TBD Meeting (4156-22)

CINCINNATI – Sickle cell disease is well known for its associated anemia, but patients experience a range of other complications as well. These include vision and kidney problems, delayed growth, susceptibility to infection, and pain.

Another issue, not always as well recognized, is a considerably heightened risk for childhood stroke. “Children with sickle cell disease have 100 times the risk of stroke as other children without sickle cell disease, and there’s also an elevated risk of five times the general population in adults with sickle cell disease,” said Lori Jordan, MD, PhD, in an interview.

At the 2022 annual meeting of the Child Neurology Society, Dr. Jordan spoke about stroke as a complication of sickle cell disease, and the role that neurologists can play in preventing primary or secondary strokes. “At least in children, studies have shown that if we screen and identify patients who are at highest risk of stroke, there are primary prevention therapies – usually implemented by hematologists, but that neurologists often are involved with – both monitoring for cognitive effects of silent cerebral infarct and also with treating patients who unfortunately still have an acute stroke,” said Dr. Jordan, who is an associate professor of pediatrics, neurology, and radiology at Vanderbilt University Medical Center, Nashville, Tenn. She also is director of the pediatric stroke program at Vanderbilt.
 

Time is of the essence

“In general, stroke in children is rare, but it’s more common in sickle cell disease, so it’s really important for providers to know that stroke risk is higher in those patients, particularly in those children, and then identify it and treat it earlier. Time is of the essence, and if we can give them the same therapeutics that we give the general stroke population, then time really becomes a factor, so it’s important that people know that it’s an issue for this population,” said Eboni Lance, MD, PhD, who coordinated the session where Dr. Jordan spoke.

Sickle cell disease is caused by a double mutation in the gene encoding the hemoglobin gene, producing the altered sickle hemoglobin (hemoglobin S). The change causes the hemoglobin proteins to tend to stick to one another, which can lead red blood cells to adopt a sickle-like shape. The sickle-shaped blood cells in turn have a tendency to aggregate and can block blood flow or lead to endothelial injury. Symptoms of stroke in children can include hemiparesis, aphasia, and seizure, but they can also be silent.

If no preventive is employed, one in nine with sickle cell disease will experience a stroke by the age of 19. Cerebrovascular symptoms are the most frequent debilitating complication of the condition. Nearly 40% of patients with sickle cell disease will have a silent cerebral infarct by age 18, as will 50% by age 30. Silent strokes have been associated with worse educational attainment and a greater need for educational special services.

Factors contributing to stroke in children with sickle cell disease include anemia and a low blood oxygen count, reduced oxygen affinity of hemoglobin variant, and cerebral vasculopathy. An estimated 10%-15% of young adults with sickle cell disease have severe intracranial stenosis.
 

Primary and secondary stroke prevention strategies

The dire consequences of stroke in this patient population underline the importance of primary stroke prevention, which requires the use of transcranial Doppler (TCD) ultrasound. It has been validated as a tool to screen for initial stroke risk in children with no history of stroke. High velocity measured on TCD indicates a narrowed blood vessel or elevated blood that is compensating for anemia. It adds up to a “struggling brain,” said Dr. Jordan, during her talk. If the TCD ultrasound velocity is greater than 200 cm/sec (or 170 cm/sec, depending on nonimaging versus imaging TCD), the TWiTCH trial showed that seven monthly transfusions is the number needed to treat to prevent one stroke. After 1 year, patients can be switched from transfusions to hydroxyurea if the patient has no significant intracranial stenosis. Hydroxyurea boosts both fetal and total hemoglobin, and also counters inflammation.

Following an acute stroke or transient ischemic attack, patients should receive a transfusion within 2 hours of presenting in the health care setting. American Society of Hematology guidelines recommend exchange transfusion rather than a simple transfusion. A simple transfusion can be initiated if an exchange transfusion is not available within 2 hours and hemoglobin values are less than 8.5 g/dL, to be followed by performance of exchange transfusion when available.

For chronic secondary stroke prevention, transfusions should be performed approximately monthly with the goal of maintaining hemoglobin above 9 g/dL at all times, as well as suppressing hemoglobin S levels to 30% or less of total hemoglobin.

Sudden, severe headache is a potential harbinger of complications like aneurysm, which occurs 10-fold more often among patients with sickle cell disease than the general population. It could also indicate increased intracranial pressure or cerebral venous sinus thrombosis.

Treatment of acute headache in sickle cell disease should avoid use of triptans, since vasoconstriction can counter the increased cerebral blood flow that compensates for anemia. Gabapentin and amitriptyline are good treatment choices.

New-onset seizures are a potential sign of stroke or posterior reversible leukoencephalopathy (PRES) in patients with sickle cell disease. Urgent MRI should be considered for all new-onset seizures. If blood pressure is high, PRES may be present. Seizures may also be an indicator of a previous brain injury.

Dr. Jordan has no relevant financial disclosures. Dr. Lance has served on an advisory board for Novartis.
 

CINCINNATI – Sickle cell disease is well known for its associated anemia, but patients experience a range of other complications as well. These include vision and kidney problems, delayed growth, susceptibility to infection, and pain.

Another issue, not always as well recognized, is a considerably heightened risk for childhood stroke. “Children with sickle cell disease have 100 times the risk of stroke as other children without sickle cell disease, and there’s also an elevated risk of five times the general population in adults with sickle cell disease,” said Lori Jordan, MD, PhD, in an interview.

At the 2022 annual meeting of the Child Neurology Society, Dr. Jordan spoke about stroke as a complication of sickle cell disease, and the role that neurologists can play in preventing primary or secondary strokes. “At least in children, studies have shown that if we screen and identify patients who are at highest risk of stroke, there are primary prevention therapies – usually implemented by hematologists, but that neurologists often are involved with – both monitoring for cognitive effects of silent cerebral infarct and also with treating patients who unfortunately still have an acute stroke,” said Dr. Jordan, who is an associate professor of pediatrics, neurology, and radiology at Vanderbilt University Medical Center, Nashville, Tenn. She also is director of the pediatric stroke program at Vanderbilt.
 

Time is of the essence

“In general, stroke in children is rare, but it’s more common in sickle cell disease, so it’s really important for providers to know that stroke risk is higher in those patients, particularly in those children, and then identify it and treat it earlier. Time is of the essence, and if we can give them the same therapeutics that we give the general stroke population, then time really becomes a factor, so it’s important that people know that it’s an issue for this population,” said Eboni Lance, MD, PhD, who coordinated the session where Dr. Jordan spoke.

Sickle cell disease is caused by a double mutation in the gene encoding the hemoglobin gene, producing the altered sickle hemoglobin (hemoglobin S). The change causes the hemoglobin proteins to tend to stick to one another, which can lead red blood cells to adopt a sickle-like shape. The sickle-shaped blood cells in turn have a tendency to aggregate and can block blood flow or lead to endothelial injury. Symptoms of stroke in children can include hemiparesis, aphasia, and seizure, but they can also be silent.

If no preventive is employed, one in nine with sickle cell disease will experience a stroke by the age of 19. Cerebrovascular symptoms are the most frequent debilitating complication of the condition. Nearly 40% of patients with sickle cell disease will have a silent cerebral infarct by age 18, as will 50% by age 30. Silent strokes have been associated with worse educational attainment and a greater need for educational special services.

Factors contributing to stroke in children with sickle cell disease include anemia and a low blood oxygen count, reduced oxygen affinity of hemoglobin variant, and cerebral vasculopathy. An estimated 10%-15% of young adults with sickle cell disease have severe intracranial stenosis.
 

Primary and secondary stroke prevention strategies

The dire consequences of stroke in this patient population underline the importance of primary stroke prevention, which requires the use of transcranial Doppler (TCD) ultrasound. It has been validated as a tool to screen for initial stroke risk in children with no history of stroke. High velocity measured on TCD indicates a narrowed blood vessel or elevated blood that is compensating for anemia. It adds up to a “struggling brain,” said Dr. Jordan, during her talk. If the TCD ultrasound velocity is greater than 200 cm/sec (or 170 cm/sec, depending on nonimaging versus imaging TCD), the TWiTCH trial showed that seven monthly transfusions is the number needed to treat to prevent one stroke. After 1 year, patients can be switched from transfusions to hydroxyurea if the patient has no significant intracranial stenosis. Hydroxyurea boosts both fetal and total hemoglobin, and also counters inflammation.

Following an acute stroke or transient ischemic attack, patients should receive a transfusion within 2 hours of presenting in the health care setting. American Society of Hematology guidelines recommend exchange transfusion rather than a simple transfusion. A simple transfusion can be initiated if an exchange transfusion is not available within 2 hours and hemoglobin values are less than 8.5 g/dL, to be followed by performance of exchange transfusion when available.

