfront about the potential side effects and know what the medications you’re prescribing will do to patients. 

Dr. Watto: We asked her about benzodiazepines. For as-needed medication for people who are experiencing panic or anxiety attacks, she prescribes propranolol 10-20 mg twice a day as needed, which is a low dose. In primary care, we use higher doses for migraine prophylaxis. 

She uses propranolol because for some patients, it’s the physical symptoms of anxiety that are bothering them. She can calm down the physical symptoms with that and get by without needing to use a benzodiazepine. 

But what about thoughts that make people anxious? Can we change people’s thoughts with medication? 

Dr. Williams: Dr. Gold made the point that we can medicate away insomnia, for the most part. We can medicate away the physical symptoms of anxiety, which can be really bothersome. But we can’t medicate away thoughts and thought patterns. You can make patients feel better with medications, but you may not be able to get rid of the persistent bothersome thoughts. That’s where cognitive-behavioral therapy can be especially helpful. Most of these patients would benefit from therapy.

Dr. Watto: I completely agree with that. We talked about so many great things with Dr. Gold, but we can’t recap all of it here. Please click on this link to hear the full podcast episode. 
 

Dr. Watto is Clinical Assistant Professor, Department of Medicine, Perelman School of Medicine at University of Pennsylvania; Internist, Department of Medicine, Hospital Medicine Section, Pennsylvania Hospital, Philadelphia, Pennsylvania. He has disclosed no relevant financial relationships. Dr. Williams is Associate Professor of Clinical Medicine, Department of General Internal Medicine, Lewis Katz School of Medicine; Staff Physician, Department of General Internal Medicine, Temple Internal Medicine Associates, Philadelphia, Pennsylvania. He disclosed receiving income from The Curbsiders. The Curbsiders is an internal medicine podcast, in which three board-certified internists interview experts on clinically important topics. In a collaboration with Medscape, the Curbsiders share clinical pearls and practice-changing knowledge from selected podcasts.

A version of this article appeared on Medscape.com.

This transcript has been edited for clarity. 

Matthew F. Watto, MD: Welcome back to The Curbsiders. I’m Dr. Matthew Frank Watto, here with my great friend and America’s primary care physician, Dr. Paul Nelson Williams. Paul, are you ready to talk about anxiety?

Paul N. Williams, MD: Always. It’s one of my favorite topics. 

Dr. Watto: We had a great guest for this podcast on anxiety — Dr. Jessi Gold, who gave us a lot of practical tips. The way she talks to her patients about anxiety is really useful. When patients say “my anxiety” or “I feel anxious,” she considers that a symptom. Anxiety can be a diagnosis or a symptom. You need to clarify what they mean when they refer to their anxiety and dig into how it affects their life. 

We asked her about the Generalized Anxiety Disorder (GAD)-7 score. Like most of the experts we’ve talked to, she’s internalized that, so she doesn’t need to rely on a questionnaire. But I still rely on a questionnaire when I’m taking a history for anxiety. 

We also asked her how she explains anxiety to patients. I don’t know about you, Paul, but I’ve never really thought about explaining to patients why they have anxiety. 

Dr. Williams: I’ve done my best to try to normalize it, but I haven’t actually talked to patients about the evolutionary advantage of anxiety. 

Dr. Watto: She frames it to patients this way: As we were evolving, it was somewhat of an advantage to be hypervigilant, to have some anxiety and a healthy amount of fear so that you weren’t killed or eaten. But now, in the modern world, anxiety isn’t playing to our advantage. Anxiety is not making them safer; it’s making their lives worse. She explains to patients that she’s trying to help them overcome that. 

In terms of pharmacotherapy for anxiety, I always think about SSRIs as one of the first steps. Why not use an SNRI as first-line treatment?

Dr. Williams: I was glad we had this conversation because I feel, for whatever reason, a bit more comfortable treating depression than anxiety. In any case, Dr. Gold reaches for the SSRI first, in part because getting off an SNRI (for example, to switch to something else) can be absolutely miserable. The discontinuation effects can be severe enough to have to bridge some patients with a benzodiazepine to get them fully off the SNRI. So, an SNRI is not the first drug you should necessarily reach for. 

She thinks about using an SNRI if she has tried a couple of SSRIs that have been ineffective, or if the patient has a comorbid condition that might also benefit from the SNRI in the same way that you might use a tricyclic antidepressant in the patient with both migraines and anxiety. An SNRI might be a good medication to consider in the patient with neuropathic pain and anxiety but rarely as a first-line treatment, because if it doesn’t work out, getting the patient off that medication can be a challenge.

Dr. Watto: She mentioned venlafaxine as being especially difficult to get people off of. I’ve heard that bupropion should never be used in anxiety, and if you give it, you are a terrible doctor. What did we learn about that? 

Dr. Williams: It’s a drug I’ve hesitated to prescribe to patients with anxiety or even comorbid anxiety. I’m a little bit nervous for someone who has depression and anxiety to prescribe bupropion because it can be activating and make things worse. But Dr. Gold says that she has seen bupropion work for some patients so she will consider it, especially for patients who don’t want to gain weight, or for whom sexual side effects would be bothersome. So, it’s not always the wrong answer. In her expert opinion, you can try it and see how the patient responds, using shared decision-making and letting the patient know that they may not tolerate it as well as other medications. 

Dr. Watto: She sees a lot of younger people — students, working professionals — who do not want to gain weight, and that’s understandable. She will tell patients, “We can try bupropion, but if you get more anxious, we might not be able to continue it. We might have to use one of the first-line agents instead.” 

Dr. Williams: We talked about mirtazapine as well. She tells patients they are going to gain weight with it. You have to have that conversation with the patient to see whether that is something they are willing to tolerate. If so, mirtazapine might be worth a try, but you have to be upfront about the potential side effects and know what the medications you’re prescribing will do to patients. 

Dr. Watto: We asked her about benzodiazepines. For as-needed medication for people who are experiencing panic or anxiety attacks, she prescribes propranolol 10-20 mg twice a day as needed, which is a low dose. In primary care, we use higher doses for migraine prophylaxis. 

She uses propranolol because for some patients, it’s the physical symptoms of anxiety that are bothering them. She can calm down the physical symptoms with that and get by without needing to use a benzodiazepine. 

But what about thoughts that make people anxious? Can we change people’s thoughts with medication? 

Dr. Williams: Dr. Gold made the point that we can medicate away insomnia, for the most part. We can medicate away the physical symptoms of anxiety, which can be really bothersome. But we can’t medicate away thoughts and thought patterns. You can make patients feel better with medications, but you may not be able to get rid of the persistent bothersome thoughts. That’s where cognitive-behavioral therapy can be especially helpful. Most of these patients would benefit from therapy.

Dr. Watto: I completely agree with that. We talked about so many great things with Dr. Gold, but we can’t recap all of it here. Please click on this link to hear the full podcast episode. 
 

Dr. Watto is Clinical Assistant Professor, Department of Medicine, Perelman School of Medicine at University of Pennsylvania; Internist, Department of Medicine, Hospital Medicine Section, Pennsylvania Hospital, Philadelphia, Pennsylvania. He has disclosed no relevant financial relationships. Dr. Williams is Associate Professor of Clinical Medicine, Department of General Internal Medicine, Lewis Katz School of Medicine; Staff Physician, Department of General Internal Medicine, Temple Internal Medicine Associates, Philadelphia, Pennsylvania. He disclosed receiving income from The Curbsiders. The Curbsiders is an internal medicine podcast, in which three board-certified internists interview experts on clinically important topics. In a collaboration with Medscape, the Curbsiders share clinical pearls and practice-changing knowledge from selected podcasts.

A version of this article appeared on Medscape.com.

This transcript has been edited for clarity. 

Matthew F. Watto, MD: Welcome back to The Curbsiders. I’m Dr. Matthew Frank Watto, here with my great friend and America’s primary care physician, Dr. Paul Nelson Williams. Paul, are you ready to talk about anxiety?

Paul N. Williams, MD: Always. It’s one of my favorite topics. 

Dr. Watto: We had a great guest for this podcast on anxiety — Dr. Jessi Gold, who gave us a lot of practical tips. The way she talks to her patients about anxiety is really useful. When patients say “my anxiety” or “I feel anxious,” she considers that a symptom. Anxiety can be a diagnosis or a symptom. You need to clarify what they mean when they refer to their anxiety and dig into how it affects their life. 

We asked her about the Generalized Anxiety Disorder (GAD)-7 score. Like most of the experts we’ve talked to, she’s internalized that, so she doesn’t need to rely on a questionnaire. But I still rely on a questionnaire when I’m taking a history for anxiety. 

We also asked her how she explains anxiety to patients. I don’t know about you, Paul, but I’ve never really thought about explaining to patients why they have anxiety. 

Dr. Williams: I’ve done my best to try to normalize it, but I haven’t actually talked to patients about the evolutionary advantage of anxiety. 

Dr. Watto: She frames it to patients this way: As we were evolving, it was somewhat of an advantage to be hypervigilant, to have some anxiety and a healthy amount of fear so that you weren’t killed or eaten. But now, in the modern world, anxiety isn’t playing to our advantage. Anxiety is not making them safer; it’s making their lives worse. She explains to patients that she’s trying to help them overcome that. 

In terms of pharmacotherapy for anxiety, I always think about SSRIs as one of the first steps. Why not use an SNRI as first-line treatment?

Dr. Williams: I was glad we had this conversation because I feel, for whatever reason, a bit more comfortable treating depression than anxiety. In any case, Dr. Gold reaches for the SSRI first, in part because getting off an SNRI (for example, to switch to something else) can be absolutely miserable. The discontinuation effects can be severe enough to have to bridge some patients with a benzodiazepine to get them fully off the SNRI. So, an SNRI is not the first drug you should necessarily reach for. 

She thinks about using an SNRI if she has tried a couple of SSRIs that have been ineffective, or if the patient has a comorbid condition that might also benefit from the SNRI in the same way that you might use a tricyclic antidepressant in the patient with both migraines and anxiety. An SNRI might be a good medication to consider in the patient with neuropathic pain and anxiety but rarely as a first-line treatment, because if it doesn’t work out, getting the patient off that medication can be a challenge.

Dr. Watto: She mentioned venlafaxine as being especially difficult to get people off of. I’ve heard that bupropion should never be used in anxiety, and if you give it, you are a terrible doctor. What did we learn about that? 

