Neurology

By the time Mira Halker started high school, hardly a day passed that she wasn’t either getting a migraine attack or recovering from one. She missed volleyball team practice. She missed classes. She missed social events. And few people understood. After all, she looked healthy.

“A lot of times, people think I’m faking it,” said Mira, now 16, who lives in Phoenix. Friends called her flaky; her volleyball coaches questioned her dedication to the team. “I’m like, ‘I’m not trying to get out of this. This is not what this is about,’ ” she said.

Her mother, Rashmi B. Halker Singh, MD, is a neurologist at Mayo Clinic who happens to specialize in migraine. Even so, finding a solution was not easy. Neither ibuprofen nor triptans, nor various preventive measures such as a daily prescription for topiramate controlled the pain and associated symptoms. Mira was barely making it through her school day and had to quit volleyball. Then, in the spring of 10th grade, Mira told her mother that she couldn’t go to prom because the loud noises and lights could give her a migraine attack.

Mother and daughter decided it was time to get even more aggressive. “There are these key moments in life that you can’t get back,” Dr. Singh said. “Migraine steals so much from you.”
 

Diagnosis

One of the challenges Mira’s physicians faced was deciding which medications and other therapies to prescribe to a teenager. Drug companies have been releasing a steady stream of new treatments for migraine headaches, and researchers promise more are on the way soon. Here’s what works for children, what hasn’t yet been approved for use with minors, and how to diagnose migraines in the first place, from experts at some of the nation’s leading pediatric headache centers.

Migraine affects about 10% of children, according to the American Migraine Foundation. The headaches can strike children as early as age 3 or 4 years, said Robert Little, MD, a pediatric neurologist at Phoenix Children’s Hospital.

Before puberty, boys report more migraine attacks than girls, according to the American Academy of Pediatrics. But that reverses in adolescence: By age 17, as many as 8% of boys and 23% of girls have had migraine. To diagnose migraine, Juliana H. VanderPluym, MD, associate professor of neurology at Mayo Clinic in Phoenix, said she uses the criteria published in the latest edition of the International Classification of Headache Disorders (ICHD): A patient must have had at least five attacks in their life; and in children and adolescents, the attacks must last no less than 2 hours.

In addition, the headaches should exhibit at least two out of four features:

1. Occur more on one side of the head than the other (although Dr. VanderPluym said in children and adolescents headaches often are bilateral).

2. Be of moderate to severe intensity.

3. Have a pounding or throbbing quality.

4. Grow worse with activity or cause an avoidance of activity.

If the attacks meet those criteria, clinicians should check to see if they meet at least one out of the two following:

1. Are sensitive to light and sounds.

2. Are associated with nausea and/or vomiting.

A clinician should consider whether the headaches are not better accounted for by another diagnosis, according to the ICHD criteria. But, Dr. VanderPluym warned that does not necessarily mean running a slew of tests.

“In the absence of red flag features, it is more than likely going to be migraine headache,” she said. That’s especially true if a child has a family history of migraine, as the condition is often passed down from parent to child.

Ultimately, the diagnosis is fairly simple and can be made in a minute or less, said Jack Gladstein, MD, a pediatrician at the University of Maryland whose research focuses on the clinical care of children and adolescents with headache.

“Migraine is acute,” Dr. Gladstein said. “It’s really bad. And it’s recurrent.”
 

First line of treatment

Whatever a patient takes to treat a migraine, they should hit it early and hard, Dr. Gladstein said.

“The first thing you say, as a primary care physician, is treat your migraine at first twinge, whatever you use. Don’t wait, don’t wish it away,” he said. “The longer you wait, the less chance anything will work.”

The second piece of advice, Dr. Gladstein said, is that whatever drug a patient is taking, they should be on the highest feasible dose. “Work as fast as you can to treat them. You want the brain to reset as quickly as you can,” he said.

Patients should begin with over-the-counter pain relievers, Dr. Little said. If those prove insufficient, they can try a triptan. Rizatriptan is the only such agent that the Food and Drug Administration has approved for children aged 6-17 years. Other drugs in the class – sumatriptan/naproxen, almotriptan, and zolmitriptan – are approved for children 12 and older.

Another migraine therapy recently approved for children aged 12 and older is the use of neurostimulators. “It’s helpful to be aware of them,” Dr. VanderPluym said.

However, if neurostimulators and acute medications prove insufficient, clinicians should warn patients not to up their doses of triptans. Rebound headaches can occur if patients take triptans more than twice a week, or a maximum 10 days per month.

Another possibility is to add a preventive therapy. One mild, first option is nutraceuticals, like riboflavin (vitamin B₂) or magnesium, said Anisa F. Kelley, MD, a neurologist and associate director of the headache program at the Ann and Robert H. Lurie Children’s Hospital of Chicago.

“We don’t have definitive evidence, but they’re probably doing more benefit than they are harm,” Dr. Kelley said of these therapies. “In patients who have anywhere from 4 to 8 migraine days a month, where you’re in that in-between period where you don’t necessarily need a [prescription] prophylactic, I will often start with a nutraceutical,” Dr. Kelley said.

For those patients who don’t respond to nutraceuticals, or who need more support, clinicians can prescribe amitriptyline or topiramate. Dr. VanderPluym said.

A 2017 study found such prophylactics to be no more effective than placebo in pediatric migraine patients, but experts caution the results should not be considered definitive.

For one thing, the study enrolled a highly selective group of participants, with milder forms of migraine who may have improved anyway, Dr. VanderPluym said. All participants also received lifestyle counseling.

Every time participants came in for a follow-up, they were asked questions such as how much water were they drinking and how much sleep were they getting, Dr. Kelley noted. The takeaway, she said: “Pediatric and adolescent migraine [management] is very, very much reliant on lifestyle factors.”
 

Lifestyle triggers

Clinicians should counsel their migraine patients about lifestyle changes, experts said. Getting adequate sleep, staying hydrated, and managing stress can help reduce the intensity and frequency of attacks.

Migraine patients should also be mindful of their screen time, Dr. Kelley added.

“I’ve had lots and lots of patients who find excessive screen time will trigger or worsen migraine,” she said.

As for other potential triggers of attacks, the evidence is mixed.

“There’s clearly an association with disrupted sleep and migraine, and that has been very well established,” Dr. Little said. “And there is some modest amount of evidence that regular exercise can be helpful.” But for reported food triggers, he said, there have been very inconclusive results.

Commonly reported triggers include MSG, red wine, chocolate, and aged cheese. When Dr. Little’s patients keep headache diaries, tracking their meals alongside when they got migraine attacks, they often discover individualized triggers – strawberries, for instance, in one case, he said.

Scientists believe migraines result from the inappropriate activation of the trigeminal ganglion. “The question is, what causes it to get triggered? And how does it get triggered?” Dr. Gladstein said. “And that’s where there’s a lot of difference of opinion and no conclusive evidence.” Clinicians also should make sure that something else – usually depression, anxiety, insomnia, and dizziness – is not hindering effective migraine management. “If someone has terrible insomnia, until you treat the insomnia, the headaches aren’t going to get better,” he said.

As for Mira, her migraine attacks did not significantly improve, despite trying triptans, prophylactics, lifestyle changes, and shots to block nerve pain. When the headaches threatened Mira’s chance to go to her prom, her neurologist suggested trying something different. The physician persuaded the family’s insurance to cover a calcitonin gene-related peptide antagonist, an injectable monoclonal antibody treatment for migraine that the FDA has currently approved only for use in adults.

The difference for Mira has been extraordinary.

“I can do so much more than I was able to do,” said Mira, who attended the dance migraine free. “I feel liberated.”

It’s only migraine

One of the greatest challenges in diagnosing migraine can be reassuring the patient, the parents, even clinicians themselves that migraine really is the cause of all this pain and discomfort, experts said.

“A lot of migraine treatment actually comes down to migraine education,” Dr. VanderPluym said.

Patients and their parents often wonder how they can be sure that this pain is not resulting from something more dangerous than migraine, Dr. Little said. In these cases, he cites practice guidelines published by the American Academy of Neurology.

“The gist of those guidelines is that most pediatric patients do not need further workup,” he said. “But I think that there’s always a fear that you’re missing something because we don’t have a test that we can do” for migraine.

Some warning signs that further tests might be warranted, Dr. Kelley said, include:

• Headaches that wake a patient up in the middle of the night.
• Headaches that start first thing in the morning, especially those that include vomiting.
• A headache pattern that suddenly gets much worse.
• Certain symptoms that accompany the headache, such as tingling, numbness or double vision.

Although all of these signs can still stem from migraines – tingling or numbness, for instance, can be signs of migraine aura – running additional tests can rule out more serious concerns, she said.

By the time Mira Halker started high school, hardly a day passed that she wasn’t either getting a migraine attack or recovering from one. She missed volleyball team practice. She missed classes. She missed social events. And few people understood. After all, she looked healthy.

“A lot of times, people think I’m faking it,” said Mira, now 16, who lives in Phoenix. Friends called her flaky; her volleyball coaches questioned her dedication to the team. “I’m like, ‘I’m not trying to get out of this. This is not what this is about,’ ” she said.

Her mother, Rashmi B. Halker Singh, MD, is a neurologist at Mayo Clinic who happens to specialize in migraine. Even so, finding a solution was not easy. Neither ibuprofen nor triptans, nor various preventive measures such as a daily prescription for topiramate controlled the pain and associated symptoms. Mira was barely making it through her school day and had to quit volleyball. Then, in the spring of 10th grade, Mira told her mother that she couldn’t go to prom because the loud noises and lights could give her a migraine attack.

Mother and daughter decided it was time to get even more aggressive. “There are these key moments in life that you can’t get back,” Dr. Singh said. “Migraine steals so much from you.”
 

Diagnosis

One of the challenges Mira’s physicians faced was deciding which medications and other therapies to prescribe to a teenager. Drug companies have been releasing a steady stream of new treatments for migraine headaches, and researchers promise more are on the way soon. Here’s what works for children, what hasn’t yet been approved for use with minors, and how to diagnose migraines in the first place, from experts at some of the nation’s leading pediatric headache centers.

Migraine affects about 10% of children, according to the American Migraine Foundation. The headaches can strike children as early as age 3 or 4 years, said Robert Little, MD, a pediatric neurologist at Phoenix Children’s Hospital.

Before puberty, boys report more migraine attacks than girls, according to the American Academy of Pediatrics. But that reverses in adolescence: By age 17, as many as 8% of boys and 23% of girls have had migraine. To diagnose migraine, Juliana H. VanderPluym, MD, associate professor of neurology at Mayo Clinic in Phoenix, said she uses the criteria published in the latest edition of the International Classification of Headache Disorders (ICHD): A patient must have had at least five attacks in their life; and in children and adolescents, the attacks must last no less than 2 hours.

In addition, the headaches should exhibit at least two out of four features:

1. Occur more on one side of the head than the other (although Dr. VanderPluym said in children and adolescents headaches often are bilateral).

2. Be of moderate to severe intensity.

3. Have a pounding or throbbing quality.

4. Grow worse with activity or cause an avoidance of activity.

If the attacks meet those criteria, clinicians should check to see if they meet at least one out of the two following:

1. Are sensitive to light and sounds.

2. Are associated with nausea and/or vomiting.

A clinician should consider whether the headaches are not better accounted for by another diagnosis, according to the ICHD criteria. But, Dr. VanderPluym warned that does not necessarily mean running a slew of tests.