For chronic secondary stroke prevention, transfusions should be performed approximately monthly with the goal of maintaining hemoglobin above 9 g/dL at all times, as well as suppressing hemoglobin S levels to 30% or less of total hemoglobin.

Sudden, severe headache is a potential harbinger of complications like aneurysm, which occurs 10-fold more often among patients with sickle cell disease than the general population. It could also indicate increased intracranial pressure or cerebral venous sinus thrombosis.

Treatment of acute headache in sickle cell disease should avoid use of triptans, since vasoconstriction can counter the increased cerebral blood flow that compensates for anemia. Gabapentin and amitriptyline are good treatment choices.

New-onset seizures are a potential sign of stroke or posterior reversible leukoencephalopathy (PRES) in patients with sickle cell disease. Urgent MRI should be considered for all new-onset seizures. If blood pressure is high, PRES may be present. Seizures may also be an indicator of a previous brain injury.

Dr. Jordan has no relevant financial disclosures. Dr. Lance has served on an advisory board for Novartis.
 

CINCINNATI – Sickle cell disease is well known for its associated anemia, but patients experience a range of other complications as well. These include vision and kidney problems, delayed growth, susceptibility to infection, and pain.

Another issue, not always as well recognized, is a considerably heightened risk for childhood stroke. “Children with sickle cell disease have 100 times the risk of stroke as other children without sickle cell disease, and there’s also an elevated risk of five times the general population in adults with sickle cell disease,” said Lori Jordan, MD, PhD, in an interview.

At the 2022 annual meeting of the Child Neurology Society, Dr. Jordan spoke about stroke as a complication of sickle cell disease, and the role that neurologists can play in preventing primary or secondary strokes. “At least in children, studies have shown that if we screen and identify patients who are at highest risk of stroke, there are primary prevention therapies – usually implemented by hematologists, but that neurologists often are involved with – both monitoring for cognitive effects of silent cerebral infarct and also with treating patients who unfortunately still have an acute stroke,” said Dr. Jordan, who is an associate professor of pediatrics, neurology, and radiology at Vanderbilt University Medical Center, Nashville, Tenn. She also is director of the pediatric stroke program at Vanderbilt.
 

Time is of the essence

“In general, stroke in children is rare, but it’s more common in sickle cell disease, so it’s really important for providers to know that stroke risk is higher in those patients, particularly in those children, and then identify it and treat it earlier. Time is of the essence, and if we can give them the same therapeutics that we give the general stroke population, then time really becomes a factor, so it’s important that people know that it’s an issue for this population,” said Eboni Lance, MD, PhD, who coordinated the session where Dr. Jordan spoke.

Sickle cell disease is caused by a double mutation in the gene encoding the hemoglobin gene, producing the altered sickle hemoglobin (hemoglobin S). The change causes the hemoglobin proteins to tend to stick to one another, which can lead red blood cells to adopt a sickle-like shape. The sickle-shaped blood cells in turn have a tendency to aggregate and can block blood flow or lead to endothelial injury. Symptoms of stroke in children can include hemiparesis, aphasia, and seizure, but they can also be silent.

If no preventive is employed, one in nine with sickle cell disease will experience a stroke by the age of 19. Cerebrovascular symptoms are the most frequent debilitating complication of the condition. Nearly 40% of patients with sickle cell disease will have a silent cerebral infarct by age 18, as will 50% by age 30. Silent strokes have been associated with worse educational attainment and a greater need for educational special services.

Factors contributing to stroke in children with sickle cell disease include anemia and a low blood oxygen count, reduced oxygen affinity of hemoglobin variant, and cerebral vasculopathy. An estimated 10%-15% of young adults with sickle cell disease have severe intracranial stenosis.
 

Primary and secondary stroke prevention strategies

The dire consequences of stroke in this patient population underline the importance of primary stroke prevention, which requires the use of transcranial Doppler (TCD) ultrasound. It has been validated as a tool to screen for initial stroke risk in children with no history of stroke. High velocity measured on TCD indicates a narrowed blood vessel or elevated blood that is compensating for anemia. It adds up to a “struggling brain,” said Dr. Jordan, during her talk. If the TCD ultrasound velocity is greater than 200 cm/sec (or 170 cm/sec, depending on nonimaging versus imaging TCD), the TWiTCH trial showed that seven monthly transfusions is the number needed to treat to prevent one stroke. After 1 year, patients can be switched from transfusions to hydroxyurea if the patient has no significant intracranial stenosis. Hydroxyurea boosts both fetal and total hemoglobin, and also counters inflammation.

Following an acute stroke or transient ischemic attack, patients should receive a transfusion within 2 hours of presenting in the health care setting. American Society of Hematology guidelines recommend exchange transfusion rather than a simple transfusion. A simple transfusion can be initiated if an exchange transfusion is not available within 2 hours and hemoglobin values are less than 8.5 g/dL, to be followed by performance of exchange transfusion when available.

For chronic secondary stroke prevention, transfusions should be performed approximately monthly with the goal of maintaining hemoglobin above 9 g/dL at all times, as well as suppressing hemoglobin S levels to 30% or less of total hemoglobin.

Sudden, severe headache is a potential harbinger of complications like aneurysm, which occurs 10-fold more often among patients with sickle cell disease than the general population. It could also indicate increased intracranial pressure or cerebral venous sinus thrombosis.

Treatment of acute headache in sickle cell disease should avoid use of triptans, since vasoconstriction can counter the increased cerebral blood flow that compensates for anemia. Gabapentin and amitriptyline are good treatment choices.

New-onset seizures are a potential sign of stroke or posterior reversible leukoencephalopathy (PRES) in patients with sickle cell disease. Urgent MRI should be considered for all new-onset seizures. If blood pressure is high, PRES may be present. Seizures may also be an indicator of a previous brain injury.

Dr. Jordan has no relevant financial disclosures. Dr. Lance has served on an advisory board for Novartis.
 

CINCINNATI – Neurology and psychiatry have an inherent kinship, as one often deals with the brain and the other always focuses on the mind. The two fields can be intertwined, since neurological conditions are often associated with psychiatric comorbidities amid complex relationships: For example, a young patient with a neurological disorder may experience anxiety due to life changes, his or her diagnosis, or altered biological pathways from the condition or medications used to treat it.

As a result, psychiatric comorbidities are often seen among pediatric patients with neurological conditions, and pediatric neurologists can play an important role in diagnosis and management of such disorders, according to Devin McNulty, PhD, who spoke on the topic at the 2022 annual meeting of the Child Neurology Society.
 

The ‘second pandemic’

Mental health conditions represent about 16% of the global burden of disease among people aged 10-19, and the COVID-19 pandemic has drastically worsened the problem, as shutdowns, school loss, and economic struggles have added to the burden. “I think we’ve really seen mental health as sort of the second pandemic. We’ve seen this in Chicago in our emergency room, and in outpatient clinics wait-lists are really high. I think adolescents are specifically at risk,” said Dr. McNulty during her talk. She is an assistant professor of psychiatry and behavioral sciences at Northwestern University and a child psychiatrist at Ann & Robert H. Lurie Children’s Hospital of Chicago.

Common diagnoses include major depressive order, social anxiety disorder, generalized anxiety disorder, post-traumatic stress disorder, obsessive-compulsive disorder, somatic symptom disorder, and functional neurological symptom disorder. The last can appear as neurological symptoms that are not consistent with neurological medical conditions, such as attacks or seizures, abnormal movements, sensory loss or gain, weakness or paralysis, or speech and swallowing issues. It is the second most commonly diagnosed disorder in neurology clinics and accounts for 10% of neurology hospitalizations, and it leads to high rates of health care utilization and functional impairment.

Overall, children with neurological conditions are at about a 5-fold increased risk for depression and anxiety disorders, with a range of contributing risk factors. These include biological factors like medication use, neurological dysfunction, and genetic vulnerability. Psychological factors include stressors, the child’s reaction to the diagnosis and illness, and the level of his or her coping skills. Psychiatric comorbidities may also be triggered by social factors such as familial stress, peer rejection and social isolation, and barriers to treatment for the neurological condition. As just one example, overprotective parenting behavior, while adaptive in moderation, can create a sort of feedback loop that can lead to separation anxiety.
 

A unique opportunity

“There’s an overlap,” Dr. McNulty said, “because the origin is often multifactorial.” A young patient has a medical condition, which can be chronic or disabling, and the age of onset and diagnosis comes during a critical developmental period. “Then we have issues such as the impact of treatments, whether that’s medication side effects or medical visits. And then disease-related environmental changes, such as family factors, social changes, and impact on school,” said Dr. McNulty.