Dr. Williams: It’s a drug I’ve hesitated to prescribe to patients with anxiety or even comorbid anxiety. I’m a little bit nervous for someone who has depression and anxiety to prescribe bupropion because it can be activating and make things worse. But Dr. Gold says that she has seen bupropion work for some patients so she will consider it, especially for patients who don’t want to gain weight, or for whom sexual side effects would be bothersome. So, it’s not always the wrong answer. In her expert opinion, you can try it and see how the patient responds, using shared decision-making and letting the patient know that they may not tolerate it as well as other medications. 

Dr. Watto: She sees a lot of younger people — students, working professionals — who do not want to gain weight, and that’s understandable. She will tell patients, “We can try bupropion, but if you get more anxious, we might not be able to continue it. We might have to use one of the first-line agents instead.” 

Dr. Williams: We talked about mirtazapine as well. She tells patients they are going to gain weight with it. You have to have that conversation with the patient to see whether that is something they are willing to tolerate. If so, mirtazapine might be worth a try, but you have to be upfront about the potential side effects and know what the medications you’re prescribing will do to patients. 

Dr. Watto: We asked her about benzodiazepines. For as-needed medication for people who are experiencing panic or anxiety attacks, she prescribes propranolol 10-20 mg twice a day as needed, which is a low dose. In primary care, we use higher doses for migraine prophylaxis. 

She uses propranolol because for some patients, it’s the physical symptoms of anxiety that are bothering them. She can calm down the physical symptoms with that and get by without needing to use a benzodiazepine. 

But what about thoughts that make people anxious? Can we change people’s thoughts with medication? 

Dr. Williams: Dr. Gold made the point that we can medicate away insomnia, for the most part. We can medicate away the physical symptoms of anxiety, which can be really bothersome. But we can’t medicate away thoughts and thought patterns. You can make patients feel better with medications, but you may not be able to get rid of the persistent bothersome thoughts. That’s where cognitive-behavioral therapy can be especially helpful. Most of these patients would benefit from therapy.

Dr. Watto: I completely agree with that. We talked about so many great things with Dr. Gold, but we can’t recap all of it here. Please click on this link to hear the full podcast episode. 
 

Dr. Watto is Clinical Assistant Professor, Department of Medicine, Perelman School of Medicine at University of Pennsylvania; Internist, Department of Medicine, Hospital Medicine Section, Pennsylvania Hospital, Philadelphia, Pennsylvania. He has disclosed no relevant financial relationships. Dr. Williams is Associate Professor of Clinical Medicine, Department of General Internal Medicine, Lewis Katz School of Medicine; Staff Physician, Department of General Internal Medicine, Temple Internal Medicine Associates, Philadelphia, Pennsylvania. He disclosed receiving income from The Curbsiders. The Curbsiders is an internal medicine podcast, in which three board-certified internists interview experts on clinically important topics. In a collaboration with Medscape, the Curbsiders share clinical pearls and practice-changing knowledge from selected podcasts.

A version of this article appeared on Medscape.com.

TOPLINE:

Emergency department (ED) visits in the United States for suicide attempts and intentional self-harm show an increasing trend from 2011 to 2020, with visits being most common among adolescents and the largest increase in visits being seen in adults aged 65 years or older.

METHODOLOGY:

• This study used data from the National Hospital Ambulatory Medical Care Survey, an annual nationwide cross-sectional survey, to track trends in ED visits for suicide attempts and intentional self-harm in the United States from 2011 to 2020.
• Researchers identified visits for suicide attempts and intentional self-harm, along with diagnoses of any co-occurring mental health conditions, using discharge diagnosis codes or reason-for-visit codes.
• The focus was to identify the percentages of ED visits for suicide attempts and intentional self-harm, with analyses done per 100,000 persons and for changes possibly linked to the COVID-19 pandemic in 2019-2020.

TAKEAWAY:

• The number of ED visits owing to suicide attempts and intentional self-harm increased from 1.43 million in 2011-2012 to 5.37 million in 2019-2020 (average annual percent change, 19.5%; 95% confidence interval, 16.9-22.2).
• The rate of ED visits for suicide attempts and intentional self-harm was higher among adolescents and young adults, particularly women, and lower among children.
• Despite a surge in ED visits for self-harm, less than 16% included a mental health evaluation, with visits among patients with mood disorders decreasing by 5.5% annually and those among patients with drug-related disorders increasing by 6.8% annually.
• In 2019-2020, those aged 15-20 years had the highest rate of ED visits (1552 visits per 100,000 persons), with a significant increase seen across all age groups; the largest increase was among those aged 65 years or older.

IN PRACTICE:

“Given that suicide attempts are the single greatest risk factor for suicide, evidence-based management of individuals presenting to emergency departments with suicide attempts and intentional self-harm is a critical component of comprehensive suicide prevention strategies,” the authors wrote.

SOURCE:

The investigation, led by Tanner J. Bommersbach, MD, MPH, Department of Psychiatry and Psychology, Mayo Clinic, Rochester, Minnesota, was published online in The American Journal of Psychiatry.

LIMITATIONS:

Visits for suicide attempts and intentional self-harm were identified based on discharge diagnostic and reason-for-visit codes, which may have led to an underestimation of visits for suicide attempts. ED visits for suicidal vs nonsuicidal self-injury could not be distinguished due to reliance on discharge diagnostic codes. Visits for suicidal ideation, which was not the focus of the study, may have been miscoded as suicide attempts and intentional self-harm.

DISCLOSURES:

No funding source was reported for the study. Some authors received funding grants from various institutions, and one author disclosed receiving honoraria for service as a review committee member and serving as a stakeholder/consultant and as an advisory committee member for some institutes and agencies.

A version of this article appeared on Medscape.com.

TOPLINE:

Emergency department (ED) visits in the United States for suicide attempts and intentional self-harm show an increasing trend from 2011 to 2020, with visits being most common among adolescents and the largest increase in visits being seen in adults aged 65 years or older.

METHODOLOGY:

• This study used data from the National Hospital Ambulatory Medical Care Survey, an annual nationwide cross-sectional survey, to track trends in ED visits for suicide attempts and intentional self-harm in the United States from 2011 to 2020.
• Researchers identified visits for suicide attempts and intentional self-harm, along with diagnoses of any co-occurring mental health conditions, using discharge diagnosis codes or reason-for-visit codes.
• The focus was to identify the percentages of ED visits for suicide attempts and intentional self-harm, with analyses done per 100,000 persons and for changes possibly linked to the COVID-19 pandemic in 2019-2020.

TAKEAWAY:

• The number of ED visits owing to suicide attempts and intentional self-harm increased from 1.43 million in 2011-2012 to 5.37 million in 2019-2020 (average annual percent change, 19.5%; 95% confidence interval, 16.9-22.2).
• The rate of ED visits for suicide attempts and intentional self-harm was higher among adolescents and young adults, particularly women, and lower among children.
• Despite a surge in ED visits for self-harm, less than 16% included a mental health evaluation, with visits among patients with mood disorders decreasing by 5.5% annually and those among patients with drug-related disorders increasing by 6.8% annually.
• In 2019-2020, those aged 15-20 years had the highest rate of ED visits (1552 visits per 100,000 persons), with a significant increase seen across all age groups; the largest increase was among those aged 65 years or older.

IN PRACTICE:

“Given that suicide attempts are the single greatest risk factor for suicide, evidence-based management of individuals presenting to emergency departments with suicide attempts and intentional self-harm is a critical component of comprehensive suicide prevention strategies,” the authors wrote.

SOURCE:

The investigation, led by Tanner J. Bommersbach, MD, MPH, Department of Psychiatry and Psychology, Mayo Clinic, Rochester, Minnesota, was published online in The American Journal of Psychiatry.

LIMITATIONS:

Visits for suicide attempts and intentional self-harm were identified based on discharge diagnostic and reason-for-visit codes, which may have led to an underestimation of visits for suicide attempts. ED visits for suicidal vs nonsuicidal self-injury could not be distinguished due to reliance on discharge diagnostic codes. Visits for suicidal ideation, which was not the focus of the study, may have been miscoded as suicide attempts and intentional self-harm.

DISCLOSURES:

No funding source was reported for the study. Some authors received funding grants from various institutions, and one author disclosed receiving honoraria for service as a review committee member and serving as a stakeholder/consultant and as an advisory committee member for some institutes and agencies.

A version of this article appeared on Medscape.com.

TOPLINE:

Emergency department (ED) visits in the United States for suicide attempts and intentional self-harm show an increasing trend from 2011 to 2020, with visits being most common among adolescents and the largest increase in visits being seen in adults aged 65 years or older.

METHODOLOGY:

• This study used data from the National Hospital Ambulatory Medical Care Survey, an annual nationwide cross-sectional survey, to track trends in ED visits for suicide attempts and intentional self-harm in the United States from 2011 to 2020.
• Researchers identified visits for suicide attempts and intentional self-harm, along with diagnoses of any co-occurring mental health conditions, using discharge diagnosis codes or reason-for-visit codes.
• The focus was to identify the percentages of ED visits for suicide attempts and intentional self-harm, with analyses done per 100,000 persons and for changes possibly linked to the COVID-19 pandemic in 2019-2020.

TAKEAWAY:

• The number of ED visits owing to suicide attempts and intentional self-harm increased from 1.43 million in 2011-2012 to 5.37 million in 2019-2020 (average annual percent change, 19.5%; 95% confidence interval, 16.9-22.2).
• The rate of ED visits for suicide attempts and intentional self-harm was higher among adolescents and young adults, particularly women, and lower among children.
• Despite a surge in ED visits for self-harm, less than 16% included a mental health evaluation, with visits among patients with mood disorders decreasing by 5.5% annually and those among patients with drug-related disorders increasing by 6.8% annually.
• In 2019-2020, those aged 15-20 years had the highest rate of ED visits (1552 visits per 100,000 persons), with a significant increase seen across all age groups; the largest increase was among those aged 65 years or older.

IN PRACTICE:

“Given that suicide attempts are the single greatest risk factor for suicide, evidence-based management of individuals presenting to emergency departments with suicide attempts and intentional self-harm is a critical component of comprehensive suicide prevention strategies,” the authors wrote.