“In the absence of red flag features, it is more than likely going to be migraine headache,” she said. That’s especially true if a child has a family history of migraine, as the condition is often passed down from parent to child.

Ultimately, the diagnosis is fairly simple and can be made in a minute or less, said Jack Gladstein, MD, a pediatrician at the University of Maryland whose research focuses on the clinical care of children and adolescents with headache.

“Migraine is acute,” Dr. Gladstein said. “It’s really bad. And it’s recurrent.”
 

First line of treatment

Whatever a patient takes to treat a migraine, they should hit it early and hard, Dr. Gladstein said.

“The first thing you say, as a primary care physician, is treat your migraine at first twinge, whatever you use. Don’t wait, don’t wish it away,” he said. “The longer you wait, the less chance anything will work.”

The second piece of advice, Dr. Gladstein said, is that whatever drug a patient is taking, they should be on the highest feasible dose. “Work as fast as you can to treat them. You want the brain to reset as quickly as you can,” he said.

Patients should begin with over-the-counter pain relievers, Dr. Little said. If those prove insufficient, they can try a triptan. Rizatriptan is the only such agent that the Food and Drug Administration has approved for children aged 6-17 years. Other drugs in the class – sumatriptan/naproxen, almotriptan, and zolmitriptan – are approved for children 12 and older.

Another migraine therapy recently approved for children aged 12 and older is the use of neurostimulators. “It’s helpful to be aware of them,” Dr. VanderPluym said.

However, if neurostimulators and acute medications prove insufficient, clinicians should warn patients not to up their doses of triptans. Rebound headaches can occur if patients take triptans more than twice a week, or a maximum 10 days per month.

Another possibility is to add a preventive therapy. One mild, first option is nutraceuticals, like riboflavin (vitamin B₂) or magnesium, said Anisa F. Kelley, MD, a neurologist and associate director of the headache program at the Ann and Robert H. Lurie Children’s Hospital of Chicago.

“We don’t have definitive evidence, but they’re probably doing more benefit than they are harm,” Dr. Kelley said of these therapies. “In patients who have anywhere from 4 to 8 migraine days a month, where you’re in that in-between period where you don’t necessarily need a [prescription] prophylactic, I will often start with a nutraceutical,” Dr. Kelley said.

For those patients who don’t respond to nutraceuticals, or who need more support, clinicians can prescribe amitriptyline or topiramate. Dr. VanderPluym said.

A 2017 study found such prophylactics to be no more effective than placebo in pediatric migraine patients, but experts caution the results should not be considered definitive.

For one thing, the study enrolled a highly selective group of participants, with milder forms of migraine who may have improved anyway, Dr. VanderPluym said. All participants also received lifestyle counseling.

Every time participants came in for a follow-up, they were asked questions such as how much water were they drinking and how much sleep were they getting, Dr. Kelley noted. The takeaway, she said: “Pediatric and adolescent migraine [management] is very, very much reliant on lifestyle factors.”
 

Lifestyle triggers

Clinicians should counsel their migraine patients about lifestyle changes, experts said. Getting adequate sleep, staying hydrated, and managing stress can help reduce the intensity and frequency of attacks.

Migraine patients should also be mindful of their screen time, Dr. Kelley added.

“I’ve had lots and lots of patients who find excessive screen time will trigger or worsen migraine,” she said.

As for other potential triggers of attacks, the evidence is mixed.

“There’s clearly an association with disrupted sleep and migraine, and that has been very well established,” Dr. Little said. “And there is some modest amount of evidence that regular exercise can be helpful.” But for reported food triggers, he said, there have been very inconclusive results.

Commonly reported triggers include MSG, red wine, chocolate, and aged cheese. When Dr. Little’s patients keep headache diaries, tracking their meals alongside when they got migraine attacks, they often discover individualized triggers – strawberries, for instance, in one case, he said.

Scientists believe migraines result from the inappropriate activation of the trigeminal ganglion. “The question is, what causes it to get triggered? And how does it get triggered?” Dr. Gladstein said. “And that’s where there’s a lot of difference of opinion and no conclusive evidence.” Clinicians also should make sure that something else – usually depression, anxiety, insomnia, and dizziness – is not hindering effective migraine management. “If someone has terrible insomnia, until you treat the insomnia, the headaches aren’t going to get better,” he said.

As for Mira, her migraine attacks did not significantly improve, despite trying triptans, prophylactics, lifestyle changes, and shots to block nerve pain. When the headaches threatened Mira’s chance to go to her prom, her neurologist suggested trying something different. The physician persuaded the family’s insurance to cover a calcitonin gene-related peptide antagonist, an injectable monoclonal antibody treatment for migraine that the FDA has currently approved only for use in adults.

The difference for Mira has been extraordinary.

“I can do so much more than I was able to do,” said Mira, who attended the dance migraine free. “I feel liberated.”

It’s only migraine

One of the greatest challenges in diagnosing migraine can be reassuring the patient, the parents, even clinicians themselves that migraine really is the cause of all this pain and discomfort, experts said.

“A lot of migraine treatment actually comes down to migraine education,” Dr. VanderPluym said.

Patients and their parents often wonder how they can be sure that this pain is not resulting from something more dangerous than migraine, Dr. Little said. In these cases, he cites practice guidelines published by the American Academy of Neurology.

“The gist of those guidelines is that most pediatric patients do not need further workup,” he said. “But I think that there’s always a fear that you’re missing something because we don’t have a test that we can do” for migraine.

Some warning signs that further tests might be warranted, Dr. Kelley said, include:

• Headaches that wake a patient up in the middle of the night.
• Headaches that start first thing in the morning, especially those that include vomiting.
• A headache pattern that suddenly gets much worse.
• Certain symptoms that accompany the headache, such as tingling, numbness or double vision.

Although all of these signs can still stem from migraines – tingling or numbness, for instance, can be signs of migraine aura – running additional tests can rule out more serious concerns, she said.

By the time Mira Halker started high school, hardly a day passed that she wasn’t either getting a migraine attack or recovering from one. She missed volleyball team practice. She missed classes. She missed social events. And few people understood. After all, she looked healthy.

“A lot of times, people think I’m faking it,” said Mira, now 16, who lives in Phoenix. Friends called her flaky; her volleyball coaches questioned her dedication to the team. “I’m like, ‘I’m not trying to get out of this. This is not what this is about,’ ” she said.

Her mother, Rashmi B. Halker Singh, MD, is a neurologist at Mayo Clinic who happens to specialize in migraine. Even so, finding a solution was not easy. Neither ibuprofen nor triptans, nor various preventive measures such as a daily prescription for topiramate controlled the pain and associated symptoms. Mira was barely making it through her school day and had to quit volleyball. Then, in the spring of 10th grade, Mira told her mother that she couldn’t go to prom because the loud noises and lights could give her a migraine attack.

Mother and daughter decided it was time to get even more aggressive. “There are these key moments in life that you can’t get back,” Dr. Singh said. “Migraine steals so much from you.”
 

Diagnosis

One of the challenges Mira’s physicians faced was deciding which medications and other therapies to prescribe to a teenager. Drug companies have been releasing a steady stream of new treatments for migraine headaches, and researchers promise more are on the way soon. Here’s what works for children, what hasn’t yet been approved for use with minors, and how to diagnose migraines in the first place, from experts at some of the nation’s leading pediatric headache centers.

Migraine affects about 10% of children, according to the American Migraine Foundation. The headaches can strike children as early as age 3 or 4 years, said Robert Little, MD, a pediatric neurologist at Phoenix Children’s Hospital.

Before puberty, boys report more migraine attacks than girls, according to the American Academy of Pediatrics. But that reverses in adolescence: By age 17, as many as 8% of boys and 23% of girls have had migraine. To diagnose migraine, Juliana H. VanderPluym, MD, associate professor of neurology at Mayo Clinic in Phoenix, said she uses the criteria published in the latest edition of the International Classification of Headache Disorders (ICHD): A patient must have had at least five attacks in their life; and in children and adolescents, the attacks must last no less than 2 hours.

In addition, the headaches should exhibit at least two out of four features:

1. Occur more on one side of the head than the other (although Dr. VanderPluym said in children and adolescents headaches often are bilateral).

2. Be of moderate to severe intensity.

3. Have a pounding or throbbing quality.

4. Grow worse with activity or cause an avoidance of activity.

If the attacks meet those criteria, clinicians should check to see if they meet at least one out of the two following:

1. Are sensitive to light and sounds.

2. Are associated with nausea and/or vomiting.

A clinician should consider whether the headaches are not better accounted for by another diagnosis, according to the ICHD criteria. But, Dr. VanderPluym warned that does not necessarily mean running a slew of tests.

“In the absence of red flag features, it is more than likely going to be migraine headache,” she said. That’s especially true if a child has a family history of migraine, as the condition is often passed down from parent to child.

Ultimately, the diagnosis is fairly simple and can be made in a minute or less, said Jack Gladstein, MD, a pediatrician at the University of Maryland whose research focuses on the clinical care of children and adolescents with headache.

“Migraine is acute,” Dr. Gladstein said. “It’s really bad. And it’s recurrent.”
 

First line of treatment

Whatever a patient takes to treat a migraine, they should hit it early and hard, Dr. Gladstein said.

“The first thing you say, as a primary care physician, is treat your migraine at first twinge, whatever you use. Don’t wait, don’t wish it away,” he said. “The longer you wait, the less chance anything will work.”

The second piece of advice, Dr. Gladstein said, is that whatever drug a patient is taking, they should be on the highest feasible dose. “Work as fast as you can to treat them. You want the brain to reset as quickly as you can,” he said.

Patients should begin with over-the-counter pain relievers, Dr. Little said. If those prove insufficient, they can try a triptan. Rizatriptan is the only such agent that the Food and Drug Administration has approved for children aged 6-17 years. Other drugs in the class – sumatriptan/naproxen, almotriptan, and zolmitriptan – are approved for children 12 and older.

Another migraine therapy recently approved for children aged 12 and older is the use of neurostimulators. “It’s helpful to be aware of them,” Dr. VanderPluym said.

However, if neurostimulators and acute medications prove insufficient, clinicians should warn patients not to up their doses of triptans. Rebound headaches can occur if patients take triptans more than twice a week, or a maximum 10 days per month.

Another possibility is to add a preventive therapy. One mild, first option is nutraceuticals, like riboflavin (vitamin B₂) or magnesium, said Anisa F. Kelley, MD, a neurologist and associate director of the headache program at the Ann and Robert H. Lurie Children’s Hospital of Chicago.

“We don’t have definitive evidence, but they’re probably doing more benefit than they are harm,” Dr. Kelley said of these therapies. “In patients who have anywhere from 4 to 8 migraine days a month, where you’re in that in-between period where you don’t necessarily need a [prescription] prophylactic, I will often start with a nutraceutical,” Dr. Kelley said.

For those patients who don’t respond to nutraceuticals, or who need more support, clinicians can prescribe amitriptyline or topiramate. Dr. VanderPluym said.

A 2017 study found such prophylactics to be no more effective than placebo in pediatric migraine patients, but experts caution the results should not be considered definitive.