Child neurologists are in a unique position to identify and ensure treatment of these psychiatric comorbidities, according to Dr. McNulty. “Child neurologists will see psychiatric symptoms in their patient population, and pediatric providers have a unique capacity and ability to treat these patients, especially when you’re seeing patients on a frequent basis. You get to know these patients and their families really well,” she said.

She specifically pointed to three areas: psychosocial screening, differential diagnosis, and treatment and management.

There are broad-based screening measures that can be useful, such as the Strengths and Difficulties Questionnaire and the Pediatric Symptom Checklist. Disorder-specific screening tools include the PHQ-9 (depression), GAD7 (anxiety), Vanderbilt (ADHD), and PROMIS measures for anxiety and depression. “The idea behind the screening measure is that all patients would fill this out and then if a patient screens positive, they would benefit from a more thorough evaluation and history,” said Dr. McNulty.

However, she noted that screening shouldn’t necessarily be a one-off effort. Research has shown that sequential screening is the most powerful strategy. “Then you can get a baseline of a patient’s emotional and behavioral functioning, and it’s actually the changes in some of these screening measures that might give them most clinical information,” said Dr. McNulty.

In fact, on October 11, 2022, the U.S. Preventive Services Task Force announced a recommendation that all children starting at age 8 should be screened for anxiety disorders. It is already recommended to screen children aged 12 and over for depressive disorders, although these documents are aimed primarily at pediatricians or primary care clinics. The American Academy of Neurology has also recommended routine screening of psychiatric and behavioral disorders among children with epilepsy.
 

A unique perspective

Once a disorder is identified, neurologists can bring a unique perspective to treatment. The neurologist can use his or her knowledge of the disease state to assess whether symptoms are due to poor adjustment to the neurological condition, a primary psychiatric disorder, or the biological underpinnings of the illness or prescribed medications. “I think their neurologist can sort of help tease that apart, [using] their knowledge of neurologic disorders and pathways and medications in a way that psychologists might not be able to do on their own,” said Dr. McNulty.

She also emphasized that there are effective treatments for psychiatric disorders, including cognitive behavioral therapy and various pharmacotherapy options. Other approaches for treating comorbid neurological and psychiatric disorders may include building adaptive coping skills, psychoeducation, and incorporating changes to the family or school environment.

During the Q&A period, one person commented that there should be more psychiatric training for neurology residents. “We do work with the same brain, so I completely agree with that,” said Dr. McNulty.

She was also asked how to identify psychiatric symptoms in nonverbal patients. “One thing that I pay close attention to when I ask parents about (their child) is changes in their physical (attributes). Oftentimes in anxiety in folks who are not severely impaired, if we’re feeling anxious we might be breathing a little faster, or we might get a little sweaty. So looking for physical manifestations is one thing. And then sometimes I’ll tell the parents, if we’re not quite sure, I’ll say ‘I’m not sure, but this is very common given the disorder that you have. Can we check?’ I’m always very clear that I may not be nailing it, but then when we go after it with targeted treatment and we see it getting better, we can say ‘Aha!’ ”

Dr. McNulty has no relevant financial disclosures.
 

CINCINNATI – Neurology and psychiatry have an inherent kinship, as one often deals with the brain and the other always focuses on the mind. The two fields can be intertwined, since neurological conditions are often associated with psychiatric comorbidities amid complex relationships: For example, a young patient with a neurological disorder may experience anxiety due to life changes, his or her diagnosis, or altered biological pathways from the condition or medications used to treat it.

As a result, psychiatric comorbidities are often seen among pediatric patients with neurological conditions, and pediatric neurologists can play an important role in diagnosis and management of such disorders, according to Devin McNulty, PhD, who spoke on the topic at the 2022 annual meeting of the Child Neurology Society.
 

The ‘second pandemic’

Mental health conditions represent about 16% of the global burden of disease among people aged 10-19, and the COVID-19 pandemic has drastically worsened the problem, as shutdowns, school loss, and economic struggles have added to the burden. “I think we’ve really seen mental health as sort of the second pandemic. We’ve seen this in Chicago in our emergency room, and in outpatient clinics wait-lists are really high. I think adolescents are specifically at risk,” said Dr. McNulty during her talk. She is an assistant professor of psychiatry and behavioral sciences at Northwestern University and a child psychiatrist at Ann & Robert H. Lurie Children’s Hospital of Chicago.

Common diagnoses include major depressive order, social anxiety disorder, generalized anxiety disorder, post-traumatic stress disorder, obsessive-compulsive disorder, somatic symptom disorder, and functional neurological symptom disorder. The last can appear as neurological symptoms that are not consistent with neurological medical conditions, such as attacks or seizures, abnormal movements, sensory loss or gain, weakness or paralysis, or speech and swallowing issues. It is the second most commonly diagnosed disorder in neurology clinics and accounts for 10% of neurology hospitalizations, and it leads to high rates of health care utilization and functional impairment.

Overall, children with neurological conditions are at about a 5-fold increased risk for depression and anxiety disorders, with a range of contributing risk factors. These include biological factors like medication use, neurological dysfunction, and genetic vulnerability. Psychological factors include stressors, the child’s reaction to the diagnosis and illness, and the level of his or her coping skills. Psychiatric comorbidities may also be triggered by social factors such as familial stress, peer rejection and social isolation, and barriers to treatment for the neurological condition. As just one example, overprotective parenting behavior, while adaptive in moderation, can create a sort of feedback loop that can lead to separation anxiety.
 

A unique opportunity

“There’s an overlap,” Dr. McNulty said, “because the origin is often multifactorial.” A young patient has a medical condition, which can be chronic or disabling, and the age of onset and diagnosis comes during a critical developmental period. “Then we have issues such as the impact of treatments, whether that’s medication side effects or medical visits. And then disease-related environmental changes, such as family factors, social changes, and impact on school,” said Dr. McNulty.

Child neurologists are in a unique position to identify and ensure treatment of these psychiatric comorbidities, according to Dr. McNulty. “Child neurologists will see psychiatric symptoms in their patient population, and pediatric providers have a unique capacity and ability to treat these patients, especially when you’re seeing patients on a frequent basis. You get to know these patients and their families really well,” she said.

She specifically pointed to three areas: psychosocial screening, differential diagnosis, and treatment and management.

There are broad-based screening measures that can be useful, such as the Strengths and Difficulties Questionnaire and the Pediatric Symptom Checklist. Disorder-specific screening tools include the PHQ-9 (depression), GAD7 (anxiety), Vanderbilt (ADHD), and PROMIS measures for anxiety and depression. “The idea behind the screening measure is that all patients would fill this out and then if a patient screens positive, they would benefit from a more thorough evaluation and history,” said Dr. McNulty.

However, she noted that screening shouldn’t necessarily be a one-off effort. Research has shown that sequential screening is the most powerful strategy. “Then you can get a baseline of a patient’s emotional and behavioral functioning, and it’s actually the changes in some of these screening measures that might give them most clinical information,” said Dr. McNulty.

In fact, on October 11, 2022, the U.S. Preventive Services Task Force announced a recommendation that all children starting at age 8 should be screened for anxiety disorders. It is already recommended to screen children aged 12 and over for depressive disorders, although these documents are aimed primarily at pediatricians or primary care clinics. The American Academy of Neurology has also recommended routine screening of psychiatric and behavioral disorders among children with epilepsy.
 

A unique perspective

Once a disorder is identified, neurologists can bring a unique perspective to treatment. The neurologist can use his or her knowledge of the disease state to assess whether symptoms are due to poor adjustment to the neurological condition, a primary psychiatric disorder, or the biological underpinnings of the illness or prescribed medications. “I think their neurologist can sort of help tease that apart, [using] their knowledge of neurologic disorders and pathways and medications in a way that psychologists might not be able to do on their own,” said Dr. McNulty.

She also emphasized that there are effective treatments for psychiatric disorders, including cognitive behavioral therapy and various pharmacotherapy options. Other approaches for treating comorbid neurological and psychiatric disorders may include building adaptive coping skills, psychoeducation, and incorporating changes to the family or school environment.

During the Q&A period, one person commented that there should be more psychiatric training for neurology residents. “We do work with the same brain, so I completely agree with that,” said Dr. McNulty.

She was also asked how to identify psychiatric symptoms in nonverbal patients. “One thing that I pay close attention to when I ask parents about (their child) is changes in their physical (attributes). Oftentimes in anxiety in folks who are not severely impaired, if we’re feeling anxious we might be breathing a little faster, or we might get a little sweaty. So looking for physical manifestations is one thing. And then sometimes I’ll tell the parents, if we’re not quite sure, I’ll say ‘I’m not sure, but this is very common given the disorder that you have. Can we check?’ I’m always very clear that I may not be nailing it, but then when we go after it with targeted treatment and we see it getting better, we can say ‘Aha!’ ”

Dr. McNulty has no relevant financial disclosures.
 