SOURCE:

The investigation, led by Tanner J. Bommersbach, MD, MPH, Department of Psychiatry and Psychology, Mayo Clinic, Rochester, Minnesota, was published online in The American Journal of Psychiatry.

LIMITATIONS:

Visits for suicide attempts and intentional self-harm were identified based on discharge diagnostic and reason-for-visit codes, which may have led to an underestimation of visits for suicide attempts. ED visits for suicidal vs nonsuicidal self-injury could not be distinguished due to reliance on discharge diagnostic codes. Visits for suicidal ideation, which was not the focus of the study, may have been miscoded as suicide attempts and intentional self-harm.

DISCLOSURES:

No funding source was reported for the study. Some authors received funding grants from various institutions, and one author disclosed receiving honoraria for service as a review committee member and serving as a stakeholder/consultant and as an advisory committee member for some institutes and agencies.

A version of this article appeared on Medscape.com.

It’s time to renew two of my three narcotic prescribing licenses. For the first time in my career, I’ve waffled on whether the financial outlay to the US Drug Enforcement Agency (DEA) is worth it. 

At $888 each, I’ve considered letting two licenses lapse because I only work part-time in Montana. But several friends advised me to keep a “spare” in case I transfer to a new location. 

I thought about just paying the fees until I could do a little more research, but there is no mechanism for a refund unless I die within the first year of the 3-year cycle, provide incorrect credit card digits, or accidentally duplicate payments.

The renewal fee is just part of the issue.
 

Mandatory 8-Hour Training

I also received an alert about the requirement for more “narcotics prescribing education” thanks to the Medication Access and Training Expansion Act (MATE). 

The requirement seems counterintuitive because opioid prescribing has decreased for the 10th consecutive year, according to the AMA Overdose Epidemic Report. The continuing rise in overdose deaths is largely due to illegitimate manufacturing of synthetic opioids. 

I’ve written zero outpatient narcotics prescriptions in the past 6 years, and I’ve written very few in my 33 years of practice. My use is limited to intravenous morphine for flash pulmonary edema or refractory angina, but unless you graduated from a training program within 5 years of the June 2023 mandate or are boarded in addiction medicine, there is no way to escape the 8-hour education requirement.

The problem is that these courses are never just 8 hours in duration. After signing up for one such CME course that cost $150, I was still dying of boredom and at risk for DVT 4 days later. That’s how long it took to sit through.

Instead of the 30 seconds it should have taken to review the simple instructions to deliver Narcan, there were scores of screens followed by juvenile quizlets and cartoons. All but about 2 hours out of the 4 days is now relegated to that category of “hours of my life that I can never get back.” Additionally, none of that mandatory “education” will change my prescribing habits one whit. 

And beware the penalty. 

Changes Needed

The only good thing that came of those 4 long days of opioid education was a motivation to drive change in our current licensing and educational experience. Why not use this opportunity to reform the DEA-physician/prescriber relationship? 

The educational requirements should be curtailed for those of us who do not provide outpatient narcotic prescriptions even if we use inpatient opioids. Meds with low abuse potential should be rescheduled to minimize who gets caught in the broad net of the education requirement. 

We should reduce overregulation of the legitimate prescribers by lowering, instead of increasing, licensing fees. We should change to a single license number that covers every state. In this digital age, there is no legitimate excuse to prevent this from happening. 

After all, the settlements from opioid manufacturers and distributors will in time total $50 billion. It seems that at least some of the responsibilities of the DEA could shift to states, cities, and towns. 

My friend Siamak Karimian, MD, who provides locum services in multiple states, pays for seven active DEA licenses every 3 years. He pointed out the hypocrisy in the current regulatory system: “It’s funny that you can have only one DEA or state license and work for the government in all other states or territories with no limits, including the VA, Indian healthcare systems, or prison systems.”

All other prescribers require a separate DEA number for every state. Ultimately, you’d think tracking prescriptions for a single DEA number should be far simpler than tracking someone with seven. 

Competent physicians not guilty of criminal overprescribing seem to be the last to be considered in nearly every healthcare endeavor these days. It would be refreshing if they would reduce our fees and prevent this waste of our time. 

And while we are at it, perhaps a more fitting punishment is due for Richard Sackler and all the Purdue Pharma–affiliated family members. The Sacklers will pay out $6 billion in exchange for immunity against civil litigation. That doesn’t seem like much when they are worth $11 billion. 

Perhaps they should be made to take an 8-hour course on opioid prescribing, annually and in perpetuity. Let’s see them complete a few quizlets and sit through screens of instruction on how to administer Naloxone. Of course, that would be a mild punishment for those who manufactured a drug that killed hundreds of thousands. But it would be a start. 
 

Dr. Walton-Shirley, a clinical cardiologist in Nashville, Tennessee, has disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

It’s time to renew two of my three narcotic prescribing licenses. For the first time in my career, I’ve waffled on whether the financial outlay to the US Drug Enforcement Agency (DEA) is worth it. 

At $888 each, I’ve considered letting two licenses lapse because I only work part-time in Montana. But several friends advised me to keep a “spare” in case I transfer to a new location. 

I thought about just paying the fees until I could do a little more research, but there is no mechanism for a refund unless I die within the first year of the 3-year cycle, provide incorrect credit card digits, or accidentally duplicate payments.

The renewal fee is just part of the issue.
 

Mandatory 8-Hour Training

I also received an alert about the requirement for more “narcotics prescribing education” thanks to the Medication Access and Training Expansion Act (MATE). 

The requirement seems counterintuitive because opioid prescribing has decreased for the 10th consecutive year, according to the AMA Overdose Epidemic Report. The continuing rise in overdose deaths is largely due to illegitimate manufacturing of synthetic opioids. 

I’ve written zero outpatient narcotics prescriptions in the past 6 years, and I’ve written very few in my 33 years of practice. My use is limited to intravenous morphine for flash pulmonary edema or refractory angina, but unless you graduated from a training program within 5 years of the June 2023 mandate or are boarded in addiction medicine, there is no way to escape the 8-hour education requirement.

The problem is that these courses are never just 8 hours in duration. After signing up for one such CME course that cost $150, I was still dying of boredom and at risk for DVT 4 days later. That’s how long it took to sit through.

Instead of the 30 seconds it should have taken to review the simple instructions to deliver Narcan, there were scores of screens followed by juvenile quizlets and cartoons. All but about 2 hours out of the 4 days is now relegated to that category of “hours of my life that I can never get back.” Additionally, none of that mandatory “education” will change my prescribing habits one whit. 

And beware the penalty. 

Changes Needed

The only good thing that came of those 4 long days of opioid education was a motivation to drive change in our current licensing and educational experience. Why not use this opportunity to reform the DEA-physician/prescriber relationship? 

The educational requirements should be curtailed for those of us who do not provide outpatient narcotic prescriptions even if we use inpatient opioids. Meds with low abuse potential should be rescheduled to minimize who gets caught in the broad net of the education requirement. 

We should reduce overregulation of the legitimate prescribers by lowering, instead of increasing, licensing fees. We should change to a single license number that covers every state. In this digital age, there is no legitimate excuse to prevent this from happening. 

After all, the settlements from opioid manufacturers and distributors will in time total $50 billion. It seems that at least some of the responsibilities of the DEA could shift to states, cities, and towns. 

My friend Siamak Karimian, MD, who provides locum services in multiple states, pays for seven active DEA licenses every 3 years. He pointed out the hypocrisy in the current regulatory system: “It’s funny that you can have only one DEA or state license and work for the government in all other states or territories with no limits, including the VA, Indian healthcare systems, or prison systems.”

All other prescribers require a separate DEA number for every state. Ultimately, you’d think tracking prescriptions for a single DEA number should be far simpler than tracking someone with seven. 

Competent physicians not guilty of criminal overprescribing seem to be the last to be considered in nearly every healthcare endeavor these days. It would be refreshing if they would reduce our fees and prevent this waste of our time. 

And while we are at it, perhaps a more fitting punishment is due for Richard Sackler and all the Purdue Pharma–affiliated family members. The Sacklers will pay out $6 billion in exchange for immunity against civil litigation. That doesn’t seem like much when they are worth $11 billion. 

Perhaps they should be made to take an 8-hour course on opioid prescribing, annually and in perpetuity. Let’s see them complete a few quizlets and sit through screens of instruction on how to administer Naloxone. Of course, that would be a mild punishment for those who manufactured a drug that killed hundreds of thousands. But it would be a start. 
 

Dr. Walton-Shirley, a clinical cardiologist in Nashville, Tennessee, has disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

It’s time to renew two of my three narcotic prescribing licenses. For the first time in my career, I’ve waffled on whether the financial outlay to the US Drug Enforcement Agency (DEA) is worth it. 

At $888 each, I’ve considered letting two licenses lapse because I only work part-time in Montana. But several friends advised me to keep a “spare” in case I transfer to a new location. 

I thought about just paying the fees until I could do a little more research, but there is no mechanism for a refund unless I die within the first year of the 3-year cycle, provide incorrect credit card digits, or accidentally duplicate payments.

The renewal fee is just part of the issue.
 

Mandatory 8-Hour Training

I also received an alert about the requirement for more “narcotics prescribing education” thanks to the Medication Access and Training Expansion Act (MATE). 

The requirement seems counterintuitive because opioid prescribing has decreased for the 10th consecutive year, according to the AMA Overdose Epidemic Report. The continuing rise in overdose deaths is largely due to illegitimate manufacturing of synthetic opioids. 

I’ve written zero outpatient narcotics prescriptions in the past 6 years, and I’ve written very few in my 33 years of practice. My use is limited to intravenous morphine for flash pulmonary edema or refractory angina, but unless you graduated from a training program within 5 years of the June 2023 mandate or are boarded in addiction medicine, there is no way to escape the 8-hour education requirement.

The problem is that these courses are never just 8 hours in duration. After signing up for one such CME course that cost $150, I was still dying of boredom and at risk for DVT 4 days later. That’s how long it took to sit through.

Instead of the 30 seconds it should have taken to review the simple instructions to deliver Narcan, there were scores of screens followed by juvenile quizlets and cartoons. All but about 2 hours out of the 4 days is now relegated to that category of “hours of my life that I can never get back.” Additionally, none of that mandatory “education” will change my prescribing habits one whit. 

And beware the penalty. 