For one thing, the study enrolled a highly selective group of participants, with milder forms of migraine who may have improved anyway, Dr. VanderPluym said. All participants also received lifestyle counseling.

Every time participants came in for a follow-up, they were asked questions such as how much water were they drinking and how much sleep were they getting, Dr. Kelley noted. The takeaway, she said: “Pediatric and adolescent migraine [management] is very, very much reliant on lifestyle factors.”
 

Lifestyle triggers

Clinicians should counsel their migraine patients about lifestyle changes, experts said. Getting adequate sleep, staying hydrated, and managing stress can help reduce the intensity and frequency of attacks.

Migraine patients should also be mindful of their screen time, Dr. Kelley added.

“I’ve had lots and lots of patients who find excessive screen time will trigger or worsen migraine,” she said.

As for other potential triggers of attacks, the evidence is mixed.

“There’s clearly an association with disrupted sleep and migraine, and that has been very well established,” Dr. Little said. “And there is some modest amount of evidence that regular exercise can be helpful.” But for reported food triggers, he said, there have been very inconclusive results.

Commonly reported triggers include MSG, red wine, chocolate, and aged cheese. When Dr. Little’s patients keep headache diaries, tracking their meals alongside when they got migraine attacks, they often discover individualized triggers – strawberries, for instance, in one case, he said.

Scientists believe migraines result from the inappropriate activation of the trigeminal ganglion. “The question is, what causes it to get triggered? And how does it get triggered?” Dr. Gladstein said. “And that’s where there’s a lot of difference of opinion and no conclusive evidence.” Clinicians also should make sure that something else – usually depression, anxiety, insomnia, and dizziness – is not hindering effective migraine management. “If someone has terrible insomnia, until you treat the insomnia, the headaches aren’t going to get better,” he said.

As for Mira, her migraine attacks did not significantly improve, despite trying triptans, prophylactics, lifestyle changes, and shots to block nerve pain. When the headaches threatened Mira’s chance to go to her prom, her neurologist suggested trying something different. The physician persuaded the family’s insurance to cover a calcitonin gene-related peptide antagonist, an injectable monoclonal antibody treatment for migraine that the FDA has currently approved only for use in adults.

The difference for Mira has been extraordinary.

“I can do so much more than I was able to do,” said Mira, who attended the dance migraine free. “I feel liberated.”

It’s only migraine

One of the greatest challenges in diagnosing migraine can be reassuring the patient, the parents, even clinicians themselves that migraine really is the cause of all this pain and discomfort, experts said.

“A lot of migraine treatment actually comes down to migraine education,” Dr. VanderPluym said.

Patients and their parents often wonder how they can be sure that this pain is not resulting from something more dangerous than migraine, Dr. Little said. In these cases, he cites practice guidelines published by the American Academy of Neurology.

“The gist of those guidelines is that most pediatric patients do not need further workup,” he said. “But I think that there’s always a fear that you’re missing something because we don’t have a test that we can do” for migraine.

Some warning signs that further tests might be warranted, Dr. Kelley said, include:

• Headaches that wake a patient up in the middle of the night.
• Headaches that start first thing in the morning, especially those that include vomiting.
• A headache pattern that suddenly gets much worse.
• Certain symptoms that accompany the headache, such as tingling, numbness or double vision.

Although all of these signs can still stem from migraines – tingling or numbness, for instance, can be signs of migraine aura – running additional tests can rule out more serious concerns, she said.

SAN FRANCISCO – Widely anticipated data from a phase 3 trial of the monoclonal antibody lecanemab suggest the drug “modestly” relieved cognitive impairment in patients with early Alzheimer’s disease (AD) – but at a cost.

In the CLARITY AD trial, adverse events (AEs) were common compared with placebo, including amyloid-related edema and effusions; and a recent news report linked a second death to the drug.

Moving forward, “longer trials are warranted to determine the efficacy and safety of lecanemab in early Alzheimer’s disease,” wrote Christopher H. van Dyck, MD, Yale University, New Haven, Conn., and colleagues.

The full trial findings were presented at the Clinical Trials on Alzheimer’s Disease (CTAD) conference, with simultaneous publication on Nov. 29 in the New England Journal of Medicine.
 

Complications in the field

The phase 3 trial of lecanemab has been closely watched in AD circles, especially considering positive early data released in September and reported by this news organization at that time.

The Food and Drug Administration is expected to make a decision about possible approval of the drug in January 2023. Only one other antiamyloid treatment, the highly controversial and expensive aducanumab (Aduhelm), is currently approved by the FDA.

For the new 18-month, randomized, double-blind CLARITY AD trial, researchers enrolled 1,795 patients aged 50-90 years (average age, 71 years) with early AD. All were randomly assigned to receive either a placebo (n = 898) or intravenous lecanemab, a humanized immunoglobulin G1 (IgG1) monoclonal antibody that selectively targets amyloid beta (A-beta) protofibrils, at 10 mg/kg of body weight every 2 weeks (n = 897).

The study ran from 2019 to 2021. The participants (52% women, 20% non-White) were recruited in North America, Europe, and Asia. Safety data included all participants, and the modified intention-to-treat group included 1,734 participants, with 859 receiving lecanemab and 875 receiving placebo.

The primary endpoint was the Clinical Dementia Rating–Sum of Boxes (CDR-SB). Scores from 0.5 to 6 are signs of early AD, according to the study. The mean baseline score for both groups was 3.2. The adjusted mean change at 18 months was 1.21 for lecanemab versus 1.66 for placebo (difference, –0.45; 95% confidence interval [CI], –0.67 to –0.23; P < .001).

As Dr. van Dyck noted in his presentation at the CTAD meting, this represents a 27% slowing of the decline in the lecanemab group.

The published findings do not speculate about how this difference would affect the day-to-day life of participants who took the drug, although it does refer to “modestly less decline” of cognition/function in the lecanemab group.

Other measurements that suggest cognitive improvements in the lecanemab group versus placebo include the Alzheimer’s Disease Assessment Scale–Cognitive Subscale score (mean difference, –1.44; 95% CI, –2.27 to –0.61), the Alzheimer’s Disease Composite Score (mean difference, –0.05; 95% CI, –.074 to –.027,), and the Alzheimer’s Disease Cooperative Study–Activities of Daily Living Scale for Mild Cognitive Impairment score (mean difference, 2.0; 95% CI, 1.2-2.8; all, P < .001).

Overall, Dr. van Dyck said, “Lecanemab met the primary and secondary endpoints versus placebo at 18 months, with highly significant differences starting at 6 months.”

In a substudy of 698 participants, results showed that amyloid burden fell at a higher rate in the lecanemab group than in the placebo group (difference, –59.1 centiloids; 95% CI, –62.6 to –55.6).

“Lecanemab has high selectivity for soluble aggregated species of A-beta as compared with monomeric amyloid, with moderate selectivity for fibrillar amyloid; this profile is considered to target the most toxic pathologic amyloid species,” the researchers wrote.
 

Concerning AE data

With respect to AEs, deaths occurred in both groups (0.7% in those who took lecanemab and 0.8% in those who took the placebo). The researchers did not attribute any deaths to the drug. However, according to a report in the journal Science published Nov. 27, a 65-year-old woman who was taking the drug as part of a clinical trial “recently died from a massive brain hemorrhage that some researchers link to the drug.”

The woman, the second person “whose death was linked to lecanemab,” died after suffering a stroke. Researchers summarized a case report as saying that the drug “contributed to her brain hemorrhage after biweekly infusions of lecanemab inflamed and weakened the blood vessels.”

Eisai, which sponsored the new trial, told Science that “all the available safety information indicates that lecanemab therapy is not associated with an increased risk of death overall or from any specific cause.”

In a CTAD presentation, study coauthor Marwan Sabbagh, MD, Barrow Neurological Institute, Phoenix, said two hemorrhage-related deaths occurred in an open-label extension. One was in the context of a tissue plasminogen activator treatment for a stroke, which fits with the description of the case in the Science report. “Causality with lecanemab is a little difficult ...,” he said. “Patients on anticoagulation might need further consideration.”

In the CLARITY AD Trial, serious AEs occurred in 14% of the lecanemab group, leading to discontinuation 6.9% of the time, and in 11.3% of the placebo group, leading to discontinuation 2.9% of the time, the investigators reported.

They added that, in the lecanemab group, the most common AEs, defined as affecting more than 10% of participants, were infusion-related reactions (26.4% vs. 7.4% for placebo); amyloid-related imaging abnormalities with cerebral microhemorrhages, cerebral macrohemorrhages, or superficial siderosis (17.3% vs. 9%, respectively); amyloid-related imaging abnormalities with edema or effusions (12.6% vs. 1.7%); headache (11.1% vs. 8.1%); and falls (10.4% vs. 9.6%).

In addition, macrohemorrhage was reported in 0.6% of the lecanemab group and 0.1% of the placebo group.
 

Cautious optimism

In separate interviews, two Alzheimer’s specialists who weren’t involved in the study praised the trial and described the findings as “exciting.” But they also highlighted its limitations.

Alvaro Pascual-Leone, MD, PhD, professor of neurology at Harvard Medical School and chief medical officer of Linus Health, said the study represents impressive progress after 60-plus trials examining anti-amyloid monoclonal antibodies. “This is the first trial that shows a clinical benefit that can be measured,” he said.

However, it’s unclear whether the changes “are really going to make a difference in people’s lives,” he said. The drug is likely to be expensive, owing to the large investment needed for research, he added, and patients will have to undergo costly testing, such as PET scans and spinal taps.

Still, “this could be a valuable adjunct to the armamentarium we have,” which includes interventions such as lifestyle changes, he said.

Howard Fillit, MD, cofounder and chief science officer at the Alzheimer’s Drug Discovery Foundation, noted that the trial reached its primary and secondary endpoints and that the drug had what he called a “modest” effect on cognition.

However, the drugmaker will need to explore the adverse effects, he said, especially among patients with atrial fibrillation who take anticoagulants. And, he said, medicine is still far from the ultimate goal – fully reversing cognitive decline.

Michael Weiner, MD, president of the CTAD22 Scientific Committee, noted in a press release that there is “growing evidence” that some antiamyloid therapies, “especially lecanemab and donanemab” have shown promising results.

“Unfortunately, these treatments are also associated with abnormal differences seen in imaging, including brain swelling and bleeding in the brain,” said Dr. Weiner, professor of radiology, medicine, and neurology at the University of California, San Francisco.

“There is considerable controversy concerning the significance and impact of these findings, including whether or not governments and medical insurance will provide financial coverage for such treatments,” he added.
 

Rave reviews from the Alzheimer’s Association

In a statement, the Alzheimer’s Association raved about lecanemab and declared that the FDA should approve lecanemab on an accelerated basis. The study “confirms this treatment can meaningfully change the course of the disease for people in the earliest stages of Alzheimer’s disease ...” the association said, adding that “it could mean many months more of recognizing their spouse, children and grandchildren.”

The association, which is a staunch supporter of aducanumab, called on the Centers for Medicare & Medicaid Services to cover the drug if the FDA approves it. The association’s statement did not address the drug’s potential high cost, the adverse effects, or the two reported deaths.