CINCINNATI – Neurology and psychiatry have an inherent kinship, as one often deals with the brain and the other always focuses on the mind. The two fields can be intertwined, since neurological conditions are often associated with psychiatric comorbidities amid complex relationships: For example, a young patient with a neurological disorder may experience anxiety due to life changes, his or her diagnosis, or altered biological pathways from the condition or medications used to treat it.

As a result, psychiatric comorbidities are often seen among pediatric patients with neurological conditions, and pediatric neurologists can play an important role in diagnosis and management of such disorders, according to Devin McNulty, PhD, who spoke on the topic at the 2022 annual meeting of the Child Neurology Society.
 

The ‘second pandemic’

Mental health conditions represent about 16% of the global burden of disease among people aged 10-19, and the COVID-19 pandemic has drastically worsened the problem, as shutdowns, school loss, and economic struggles have added to the burden. “I think we’ve really seen mental health as sort of the second pandemic. We’ve seen this in Chicago in our emergency room, and in outpatient clinics wait-lists are really high. I think adolescents are specifically at risk,” said Dr. McNulty during her talk. She is an assistant professor of psychiatry and behavioral sciences at Northwestern University and a child psychiatrist at Ann & Robert H. Lurie Children’s Hospital of Chicago.

Common diagnoses include major depressive order, social anxiety disorder, generalized anxiety disorder, post-traumatic stress disorder, obsessive-compulsive disorder, somatic symptom disorder, and functional neurological symptom disorder. The last can appear as neurological symptoms that are not consistent with neurological medical conditions, such as attacks or seizures, abnormal movements, sensory loss or gain, weakness or paralysis, or speech and swallowing issues. It is the second most commonly diagnosed disorder in neurology clinics and accounts for 10% of neurology hospitalizations, and it leads to high rates of health care utilization and functional impairment.

Overall, children with neurological conditions are at about a 5-fold increased risk for depression and anxiety disorders, with a range of contributing risk factors. These include biological factors like medication use, neurological dysfunction, and genetic vulnerability. Psychological factors include stressors, the child’s reaction to the diagnosis and illness, and the level of his or her coping skills. Psychiatric comorbidities may also be triggered by social factors such as familial stress, peer rejection and social isolation, and barriers to treatment for the neurological condition. As just one example, overprotective parenting behavior, while adaptive in moderation, can create a sort of feedback loop that can lead to separation anxiety.
 

A unique opportunity

“There’s an overlap,” Dr. McNulty said, “because the origin is often multifactorial.” A young patient has a medical condition, which can be chronic or disabling, and the age of onset and diagnosis comes during a critical developmental period. “Then we have issues such as the impact of treatments, whether that’s medication side effects or medical visits. And then disease-related environmental changes, such as family factors, social changes, and impact on school,” said Dr. McNulty.

Child neurologists are in a unique position to identify and ensure treatment of these psychiatric comorbidities, according to Dr. McNulty. “Child neurologists will see psychiatric symptoms in their patient population, and pediatric providers have a unique capacity and ability to treat these patients, especially when you’re seeing patients on a frequent basis. You get to know these patients and their families really well,” she said.

She specifically pointed to three areas: psychosocial screening, differential diagnosis, and treatment and management.

There are broad-based screening measures that can be useful, such as the Strengths and Difficulties Questionnaire and the Pediatric Symptom Checklist. Disorder-specific screening tools include the PHQ-9 (depression), GAD7 (anxiety), Vanderbilt (ADHD), and PROMIS measures for anxiety and depression. “The idea behind the screening measure is that all patients would fill this out and then if a patient screens positive, they would benefit from a more thorough evaluation and history,” said Dr. McNulty.

However, she noted that screening shouldn’t necessarily be a one-off effort. Research has shown that sequential screening is the most powerful strategy. “Then you can get a baseline of a patient’s emotional and behavioral functioning, and it’s actually the changes in some of these screening measures that might give them most clinical information,” said Dr. McNulty.

In fact, on October 11, 2022, the U.S. Preventive Services Task Force announced a recommendation that all children starting at age 8 should be screened for anxiety disorders. It is already recommended to screen children aged 12 and over for depressive disorders, although these documents are aimed primarily at pediatricians or primary care clinics. The American Academy of Neurology has also recommended routine screening of psychiatric and behavioral disorders among children with epilepsy.
 

A unique perspective

Once a disorder is identified, neurologists can bring a unique perspective to treatment. The neurologist can use his or her knowledge of the disease state to assess whether symptoms are due to poor adjustment to the neurological condition, a primary psychiatric disorder, or the biological underpinnings of the illness or prescribed medications. “I think their neurologist can sort of help tease that apart, [using] their knowledge of neurologic disorders and pathways and medications in a way that psychologists might not be able to do on their own,” said Dr. McNulty.

She also emphasized that there are effective treatments for psychiatric disorders, including cognitive behavioral therapy and various pharmacotherapy options. Other approaches for treating comorbid neurological and psychiatric disorders may include building adaptive coping skills, psychoeducation, and incorporating changes to the family or school environment.

During the Q&A period, one person commented that there should be more psychiatric training for neurology residents. “We do work with the same brain, so I completely agree with that,” said Dr. McNulty.

She was also asked how to identify psychiatric symptoms in nonverbal patients. “One thing that I pay close attention to when I ask parents about (their child) is changes in their physical (attributes). Oftentimes in anxiety in folks who are not severely impaired, if we’re feeling anxious we might be breathing a little faster, or we might get a little sweaty. So looking for physical manifestations is one thing. And then sometimes I’ll tell the parents, if we’re not quite sure, I’ll say ‘I’m not sure, but this is very common given the disorder that you have. Can we check?’ I’m always very clear that I may not be nailing it, but then when we go after it with targeted treatment and we see it getting better, we can say ‘Aha!’ ”

Dr. McNulty has no relevant financial disclosures.
 

CINCINNATI – A new analysis of data from a phase 3 clinical trial suggests that an inhaled diazepam nasal spray (Valtoco, Neurelis Inc.) works about as well among patients with Lennox-Gastaut Syndrome (LGS) as it does with other patients with pediatric encephalopathies.

LGS is a severe form of epilepsy that generally begins in early childhood and has a poor prognosis and seizures that are often treatment refractory. The findings of the analysis should be encouraging to physicians who may view patients with LGS as not benefiting from treatment, said Daniel C. Tarquinio, DO, who presented the results at the 2022 annual meeting of the Child Neurology Society.

“Their response to their first appropriate weight-based rescue dose of Valtoco was essentially no different. They were subtly different, but they’re not really meaningful differences. Very few needed a second dose. In practice this is helpful because we know that kids with LGS, we think of them as having worse epilepsy, if you will. But if they need rescue, if we prescribe an appropriate rescue dose based on their weight, that the same rescue will work for them as it will for a kid that doesn’t have – quote unquote – as bad epilepsy that needs rescue,” said Dr. Tarquinio, a child neurologist and epileptologist and founder of the Center for Rare Neurological Diseases.

During the Q&A, Dr. Tarquinio was asked if there is something about the biology of LGS that would suggest it might respond differently to the drug. Dr. Tarquinio said no. “The reason we even looked at this is because many clinicians told us that their sense was [that patients with LGS] did not respond as well to rescue in general no matter what they use. This allowed us to go back and look at a controlled data set and say, at least in our controlled dataset, they respond the same,” he said.

Grace Gombolay, MD, who moderated the session, agreed that the results should be encouraging. “It seems like a lot of clinicians have the sense that Lennox-Gastaut Syndrome is a very terrible refractory epilepsy syndrome, and so doing rescue doesn’t seem to make sense if they don’t really respond. I think it’s helpful to know because there are actually studies showing that Valtoco seems to actually work in those patients, so it’s actually useful clinically to prescribe those patients and give it a shot,” said Dr. Gombolay, director of the Pediatric Neuroimmunology and Multiple Sclerosis Clinic at Emory University, Atlanta.

LGS patients may experience hundreds of seizures per day. “It’s really hard for parents to quantify, did they get better? Did the rescue help or not, because they’re still having some seizures. I think the sense is, ‘oh, this isn’t working.’ That’s probably the bias. I think this is good data that if you are able to get Valtoco for your patients, I think it’s worth a shot even in Lennox-Gastaut,” said Dr. Gombolay.

The researchers conducted a post hoc analysis of the phase 3, open-label, repeat-dose safety study of Valtoco. The study included a 12-month treatment period with visits at day 30 and every 60 days following. Patients had the option of staying on the drug following the end of the treatment period. Seizure and dosing information were obtained from a diary. The study enrolled 163 patients whose physicians believed they would need to be treated with a benzodiazepine at least once every other month to achieve seizure control. Dosing was determined by a combination of age and weight. If a second dose was required, caregivers were instructed to provide it 4-12 hours after the first dose.