Changes Needed

The only good thing that came of those 4 long days of opioid education was a motivation to drive change in our current licensing and educational experience. Why not use this opportunity to reform the DEA-physician/prescriber relationship? 

The educational requirements should be curtailed for those of us who do not provide outpatient narcotic prescriptions even if we use inpatient opioids. Meds with low abuse potential should be rescheduled to minimize who gets caught in the broad net of the education requirement. 

We should reduce overregulation of the legitimate prescribers by lowering, instead of increasing, licensing fees. We should change to a single license number that covers every state. In this digital age, there is no legitimate excuse to prevent this from happening. 

After all, the settlements from opioid manufacturers and distributors will in time total $50 billion. It seems that at least some of the responsibilities of the DEA could shift to states, cities, and towns. 

My friend Siamak Karimian, MD, who provides locum services in multiple states, pays for seven active DEA licenses every 3 years. He pointed out the hypocrisy in the current regulatory system: “It’s funny that you can have only one DEA or state license and work for the government in all other states or territories with no limits, including the VA, Indian healthcare systems, or prison systems.”

All other prescribers require a separate DEA number for every state. Ultimately, you’d think tracking prescriptions for a single DEA number should be far simpler than tracking someone with seven. 

Competent physicians not guilty of criminal overprescribing seem to be the last to be considered in nearly every healthcare endeavor these days. It would be refreshing if they would reduce our fees and prevent this waste of our time. 

And while we are at it, perhaps a more fitting punishment is due for Richard Sackler and all the Purdue Pharma–affiliated family members. The Sacklers will pay out $6 billion in exchange for immunity against civil litigation. That doesn’t seem like much when they are worth $11 billion. 

Perhaps they should be made to take an 8-hour course on opioid prescribing, annually and in perpetuity. Let’s see them complete a few quizlets and sit through screens of instruction on how to administer Naloxone. Of course, that would be a mild punishment for those who manufactured a drug that killed hundreds of thousands. But it would be a start. 
 

Dr. Walton-Shirley, a clinical cardiologist in Nashville, Tennessee, has disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

The largest US physician organization wrestled with the professional risks and rewards of artificial intelligence (AI) at its annual meeting, delaying action even as it adopted new policies on prior authorization and other concerns for clinicians and patients.

Physicians and medical students at the annual meeting of the American Medical Association (AMA) House of Delegates in Chicago intensely debated a report and two key resolutions on AI but could not reach consensus, pushing off decision-making until a future meeting in November.

One resolution would establish “augmented intelligence” as the preferred term for AI, reflecting the desired role of these tools in supporting — not making — physicians’ decisions. The other resolution focused on insurers’ use of AI in determining medical necessity.

(See specific policies adopted at the meeting, held June 8-12, below.)

A comprehensive AMA trustees’ report on AI considered additional issues including requirements for disclosing AI use, liability for harms due to flawed application of AI, data privacy, and cybersecurity.

The AMA intends to “continue to methodically assess these issues and make informed recommendations in proposing new policy,” said Bobby Mukkamala, MD, an otolaryngologist from Flint, Michigan, who became the AMA’s new president-elect.

AMA members at the meeting largely applauded the aim of these AI proposals, but some objected to parts of the trustees’ report.

They raised questions about what, exactly, constitutes an AI-powered service and whether all AI tools need the kind of guardrails the AMA may seek. There also were concerns about calls to make AI use more transparent.

While transparency might be an admirable goal, it might prove too hard to achieve given that AI-powered tools and products are already woven into medical practice in ways that physicians may not know or understand, said Christopher Libby, MD, MPH, a clinical informaticist and emergency physician at Cedars Sinai Medical Center in Los Angeles.

“It’s hard for the practicing clinician to know how every piece of technology works in order to describe it to the patient,” Dr. Libby said at the meeting. “How many people here can identify when algorithms are used in their EHR today?”

He suggested asking for more transparency from the companies that make and sell AI-powered software and tools to insurers and healthcare systems.

Steven H. Kroft, MD, the editor of the American Journal of Clinical Pathology, raised concerns about the unintended harm that unchecked use of AI may pose to scientific research.

He asked the AMA to address “a significant omission in an otherwise comprehensive report” — the need to protect the integrity of study results that can direct patient care.

“While sham science is not a new issue, large language models make it far easier for authors to generate fake papers and far harder for editors, reviewers, and publishers to identify them,” Dr. Kroft said. “This is a rapidly growing phenomenon that is threatening the integrity of the literature. These papers become embedded in the evidence bases that drive clinical decision-making.”

AMA has been working with specialty societies and outside AI experts to refine an effective set of recommendations. The new policies, once finalized, are intended to build on steps AMA already has taken, including last year releasing principles for AI development, deployment, and use.
 

Congress Mulling

The AMA delegates are far from alone in facing AI policy challenges.

Leaders in Congress also are examining AI guardrails, with influential panels such as the Senate Finance and House Energy and Commerce committees holding hearings.

A key congressional AI effort to watch is the expected implementation of a bipartisan Senate “road map,” which Senate Majority Leader Chuck Schumer (D-NY) and colleagues released in May, said Miranda A. Franco, a senior policy advisor at the law firm Holland & Knight.

The product of many months of deliberation, this Senate road map identifies priorities for future legislation, including:

• Creating appropriate guardrails and safety measures to protect patients.
• Making healthcare and biomedical data available for machine learning and data science research while carefully addressing privacy issues.
• Providing transparency for clinicians and the public about the use of AI in medical products and clinical support services, including the data used to train models.
• Examining the Centers for Medicare & Medicaid Services’ reimbursement mechanisms as well as guardrails to ensure accountability, appropriate use, and broad application of AI across all populations.

Congress likely will address issues of AI in healthcare in piecemeal fashion, taking on different aspects of these challenges at different times, Ms. Franco said. The Senate road map gives the key committees directions on where to proceed in their efforts to develop new laws.

“I think this is all going to be slow and rolling, not big and sweeping,” Ms. Franco told this news organization. “I don’t think we’re going to see an encompassing AI bill.”
 

AMA Policies Adopted on Other Issues

At the June meeting, AMA delegates adopted the following policies aiming to:

• Increase oversight and accountability of health insurers’ use of prior authorization controls on patient access to care.
• Encourage policy changes allowing physicians to receive loan forgiveness when they practice in an Indian Health Service, Tribal, or Urban Indian Health Program, similar to physicians practicing in a Veterans Administration facility.
• Advocate for federal policy that limits a patient’s out-of-pocket cost to be the same or less than the amount that a patient with traditional Medicare plus a Medigap plan would pay.
• Oppose state or national legislation that could criminalize in vitro fertilization.
• Limit what the AMA calls the “expensive” cost for Medicare Advantage enrollees who need physician-administered drugs or biologics.
• Help physicians address the handling of de-identified patient data in a rapidly changing digital health ecosystem.
• Support efforts to decriminalize the possession of non-prescribed buprenorphine for personal use by individuals who lack access to a physician for the treatment of opioid use disorder.
• Expand access to hearing, vision, and dental care. The new AMA policy advocates working with state medical associations to support coverage of hearing exams, hearing aids, cochlear implants, and vision exams and aids. The revised AMA policy also supports working with the American Dental Association and other national organizations to improve access to dental care for people enrolled in Medicare, Medicaid, and CHIP programs.
• Increase enrollment of more women and sexual and gender minority populations in clinical trials.

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

The largest US physician organization wrestled with the professional risks and rewards of artificial intelligence (AI) at its annual meeting, delaying action even as it adopted new policies on prior authorization and other concerns for clinicians and patients.

Physicians and medical students at the annual meeting of the American Medical Association (AMA) House of Delegates in Chicago intensely debated a report and two key resolutions on AI but could not reach consensus, pushing off decision-making until a future meeting in November.

One resolution would establish “augmented intelligence” as the preferred term for AI, reflecting the desired role of these tools in supporting — not making — physicians’ decisions. The other resolution focused on insurers’ use of AI in determining medical necessity.

(See specific policies adopted at the meeting, held June 8-12, below.)

A comprehensive AMA trustees’ report on AI considered additional issues including requirements for disclosing AI use, liability for harms due to flawed application of AI, data privacy, and cybersecurity.

The AMA intends to “continue to methodically assess these issues and make informed recommendations in proposing new policy,” said Bobby Mukkamala, MD, an otolaryngologist from Flint, Michigan, who became the AMA’s new president-elect.

AMA members at the meeting largely applauded the aim of these AI proposals, but some objected to parts of the trustees’ report.

They raised questions about what, exactly, constitutes an AI-powered service and whether all AI tools need the kind of guardrails the AMA may seek. There also were concerns about calls to make AI use more transparent.

While transparency might be an admirable goal, it might prove too hard to achieve given that AI-powered tools and products are already woven into medical practice in ways that physicians may not know or understand, said Christopher Libby, MD, MPH, a clinical informaticist and emergency physician at Cedars Sinai Medical Center in Los Angeles.

“It’s hard for the practicing clinician to know how every piece of technology works in order to describe it to the patient,” Dr. Libby said at the meeting. “How many people here can identify when algorithms are used in their EHR today?”

He suggested asking for more transparency from the companies that make and sell AI-powered software and tools to insurers and healthcare systems.

Steven H. Kroft, MD, the editor of the American Journal of Clinical Pathology, raised concerns about the unintended harm that unchecked use of AI may pose to scientific research.

He asked the AMA to address “a significant omission in an otherwise comprehensive report” — the need to protect the integrity of study results that can direct patient care.

“While sham science is not a new issue, large language models make it far easier for authors to generate fake papers and far harder for editors, reviewers, and publishers to identify them,” Dr. Kroft said. “This is a rapidly growing phenomenon that is threatening the integrity of the literature. These papers become embedded in the evidence bases that drive clinical decision-making.”

AMA has been working with specialty societies and outside AI experts to refine an effective set of recommendations. The new policies, once finalized, are intended to build on steps AMA already has taken, including last year releasing principles for AI development, deployment, and use.
 

Congress Mulling

The AMA delegates are far from alone in facing AI policy challenges.

Leaders in Congress also are examining AI guardrails, with influential panels such as the Senate Finance and House Energy and Commerce committees holding hearings.

A key congressional AI effort to watch is the expected implementation of a bipartisan Senate “road map,” which Senate Majority Leader Chuck Schumer (D-NY) and colleagues released in May, said Miranda A. Franco, a senior policy advisor at the law firm Holland & Knight.