The trial was supported by Eisai (regulatory sponsor) with partial funding from Biogen. Dr. van Dyck reports having received research grants from Biogen, Eisai, Biohaven, Cerevel Therapeutics, Eli Lilly, Genentech, Janssen, Novartis, and UCB. He has been a consultant to Cerevel, Eisai, Ono Pharmaceutical, and Roche. Relevant financial relationships for the other investigators are fully listed in the original article.

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

SAN FRANCISCO – Widely anticipated data from a phase 3 trial of the monoclonal antibody lecanemab suggest the drug “modestly” relieved cognitive impairment in patients with early Alzheimer’s disease (AD) – but at a cost.

In the CLARITY AD trial, adverse events (AEs) were common compared with placebo, including amyloid-related edema and effusions; and a recent news report linked a second death to the drug.

Moving forward, “longer trials are warranted to determine the efficacy and safety of lecanemab in early Alzheimer’s disease,” wrote Christopher H. van Dyck, MD, Yale University, New Haven, Conn., and colleagues.

The full trial findings were presented at the Clinical Trials on Alzheimer’s Disease (CTAD) conference, with simultaneous publication on Nov. 29 in the New England Journal of Medicine.
 

Complications in the field

The phase 3 trial of lecanemab has been closely watched in AD circles, especially considering positive early data released in September and reported by this news organization at that time.

The Food and Drug Administration is expected to make a decision about possible approval of the drug in January 2023. Only one other antiamyloid treatment, the highly controversial and expensive aducanumab (Aduhelm), is currently approved by the FDA.

For the new 18-month, randomized, double-blind CLARITY AD trial, researchers enrolled 1,795 patients aged 50-90 years (average age, 71 years) with early AD. All were randomly assigned to receive either a placebo (n = 898) or intravenous lecanemab, a humanized immunoglobulin G1 (IgG1) monoclonal antibody that selectively targets amyloid beta (A-beta) protofibrils, at 10 mg/kg of body weight every 2 weeks (n = 897).

The study ran from 2019 to 2021. The participants (52% women, 20% non-White) were recruited in North America, Europe, and Asia. Safety data included all participants, and the modified intention-to-treat group included 1,734 participants, with 859 receiving lecanemab and 875 receiving placebo.

The primary endpoint was the Clinical Dementia Rating–Sum of Boxes (CDR-SB). Scores from 0.5 to 6 are signs of early AD, according to the study. The mean baseline score for both groups was 3.2. The adjusted mean change at 18 months was 1.21 for lecanemab versus 1.66 for placebo (difference, –0.45; 95% confidence interval [CI], –0.67 to –0.23; P < .001).

As Dr. van Dyck noted in his presentation at the CTAD meting, this represents a 27% slowing of the decline in the lecanemab group.

The published findings do not speculate about how this difference would affect the day-to-day life of participants who took the drug, although it does refer to “modestly less decline” of cognition/function in the lecanemab group.

Other measurements that suggest cognitive improvements in the lecanemab group versus placebo include the Alzheimer’s Disease Assessment Scale–Cognitive Subscale score (mean difference, –1.44; 95% CI, –2.27 to –0.61), the Alzheimer’s Disease Composite Score (mean difference, –0.05; 95% CI, –.074 to –.027,), and the Alzheimer’s Disease Cooperative Study–Activities of Daily Living Scale for Mild Cognitive Impairment score (mean difference, 2.0; 95% CI, 1.2-2.8; all, P < .001).

Overall, Dr. van Dyck said, “Lecanemab met the primary and secondary endpoints versus placebo at 18 months, with highly significant differences starting at 6 months.”

In a substudy of 698 participants, results showed that amyloid burden fell at a higher rate in the lecanemab group than in the placebo group (difference, –59.1 centiloids; 95% CI, –62.6 to –55.6).

“Lecanemab has high selectivity for soluble aggregated species of A-beta as compared with monomeric amyloid, with moderate selectivity for fibrillar amyloid; this profile is considered to target the most toxic pathologic amyloid species,” the researchers wrote.
 

Concerning AE data

With respect to AEs, deaths occurred in both groups (0.7% in those who took lecanemab and 0.8% in those who took the placebo). The researchers did not attribute any deaths to the drug. However, according to a report in the journal Science published Nov. 27, a 65-year-old woman who was taking the drug as part of a clinical trial “recently died from a massive brain hemorrhage that some researchers link to the drug.”

The woman, the second person “whose death was linked to lecanemab,” died after suffering a stroke. Researchers summarized a case report as saying that the drug “contributed to her brain hemorrhage after biweekly infusions of lecanemab inflamed and weakened the blood vessels.”

Eisai, which sponsored the new trial, told Science that “all the available safety information indicates that lecanemab therapy is not associated with an increased risk of death overall or from any specific cause.”

In a CTAD presentation, study coauthor Marwan Sabbagh, MD, Barrow Neurological Institute, Phoenix, said two hemorrhage-related deaths occurred in an open-label extension. One was in the context of a tissue plasminogen activator treatment for a stroke, which fits with the description of the case in the Science report. “Causality with lecanemab is a little difficult ...,” he said. “Patients on anticoagulation might need further consideration.”

In the CLARITY AD Trial, serious AEs occurred in 14% of the lecanemab group, leading to discontinuation 6.9% of the time, and in 11.3% of the placebo group, leading to discontinuation 2.9% of the time, the investigators reported.

They added that, in the lecanemab group, the most common AEs, defined as affecting more than 10% of participants, were infusion-related reactions (26.4% vs. 7.4% for placebo); amyloid-related imaging abnormalities with cerebral microhemorrhages, cerebral macrohemorrhages, or superficial siderosis (17.3% vs. 9%, respectively); amyloid-related imaging abnormalities with edema or effusions (12.6% vs. 1.7%); headache (11.1% vs. 8.1%); and falls (10.4% vs. 9.6%).

In addition, macrohemorrhage was reported in 0.6% of the lecanemab group and 0.1% of the placebo group.
 

Cautious optimism

In separate interviews, two Alzheimer’s specialists who weren’t involved in the study praised the trial and described the findings as “exciting.” But they also highlighted its limitations.

Alvaro Pascual-Leone, MD, PhD, professor of neurology at Harvard Medical School and chief medical officer of Linus Health, said the study represents impressive progress after 60-plus trials examining anti-amyloid monoclonal antibodies. “This is the first trial that shows a clinical benefit that can be measured,” he said.

However, it’s unclear whether the changes “are really going to make a difference in people’s lives,” he said. The drug is likely to be expensive, owing to the large investment needed for research, he added, and patients will have to undergo costly testing, such as PET scans and spinal taps.

Still, “this could be a valuable adjunct to the armamentarium we have,” which includes interventions such as lifestyle changes, he said.

Howard Fillit, MD, cofounder and chief science officer at the Alzheimer’s Drug Discovery Foundation, noted that the trial reached its primary and secondary endpoints and that the drug had what he called a “modest” effect on cognition.

However, the drugmaker will need to explore the adverse effects, he said, especially among patients with atrial fibrillation who take anticoagulants. And, he said, medicine is still far from the ultimate goal – fully reversing cognitive decline.

Michael Weiner, MD, president of the CTAD22 Scientific Committee, noted in a press release that there is “growing evidence” that some antiamyloid therapies, “especially lecanemab and donanemab” have shown promising results.

“Unfortunately, these treatments are also associated with abnormal differences seen in imaging, including brain swelling and bleeding in the brain,” said Dr. Weiner, professor of radiology, medicine, and neurology at the University of California, San Francisco.

“There is considerable controversy concerning the significance and impact of these findings, including whether or not governments and medical insurance will provide financial coverage for such treatments,” he added.
 

Rave reviews from the Alzheimer’s Association

In a statement, the Alzheimer’s Association raved about lecanemab and declared that the FDA should approve lecanemab on an accelerated basis. The study “confirms this treatment can meaningfully change the course of the disease for people in the earliest stages of Alzheimer’s disease ...” the association said, adding that “it could mean many months more of recognizing their spouse, children and grandchildren.”

The association, which is a staunch supporter of aducanumab, called on the Centers for Medicare & Medicaid Services to cover the drug if the FDA approves it. The association’s statement did not address the drug’s potential high cost, the adverse effects, or the two reported deaths.

The trial was supported by Eisai (regulatory sponsor) with partial funding from Biogen. Dr. van Dyck reports having received research grants from Biogen, Eisai, Biohaven, Cerevel Therapeutics, Eli Lilly, Genentech, Janssen, Novartis, and UCB. He has been a consultant to Cerevel, Eisai, Ono Pharmaceutical, and Roche. Relevant financial relationships for the other investigators are fully listed in the original article.

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

SAN FRANCISCO – Widely anticipated data from a phase 3 trial of the monoclonal antibody lecanemab suggest the drug “modestly” relieved cognitive impairment in patients with early Alzheimer’s disease (AD) – but at a cost.

In the CLARITY AD trial, adverse events (AEs) were common compared with placebo, including amyloid-related edema and effusions; and a recent news report linked a second death to the drug.

Moving forward, “longer trials are warranted to determine the efficacy and safety of lecanemab in early Alzheimer’s disease,” wrote Christopher H. van Dyck, MD, Yale University, New Haven, Conn., and colleagues.

The full trial findings were presented at the Clinical Trials on Alzheimer’s Disease (CTAD) conference, with simultaneous publication on Nov. 29 in the New England Journal of Medicine.
 

Complications in the field

The phase 3 trial of lecanemab has been closely watched in AD circles, especially considering positive early data released in September and reported by this news organization at that time.

The Food and Drug Administration is expected to make a decision about possible approval of the drug in January 2023. Only one other antiamyloid treatment, the highly controversial and expensive aducanumab (Aduhelm), is currently approved by the FDA.

For the new 18-month, randomized, double-blind CLARITY AD trial, researchers enrolled 1,795 patients aged 50-90 years (average age, 71 years) with early AD. All were randomly assigned to receive either a placebo (n = 898) or intravenous lecanemab, a humanized immunoglobulin G1 (IgG1) monoclonal antibody that selectively targets amyloid beta (A-beta) protofibrils, at 10 mg/kg of body weight every 2 weeks (n = 897).

The study ran from 2019 to 2021. The participants (52% women, 20% non-White) were recruited in North America, Europe, and Asia. Safety data included all participants, and the modified intention-to-treat group included 1,734 participants, with 859 receiving lecanemab and 875 receiving placebo.

The primary endpoint was the Clinical Dementia Rating–Sum of Boxes (CDR-SB). Scores from 0.5 to 6 are signs of early AD, according to the study. The mean baseline score for both groups was 3.2. The adjusted mean change at 18 months was 1.21 for lecanemab versus 1.66 for placebo (difference, –0.45; 95% confidence interval [CI], –0.67 to –0.23; P < .001).

As Dr. van Dyck noted in his presentation at the CTAD meting, this represents a 27% slowing of the decline in the lecanemab group.

The published findings do not speculate about how this difference would affect the day-to-day life of participants who took the drug, although it does refer to “modestly less decline” of cognition/function in the lecanemab group.

Other measurements that suggest cognitive improvements in the lecanemab group versus placebo include the Alzheimer’s Disease Assessment Scale–Cognitive Subscale score (mean difference, –1.44; 95% CI, –2.27 to –0.61), the Alzheimer’s Disease Composite Score (mean difference, –0.05; 95% CI, –.074 to –.027,), and the Alzheimer’s Disease Cooperative Study–Activities of Daily Living Scale for Mild Cognitive Impairment score (mean difference, 2.0; 95% CI, 1.2-2.8; all, P < .001).