In the study cohort, 47.9% of patients were aged 6-17 years. The researchers looked specifically at 73 cases of seizure clusters. In nine cases, the patient had LGS (five male, four female). Nearly all (95.9%) of LGS cluster cases were treated with a single dose and 4.1% were exposed to a second dose. Among 64 cases involving a patient with pediatric epileptic encephalopathies, 89.4% were treated with a single dose and 10.6% received a second. The safety profile was similar between patients with LGS and those with pediatric encephalopathies.

Dr. Gombolay has no relevant financial disclosures.

CINCINNATI – A new analysis of data from a phase 3 clinical trial suggests that an inhaled diazepam nasal spray (Valtoco, Neurelis Inc.) works about as well among patients with Lennox-Gastaut Syndrome (LGS) as it does with other patients with pediatric encephalopathies.

LGS is a severe form of epilepsy that generally begins in early childhood and has a poor prognosis and seizures that are often treatment refractory. The findings of the analysis should be encouraging to physicians who may view patients with LGS as not benefiting from treatment, said Daniel C. Tarquinio, DO, who presented the results at the 2022 annual meeting of the Child Neurology Society.

“Their response to their first appropriate weight-based rescue dose of Valtoco was essentially no different. They were subtly different, but they’re not really meaningful differences. Very few needed a second dose. In practice this is helpful because we know that kids with LGS, we think of them as having worse epilepsy, if you will. But if they need rescue, if we prescribe an appropriate rescue dose based on their weight, that the same rescue will work for them as it will for a kid that doesn’t have – quote unquote – as bad epilepsy that needs rescue,” said Dr. Tarquinio, a child neurologist and epileptologist and founder of the Center for Rare Neurological Diseases.

During the Q&A, Dr. Tarquinio was asked if there is something about the biology of LGS that would suggest it might respond differently to the drug. Dr. Tarquinio said no. “The reason we even looked at this is because many clinicians told us that their sense was [that patients with LGS] did not respond as well to rescue in general no matter what they use. This allowed us to go back and look at a controlled data set and say, at least in our controlled dataset, they respond the same,” he said.

Grace Gombolay, MD, who moderated the session, agreed that the results should be encouraging. “It seems like a lot of clinicians have the sense that Lennox-Gastaut Syndrome is a very terrible refractory epilepsy syndrome, and so doing rescue doesn’t seem to make sense if they don’t really respond. I think it’s helpful to know because there are actually studies showing that Valtoco seems to actually work in those patients, so it’s actually useful clinically to prescribe those patients and give it a shot,” said Dr. Gombolay, director of the Pediatric Neuroimmunology and Multiple Sclerosis Clinic at Emory University, Atlanta.

LGS patients may experience hundreds of seizures per day. “It’s really hard for parents to quantify, did they get better? Did the rescue help or not, because they’re still having some seizures. I think the sense is, ‘oh, this isn’t working.’ That’s probably the bias. I think this is good data that if you are able to get Valtoco for your patients, I think it’s worth a shot even in Lennox-Gastaut,” said Dr. Gombolay.

The researchers conducted a post hoc analysis of the phase 3, open-label, repeat-dose safety study of Valtoco. The study included a 12-month treatment period with visits at day 30 and every 60 days following. Patients had the option of staying on the drug following the end of the treatment period. Seizure and dosing information were obtained from a diary. The study enrolled 163 patients whose physicians believed they would need to be treated with a benzodiazepine at least once every other month to achieve seizure control. Dosing was determined by a combination of age and weight. If a second dose was required, caregivers were instructed to provide it 4-12 hours after the first dose.

In the study cohort, 47.9% of patients were aged 6-17 years. The researchers looked specifically at 73 cases of seizure clusters. In nine cases, the patient had LGS (five male, four female). Nearly all (95.9%) of LGS cluster cases were treated with a single dose and 4.1% were exposed to a second dose. Among 64 cases involving a patient with pediatric epileptic encephalopathies, 89.4% were treated with a single dose and 10.6% received a second. The safety profile was similar between patients with LGS and those with pediatric encephalopathies.

Dr. Gombolay has no relevant financial disclosures.

CINCINNATI – A new analysis of data from a phase 3 clinical trial suggests that an inhaled diazepam nasal spray (Valtoco, Neurelis Inc.) works about as well among patients with Lennox-Gastaut Syndrome (LGS) as it does with other patients with pediatric encephalopathies.

LGS is a severe form of epilepsy that generally begins in early childhood and has a poor prognosis and seizures that are often treatment refractory. The findings of the analysis should be encouraging to physicians who may view patients with LGS as not benefiting from treatment, said Daniel C. Tarquinio, DO, who presented the results at the 2022 annual meeting of the Child Neurology Society.

“Their response to their first appropriate weight-based rescue dose of Valtoco was essentially no different. They were subtly different, but they’re not really meaningful differences. Very few needed a second dose. In practice this is helpful because we know that kids with LGS, we think of them as having worse epilepsy, if you will. But if they need rescue, if we prescribe an appropriate rescue dose based on their weight, that the same rescue will work for them as it will for a kid that doesn’t have – quote unquote – as bad epilepsy that needs rescue,” said Dr. Tarquinio, a child neurologist and epileptologist and founder of the Center for Rare Neurological Diseases.

During the Q&A, Dr. Tarquinio was asked if there is something about the biology of LGS that would suggest it might respond differently to the drug. Dr. Tarquinio said no. “The reason we even looked at this is because many clinicians told us that their sense was [that patients with LGS] did not respond as well to rescue in general no matter what they use. This allowed us to go back and look at a controlled data set and say, at least in our controlled dataset, they respond the same,” he said.

Grace Gombolay, MD, who moderated the session, agreed that the results should be encouraging. “It seems like a lot of clinicians have the sense that Lennox-Gastaut Syndrome is a very terrible refractory epilepsy syndrome, and so doing rescue doesn’t seem to make sense if they don’t really respond. I think it’s helpful to know because there are actually studies showing that Valtoco seems to actually work in those patients, so it’s actually useful clinically to prescribe those patients and give it a shot,” said Dr. Gombolay, director of the Pediatric Neuroimmunology and Multiple Sclerosis Clinic at Emory University, Atlanta.

LGS patients may experience hundreds of seizures per day. “It’s really hard for parents to quantify, did they get better? Did the rescue help or not, because they’re still having some seizures. I think the sense is, ‘oh, this isn’t working.’ That’s probably the bias. I think this is good data that if you are able to get Valtoco for your patients, I think it’s worth a shot even in Lennox-Gastaut,” said Dr. Gombolay.

The researchers conducted a post hoc analysis of the phase 3, open-label, repeat-dose safety study of Valtoco. The study included a 12-month treatment period with visits at day 30 and every 60 days following. Patients had the option of staying on the drug following the end of the treatment period. Seizure and dosing information were obtained from a diary. The study enrolled 163 patients whose physicians believed they would need to be treated with a benzodiazepine at least once every other month to achieve seizure control. Dosing was determined by a combination of age and weight. If a second dose was required, caregivers were instructed to provide it 4-12 hours after the first dose.

In the study cohort, 47.9% of patients were aged 6-17 years. The researchers looked specifically at 73 cases of seizure clusters. In nine cases, the patient had LGS (five male, four female). Nearly all (95.9%) of LGS cluster cases were treated with a single dose and 4.1% were exposed to a second dose. Among 64 cases involving a patient with pediatric epileptic encephalopathies, 89.4% were treated with a single dose and 10.6% received a second. The safety profile was similar between patients with LGS and those with pediatric encephalopathies.

Dr. Gombolay has no relevant financial disclosures.

Pediatric patients with epilepsy have an increased risk of cardiovascular complications later in life, but little is known about how they progress. A new study finds that abnormalities in electrocardiograms are linked to an earlier age of diagnosis and longer epilepsy duration.

The findings could help researchers in the search for biomarkers that could predict later problems in children with epilepsy. “In pediatric neurology I think we’re a little bit removed from some of the cardiovascular complications that can happen within epilepsy, but cardiovascular complications are well established, especially in adults that have epilepsy. Adults with epilepsy are more likely to have coronary artery disease, atherosclerosis, arrhythmias, heart attacks, and sudden cardiac death. It’s a pretty substantial difference compared with their nonepileptic peers. So knowing that, the big question is, how do these changes develop, and how do we really counsel our patients in regards to these complications?” said Brittnie Bartlett, MD, during her presentation of the research at the 2022 annual meeting of the Child Neurology Society.