The product of many months of deliberation, this Senate road map identifies priorities for future legislation, including:

• Creating appropriate guardrails and safety measures to protect patients.
• Making healthcare and biomedical data available for machine learning and data science research while carefully addressing privacy issues.
• Providing transparency for clinicians and the public about the use of AI in medical products and clinical support services, including the data used to train models.
• Examining the Centers for Medicare & Medicaid Services’ reimbursement mechanisms as well as guardrails to ensure accountability, appropriate use, and broad application of AI across all populations.

Congress likely will address issues of AI in healthcare in piecemeal fashion, taking on different aspects of these challenges at different times, Ms. Franco said. The Senate road map gives the key committees directions on where to proceed in their efforts to develop new laws.

“I think this is all going to be slow and rolling, not big and sweeping,” Ms. Franco told this news organization. “I don’t think we’re going to see an encompassing AI bill.”
 

AMA Policies Adopted on Other Issues

At the June meeting, AMA delegates adopted the following policies aiming to:

• Increase oversight and accountability of health insurers’ use of prior authorization controls on patient access to care.
• Encourage policy changes allowing physicians to receive loan forgiveness when they practice in an Indian Health Service, Tribal, or Urban Indian Health Program, similar to physicians practicing in a Veterans Administration facility.
• Advocate for federal policy that limits a patient’s out-of-pocket cost to be the same or less than the amount that a patient with traditional Medicare plus a Medigap plan would pay.
• Oppose state or national legislation that could criminalize in vitro fertilization.
• Limit what the AMA calls the “expensive” cost for Medicare Advantage enrollees who need physician-administered drugs or biologics.
• Help physicians address the handling of de-identified patient data in a rapidly changing digital health ecosystem.
• Support efforts to decriminalize the possession of non-prescribed buprenorphine for personal use by individuals who lack access to a physician for the treatment of opioid use disorder.
• Expand access to hearing, vision, and dental care. The new AMA policy advocates working with state medical associations to support coverage of hearing exams, hearing aids, cochlear implants, and vision exams and aids. The revised AMA policy also supports working with the American Dental Association and other national organizations to improve access to dental care for people enrolled in Medicare, Medicaid, and CHIP programs.
• Increase enrollment of more women and sexual and gender minority populations in clinical trials.

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

The largest US physician organization wrestled with the professional risks and rewards of artificial intelligence (AI) at its annual meeting, delaying action even as it adopted new policies on prior authorization and other concerns for clinicians and patients.

Physicians and medical students at the annual meeting of the American Medical Association (AMA) House of Delegates in Chicago intensely debated a report and two key resolutions on AI but could not reach consensus, pushing off decision-making until a future meeting in November.

One resolution would establish “augmented intelligence” as the preferred term for AI, reflecting the desired role of these tools in supporting — not making — physicians’ decisions. The other resolution focused on insurers’ use of AI in determining medical necessity.

(See specific policies adopted at the meeting, held June 8-12, below.)

A comprehensive AMA trustees’ report on AI considered additional issues including requirements for disclosing AI use, liability for harms due to flawed application of AI, data privacy, and cybersecurity.

The AMA intends to “continue to methodically assess these issues and make informed recommendations in proposing new policy,” said Bobby Mukkamala, MD, an otolaryngologist from Flint, Michigan, who became the AMA’s new president-elect.

AMA members at the meeting largely applauded the aim of these AI proposals, but some objected to parts of the trustees’ report.

They raised questions about what, exactly, constitutes an AI-powered service and whether all AI tools need the kind of guardrails the AMA may seek. There also were concerns about calls to make AI use more transparent.

While transparency might be an admirable goal, it might prove too hard to achieve given that AI-powered tools and products are already woven into medical practice in ways that physicians may not know or understand, said Christopher Libby, MD, MPH, a clinical informaticist and emergency physician at Cedars Sinai Medical Center in Los Angeles.

“It’s hard for the practicing clinician to know how every piece of technology works in order to describe it to the patient,” Dr. Libby said at the meeting. “How many people here can identify when algorithms are used in their EHR today?”

He suggested asking for more transparency from the companies that make and sell AI-powered software and tools to insurers and healthcare systems.

Steven H. Kroft, MD, the editor of the American Journal of Clinical Pathology, raised concerns about the unintended harm that unchecked use of AI may pose to scientific research.

He asked the AMA to address “a significant omission in an otherwise comprehensive report” — the need to protect the integrity of study results that can direct patient care.

“While sham science is not a new issue, large language models make it far easier for authors to generate fake papers and far harder for editors, reviewers, and publishers to identify them,” Dr. Kroft said. “This is a rapidly growing phenomenon that is threatening the integrity of the literature. These papers become embedded in the evidence bases that drive clinical decision-making.”

AMA has been working with specialty societies and outside AI experts to refine an effective set of recommendations. The new policies, once finalized, are intended to build on steps AMA already has taken, including last year releasing principles for AI development, deployment, and use.
 

Congress Mulling

The AMA delegates are far from alone in facing AI policy challenges.

Leaders in Congress also are examining AI guardrails, with influential panels such as the Senate Finance and House Energy and Commerce committees holding hearings.

A key congressional AI effort to watch is the expected implementation of a bipartisan Senate “road map,” which Senate Majority Leader Chuck Schumer (D-NY) and colleagues released in May, said Miranda A. Franco, a senior policy advisor at the law firm Holland & Knight.

The product of many months of deliberation, this Senate road map identifies priorities for future legislation, including:

• Creating appropriate guardrails and safety measures to protect patients.
• Making healthcare and biomedical data available for machine learning and data science research while carefully addressing privacy issues.
• Providing transparency for clinicians and the public about the use of AI in medical products and clinical support services, including the data used to train models.
• Examining the Centers for Medicare & Medicaid Services’ reimbursement mechanisms as well as guardrails to ensure accountability, appropriate use, and broad application of AI across all populations.

Congress likely will address issues of AI in healthcare in piecemeal fashion, taking on different aspects of these challenges at different times, Ms. Franco said. The Senate road map gives the key committees directions on where to proceed in their efforts to develop new laws.

“I think this is all going to be slow and rolling, not big and sweeping,” Ms. Franco told this news organization. “I don’t think we’re going to see an encompassing AI bill.”
 

AMA Policies Adopted on Other Issues

At the June meeting, AMA delegates adopted the following policies aiming to:

• Increase oversight and accountability of health insurers’ use of prior authorization controls on patient access to care.
• Encourage policy changes allowing physicians to receive loan forgiveness when they practice in an Indian Health Service, Tribal, or Urban Indian Health Program, similar to physicians practicing in a Veterans Administration facility.
• Advocate for federal policy that limits a patient’s out-of-pocket cost to be the same or less than the amount that a patient with traditional Medicare plus a Medigap plan would pay.
• Oppose state or national legislation that could criminalize in vitro fertilization.
• Limit what the AMA calls the “expensive” cost for Medicare Advantage enrollees who need physician-administered drugs or biologics.
• Help physicians address the handling of de-identified patient data in a rapidly changing digital health ecosystem.
• Support efforts to decriminalize the possession of non-prescribed buprenorphine for personal use by individuals who lack access to a physician for the treatment of opioid use disorder.
• Expand access to hearing, vision, and dental care. The new AMA policy advocates working with state medical associations to support coverage of hearing exams, hearing aids, cochlear implants, and vision exams and aids. The revised AMA policy also supports working with the American Dental Association and other national organizations to improve access to dental care for people enrolled in Medicare, Medicaid, and CHIP programs.
• Increase enrollment of more women and sexual and gender minority populations in clinical trials.

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

In this column, I recently discussed the impact of the microbiome on childhood vaccine responses. My group has been expanding our research on the topic of childhood vaccine response and its relationship to infection proneness. Therefore, I want to share new research findings.

Immune responsiveness to vaccines varies among children, leaving some susceptible to infections. We also have evidence that the immune deficiencies that contribute to poor vaccine responsiveness also manifest in children as respiratory infection proneness.
 

Predicting Vaccine Response in the Neonatal Period

The first 100 days of life is an amazing transition time in early life. During that time, the immune system is highly influenced by environmental factors that generate epigenetic changes affecting vaccine responsiveness. Some publications have used the term “window of opportunity,” because it is thought that interventions to change a negative trajectory to a positive one for vaccine responsiveness have a better potential to be effective. Predicting which children will be poorly responsive to vaccines would be desirable, so those children could be specifically identified for intervention. Doing so in the neonatal age time frame using easy-to-obtain clinical samples would be a bonus.

In our most recent study, we sought to identify cytokine biosignatures in the neonatal period, measured in convenient nasopharyngeal secretions, that predict vaccine responses, measured as antibody levels to various vaccines at 1 year of life. Secondly, we assessed the effect of antibiotic exposures on vaccine responses in the study cohort. Third, we tested for induction of CD4+ T-cell vaccine-specific immune memory at infant age 1 year. Fourth, we studied antigen presenting cells (APCs) at rest and in response to an adjuvant called R848, known to stimulate toll-like receptor (TLR) 7/8 agonist, to assess its effects on the immune cells of low vaccine responder children, compared with other children.¹

Dr. Pichichero is a specialist in pediatric infectious diseases, Center for Infectious Diseases and Immunology, and director of the Research Institute, at Rochester (New York) General Hospital. He has no conflicts of interest to declare.

References

1. Pichichero ME et al. Variability of Vaccine Responsiveness in Young Children. J Infect Dis. 2023 Nov 22:jiad524. doi: 10.1093/infdis/jiad524.

2. Pichichero ME et al. Functional Immune Cell Differences Associated with Low Vaccine Responses in Infants. J Infect Dis. 2016 Jun 15;213(12):2014-2019. doi: 10.1093/infdis/jiw053.

In this column, I recently discussed the impact of the microbiome on childhood vaccine responses. My group has been expanding our research on the topic of childhood vaccine response and its relationship to infection proneness. Therefore, I want to share new research findings.

Immune responsiveness to vaccines varies among children, leaving some susceptible to infections. We also have evidence that the immune deficiencies that contribute to poor vaccine responsiveness also manifest in children as respiratory infection proneness.
 