Overall, Dr. van Dyck said, “Lecanemab met the primary and secondary endpoints versus placebo at 18 months, with highly significant differences starting at 6 months.”

In a substudy of 698 participants, results showed that amyloid burden fell at a higher rate in the lecanemab group than in the placebo group (difference, –59.1 centiloids; 95% CI, –62.6 to –55.6).

“Lecanemab has high selectivity for soluble aggregated species of A-beta as compared with monomeric amyloid, with moderate selectivity for fibrillar amyloid; this profile is considered to target the most toxic pathologic amyloid species,” the researchers wrote.
 

Concerning AE data

With respect to AEs, deaths occurred in both groups (0.7% in those who took lecanemab and 0.8% in those who took the placebo). The researchers did not attribute any deaths to the drug. However, according to a report in the journal Science published Nov. 27, a 65-year-old woman who was taking the drug as part of a clinical trial “recently died from a massive brain hemorrhage that some researchers link to the drug.”

The woman, the second person “whose death was linked to lecanemab,” died after suffering a stroke. Researchers summarized a case report as saying that the drug “contributed to her brain hemorrhage after biweekly infusions of lecanemab inflamed and weakened the blood vessels.”

Eisai, which sponsored the new trial, told Science that “all the available safety information indicates that lecanemab therapy is not associated with an increased risk of death overall or from any specific cause.”

In a CTAD presentation, study coauthor Marwan Sabbagh, MD, Barrow Neurological Institute, Phoenix, said two hemorrhage-related deaths occurred in an open-label extension. One was in the context of a tissue plasminogen activator treatment for a stroke, which fits with the description of the case in the Science report. “Causality with lecanemab is a little difficult ...,” he said. “Patients on anticoagulation might need further consideration.”

In the CLARITY AD Trial, serious AEs occurred in 14% of the lecanemab group, leading to discontinuation 6.9% of the time, and in 11.3% of the placebo group, leading to discontinuation 2.9% of the time, the investigators reported.

They added that, in the lecanemab group, the most common AEs, defined as affecting more than 10% of participants, were infusion-related reactions (26.4% vs. 7.4% for placebo); amyloid-related imaging abnormalities with cerebral microhemorrhages, cerebral macrohemorrhages, or superficial siderosis (17.3% vs. 9%, respectively); amyloid-related imaging abnormalities with edema or effusions (12.6% vs. 1.7%); headache (11.1% vs. 8.1%); and falls (10.4% vs. 9.6%).

In addition, macrohemorrhage was reported in 0.6% of the lecanemab group and 0.1% of the placebo group.
 

Cautious optimism

In separate interviews, two Alzheimer’s specialists who weren’t involved in the study praised the trial and described the findings as “exciting.” But they also highlighted its limitations.

Alvaro Pascual-Leone, MD, PhD, professor of neurology at Harvard Medical School and chief medical officer of Linus Health, said the study represents impressive progress after 60-plus trials examining anti-amyloid monoclonal antibodies. “This is the first trial that shows a clinical benefit that can be measured,” he said.

However, it’s unclear whether the changes “are really going to make a difference in people’s lives,” he said. The drug is likely to be expensive, owing to the large investment needed for research, he added, and patients will have to undergo costly testing, such as PET scans and spinal taps.

Still, “this could be a valuable adjunct to the armamentarium we have,” which includes interventions such as lifestyle changes, he said.

Howard Fillit, MD, cofounder and chief science officer at the Alzheimer’s Drug Discovery Foundation, noted that the trial reached its primary and secondary endpoints and that the drug had what he called a “modest” effect on cognition.

However, the drugmaker will need to explore the adverse effects, he said, especially among patients with atrial fibrillation who take anticoagulants. And, he said, medicine is still far from the ultimate goal – fully reversing cognitive decline.

Michael Weiner, MD, president of the CTAD22 Scientific Committee, noted in a press release that there is “growing evidence” that some antiamyloid therapies, “especially lecanemab and donanemab” have shown promising results.

“Unfortunately, these treatments are also associated with abnormal differences seen in imaging, including brain swelling and bleeding in the brain,” said Dr. Weiner, professor of radiology, medicine, and neurology at the University of California, San Francisco.

“There is considerable controversy concerning the significance and impact of these findings, including whether or not governments and medical insurance will provide financial coverage for such treatments,” he added.
 

Rave reviews from the Alzheimer’s Association

In a statement, the Alzheimer’s Association raved about lecanemab and declared that the FDA should approve lecanemab on an accelerated basis. The study “confirms this treatment can meaningfully change the course of the disease for people in the earliest stages of Alzheimer’s disease ...” the association said, adding that “it could mean many months more of recognizing their spouse, children and grandchildren.”

The association, which is a staunch supporter of aducanumab, called on the Centers for Medicare & Medicaid Services to cover the drug if the FDA approves it. The association’s statement did not address the drug’s potential high cost, the adverse effects, or the two reported deaths.

The trial was supported by Eisai (regulatory sponsor) with partial funding from Biogen. Dr. van Dyck reports having received research grants from Biogen, Eisai, Biohaven, Cerevel Therapeutics, Eli Lilly, Genentech, Janssen, Novartis, and UCB. He has been a consultant to Cerevel, Eisai, Ono Pharmaceutical, and Roche. Relevant financial relationships for the other investigators are fully listed in the original article.

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

Strength training is the most effective form of exercise for reducing migraine, with high-intensity aerobics coming in second, and both beating top-line migraine medications topiramate and amitriptyline, new research suggests.

The new results should encourage clinicians to recommend patients with migraine engage in strength-training exercise whenever possible, study investigator Yohannes W. Woldeamanuel, MD, a physician-scientist and instructor, department of neurology and neurological sciences, Stanford (Calif.) University, told this news organization.

“Exercise is something patients can do all their lives and use it to prevent migraine attacks instead of taking daily medications or repetitive injections that have several adverse effects.”

The findings were published online in the Journal of Headache and Pain.
 

Head-to-head comparison

Several clinical trials have shown exercise is effective for migraine management, but to date, there have been no head-to-head comparisons of strength training and aerobic exercise, said Dr. Woldeamanuel.

This new study used a systematic review with network meta-analysis (NMA), which compares multiple interventions and ranks the efficacy of each one.

After a literature search, researchers included 21 clinical trials with an exercise regimen arm and a comparison control arm. All study data reported monthly frequency of migraine at baseline and at the end of the intervention.

The total combined sample size was 1,195 patients with migraine, who were a mean age of 35.5 years, with a female-to-male ratio of 6.7:1. All studies used International Classification of Headache Disorders (ICHD) criteria for migraine diagnosis.

The NMA provided 27 pairwise comparisons and 8 indirect comparisons. The pairwise comparisons provided direct evidence between the different interventions.

Researchers combined strength training, including weightlifting, with resistance training. Both modalities target muscles, while aerobic exercise targets cardiovascular health.

The average number of weeks was 9.3, 9.3, and 10.7, and the average number of hours per session for strength/resistance training, high-intensity aerobic exercise, and moderate-intensity aerobic exercise interventions was 50, 56, and 45.3, respectively.

The analysis showed all exercise interventions were more effective than the placebo groups in reducing the frequency of migraine. In terms of ranking, strength training came out on top, with a mean difference in monthly migraine days of −3.55 (95% confidence interval, −6.15 to −0.95) between the active and placebo groups.

Next was high-intensity aerobic exercise (−3.13; 95% CI, −5.28 to −0.97) and moderate-intensity aerobic exercise (−2.18; 95% CI, −3.25 to −1.11), followed by topiramate, placebo, and then amitriptyline.

Strength/resistance training was superior possibly because it targets muscle strengthening, particularly major muscles in the neck and shoulder area, which can be a source of the pain trigger, said Dr. Woldeamanuel. He added neck pain is highly comorbid with migraine.

Interestingly, patients doing exercises that focus on unaffected muscles – for example, squats – still get the benefits of less migraine burden, said Dr. Woldeamanuel.
 

Training recommendations

Strength training also increases or preserves lean muscle mass, which is associated with reduced migraine frequency. Research shows preservation of lean body mass combats central sensitization in various pain syndromes, said Dr. Woldeamanuel.

The superior effects of high- versus moderate-intensity aerobic exercise may be due to recruitment of endogenous molecules involved in exercise-mediated hypoalgesia (pain reduction).

The most common pathways are the opioid and endocannabinoid systems, although other systems are also likely involved, said Dr. Woldeamanuel. He noted migraine has been linked to a deficiency of both opioidergic and endocannabinoidergic signaling.

Dr. Woldeamanuel commented on the difficulty of comparing exercise interventions for patients with chronic versus episodic migraine, as many studies include both.

However, the two studies with moderate-intensity aerobic exercise exclusively involving patients with chronic migraine showed large effect sizes (Cohen’s d) of 0.80 and 1.10 in reducing monthly headache frequency.

Based on these new results and their own experience, the researchers recommend strength training start with 50% of repetition maximum (RM) with 2-3 sets of 12-15 repetitions three times a week along with 10 minutes of warm-up, stretching, and cool-down, totaling 45-60 minutes per session. Weight/resistance load can then be increased weekly by 5% of RM if the patient is capable of successfully completing three sets.

They also recommend including active recovery days (low-intensity exercise) between training days. All major muscles, including neck, shoulder, and upper limb muscles, should be trained in a rotation.

For high-intensity aerobic exercise, the authors recommend starting with interval training at 55% VO_2max (maximum respiratory capacity), or 50% HRmax (maximal heart rate) for 45-60 minutes per session, including 10 minutes of warm-up and cool-down, three times per week. The intensity can then be increased by 5%-10% each week to reach a maximum target of 80%-90% by week 12.

It is best for patients to start with a trainer for guidance and supervision, but once they master the routines, they can do the exercises independently, said Dr. Woldeamanuel.
 

Managing flare-ups

Headache flare-ups are normal during exercise, which may be caused by “boom and bust cycles” – exercising excessively when feeling good then completely stopping when feeling bad, said Dr. Woldeamanuel. He noted these flare-ups don’t mean “there’s something wrong with the brain or there’s some injury to muscles.”

The best way to manage such flare-ups is to use a pacing strategy that involves “not going overboard on good days and avoiding excessive rest on bad days,” the investigators note.

Dr. Woldeamanuel noted exercise is a lifestyle-based intervention; it not only helps reduce migraine attacks but also helps control other known comorbidities such as obesity and hypertension.

In a comment, Elizabeth Loder, MD, vice-chair, academic affairs, department of neurology, Brigham and Women’s Hospital, and professor of neurology, Harvard Medical School, both in Boston, said, “It’s useful to collect and summarize all of these studies, and to focus on helping patients and doctors understand the possible value of different kinds of exercise.”

The review was “well done,” said Dr. Loder, adding the researchers “have looked carefully at the quality of included studies.”

The study received support from the National Institute of Neurological Disorders and Stroke of the National Institutes of Health. Dr. Woldeamanuel has reported no relevant financial relationships.