Identifying factors that increase cardiac complications

Previous studies suggested that epilepsy duration might be linked to cardiovascular complications. In children with Dravet syndrome, epilepsy duration has been shown to be associated with cardiac complications. Pathological T wave alternans, which indicates ventricular instability, has been observed in adults with longstanding epilepsy but not adults with newly diagnosed epilepsy.

“So our question in this preliminary report of our data is: What factors in our general pediatric epilepsy cohort can we identify that put them at a greater risk for having EKG changes, and specifically, we wanted to verify these findings from the other studies that epilepsy duration is, in fact, a risk factor for these EKG changes in general [among children] with epilepsy aside from channelopathies,” said Dr. Bartlett, who is an assistant professor at Baylor College of Medicine and a child neurologist at Texas Children’s Hospital, both in Houston.

She presented a striking finding that cardiovascular changes appear early. “The most important thing I want you all to make note of is the fact that, in this baseline study that we got on these kids, 47% already had changes that we were seeing on their EKGs,” said Dr. Bartlett.

The researchers also looked for factors associated with EKG changes, and found that duration of epilepsy and age at diagnosis were the two salient factors. “Our kids that did have EKG changes present had an average epilepsy duration of 73 months, as opposed to [the children] that did not have EKG changes and had an average epilepsy duration of 46 months,” said Dr. Bartlett.

Other factors, such epilepsy type, etiology, refractory epilepsy, and seizure frequency had no statistically significant association with EKG changes. They also saw no associations with high-risk seizure medications, even though some antiseizure drugs have been shown to be linked to EKG changes.

“We were able to confirm our hypothesis that EKG changes were more prevalent with longer duration of epilepsy. Unfortunately, we weren’t able to find any other clues that would help us counsel our patients, but this is part of a longitudinal prospective study that we’ll be following these kids over a couple of years’ time, so maybe we’ll be able to tease out some of these differences. Ideally, we’d be able to find some kind of a biomarker for future cardiovascular complications, and right now we’re working with some multivariable models to verify some of these findings,” said Dr. Bartlett.

Implications for clinical practice

During the Q&A, Dr. Bartlett was asked if all kids with epilepsy should undergo an EKG. She recommended against it for now. “At this point, I don’t think we have enough clear data to support getting an EKG on every kid with epilepsy. I do think it’s good practice to do them on all kids with channelopathies. As a general practice, I tend to have a low threshold towards many kids with epilepsy, but a lot of these cardiovascular risk factors tend to pop up more in adulthood, so it’s more preventative,” she said.

Grace Gombolay, MD, who moderated the session where the poster was presented, was asked for comment on the study. “What’s surprising about it is that up to half of patients actually had EKG changes, different what from what we see in normal population, and it’s interesting to think about the implications. One of the things that our epilepsy patients are at risk for is SUDEP – sudden, unexplained death in epilepsy. It’s interesting to think about what these EKG changes mean for clinical care. I think it’s too early to say at this time, but this might be one of those markers for SUDEP,” said Dr. Gombolay, who is an assistant professor at Emory University, Atlanta, and director of the Pediatric Neuroimmunology and Multiple Sclerosis Clinic at Children’s Healthcare of Atlanta.

The researchers prospectively studied 213 patients who were recruited. 46% were female, 42% were white, 41% were Hispanic, and 13% were African American. The mean age at enrollment was 116 months, and mean age of seizure onset was 45 months.

The researchers found that 47% had abnormal EKG readings. None of the changes were pathologic, but they may reflect changes to cardiac electrophysiology, according to Dr. Bartlett. Those with abnormal readings were older on average (11.6 vs. 8.3 years; P < .005) and had a longer epilepsy duration (73 vs. 46 months; P = .004).

Dr. Gombolay has no relevant financial disclosures.

Pediatric patients with epilepsy have an increased risk of cardiovascular complications later in life, but little is known about how they progress. A new study finds that abnormalities in electrocardiograms are linked to an earlier age of diagnosis and longer epilepsy duration.

The findings could help researchers in the search for biomarkers that could predict later problems in children with epilepsy. “In pediatric neurology I think we’re a little bit removed from some of the cardiovascular complications that can happen within epilepsy, but cardiovascular complications are well established, especially in adults that have epilepsy. Adults with epilepsy are more likely to have coronary artery disease, atherosclerosis, arrhythmias, heart attacks, and sudden cardiac death. It’s a pretty substantial difference compared with their nonepileptic peers. So knowing that, the big question is, how do these changes develop, and how do we really counsel our patients in regards to these complications?” said Brittnie Bartlett, MD, during her presentation of the research at the 2022 annual meeting of the Child Neurology Society.

Identifying factors that increase cardiac complications

Previous studies suggested that epilepsy duration might be linked to cardiovascular complications. In children with Dravet syndrome, epilepsy duration has been shown to be associated with cardiac complications. Pathological T wave alternans, which indicates ventricular instability, has been observed in adults with longstanding epilepsy but not adults with newly diagnosed epilepsy.

“So our question in this preliminary report of our data is: What factors in our general pediatric epilepsy cohort can we identify that put them at a greater risk for having EKG changes, and specifically, we wanted to verify these findings from the other studies that epilepsy duration is, in fact, a risk factor for these EKG changes in general [among children] with epilepsy aside from channelopathies,” said Dr. Bartlett, who is an assistant professor at Baylor College of Medicine and a child neurologist at Texas Children’s Hospital, both in Houston.

She presented a striking finding that cardiovascular changes appear early. “The most important thing I want you all to make note of is the fact that, in this baseline study that we got on these kids, 47% already had changes that we were seeing on their EKGs,” said Dr. Bartlett.

The researchers also looked for factors associated with EKG changes, and found that duration of epilepsy and age at diagnosis were the two salient factors. “Our kids that did have EKG changes present had an average epilepsy duration of 73 months, as opposed to [the children] that did not have EKG changes and had an average epilepsy duration of 46 months,” said Dr. Bartlett.

Other factors, such epilepsy type, etiology, refractory epilepsy, and seizure frequency had no statistically significant association with EKG changes. They also saw no associations with high-risk seizure medications, even though some antiseizure drugs have been shown to be linked to EKG changes.

“We were able to confirm our hypothesis that EKG changes were more prevalent with longer duration of epilepsy. Unfortunately, we weren’t able to find any other clues that would help us counsel our patients, but this is part of a longitudinal prospective study that we’ll be following these kids over a couple of years’ time, so maybe we’ll be able to tease out some of these differences. Ideally, we’d be able to find some kind of a biomarker for future cardiovascular complications, and right now we’re working with some multivariable models to verify some of these findings,” said Dr. Bartlett.

Implications for clinical practice

During the Q&A, Dr. Bartlett was asked if all kids with epilepsy should undergo an EKG. She recommended against it for now. “At this point, I don’t think we have enough clear data to support getting an EKG on every kid with epilepsy. I do think it’s good practice to do them on all kids with channelopathies. As a general practice, I tend to have a low threshold towards many kids with epilepsy, but a lot of these cardiovascular risk factors tend to pop up more in adulthood, so it’s more preventative,” she said.

Grace Gombolay, MD, who moderated the session where the poster was presented, was asked for comment on the study. “What’s surprising about it is that up to half of patients actually had EKG changes, different what from what we see in normal population, and it’s interesting to think about the implications. One of the things that our epilepsy patients are at risk for is SUDEP – sudden, unexplained death in epilepsy. It’s interesting to think about what these EKG changes mean for clinical care. I think it’s too early to say at this time, but this might be one of those markers for SUDEP,” said Dr. Gombolay, who is an assistant professor at Emory University, Atlanta, and director of the Pediatric Neuroimmunology and Multiple Sclerosis Clinic at Children’s Healthcare of Atlanta.

The researchers prospectively studied 213 patients who were recruited. 46% were female, 42% were white, 41% were Hispanic, and 13% were African American. The mean age at enrollment was 116 months, and mean age of seizure onset was 45 months.

The researchers found that 47% had abnormal EKG readings. None of the changes were pathologic, but they may reflect changes to cardiac electrophysiology, according to Dr. Bartlett. Those with abnormal readings were older on average (11.6 vs. 8.3 years; P < .005) and had a longer epilepsy duration (73 vs. 46 months; P = .004).

Dr. Gombolay has no relevant financial disclosures.

Pediatric patients with epilepsy have an increased risk of cardiovascular complications later in life, but little is known about how they progress. A new study finds that abnormalities in electrocardiograms are linked to an earlier age of diagnosis and longer epilepsy duration.