Predicting Vaccine Response in the Neonatal Period

The first 100 days of life is an amazing transition time in early life. During that time, the immune system is highly influenced by environmental factors that generate epigenetic changes affecting vaccine responsiveness. Some publications have used the term “window of opportunity,” because it is thought that interventions to change a negative trajectory to a positive one for vaccine responsiveness have a better potential to be effective. Predicting which children will be poorly responsive to vaccines would be desirable, so those children could be specifically identified for intervention. Doing so in the neonatal age time frame using easy-to-obtain clinical samples would be a bonus.

In our most recent study, we sought to identify cytokine biosignatures in the neonatal period, measured in convenient nasopharyngeal secretions, that predict vaccine responses, measured as antibody levels to various vaccines at 1 year of life. Secondly, we assessed the effect of antibiotic exposures on vaccine responses in the study cohort. Third, we tested for induction of CD4+ T-cell vaccine-specific immune memory at infant age 1 year. Fourth, we studied antigen presenting cells (APCs) at rest and in response to an adjuvant called R848, known to stimulate toll-like receptor (TLR) 7/8 agonist, to assess its effects on the immune cells of low vaccine responder children, compared with other children.¹

Dr. Pichichero is a specialist in pediatric infectious diseases, Center for Infectious Diseases and Immunology, and director of the Research Institute, at Rochester (New York) General Hospital. He has no conflicts of interest to declare.

References

1. Pichichero ME et al. Variability of Vaccine Responsiveness in Young Children. J Infect Dis. 2023 Nov 22:jiad524. doi: 10.1093/infdis/jiad524.

2. Pichichero ME et al. Functional Immune Cell Differences Associated with Low Vaccine Responses in Infants. J Infect Dis. 2016 Jun 15;213(12):2014-2019. doi: 10.1093/infdis/jiw053.

In this column, I recently discussed the impact of the microbiome on childhood vaccine responses. My group has been expanding our research on the topic of childhood vaccine response and its relationship to infection proneness. Therefore, I want to share new research findings.

Immune responsiveness to vaccines varies among children, leaving some susceptible to infections. We also have evidence that the immune deficiencies that contribute to poor vaccine responsiveness also manifest in children as respiratory infection proneness.
 

Predicting Vaccine Response in the Neonatal Period

The first 100 days of life is an amazing transition time in early life. During that time, the immune system is highly influenced by environmental factors that generate epigenetic changes affecting vaccine responsiveness. Some publications have used the term “window of opportunity,” because it is thought that interventions to change a negative trajectory to a positive one for vaccine responsiveness have a better potential to be effective. Predicting which children will be poorly responsive to vaccines would be desirable, so those children could be specifically identified for intervention. Doing so in the neonatal age time frame using easy-to-obtain clinical samples would be a bonus.

In our most recent study, we sought to identify cytokine biosignatures in the neonatal period, measured in convenient nasopharyngeal secretions, that predict vaccine responses, measured as antibody levels to various vaccines at 1 year of life. Secondly, we assessed the effect of antibiotic exposures on vaccine responses in the study cohort. Third, we tested for induction of CD4+ T-cell vaccine-specific immune memory at infant age 1 year. Fourth, we studied antigen presenting cells (APCs) at rest and in response to an adjuvant called R848, known to stimulate toll-like receptor (TLR) 7/8 agonist, to assess its effects on the immune cells of low vaccine responder children, compared with other children.¹

Dr. Pichichero is a specialist in pediatric infectious diseases, Center for Infectious Diseases and Immunology, and director of the Research Institute, at Rochester (New York) General Hospital. He has no conflicts of interest to declare.

References

1. Pichichero ME et al. Variability of Vaccine Responsiveness in Young Children. J Infect Dis. 2023 Nov 22:jiad524. doi: 10.1093/infdis/jiad524.

2. Pichichero ME et al. Functional Immune Cell Differences Associated with Low Vaccine Responses in Infants. J Infect Dis. 2016 Jun 15;213(12):2014-2019. doi: 10.1093/infdis/jiw053.

Diagnosis

During the visit, skin scrapings were performed, revealing several Demodex mites, confirming the diagnosis of demodicosis.

Demodicosis refers to an infestation and sensitivity to Demodex spp. mites, usually in older adults or immunocompromised individuals. Demodex folliculorum and Demodex brevis are the two common species implicated. The life cycle of Demodex spp. occurs in the sebaceous glands, leading to mechanical and chemical irritation of the skin.

Dr. Catalina Matiz

Various immune responses are also triggered, such as a keratinocyte response via Toll-like receptor 2. Patients usually present with non-specific symptoms such as skin erythema, irritation, peeling, and dryness on the cheeks, eyelids, and paranasal areas. Patients may develop a maculopapular or rosacea-like rash.

Diagnosis is often made through microscopic examination of a skin sample in KOH solution. In rare occasions, a skin surface standardization biopsy method may be used, which determines the density of mites per 1 cm². Dermoscopy may identify spiky white structures. Molecular methods such as PCR can be used but are not standard.

The differential diagnosis may include acne, rosacea, folliculitis, and Candida infection. Demodicosis can be differentiated by history and further studies including dermoscopy.

Acne vulgaris is an inflammatory disease of the skin’s pilosebaceous unit, primarily involving the face and trunk. It can present with comedones, papules, pustules, and nodules. Secondary signs suggestive of acne vulgaris include scars, erythema, and hyperpigmentation. All forms of acne share a common pathogenesis resulting in the formation of microcomedones, precursors for all clinical acne lesions. In this patient, the absence of microcomedones and the presence of primary inflammatory papules localized to the nose and cheeks suggested an alternative diagnosis.

Rosacea was also considered in the differential diagnosis. Rosacea is an inflammatory dermatosis characterized by erythema, telangiectasia, recurrent flushing, and inflammatory lesions including papulopustules and swelling, primarily affecting the face. The pathogenesis of rosacea is not fully understood but is suggested to involve immune-mediated responses. Vascular dysregulation and reactive oxygen species damage keratinocytes, fibroblasts, and endothelial cells. A higher incidence of rosacea in those with a family history and UV exposure is a known trigger. Demodex folliculorum and Helicobacter pylori are also implicated. Occasionally, Demodex infestation and rosacea may co-occur, and treatment with topical metronidazole can be helpful.

Folliculitis is an infection and inflammation of the hair follicles, forming pustules or erythematous papules over hair-covered skin. It is commonly caused by bacterial infection but can also be due to fungi, viruses, and noninfectious causes such as eosinophilic folliculitis. Diagnosis is clinical, based on physical exam and history, such as recent increased sweating or scratching. KOH prep can be used for Malassezia folliculitis and skin biopsy for eosinophilic folliculitis. Treatment targets the underlying cause. Most bacterial folliculitis cases resolve without treatment, but topical antibiotics may be used. Fungal folliculitis requires oral antifungals, and herpes simplex folliculitis can be treated with antiviral medications.

Cutaneous candidiasis is an infection of the skin by various Candida species, commonly C. albicans. Superficial infections of the skin and mucous membranes, such as intertrigo, are common types. Risk factors include immunosuppression, endocrine disorders, or compromised blood flow. Increased humidity, occlusion, broken skin barriers, and altered skin microbial flora contribute to Candida infection. Diagnosis is clinical but can be confirmed by KOH prep, microscopy, and culture. Treatment involves anti-inflammatory, antibacterial, and antifungal medications. Topical clotrimazole, nystatin, and miconazole are commonly used. Recurrence is prevented by keeping the affected area dry with barrier creams.

Therapeutic goals include arresting mite reproduction, elimination, and preventing recurrent infestations. Treatment may last several months, and the choice of drug depends on patient factors. There have been no standardized treatment studies or long-term effectiveness analyses. Antibiotics such as tetracycline, metronidazole, doxycycline, and ivermectin may be used to prevent proliferation. Permethrin, benzyl benzoate, crotamiton, lindane, and sulfur have also been used. Metronidazole is a common treatment for demodicosis, as was used in our patient for several weeks until the lesions cleared. Systemic metronidazole therapy may be indicated for reducing Demodex spp. density. Severe cases, particularly in immunocompromised individuals, may require oral ivermectin. Appropriate hygiene is important for prevention, such as washing the face with non-oily cleansers and laundering linens regularly.

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. Mr. Lee is a medical student at the University of California San Diego.

Suggested Reading

Chudzicka-Strugała I et al. Demodicosis in different age groups and alternative treatment options—A review. J Clin Med. 2023 Feb 19;12(4):1649. doi: 10.3390/jcm12041649.

Eichenfield DZ et al. Management of acne vulgaris: A review. JAMA. 2021 Nov 23;326(20):2055-2067. doi: 10.1001/jama.2021.17633.

Sharma A et al. Rosacea management: A comprehensive review. J Cosmet Dermatol. 2022 May;21(5):1895-1904. doi: 10.1111/jocd.14816.

Taudorf EH et al. Cutaneous candidiasis — an evidence-based review of topical and systemic treatments to inform clinical practice. J Eur Acad Dermatol Venereol. 2019 Oct;33(10):1863-1873. doi: 10.1111/jdv.15782.

Winters RD, Mitchell M. Folliculitis. [Updated 2023 Aug 8]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2024. Available from: https://www.ncbi.nlm.nih.gov/books/NBK547754/
 

Diagnosis

During the visit, skin scrapings were performed, revealing several Demodex mites, confirming the diagnosis of demodicosis.

Demodicosis refers to an infestation and sensitivity to Demodex spp. mites, usually in older adults or immunocompromised individuals. Demodex folliculorum and Demodex brevis are the two common species implicated. The life cycle of Demodex spp. occurs in the sebaceous glands, leading to mechanical and chemical irritation of the skin.

Dr. Catalina Matiz

Various immune responses are also triggered, such as a keratinocyte response via Toll-like receptor 2. Patients usually present with non-specific symptoms such as skin erythema, irritation, peeling, and dryness on the cheeks, eyelids, and paranasal areas. Patients may develop a maculopapular or rosacea-like rash.

Diagnosis is often made through microscopic examination of a skin sample in KOH solution. In rare occasions, a skin surface standardization biopsy method may be used, which determines the density of mites per 1 cm². Dermoscopy may identify spiky white structures. Molecular methods such as PCR can be used but are not standard.

The differential diagnosis may include acne, rosacea, folliculitis, and Candida infection. Demodicosis can be differentiated by history and further studies including dermoscopy.