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

Strength training is the most effective form of exercise for reducing migraine, with high-intensity aerobics coming in second, and both beating top-line migraine medications topiramate and amitriptyline, new research suggests.

The new results should encourage clinicians to recommend patients with migraine engage in strength-training exercise whenever possible, study investigator Yohannes W. Woldeamanuel, MD, a physician-scientist and instructor, department of neurology and neurological sciences, Stanford (Calif.) University, told this news organization.

“Exercise is something patients can do all their lives and use it to prevent migraine attacks instead of taking daily medications or repetitive injections that have several adverse effects.”

The findings were published online in the Journal of Headache and Pain.
 

Head-to-head comparison

Several clinical trials have shown exercise is effective for migraine management, but to date, there have been no head-to-head comparisons of strength training and aerobic exercise, said Dr. Woldeamanuel.

This new study used a systematic review with network meta-analysis (NMA), which compares multiple interventions and ranks the efficacy of each one.

After a literature search, researchers included 21 clinical trials with an exercise regimen arm and a comparison control arm. All study data reported monthly frequency of migraine at baseline and at the end of the intervention.

The total combined sample size was 1,195 patients with migraine, who were a mean age of 35.5 years, with a female-to-male ratio of 6.7:1. All studies used International Classification of Headache Disorders (ICHD) criteria for migraine diagnosis.

The NMA provided 27 pairwise comparisons and 8 indirect comparisons. The pairwise comparisons provided direct evidence between the different interventions.

Researchers combined strength training, including weightlifting, with resistance training. Both modalities target muscles, while aerobic exercise targets cardiovascular health.

The average number of weeks was 9.3, 9.3, and 10.7, and the average number of hours per session for strength/resistance training, high-intensity aerobic exercise, and moderate-intensity aerobic exercise interventions was 50, 56, and 45.3, respectively.

The analysis showed all exercise interventions were more effective than the placebo groups in reducing the frequency of migraine. In terms of ranking, strength training came out on top, with a mean difference in monthly migraine days of −3.55 (95% confidence interval, −6.15 to −0.95) between the active and placebo groups.

Next was high-intensity aerobic exercise (−3.13; 95% CI, −5.28 to −0.97) and moderate-intensity aerobic exercise (−2.18; 95% CI, −3.25 to −1.11), followed by topiramate, placebo, and then amitriptyline.

Strength/resistance training was superior possibly because it targets muscle strengthening, particularly major muscles in the neck and shoulder area, which can be a source of the pain trigger, said Dr. Woldeamanuel. He added neck pain is highly comorbid with migraine.

Interestingly, patients doing exercises that focus on unaffected muscles – for example, squats – still get the benefits of less migraine burden, said Dr. Woldeamanuel.
 

Training recommendations

Strength training also increases or preserves lean muscle mass, which is associated with reduced migraine frequency. Research shows preservation of lean body mass combats central sensitization in various pain syndromes, said Dr. Woldeamanuel.

The superior effects of high- versus moderate-intensity aerobic exercise may be due to recruitment of endogenous molecules involved in exercise-mediated hypoalgesia (pain reduction).

The most common pathways are the opioid and endocannabinoid systems, although other systems are also likely involved, said Dr. Woldeamanuel. He noted migraine has been linked to a deficiency of both opioidergic and endocannabinoidergic signaling.

Dr. Woldeamanuel commented on the difficulty of comparing exercise interventions for patients with chronic versus episodic migraine, as many studies include both.

However, the two studies with moderate-intensity aerobic exercise exclusively involving patients with chronic migraine showed large effect sizes (Cohen’s d) of 0.80 and 1.10 in reducing monthly headache frequency.

Based on these new results and their own experience, the researchers recommend strength training start with 50% of repetition maximum (RM) with 2-3 sets of 12-15 repetitions three times a week along with 10 minutes of warm-up, stretching, and cool-down, totaling 45-60 minutes per session. Weight/resistance load can then be increased weekly by 5% of RM if the patient is capable of successfully completing three sets.

They also recommend including active recovery days (low-intensity exercise) between training days. All major muscles, including neck, shoulder, and upper limb muscles, should be trained in a rotation.

For high-intensity aerobic exercise, the authors recommend starting with interval training at 55% VO_2max (maximum respiratory capacity), or 50% HRmax (maximal heart rate) for 45-60 minutes per session, including 10 minutes of warm-up and cool-down, three times per week. The intensity can then be increased by 5%-10% each week to reach a maximum target of 80%-90% by week 12.

It is best for patients to start with a trainer for guidance and supervision, but once they master the routines, they can do the exercises independently, said Dr. Woldeamanuel.
 

Managing flare-ups

Headache flare-ups are normal during exercise, which may be caused by “boom and bust cycles” – exercising excessively when feeling good then completely stopping when feeling bad, said Dr. Woldeamanuel. He noted these flare-ups don’t mean “there’s something wrong with the brain or there’s some injury to muscles.”

The best way to manage such flare-ups is to use a pacing strategy that involves “not going overboard on good days and avoiding excessive rest on bad days,” the investigators note.

Dr. Woldeamanuel noted exercise is a lifestyle-based intervention; it not only helps reduce migraine attacks but also helps control other known comorbidities such as obesity and hypertension.

In a comment, Elizabeth Loder, MD, vice-chair, academic affairs, department of neurology, Brigham and Women’s Hospital, and professor of neurology, Harvard Medical School, both in Boston, said, “It’s useful to collect and summarize all of these studies, and to focus on helping patients and doctors understand the possible value of different kinds of exercise.”

The review was “well done,” said Dr. Loder, adding the researchers “have looked carefully at the quality of included studies.”

The study received support from the National Institute of Neurological Disorders and Stroke of the National Institutes of Health. Dr. Woldeamanuel has reported no relevant financial relationships.

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

Strength training is the most effective form of exercise for reducing migraine, with high-intensity aerobics coming in second, and both beating top-line migraine medications topiramate and amitriptyline, new research suggests.

The new results should encourage clinicians to recommend patients with migraine engage in strength-training exercise whenever possible, study investigator Yohannes W. Woldeamanuel, MD, a physician-scientist and instructor, department of neurology and neurological sciences, Stanford (Calif.) University, told this news organization.

“Exercise is something patients can do all their lives and use it to prevent migraine attacks instead of taking daily medications or repetitive injections that have several adverse effects.”

The findings were published online in the Journal of Headache and Pain.
 

Head-to-head comparison

Several clinical trials have shown exercise is effective for migraine management, but to date, there have been no head-to-head comparisons of strength training and aerobic exercise, said Dr. Woldeamanuel.

This new study used a systematic review with network meta-analysis (NMA), which compares multiple interventions and ranks the efficacy of each one.

After a literature search, researchers included 21 clinical trials with an exercise regimen arm and a comparison control arm. All study data reported monthly frequency of migraine at baseline and at the end of the intervention.

The total combined sample size was 1,195 patients with migraine, who were a mean age of 35.5 years, with a female-to-male ratio of 6.7:1. All studies used International Classification of Headache Disorders (ICHD) criteria for migraine diagnosis.

The NMA provided 27 pairwise comparisons and 8 indirect comparisons. The pairwise comparisons provided direct evidence between the different interventions.

Researchers combined strength training, including weightlifting, with resistance training. Both modalities target muscles, while aerobic exercise targets cardiovascular health.

The average number of weeks was 9.3, 9.3, and 10.7, and the average number of hours per session for strength/resistance training, high-intensity aerobic exercise, and moderate-intensity aerobic exercise interventions was 50, 56, and 45.3, respectively.

The analysis showed all exercise interventions were more effective than the placebo groups in reducing the frequency of migraine. In terms of ranking, strength training came out on top, with a mean difference in monthly migraine days of −3.55 (95% confidence interval, −6.15 to −0.95) between the active and placebo groups.

Next was high-intensity aerobic exercise (−3.13; 95% CI, −5.28 to −0.97) and moderate-intensity aerobic exercise (−2.18; 95% CI, −3.25 to −1.11), followed by topiramate, placebo, and then amitriptyline.

Strength/resistance training was superior possibly because it targets muscle strengthening, particularly major muscles in the neck and shoulder area, which can be a source of the pain trigger, said Dr. Woldeamanuel. He added neck pain is highly comorbid with migraine.

Interestingly, patients doing exercises that focus on unaffected muscles – for example, squats – still get the benefits of less migraine burden, said Dr. Woldeamanuel.
 

Training recommendations

Strength training also increases or preserves lean muscle mass, which is associated with reduced migraine frequency. Research shows preservation of lean body mass combats central sensitization in various pain syndromes, said Dr. Woldeamanuel.

The superior effects of high- versus moderate-intensity aerobic exercise may be due to recruitment of endogenous molecules involved in exercise-mediated hypoalgesia (pain reduction).

The most common pathways are the opioid and endocannabinoid systems, although other systems are also likely involved, said Dr. Woldeamanuel. He noted migraine has been linked to a deficiency of both opioidergic and endocannabinoidergic signaling.

Dr. Woldeamanuel commented on the difficulty of comparing exercise interventions for patients with chronic versus episodic migraine, as many studies include both.

However, the two studies with moderate-intensity aerobic exercise exclusively involving patients with chronic migraine showed large effect sizes (Cohen’s d) of 0.80 and 1.10 in reducing monthly headache frequency.

Based on these new results and their own experience, the researchers recommend strength training start with 50% of repetition maximum (RM) with 2-3 sets of 12-15 repetitions three times a week along with 10 minutes of warm-up, stretching, and cool-down, totaling 45-60 minutes per session. Weight/resistance load can then be increased weekly by 5% of RM if the patient is capable of successfully completing three sets.

They also recommend including active recovery days (low-intensity exercise) between training days. All major muscles, including neck, shoulder, and upper limb muscles, should be trained in a rotation.

For high-intensity aerobic exercise, the authors recommend starting with interval training at 55% VO_2max (maximum respiratory capacity), or 50% HRmax (maximal heart rate) for 45-60 minutes per session, including 10 minutes of warm-up and cool-down, three times per week. The intensity can then be increased by 5%-10% each week to reach a maximum target of 80%-90% by week 12.

It is best for patients to start with a trainer for guidance and supervision, but once they master the routines, they can do the exercises independently, said Dr. Woldeamanuel.
 

Managing flare-ups

Headache flare-ups are normal during exercise, which may be caused by “boom and bust cycles” – exercising excessively when feeling good then completely stopping when feeling bad, said Dr. Woldeamanuel. He noted these flare-ups don’t mean “there’s something wrong with the brain or there’s some injury to muscles.”

The best way to manage such flare-ups is to use a pacing strategy that involves “not going overboard on good days and avoiding excessive rest on bad days,” the investigators note.

Dr. Woldeamanuel noted exercise is a lifestyle-based intervention; it not only helps reduce migraine attacks but also helps control other known comorbidities such as obesity and hypertension.

In a comment, Elizabeth Loder, MD, vice-chair, academic affairs, department of neurology, Brigham and Women’s Hospital, and professor of neurology, Harvard Medical School, both in Boston, said, “It’s useful to collect and summarize all of these studies, and to focus on helping patients and doctors understand the possible value of different kinds of exercise.”

The review was “well done,” said Dr. Loder, adding the researchers “have looked carefully at the quality of included studies.”