The findings could help researchers in the search for biomarkers that could predict later problems in children with epilepsy. “In pediatric neurology I think we’re a little bit removed from some of the cardiovascular complications that can happen within epilepsy, but cardiovascular complications are well established, especially in adults that have epilepsy. Adults with epilepsy are more likely to have coronary artery disease, atherosclerosis, arrhythmias, heart attacks, and sudden cardiac death. It’s a pretty substantial difference compared with their nonepileptic peers. So knowing that, the big question is, how do these changes develop, and how do we really counsel our patients in regards to these complications?” said Brittnie Bartlett, MD, during her presentation of the research at the 2022 annual meeting of the Child Neurology Society.

Identifying factors that increase cardiac complications

Previous studies suggested that epilepsy duration might be linked to cardiovascular complications. In children with Dravet syndrome, epilepsy duration has been shown to be associated with cardiac complications. Pathological T wave alternans, which indicates ventricular instability, has been observed in adults with longstanding epilepsy but not adults with newly diagnosed epilepsy.

“So our question in this preliminary report of our data is: What factors in our general pediatric epilepsy cohort can we identify that put them at a greater risk for having EKG changes, and specifically, we wanted to verify these findings from the other studies that epilepsy duration is, in fact, a risk factor for these EKG changes in general [among children] with epilepsy aside from channelopathies,” said Dr. Bartlett, who is an assistant professor at Baylor College of Medicine and a child neurologist at Texas Children’s Hospital, both in Houston.

She presented a striking finding that cardiovascular changes appear early. “The most important thing I want you all to make note of is the fact that, in this baseline study that we got on these kids, 47% already had changes that we were seeing on their EKGs,” said Dr. Bartlett.

The researchers also looked for factors associated with EKG changes, and found that duration of epilepsy and age at diagnosis were the two salient factors. “Our kids that did have EKG changes present had an average epilepsy duration of 73 months, as opposed to [the children] that did not have EKG changes and had an average epilepsy duration of 46 months,” said Dr. Bartlett.

Other factors, such epilepsy type, etiology, refractory epilepsy, and seizure frequency had no statistically significant association with EKG changes. They also saw no associations with high-risk seizure medications, even though some antiseizure drugs have been shown to be linked to EKG changes.

“We were able to confirm our hypothesis that EKG changes were more prevalent with longer duration of epilepsy. Unfortunately, we weren’t able to find any other clues that would help us counsel our patients, but this is part of a longitudinal prospective study that we’ll be following these kids over a couple of years’ time, so maybe we’ll be able to tease out some of these differences. Ideally, we’d be able to find some kind of a biomarker for future cardiovascular complications, and right now we’re working with some multivariable models to verify some of these findings,” said Dr. Bartlett.

Implications for clinical practice

During the Q&A, Dr. Bartlett was asked if all kids with epilepsy should undergo an EKG. She recommended against it for now. “At this point, I don’t think we have enough clear data to support getting an EKG on every kid with epilepsy. I do think it’s good practice to do them on all kids with channelopathies. As a general practice, I tend to have a low threshold towards many kids with epilepsy, but a lot of these cardiovascular risk factors tend to pop up more in adulthood, so it’s more preventative,” she said.

Grace Gombolay, MD, who moderated the session where the poster was presented, was asked for comment on the study. “What’s surprising about it is that up to half of patients actually had EKG changes, different what from what we see in normal population, and it’s interesting to think about the implications. One of the things that our epilepsy patients are at risk for is SUDEP – sudden, unexplained death in epilepsy. It’s interesting to think about what these EKG changes mean for clinical care. I think it’s too early to say at this time, but this might be one of those markers for SUDEP,” said Dr. Gombolay, who is an assistant professor at Emory University, Atlanta, and director of the Pediatric Neuroimmunology and Multiple Sclerosis Clinic at Children’s Healthcare of Atlanta.

The researchers prospectively studied 213 patients who were recruited. 46% were female, 42% were white, 41% were Hispanic, and 13% were African American. The mean age at enrollment was 116 months, and mean age of seizure onset was 45 months.

The researchers found that 47% had abnormal EKG readings. None of the changes were pathologic, but they may reflect changes to cardiac electrophysiology, according to Dr. Bartlett. Those with abnormal readings were older on average (11.6 vs. 8.3 years; P < .005) and had a longer epilepsy duration (73 vs. 46 months; P = .004).

Dr. Gombolay has no relevant financial disclosures.

CINCINNATI – Cerebral palsy affects about 3 in every 1,000 children, but there is usually little sign of the condition at birth. Instead, it usually shows clinical manifestation between ages 2 and 5, and a diagnosis can trigger early interventions that can improve long-term outcomes.

Physicians and patients would benefit from a screening method for cerebral palsy at birth, but that has so far eluded researchers.

At the 2022 annual meeting of the Child Neurology Society, researchers presented evidence that respiratory rate measured in the last 24 hours of residence in the neonate intensive care unit (NICU) predicts later onset of cerebral palsy, with higher variability associated with increased cerebral palsy risk.

The study results were promising, according to Marc Patterson, MD, who comoderated the session. “It gives us more confidence in predicting the children at risk and making sure that they’re going to be followed closely to get the interventions they need to help them,” said Dr. Patterson, who is a professor of neurology, pediatrics, and medical genetics at Mayo Medical School in Rochester, Minn.

“By the time a child is 5 or 6, the symptoms are usually very obvious, but you really want to intervene as soon as possible before their brain’s plasticity decreases over time, so the earlier you can intervene in general, the better your results are going to be,” said Dr. Patterson.

There are tools available to diagnose cerebral palsy at an earlier age, including the Prechtl General Movements Assessment (GMA), which can be done up to 5 months of corrected age. It has 97% sensitivity and 89% specificity for cerebral palsy. The Hammersmith Infant Neurological Examination (HINE), which can be used in the same age range, and has 72-91% sensitivity and 100% specificity.

Both of the available tools are resource intensive and require trained clinicians, and may be unavailable in many areas. Despite these tools, early diagnosis of cerebral palsy is still underemployed, according to Arohi Saxena, a third-year medical student at Washington University in St. Louis, who presented the study results.
 

Respiratory rate variability may indicate increased risk

The researchers set out to identify objective metrics that correlated with HINE and GMA scores. They looked at kinematic data from practical assessments carried out by their physical therapists, as well as vital sign instability obtained at NICU discharge, which was based on suggestions that hemodynamic instability may be linked to later risk of cerebral palsy, according to Ms. Saxena.

They analyzed data from 31 infants with a corrected age of 8-25 weeks at a tertiary NICU follow-up clinic. Of these, 18 displayed fidgety movements on their Prechtl assessment, and 13 did not.

They used DeepLabCut software to analyze data from videos of the Prechtl assessment, with a focus on range and variance of hand and foot movements normalized to nose-to-umbilicus distance. They also analyzed pulse and respiratory data from the final 24 hours before NICU discharge.

They found that infants without fidgety movements had decreased hand and foot movement ranges (P = .04). There was no significant difference between the two groups with respect to pulse measurements. However, the respiratory rate range and variance was significantly higher in infants without fidgety movements. “Infants who are at higher risk for developing cerebral palsy had more respiratory instability early on in life,” said Ms. Saxena during her talk.

When they compared values to HINE scores, they found a correlation with less foot movement and a predisposition to develop cerebral palsy, but no correlation with hand movement. A lower HINE sore also correlated to larger respiratory rate range and variance (P < .01 for both).

“Our hypothesis to explain this link is that respiratory rate variability is likely driven by neonatal injury in the brainstem, where the respiratory centers are located. In some infants, this may correlate with more extensive cerebral injury that could predict the development of cerebral palsy,” said Ms. Saxena.

The group plans to increase its sample size as well as to conduct long-term follow-up on the infants to see how many receive formal diagnoses of cerebral palsy.

After her talk, asked by a moderator why motor assessments were not a reliable predictor in their study, Ms. Saxena pointed to the inexperience of assessors at the institution, where Prechtl testing had only recently begun.

“I think a lot of it is to do with the more subjective nature of the motor assessment. We definitely saw kind of a trend where in the earlier data that was collected, right when our institutions started doing these Prechtls, it was even less of a reliable effect. So I think possibly as clinicians continue to get more familiar with this assessment and there’s more like a validated and robust scoring system, maybe we’ll see a stronger correlation,” she said.

Ms. Saxena had no relevant disclosures. Coauthor Boomah Aravamuthan, MD, DPhil, is a consultant for Neurocrine Biosciences and has received royalties from UpToDate and funding from the National Institute of Neurological Disorders and Stroke.

CINCINNATI – Cerebral palsy affects about 3 in every 1,000 children, but there is usually little sign of the condition at birth. Instead, it usually shows clinical manifestation between ages 2 and 5, and a diagnosis can trigger early interventions that can improve long-term outcomes.