Acne vulgaris is an inflammatory disease of the skin’s pilosebaceous unit, primarily involving the face and trunk. It can present with comedones, papules, pustules, and nodules. Secondary signs suggestive of acne vulgaris include scars, erythema, and hyperpigmentation. All forms of acne share a common pathogenesis resulting in the formation of microcomedones, precursors for all clinical acne lesions. In this patient, the absence of microcomedones and the presence of primary inflammatory papules localized to the nose and cheeks suggested an alternative diagnosis.

Rosacea was also considered in the differential diagnosis. Rosacea is an inflammatory dermatosis characterized by erythema, telangiectasia, recurrent flushing, and inflammatory lesions including papulopustules and swelling, primarily affecting the face. The pathogenesis of rosacea is not fully understood but is suggested to involve immune-mediated responses. Vascular dysregulation and reactive oxygen species damage keratinocytes, fibroblasts, and endothelial cells. A higher incidence of rosacea in those with a family history and UV exposure is a known trigger. Demodex folliculorum and Helicobacter pylori are also implicated. Occasionally, Demodex infestation and rosacea may co-occur, and treatment with topical metronidazole can be helpful.

Folliculitis is an infection and inflammation of the hair follicles, forming pustules or erythematous papules over hair-covered skin. It is commonly caused by bacterial infection but can also be due to fungi, viruses, and noninfectious causes such as eosinophilic folliculitis. Diagnosis is clinical, based on physical exam and history, such as recent increased sweating or scratching. KOH prep can be used for Malassezia folliculitis and skin biopsy for eosinophilic folliculitis. Treatment targets the underlying cause. Most bacterial folliculitis cases resolve without treatment, but topical antibiotics may be used. Fungal folliculitis requires oral antifungals, and herpes simplex folliculitis can be treated with antiviral medications.

Cutaneous candidiasis is an infection of the skin by various Candida species, commonly C. albicans. Superficial infections of the skin and mucous membranes, such as intertrigo, are common types. Risk factors include immunosuppression, endocrine disorders, or compromised blood flow. Increased humidity, occlusion, broken skin barriers, and altered skin microbial flora contribute to Candida infection. Diagnosis is clinical but can be confirmed by KOH prep, microscopy, and culture. Treatment involves anti-inflammatory, antibacterial, and antifungal medications. Topical clotrimazole, nystatin, and miconazole are commonly used. Recurrence is prevented by keeping the affected area dry with barrier creams.

Therapeutic goals include arresting mite reproduction, elimination, and preventing recurrent infestations. Treatment may last several months, and the choice of drug depends on patient factors. There have been no standardized treatment studies or long-term effectiveness analyses. Antibiotics such as tetracycline, metronidazole, doxycycline, and ivermectin may be used to prevent proliferation. Permethrin, benzyl benzoate, crotamiton, lindane, and sulfur have also been used. Metronidazole is a common treatment for demodicosis, as was used in our patient for several weeks until the lesions cleared. Systemic metronidazole therapy may be indicated for reducing Demodex spp. density. Severe cases, particularly in immunocompromised individuals, may require oral ivermectin. Appropriate hygiene is important for prevention, such as washing the face with non-oily cleansers and laundering linens regularly.

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. Mr. Lee is a medical student at the University of California San Diego.

Suggested Reading

Chudzicka-Strugała I et al. Demodicosis in different age groups and alternative treatment options—A review. J Clin Med. 2023 Feb 19;12(4):1649. doi: 10.3390/jcm12041649.

Eichenfield DZ et al. Management of acne vulgaris: A review. JAMA. 2021 Nov 23;326(20):2055-2067. doi: 10.1001/jama.2021.17633.

Sharma A et al. Rosacea management: A comprehensive review. J Cosmet Dermatol. 2022 May;21(5):1895-1904. doi: 10.1111/jocd.14816.

Taudorf EH et al. Cutaneous candidiasis — an evidence-based review of topical and systemic treatments to inform clinical practice. J Eur Acad Dermatol Venereol. 2019 Oct;33(10):1863-1873. doi: 10.1111/jdv.15782.

Winters RD, Mitchell M. Folliculitis. [Updated 2023 Aug 8]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2024. Available from: https://www.ncbi.nlm.nih.gov/books/NBK547754/
 

Diagnosis

During the visit, skin scrapings were performed, revealing several Demodex mites, confirming the diagnosis of demodicosis.

Demodicosis refers to an infestation and sensitivity to Demodex spp. mites, usually in older adults or immunocompromised individuals. Demodex folliculorum and Demodex brevis are the two common species implicated. The life cycle of Demodex spp. occurs in the sebaceous glands, leading to mechanical and chemical irritation of the skin.

Dr. Catalina Matiz

Various immune responses are also triggered, such as a keratinocyte response via Toll-like receptor 2. Patients usually present with non-specific symptoms such as skin erythema, irritation, peeling, and dryness on the cheeks, eyelids, and paranasal areas. Patients may develop a maculopapular or rosacea-like rash.

Diagnosis is often made through microscopic examination of a skin sample in KOH solution. In rare occasions, a skin surface standardization biopsy method may be used, which determines the density of mites per 1 cm². Dermoscopy may identify spiky white structures. Molecular methods such as PCR can be used but are not standard.

The differential diagnosis may include acne, rosacea, folliculitis, and Candida infection. Demodicosis can be differentiated by history and further studies including dermoscopy.

Acne vulgaris is an inflammatory disease of the skin’s pilosebaceous unit, primarily involving the face and trunk. It can present with comedones, papules, pustules, and nodules. Secondary signs suggestive of acne vulgaris include scars, erythema, and hyperpigmentation. All forms of acne share a common pathogenesis resulting in the formation of microcomedones, precursors for all clinical acne lesions. In this patient, the absence of microcomedones and the presence of primary inflammatory papules localized to the nose and cheeks suggested an alternative diagnosis.

Rosacea was also considered in the differential diagnosis. Rosacea is an inflammatory dermatosis characterized by erythema, telangiectasia, recurrent flushing, and inflammatory lesions including papulopustules and swelling, primarily affecting the face. The pathogenesis of rosacea is not fully understood but is suggested to involve immune-mediated responses. Vascular dysregulation and reactive oxygen species damage keratinocytes, fibroblasts, and endothelial cells. A higher incidence of rosacea in those with a family history and UV exposure is a known trigger. Demodex folliculorum and Helicobacter pylori are also implicated. Occasionally, Demodex infestation and rosacea may co-occur, and treatment with topical metronidazole can be helpful.

Folliculitis is an infection and inflammation of the hair follicles, forming pustules or erythematous papules over hair-covered skin. It is commonly caused by bacterial infection but can also be due to fungi, viruses, and noninfectious causes such as eosinophilic folliculitis. Diagnosis is clinical, based on physical exam and history, such as recent increased sweating or scratching. KOH prep can be used for Malassezia folliculitis and skin biopsy for eosinophilic folliculitis. Treatment targets the underlying cause. Most bacterial folliculitis cases resolve without treatment, but topical antibiotics may be used. Fungal folliculitis requires oral antifungals, and herpes simplex folliculitis can be treated with antiviral medications.

Cutaneous candidiasis is an infection of the skin by various Candida species, commonly C. albicans. Superficial infections of the skin and mucous membranes, such as intertrigo, are common types. Risk factors include immunosuppression, endocrine disorders, or compromised blood flow. Increased humidity, occlusion, broken skin barriers, and altered skin microbial flora contribute to Candida infection. Diagnosis is clinical but can be confirmed by KOH prep, microscopy, and culture. Treatment involves anti-inflammatory, antibacterial, and antifungal medications. Topical clotrimazole, nystatin, and miconazole are commonly used. Recurrence is prevented by keeping the affected area dry with barrier creams.

Therapeutic goals include arresting mite reproduction, elimination, and preventing recurrent infestations. Treatment may last several months, and the choice of drug depends on patient factors. There have been no standardized treatment studies or long-term effectiveness analyses. Antibiotics such as tetracycline, metronidazole, doxycycline, and ivermectin may be used to prevent proliferation. Permethrin, benzyl benzoate, crotamiton, lindane, and sulfur have also been used. Metronidazole is a common treatment for demodicosis, as was used in our patient for several weeks until the lesions cleared. Systemic metronidazole therapy may be indicated for reducing Demodex spp. density. Severe cases, particularly in immunocompromised individuals, may require oral ivermectin. Appropriate hygiene is important for prevention, such as washing the face with non-oily cleansers and laundering linens regularly.

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. Mr. Lee is a medical student at the University of California San Diego.

Suggested Reading

Chudzicka-Strugała I et al. Demodicosis in different age groups and alternative treatment options—A review. J Clin Med. 2023 Feb 19;12(4):1649. doi: 10.3390/jcm12041649.

Eichenfield DZ et al. Management of acne vulgaris: A review. JAMA. 2021 Nov 23;326(20):2055-2067. doi: 10.1001/jama.2021.17633.

Sharma A et al. Rosacea management: A comprehensive review. J Cosmet Dermatol. 2022 May;21(5):1895-1904. doi: 10.1111/jocd.14816.

Taudorf EH et al. Cutaneous candidiasis — an evidence-based review of topical and systemic treatments to inform clinical practice. J Eur Acad Dermatol Venereol. 2019 Oct;33(10):1863-1873. doi: 10.1111/jdv.15782.

Winters RD, Mitchell M. Folliculitis. [Updated 2023 Aug 8]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2024. Available from: https://www.ncbi.nlm.nih.gov/books/NBK547754/
 

Women who had overweight or obesity as teens or young adults had more than a twofold increased risk for stroke before age 55, new research suggested.

An analysis of more than five decades of health data on 10,000 adults revealed that close to 5% experienced a stroke during the follow-up period, with the risk for ischemic stroke being more than twice as high in women who had obesity as teens or young adults. The risk was even higher for hemorrhagic stroke in both men and women with a history of obesity in youth.

“Our findings suggest that being overweight may have long-term health effects, even if the excess weight is temporary,” lead author Ursula Mikkola, BM, an investigator in the Research Unit of Population Health at the University of Oulu, Oulu, Finland, said in a news release.

Gender Differences

Childhood obesity has been associated with a heightened risk for cerebrovascular disease later in life, but most studies have focused on body mass index (BMI) at a single time point without considering its fluctuations throughout life, the investigators noted.