The study received support from the National Institute of Neurological Disorders and Stroke of the National Institutes of Health. Dr. Woldeamanuel has reported no relevant financial relationships.

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

Updated clinical guidelines for the early diagnosis and management of cerebral palsy have been issued by the American Academy of Pediatrics.

Coauthored with the American Academy for Cerebral Palsy and Developmental Medicine, the report builds on new evidence for improved care and outcomes since the 2006 consensus guidelines.

Cerebral palsy, the most common neuromotor disorder of childhood, is often accompanied by cognitive impairments, epilepsy, sensory impairments, behavioral problems, communication difficulties, breathing and sleep problems, gastrointestinal and nutritional problems, and bone and orthopedic problems.

In the United States, the estimated prevalence of cerebral palsy ranges from 1.5 to 4 per 1,000 live births.

“Early identification and initiation of evidence-based motor therapies can improve outcomes by taking advantage of the neuroplasticity in the infant brain,” said the guideline authors in an executive summary.

The guideline, published in Pediatrics, is directed to primary care physicians with pediatrics, family practice, or internal medicine training. “It’s a much more comprehensive overview of the important role that primary care providers play in the lifetime care of people with cerebral palsy,” explained Garey Noritz, MD, chair of the 2021-2022 Executive Committee of the Council on Children with Disabilities. Dr. Noritz, a professor of pediatrics at Ohio State University and division chief of the complex health care program at Nationwide Children’s Hospital, both in Columbus, said: “The combined efforts of the primary care physician and specialty providers are needed to achieve the best outcomes.”

The AAP recommends that primary care pediatricians, neonatologists, and other specialists caring for hospitalized newborns recognize those at high risk of cerebral palsy, diagnose them as early as possible, and promptly refer them for therapy. Primary care physicians are advised to identify motor delays early by formalizing standardized developmental surveillance and screening at 9, 18, and 30 months, and to implement family-centered care across multiple specialists.

“If a motor disorder is suspected, primary care physicians should simultaneously begin a medical evaluation, refer to a specialist for definitive diagnosis, and to therapists for treatment,” Dr. Noritz emphasized.

“The earlier any possible movement disorder is recognized and intervention begins, the better a child can develop a gait pattern and work toward living an independent life, said Manish N. Shah, MD, associate professor of pediatric neurosurgery at the University of Texas, Houston, who was not involved in developing the guidelines.

For children in whom physical therapy and medication have not reduced leg spasticity, a minimally invasive spinal procedure can help release contracted tendons and encourage independent walking. The optimal age for selective dorsal rhizotomy is about 4 years, said Dr. Shah, who is director of the Texas Comprehensive Spasticity Center at Children’s Memorial Hermann Hospital in Houston. “You can turn these children into walkers. As adults, they can get jobs, have their own families. It’s life-changing.”

Importantly, the guidelines address the health care disparities leading to a higher prevalence of cerebral palsy in Black children and in those from families with lower socioeconomic status. “Efforts to combat racism and eliminate barriers to culturally sensitive prenatal, perinatal, and later pediatric care may help to improve outcomes for all children with cerebral palsy,” the authors said.

“Every child with cerebral palsy needs an individual plan, but only 30% or 40% are getting interventions,” said Dr. Shah. The updated guidelines could help payers rethink the 15-20 visits a year that are often approved, compared with the 2-3 visits per week that are needed for speech, physical, and occupational therapy, he pointed out.

“Financial issues often compromise the interdisciplinary and coordinated care associated with favorable outcomes in children with cerebral palsy,” said Heidi Feldman, MD, PhD, a developmental and behavioral pediatric specialist at Stanford (Calif.) Medicine Children’s Health’s Johnson Center for Pregnancy and Newborn Services. “With a new guideline, there may be greater willingness to fund these essential services.”

In the meantime, the AAP recommends that pediatricians advise families about available medical, social, and educational services, such as early intervention services, the Title V Maternal and Child Health block grant program, and special education services through the public school system.

Children with cerebral palsy need the same standardized primary care as any child, including the full schedule of recommended vaccinations and vision and hearing testing. They also need to be monitored and treated for the many problems that commonly co-occur, including chronic pain.

When secondary complications arise, the frequency of visits should increase.

Pneumonia, the leading cause of death in children and adolescents with cerebral palsy, can be prevented or minimized through immunization against respiratory diseases and screening for signs and symptoms of aspiration and sleep-disordered breathing.

The AAP also recommends that symptoms or functional declines undergo full investigation into other potential causes.

Since the sedentary lifestyle associated with cerebral palsy is now known to be related to the higher rates of cardiovascular complications in this patient population, the AAP recommends more attention be paid to physical activity and a healthy diet early in life. Pediatricians are advised to help families locate suitable opportunities for adaptive sports and recreation.

Almost 50% of children and adolescents with cerebral palsy have intellectual disability, 60%-80% have difficulty speaking, and about 25% are nonverbal. To address this, pediatricians should maximize the use of augmentative and alternative communication devices and involve experts in speech and language pathology, according to the guidelines.

“Many individuals with cerebral palsy and severe motor limitations have active, creative minds, and may need assistive technology, such as electronic talking devices, to demonstrate that mental life,” said Dr. Feldman. “Primary care clinicians should advocate for assistive technology.”

For challenging behavior, especially in the patient with limited verbal skills, potential nonbehavioral culprits such as constipation, esophageal reflux disease, and musculoskeletal or dental pain must be ruled out.

In the lead-up to adolescence, youth with cerebral palsy must be prepared for puberty, menstruation, and healthy, safe sexual relationships, much like their nonaffected peers. Since a disproportionate number of children with cerebral palsy experience neglect and physical, sexual, and emotional abuse, however, family stressors should be identified and caregivers referred for support services.

For the transition from pediatric to adult health care, the AAP recommends that structured planning begin between 12 and 14 years of age. Before transfer, the pediatrician should prepare a comprehensive medical summary with the input of the patient, parent/guardian, and pediatric subspecialists.

Without a proper handoff, “there is an increased risk of morbidity, medical complications, unnecessary emergency department visits, hospitalizations, and procedures,” the authors warned.

Transitions are likely to run more smoothly when youth are given the opportunity to understand their medical condition and be involved in decisions about their health. With this in mind, the AAP recommends that pediatricians actively discourage overprotective parents from getting in the way of their child developing “maximal independence.”

No potential conflicts of interest were disclosed by the authors, Dr. Shah, or Dr. Feldman.

*This story was updated on Nov. 28, 2022.
 

Updated clinical guidelines for the early diagnosis and management of cerebral palsy have been issued by the American Academy of Pediatrics.

Coauthored with the American Academy for Cerebral Palsy and Developmental Medicine, the report builds on new evidence for improved care and outcomes since the 2006 consensus guidelines.

Cerebral palsy, the most common neuromotor disorder of childhood, is often accompanied by cognitive impairments, epilepsy, sensory impairments, behavioral problems, communication difficulties, breathing and sleep problems, gastrointestinal and nutritional problems, and bone and orthopedic problems.

In the United States, the estimated prevalence of cerebral palsy ranges from 1.5 to 4 per 1,000 live births.

“Early identification and initiation of evidence-based motor therapies can improve outcomes by taking advantage of the neuroplasticity in the infant brain,” said the guideline authors in an executive summary.

The guideline, published in Pediatrics, is directed to primary care physicians with pediatrics, family practice, or internal medicine training. “It’s a much more comprehensive overview of the important role that primary care providers play in the lifetime care of people with cerebral palsy,” explained Garey Noritz, MD, chair of the 2021-2022 Executive Committee of the Council on Children with Disabilities. Dr. Noritz, a professor of pediatrics at Ohio State University and division chief of the complex health care program at Nationwide Children’s Hospital, both in Columbus, said: “The combined efforts of the primary care physician and specialty providers are needed to achieve the best outcomes.”

The AAP recommends that primary care pediatricians, neonatologists, and other specialists caring for hospitalized newborns recognize those at high risk of cerebral palsy, diagnose them as early as possible, and promptly refer them for therapy. Primary care physicians are advised to identify motor delays early by formalizing standardized developmental surveillance and screening at 9, 18, and 30 months, and to implement family-centered care across multiple specialists.

“If a motor disorder is suspected, primary care physicians should simultaneously begin a medical evaluation, refer to a specialist for definitive diagnosis, and to therapists for treatment,” Dr. Noritz emphasized.

“The earlier any possible movement disorder is recognized and intervention begins, the better a child can develop a gait pattern and work toward living an independent life, said Manish N. Shah, MD, associate professor of pediatric neurosurgery at the University of Texas, Houston, who was not involved in developing the guidelines.

For children in whom physical therapy and medication have not reduced leg spasticity, a minimally invasive spinal procedure can help release contracted tendons and encourage independent walking. The optimal age for selective dorsal rhizotomy is about 4 years, said Dr. Shah, who is director of the Texas Comprehensive Spasticity Center at Children’s Memorial Hermann Hospital in Houston. “You can turn these children into walkers. As adults, they can get jobs, have their own families. It’s life-changing.”

Importantly, the guidelines address the health care disparities leading to a higher prevalence of cerebral palsy in Black children and in those from families with lower socioeconomic status. “Efforts to combat racism and eliminate barriers to culturally sensitive prenatal, perinatal, and later pediatric care may help to improve outcomes for all children with cerebral palsy,” the authors said.

“Every child with cerebral palsy needs an individual plan, but only 30% or 40% are getting interventions,” said Dr. Shah. The updated guidelines could help payers rethink the 15-20 visits a year that are often approved, compared with the 2-3 visits per week that are needed for speech, physical, and occupational therapy, he pointed out.

“Financial issues often compromise the interdisciplinary and coordinated care associated with favorable outcomes in children with cerebral palsy,” said Heidi Feldman, MD, PhD, a developmental and behavioral pediatric specialist at Stanford (Calif.) Medicine Children’s Health’s Johnson Center for Pregnancy and Newborn Services. “With a new guideline, there may be greater willingness to fund these essential services.”

In the meantime, the AAP recommends that pediatricians advise families about available medical, social, and educational services, such as early intervention services, the Title V Maternal and Child Health block grant program, and special education services through the public school system.

Children with cerebral palsy need the same standardized primary care as any child, including the full schedule of recommended vaccinations and vision and hearing testing. They also need to be monitored and treated for the many problems that commonly co-occur, including chronic pain.

When secondary complications arise, the frequency of visits should increase.

Pneumonia, the leading cause of death in children and adolescents with cerebral palsy, can be prevented or minimized through immunization against respiratory diseases and screening for signs and symptoms of aspiration and sleep-disordered breathing.

The AAP also recommends that symptoms or functional declines undergo full investigation into other potential causes.

Since the sedentary lifestyle associated with cerebral palsy is now known to be related to the higher rates of cardiovascular complications in this patient population, the AAP recommends more attention be paid to physical activity and a healthy diet early in life. Pediatricians are advised to help families locate suitable opportunities for adaptive sports and recreation.

Almost 50% of children and adolescents with cerebral palsy have intellectual disability, 60%-80% have difficulty speaking, and about 25% are nonverbal. To address this, pediatricians should maximize the use of augmentative and alternative communication devices and involve experts in speech and language pathology, according to the guidelines.