Physicians and patients would benefit from a screening method for cerebral palsy at birth, but that has so far eluded researchers.

At the 2022 annual meeting of the Child Neurology Society, researchers presented evidence that respiratory rate measured in the last 24 hours of residence in the neonate intensive care unit (NICU) predicts later onset of cerebral palsy, with higher variability associated with increased cerebral palsy risk.

The study results were promising, according to Marc Patterson, MD, who comoderated the session. “It gives us more confidence in predicting the children at risk and making sure that they’re going to be followed closely to get the interventions they need to help them,” said Dr. Patterson, who is a professor of neurology, pediatrics, and medical genetics at Mayo Medical School in Rochester, Minn.

“By the time a child is 5 or 6, the symptoms are usually very obvious, but you really want to intervene as soon as possible before their brain’s plasticity decreases over time, so the earlier you can intervene in general, the better your results are going to be,” said Dr. Patterson.

There are tools available to diagnose cerebral palsy at an earlier age, including the Prechtl General Movements Assessment (GMA), which can be done up to 5 months of corrected age. It has 97% sensitivity and 89% specificity for cerebral palsy. The Hammersmith Infant Neurological Examination (HINE), which can be used in the same age range, and has 72-91% sensitivity and 100% specificity.

Both of the available tools are resource intensive and require trained clinicians, and may be unavailable in many areas. Despite these tools, early diagnosis of cerebral palsy is still underemployed, according to Arohi Saxena, a third-year medical student at Washington University in St. Louis, who presented the study results.
 

Respiratory rate variability may indicate increased risk

The researchers set out to identify objective metrics that correlated with HINE and GMA scores. They looked at kinematic data from practical assessments carried out by their physical therapists, as well as vital sign instability obtained at NICU discharge, which was based on suggestions that hemodynamic instability may be linked to later risk of cerebral palsy, according to Ms. Saxena.

They analyzed data from 31 infants with a corrected age of 8-25 weeks at a tertiary NICU follow-up clinic. Of these, 18 displayed fidgety movements on their Prechtl assessment, and 13 did not.

They used DeepLabCut software to analyze data from videos of the Prechtl assessment, with a focus on range and variance of hand and foot movements normalized to nose-to-umbilicus distance. They also analyzed pulse and respiratory data from the final 24 hours before NICU discharge.

They found that infants without fidgety movements had decreased hand and foot movement ranges (P = .04). There was no significant difference between the two groups with respect to pulse measurements. However, the respiratory rate range and variance was significantly higher in infants without fidgety movements. “Infants who are at higher risk for developing cerebral palsy had more respiratory instability early on in life,” said Ms. Saxena during her talk.

When they compared values to HINE scores, they found a correlation with less foot movement and a predisposition to develop cerebral palsy, but no correlation with hand movement. A lower HINE sore also correlated to larger respiratory rate range and variance (P < .01 for both).

“Our hypothesis to explain this link is that respiratory rate variability is likely driven by neonatal injury in the brainstem, where the respiratory centers are located. In some infants, this may correlate with more extensive cerebral injury that could predict the development of cerebral palsy,” said Ms. Saxena.

The group plans to increase its sample size as well as to conduct long-term follow-up on the infants to see how many receive formal diagnoses of cerebral palsy.

After her talk, asked by a moderator why motor assessments were not a reliable predictor in their study, Ms. Saxena pointed to the inexperience of assessors at the institution, where Prechtl testing had only recently begun.

“I think a lot of it is to do with the more subjective nature of the motor assessment. We definitely saw kind of a trend where in the earlier data that was collected, right when our institutions started doing these Prechtls, it was even less of a reliable effect. So I think possibly as clinicians continue to get more familiar with this assessment and there’s more like a validated and robust scoring system, maybe we’ll see a stronger correlation,” she said.

Ms. Saxena had no relevant disclosures. Coauthor Boomah Aravamuthan, MD, DPhil, is a consultant for Neurocrine Biosciences and has received royalties from UpToDate and funding from the National Institute of Neurological Disorders and Stroke.

CINCINNATI – Cerebral palsy affects about 3 in every 1,000 children, but there is usually little sign of the condition at birth. Instead, it usually shows clinical manifestation between ages 2 and 5, and a diagnosis can trigger early interventions that can improve long-term outcomes.

Physicians and patients would benefit from a screening method for cerebral palsy at birth, but that has so far eluded researchers.

At the 2022 annual meeting of the Child Neurology Society, researchers presented evidence that respiratory rate measured in the last 24 hours of residence in the neonate intensive care unit (NICU) predicts later onset of cerebral palsy, with higher variability associated with increased cerebral palsy risk.

The study results were promising, according to Marc Patterson, MD, who comoderated the session. “It gives us more confidence in predicting the children at risk and making sure that they’re going to be followed closely to get the interventions they need to help them,” said Dr. Patterson, who is a professor of neurology, pediatrics, and medical genetics at Mayo Medical School in Rochester, Minn.

“By the time a child is 5 or 6, the symptoms are usually very obvious, but you really want to intervene as soon as possible before their brain’s plasticity decreases over time, so the earlier you can intervene in general, the better your results are going to be,” said Dr. Patterson.

There are tools available to diagnose cerebral palsy at an earlier age, including the Prechtl General Movements Assessment (GMA), which can be done up to 5 months of corrected age. It has 97% sensitivity and 89% specificity for cerebral palsy. The Hammersmith Infant Neurological Examination (HINE), which can be used in the same age range, and has 72-91% sensitivity and 100% specificity.

Both of the available tools are resource intensive and require trained clinicians, and may be unavailable in many areas. Despite these tools, early diagnosis of cerebral palsy is still underemployed, according to Arohi Saxena, a third-year medical student at Washington University in St. Louis, who presented the study results.
 

Respiratory rate variability may indicate increased risk

The researchers set out to identify objective metrics that correlated with HINE and GMA scores. They looked at kinematic data from practical assessments carried out by their physical therapists, as well as vital sign instability obtained at NICU discharge, which was based on suggestions that hemodynamic instability may be linked to later risk of cerebral palsy, according to Ms. Saxena.

They analyzed data from 31 infants with a corrected age of 8-25 weeks at a tertiary NICU follow-up clinic. Of these, 18 displayed fidgety movements on their Prechtl assessment, and 13 did not.

They used DeepLabCut software to analyze data from videos of the Prechtl assessment, with a focus on range and variance of hand and foot movements normalized to nose-to-umbilicus distance. They also analyzed pulse and respiratory data from the final 24 hours before NICU discharge.

They found that infants without fidgety movements had decreased hand and foot movement ranges (P = .04). There was no significant difference between the two groups with respect to pulse measurements. However, the respiratory rate range and variance was significantly higher in infants without fidgety movements. “Infants who are at higher risk for developing cerebral palsy had more respiratory instability early on in life,” said Ms. Saxena during her talk.

When they compared values to HINE scores, they found a correlation with less foot movement and a predisposition to develop cerebral palsy, but no correlation with hand movement. A lower HINE sore also correlated to larger respiratory rate range and variance (P < .01 for both).

“Our hypothesis to explain this link is that respiratory rate variability is likely driven by neonatal injury in the brainstem, where the respiratory centers are located. In some infants, this may correlate with more extensive cerebral injury that could predict the development of cerebral palsy,” said Ms. Saxena.

The group plans to increase its sample size as well as to conduct long-term follow-up on the infants to see how many receive formal diagnoses of cerebral palsy.

After her talk, asked by a moderator why motor assessments were not a reliable predictor in their study, Ms. Saxena pointed to the inexperience of assessors at the institution, where Prechtl testing had only recently begun.

“I think a lot of it is to do with the more subjective nature of the motor assessment. We definitely saw kind of a trend where in the earlier data that was collected, right when our institutions started doing these Prechtls, it was even less of a reliable effect. So I think possibly as clinicians continue to get more familiar with this assessment and there’s more like a validated and robust scoring system, maybe we’ll see a stronger correlation,” she said.

Ms. Saxena had no relevant disclosures. Coauthor Boomah Aravamuthan, MD, DPhil, is a consultant for Neurocrine Biosciences and has received royalties from UpToDate and funding from the National Institute of Neurological Disorders and Stroke.

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

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

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

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

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

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

Video clues aid diagnosis

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

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

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

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

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

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

Key features help determine dystonia severity

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

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

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

Dr. Gilbert reported no relevant disclosures.

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

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

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

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

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

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

Video clues aid diagnosis

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

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

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

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

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

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

Key features help determine dystonia severity

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

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

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

Dr. Gilbert reported no relevant disclosures.

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

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

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

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

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

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

Video clues aid diagnosis

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

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

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

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

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

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

Key features help determine dystonia severity

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

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

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

Dr. Gilbert reported no relevant disclosures.