For the study, investigators used data from the Northern Finland Birth Cohort 1966, a prospective, general population-based birth cohort that followed 10,491 individuals (5185 women) until 2020 or the first stroke, death, or moving abroad, whichever came first.

Mean (SD) follow-up for each participant was 39 years from age 14 onward and 23 years from age 31 onward. The analysis was conducted between 1980 and 2020.

BMI data were collected from participants at the age of 14 and 31 years. Age 14 covariates included smoking, parental socioeconomic status, and age at menarche (for girls). Age 31 covariates included smoking and participants’ educational level.

During the follow-up period, 4.7% of participants experienced stroke. Of these events, 31% were ischemic strokes and 40% were transient ischemic attacks. The remainder were hemorrhagic or other cerebrovascular events.

Using normal weight as a reference, researchers found that the risk for ischemic stroke was over twice as high for women who had been overweight at ages 14 (hazard ratio [HR], 2.49; 95% confidence interval [CI], 1.44-4.31) and 31 (HR, 2.13; 95% CI, 1.14-3.97) years. The risk was also considerably higher for women who had obesity at ages 14 (HR, 1.87; 95% CI, 0.76-4.58) and 31 (HR, 2.67; 95% CI, 1.26-5.65) years.

The risk for hemorrhagic stroke was even higher, both among women (HR, 3.49; 95% CI, 1.13-10.7) and men (HR, 5.75; 95% CI, 1.43-23.1) who had obesity at age 31.

No similar associations were found among men, and the findings were independent of earlier or later BMI.

The risk for any cerebrovascular disease related to overweight at age 14 was twice as high among girls vs boys (HR, 2.09; 95% CI, 1.06-4.15), and the risk for ischemic stroke related to obesity at age 31 was nearly seven times higher among women vs men (HR, 6.96; 95% CI, 1.36-35.7).

“Stroke at a young age is rare, so the difference of just a few strokes could have an outsized impact on the risk estimates,” the study authors said. “Also, BMI relies solely on a person’s height and weight; therefore, a high BMI may be a misleading way to define obesity, especially in muscular people who may carry little fat even while weighing more.”
 

Caveats

In an accompanying editorial, Larry Goldstein, MD, chair of the Department of Neurology, University of Kentucky, Lexington, Kentucky, and codirector of the Kentucky Neuroscience Institute, said the study “provides additional evidence of an association between overweight/obesity and stroke in young adults.”

However, Dr. Goldstein added that “while it is tempting to assume that reductions in overweight/obesity in younger populations would translate to lower stroke rates in young adults, this remains to be proven.”

Moreover, it is “always important to acknowledge that associations found in observational studies may not reflect causality.”

This study was supported by Orion Research Foundation, Päivikki and Sakari Sohlberg Foundation, and Paulo Foundation. Dr. Mikkola reported no relevant financial relationships. The other authors’ disclosures are listed on the original paper. Dr. Goldstein reported no relevant financial relationships.

A version of this article appeared on Medscape.com.

Women who had overweight or obesity as teens or young adults had more than a twofold increased risk for stroke before age 55, new research suggested.

An analysis of more than five decades of health data on 10,000 adults revealed that close to 5% experienced a stroke during the follow-up period, with the risk for ischemic stroke being more than twice as high in women who had obesity as teens or young adults. The risk was even higher for hemorrhagic stroke in both men and women with a history of obesity in youth.

“Our findings suggest that being overweight may have long-term health effects, even if the excess weight is temporary,” lead author Ursula Mikkola, BM, an investigator in the Research Unit of Population Health at the University of Oulu, Oulu, Finland, said in a news release.

Gender Differences

Childhood obesity has been associated with a heightened risk for cerebrovascular disease later in life, but most studies have focused on body mass index (BMI) at a single time point without considering its fluctuations throughout life, the investigators noted.

For the study, investigators used data from the Northern Finland Birth Cohort 1966, a prospective, general population-based birth cohort that followed 10,491 individuals (5185 women) until 2020 or the first stroke, death, or moving abroad, whichever came first.

Mean (SD) follow-up for each participant was 39 years from age 14 onward and 23 years from age 31 onward. The analysis was conducted between 1980 and 2020.

BMI data were collected from participants at the age of 14 and 31 years. Age 14 covariates included smoking, parental socioeconomic status, and age at menarche (for girls). Age 31 covariates included smoking and participants’ educational level.

During the follow-up period, 4.7% of participants experienced stroke. Of these events, 31% were ischemic strokes and 40% were transient ischemic attacks. The remainder were hemorrhagic or other cerebrovascular events.

Using normal weight as a reference, researchers found that the risk for ischemic stroke was over twice as high for women who had been overweight at ages 14 (hazard ratio [HR], 2.49; 95% confidence interval [CI], 1.44-4.31) and 31 (HR, 2.13; 95% CI, 1.14-3.97) years. The risk was also considerably higher for women who had obesity at ages 14 (HR, 1.87; 95% CI, 0.76-4.58) and 31 (HR, 2.67; 95% CI, 1.26-5.65) years.

The risk for hemorrhagic stroke was even higher, both among women (HR, 3.49; 95% CI, 1.13-10.7) and men (HR, 5.75; 95% CI, 1.43-23.1) who had obesity at age 31.

No similar associations were found among men, and the findings were independent of earlier or later BMI.

The risk for any cerebrovascular disease related to overweight at age 14 was twice as high among girls vs boys (HR, 2.09; 95% CI, 1.06-4.15), and the risk for ischemic stroke related to obesity at age 31 was nearly seven times higher among women vs men (HR, 6.96; 95% CI, 1.36-35.7).

“Stroke at a young age is rare, so the difference of just a few strokes could have an outsized impact on the risk estimates,” the study authors said. “Also, BMI relies solely on a person’s height and weight; therefore, a high BMI may be a misleading way to define obesity, especially in muscular people who may carry little fat even while weighing more.”
 

Caveats

In an accompanying editorial, Larry Goldstein, MD, chair of the Department of Neurology, University of Kentucky, Lexington, Kentucky, and codirector of the Kentucky Neuroscience Institute, said the study “provides additional evidence of an association between overweight/obesity and stroke in young adults.”

However, Dr. Goldstein added that “while it is tempting to assume that reductions in overweight/obesity in younger populations would translate to lower stroke rates in young adults, this remains to be proven.”

Moreover, it is “always important to acknowledge that associations found in observational studies may not reflect causality.”

This study was supported by Orion Research Foundation, Päivikki and Sakari Sohlberg Foundation, and Paulo Foundation. Dr. Mikkola reported no relevant financial relationships. The other authors’ disclosures are listed on the original paper. Dr. Goldstein reported no relevant financial relationships.

A version of this article appeared on Medscape.com.

Women who had overweight or obesity as teens or young adults had more than a twofold increased risk for stroke before age 55, new research suggested.

An analysis of more than five decades of health data on 10,000 adults revealed that close to 5% experienced a stroke during the follow-up period, with the risk for ischemic stroke being more than twice as high in women who had obesity as teens or young adults. The risk was even higher for hemorrhagic stroke in both men and women with a history of obesity in youth.

“Our findings suggest that being overweight may have long-term health effects, even if the excess weight is temporary,” lead author Ursula Mikkola, BM, an investigator in the Research Unit of Population Health at the University of Oulu, Oulu, Finland, said in a news release.

Gender Differences

Childhood obesity has been associated with a heightened risk for cerebrovascular disease later in life, but most studies have focused on body mass index (BMI) at a single time point without considering its fluctuations throughout life, the investigators noted.

For the study, investigators used data from the Northern Finland Birth Cohort 1966, a prospective, general population-based birth cohort that followed 10,491 individuals (5185 women) until 2020 or the first stroke, death, or moving abroad, whichever came first.

Mean (SD) follow-up for each participant was 39 years from age 14 onward and 23 years from age 31 onward. The analysis was conducted between 1980 and 2020.

BMI data were collected from participants at the age of 14 and 31 years. Age 14 covariates included smoking, parental socioeconomic status, and age at menarche (for girls). Age 31 covariates included smoking and participants’ educational level.

During the follow-up period, 4.7% of participants experienced stroke. Of these events, 31% were ischemic strokes and 40% were transient ischemic attacks. The remainder were hemorrhagic or other cerebrovascular events.

Using normal weight as a reference, researchers found that the risk for ischemic stroke was over twice as high for women who had been overweight at ages 14 (hazard ratio [HR], 2.49; 95% confidence interval [CI], 1.44-4.31) and 31 (HR, 2.13; 95% CI, 1.14-3.97) years. The risk was also considerably higher for women who had obesity at ages 14 (HR, 1.87; 95% CI, 0.76-4.58) and 31 (HR, 2.67; 95% CI, 1.26-5.65) years.

The risk for hemorrhagic stroke was even higher, both among women (HR, 3.49; 95% CI, 1.13-10.7) and men (HR, 5.75; 95% CI, 1.43-23.1) who had obesity at age 31.

No similar associations were found among men, and the findings were independent of earlier or later BMI.

The risk for any cerebrovascular disease related to overweight at age 14 was twice as high among girls vs boys (HR, 2.09; 95% CI, 1.06-4.15), and the risk for ischemic stroke related to obesity at age 31 was nearly seven times higher among women vs men (HR, 6.96; 95% CI, 1.36-35.7).

“Stroke at a young age is rare, so the difference of just a few strokes could have an outsized impact on the risk estimates,” the study authors said. “Also, BMI relies solely on a person’s height and weight; therefore, a high BMI may be a misleading way to define obesity, especially in muscular people who may carry little fat even while weighing more.”
 

Caveats

In an accompanying editorial, Larry Goldstein, MD, chair of the Department of Neurology, University of Kentucky, Lexington, Kentucky, and codirector of the Kentucky Neuroscience Institute, said the study “provides additional evidence of an association between overweight/obesity and stroke in young adults.”

However, Dr. Goldstein added that “while it is tempting to assume that reductions in overweight/obesity in younger populations would translate to lower stroke rates in young adults, this remains to be proven.”

Moreover, it is “always important to acknowledge that associations found in observational studies may not reflect causality.”

This study was supported by Orion Research Foundation, Päivikki and Sakari Sohlberg Foundation, and Paulo Foundation. Dr. Mikkola reported no relevant financial relationships. The other authors’ disclosures are listed on the original paper. Dr. Goldstein reported no relevant financial relationships.

A version of this article appeared on Medscape.com.