“Many individuals with cerebral palsy and severe motor limitations have active, creative minds, and may need assistive technology, such as electronic talking devices, to demonstrate that mental life,” said Dr. Feldman. “Primary care clinicians should advocate for assistive technology.”

For challenging behavior, especially in the patient with limited verbal skills, potential nonbehavioral culprits such as constipation, esophageal reflux disease, and musculoskeletal or dental pain must be ruled out.

In the lead-up to adolescence, youth with cerebral palsy must be prepared for puberty, menstruation, and healthy, safe sexual relationships, much like their nonaffected peers. Since a disproportionate number of children with cerebral palsy experience neglect and physical, sexual, and emotional abuse, however, family stressors should be identified and caregivers referred for support services.

For the transition from pediatric to adult health care, the AAP recommends that structured planning begin between 12 and 14 years of age. Before transfer, the pediatrician should prepare a comprehensive medical summary with the input of the patient, parent/guardian, and pediatric subspecialists.

Without a proper handoff, “there is an increased risk of morbidity, medical complications, unnecessary emergency department visits, hospitalizations, and procedures,” the authors warned.

Transitions are likely to run more smoothly when youth are given the opportunity to understand their medical condition and be involved in decisions about their health. With this in mind, the AAP recommends that pediatricians actively discourage overprotective parents from getting in the way of their child developing “maximal independence.”

No potential conflicts of interest were disclosed by the authors, Dr. Shah, or Dr. Feldman.

*This story was updated on Nov. 28, 2022.
 

Updated clinical guidelines for the early diagnosis and management of cerebral palsy have been issued by the American Academy of Pediatrics.

Coauthored with the American Academy for Cerebral Palsy and Developmental Medicine, the report builds on new evidence for improved care and outcomes since the 2006 consensus guidelines.

Cerebral palsy, the most common neuromotor disorder of childhood, is often accompanied by cognitive impairments, epilepsy, sensory impairments, behavioral problems, communication difficulties, breathing and sleep problems, gastrointestinal and nutritional problems, and bone and orthopedic problems.

In the United States, the estimated prevalence of cerebral palsy ranges from 1.5 to 4 per 1,000 live births.

“Early identification and initiation of evidence-based motor therapies can improve outcomes by taking advantage of the neuroplasticity in the infant brain,” said the guideline authors in an executive summary.

The guideline, published in Pediatrics, is directed to primary care physicians with pediatrics, family practice, or internal medicine training. “It’s a much more comprehensive overview of the important role that primary care providers play in the lifetime care of people with cerebral palsy,” explained Garey Noritz, MD, chair of the 2021-2022 Executive Committee of the Council on Children with Disabilities. Dr. Noritz, a professor of pediatrics at Ohio State University and division chief of the complex health care program at Nationwide Children’s Hospital, both in Columbus, said: “The combined efforts of the primary care physician and specialty providers are needed to achieve the best outcomes.”

The AAP recommends that primary care pediatricians, neonatologists, and other specialists caring for hospitalized newborns recognize those at high risk of cerebral palsy, diagnose them as early as possible, and promptly refer them for therapy. Primary care physicians are advised to identify motor delays early by formalizing standardized developmental surveillance and screening at 9, 18, and 30 months, and to implement family-centered care across multiple specialists.

“If a motor disorder is suspected, primary care physicians should simultaneously begin a medical evaluation, refer to a specialist for definitive diagnosis, and to therapists for treatment,” Dr. Noritz emphasized.

“The earlier any possible movement disorder is recognized and intervention begins, the better a child can develop a gait pattern and work toward living an independent life, said Manish N. Shah, MD, associate professor of pediatric neurosurgery at the University of Texas, Houston, who was not involved in developing the guidelines.

For children in whom physical therapy and medication have not reduced leg spasticity, a minimally invasive spinal procedure can help release contracted tendons and encourage independent walking. The optimal age for selective dorsal rhizotomy is about 4 years, said Dr. Shah, who is director of the Texas Comprehensive Spasticity Center at Children’s Memorial Hermann Hospital in Houston. “You can turn these children into walkers. As adults, they can get jobs, have their own families. It’s life-changing.”

Importantly, the guidelines address the health care disparities leading to a higher prevalence of cerebral palsy in Black children and in those from families with lower socioeconomic status. “Efforts to combat racism and eliminate barriers to culturally sensitive prenatal, perinatal, and later pediatric care may help to improve outcomes for all children with cerebral palsy,” the authors said.

“Every child with cerebral palsy needs an individual plan, but only 30% or 40% are getting interventions,” said Dr. Shah. The updated guidelines could help payers rethink the 15-20 visits a year that are often approved, compared with the 2-3 visits per week that are needed for speech, physical, and occupational therapy, he pointed out.

“Financial issues often compromise the interdisciplinary and coordinated care associated with favorable outcomes in children with cerebral palsy,” said Heidi Feldman, MD, PhD, a developmental and behavioral pediatric specialist at Stanford (Calif.) Medicine Children’s Health’s Johnson Center for Pregnancy and Newborn Services. “With a new guideline, there may be greater willingness to fund these essential services.”

In the meantime, the AAP recommends that pediatricians advise families about available medical, social, and educational services, such as early intervention services, the Title V Maternal and Child Health block grant program, and special education services through the public school system.

Children with cerebral palsy need the same standardized primary care as any child, including the full schedule of recommended vaccinations and vision and hearing testing. They also need to be monitored and treated for the many problems that commonly co-occur, including chronic pain.

When secondary complications arise, the frequency of visits should increase.

Pneumonia, the leading cause of death in children and adolescents with cerebral palsy, can be prevented or minimized through immunization against respiratory diseases and screening for signs and symptoms of aspiration and sleep-disordered breathing.

The AAP also recommends that symptoms or functional declines undergo full investigation into other potential causes.

Since the sedentary lifestyle associated with cerebral palsy is now known to be related to the higher rates of cardiovascular complications in this patient population, the AAP recommends more attention be paid to physical activity and a healthy diet early in life. Pediatricians are advised to help families locate suitable opportunities for adaptive sports and recreation.

Almost 50% of children and adolescents with cerebral palsy have intellectual disability, 60%-80% have difficulty speaking, and about 25% are nonverbal. To address this, pediatricians should maximize the use of augmentative and alternative communication devices and involve experts in speech and language pathology, according to the guidelines.

“Many individuals with cerebral palsy and severe motor limitations have active, creative minds, and may need assistive technology, such as electronic talking devices, to demonstrate that mental life,” said Dr. Feldman. “Primary care clinicians should advocate for assistive technology.”

For challenging behavior, especially in the patient with limited verbal skills, potential nonbehavioral culprits such as constipation, esophageal reflux disease, and musculoskeletal or dental pain must be ruled out.

In the lead-up to adolescence, youth with cerebral palsy must be prepared for puberty, menstruation, and healthy, safe sexual relationships, much like their nonaffected peers. Since a disproportionate number of children with cerebral palsy experience neglect and physical, sexual, and emotional abuse, however, family stressors should be identified and caregivers referred for support services.

For the transition from pediatric to adult health care, the AAP recommends that structured planning begin between 12 and 14 years of age. Before transfer, the pediatrician should prepare a comprehensive medical summary with the input of the patient, parent/guardian, and pediatric subspecialists.

Without a proper handoff, “there is an increased risk of morbidity, medical complications, unnecessary emergency department visits, hospitalizations, and procedures,” the authors warned.

Transitions are likely to run more smoothly when youth are given the opportunity to understand their medical condition and be involved in decisions about their health. With this in mind, the AAP recommends that pediatricians actively discourage overprotective parents from getting in the way of their child developing “maximal independence.”

No potential conflicts of interest were disclosed by the authors, Dr. Shah, or Dr. Feldman.

*This story was updated on Nov. 28, 2022.
 

Of the more than 6 million patients with Alzheimer’s disease in the United States aged 65 or older, nearly two-thirds are women. A new study published online in Cell may help explain the gender gap – and offer clues to new treatments for helping patients of both sexes fight back.

Researchers zeroed in on a gene named USP11, found on the X chromosome. People assigned female at birth have two X chromosomes, while people assigned male at birth have one X and one Y. So while all males have one copy of USP11, females have two.
 

The body’s trash collection system

In the normal course of events, the brain creates waste that must be removed lest it becomes toxic. One waste product is the protein tau. Too little tau can damage nerve cells, explained researchers David Kang, PhD, and Jung-A “Alexa” Woo, PhD, who led the study. But too much becomes toxic and can lead to neurodegenerative diseases such as Alzheimer’s disease. In fact, new research suggests that testing for changes in tau may someday help doctors diagnose Alzheimer’s disease earlier.

To manage tau, the brain uses a regulatory protein called ubiquitin to “tag” or signal the body that extra tau should be removed.

USP11’s job is to give instructions to make an enzyme that removes the ubiquitin tag to maintain balance. But if too much of the enzyme is present, too much tau gets untagged – and not enough of it gets cleared.

“Our study showed USP11 is higher in females than males in both humans and in mice,” Dr. Kang said. “That’s already true before the onset of dementia. But once someone has Alzheimer’s disease, USP11 is much higher – regardless of sex.”

The study adds to a growing body of evidence that shows that women may be more vulnerable than men to higher levels of tau, possibly explaining why women are affected by the disease more often than men.

But what if there was a way to “turn off” or deactivate the USP11 gene? Might that help prevent Alzheimer’s disease? And could it be done safely?
 

What happened when the gene was eliminated?

To examine these questions, researchers used a method of gene manipulation to completely delete the USP11 gene in mice. They then examined the mice for changes. The result? The mice seemed fine.

“The mice bred well. Their brains looked fine,” Dr. Woo said.

It would not be possible – or ethical – to remove a gene from humans. But when a medical condition makes a certain gene unhelpful, that gene can be partially blocked or expression of the gene can be reduced with medication. In fact, medications targeting enzymes are common. Examples include statins for cardiovascular disease or HIV treatments that inhibit protease enzymes.

“If we are able to identify some type of medicine that would inhibit USP11, our study suggests it would be well tolerated and benefit women,” Dr. Woo said.

Dr. Kang also cautions that the process for creating such a therapy takes at least 10-15 years. The researchers said they’d like to shorten the timeline and plan to study currently approved FDA medications to see if any might work to target USP11 gene activity – and hopefully bring forth a new treatment for Alzheimer’s disease sooner.

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

Of the more than 6 million patients with Alzheimer’s disease in the United States aged 65 or older, nearly two-thirds are women. A new study published online in Cell may help explain the gender gap – and offer clues to new treatments for helping patients of both sexes fight back.

Researchers zeroed in on a gene named USP11, found on the X chromosome. People assigned female at birth have two X chromosomes, while people assigned male at birth have one X and one Y. So while all males have one copy of USP11, females have two.
 

The body’s trash collection system

In the normal course of events, the brain creates waste that must be removed lest it becomes toxic. One waste product is the protein tau. Too little tau can damage nerve cells, explained researchers David Kang, PhD, and Jung-A “Alexa” Woo, PhD, who led the study. But too much becomes toxic and can lead to neurodegenerative diseases such as Alzheimer’s disease. In fact, new research suggests that testing for changes in tau may someday help doctors diagnose Alzheimer’s disease earlier.

To manage tau, the brain uses a regulatory protein called ubiquitin to “tag” or signal the body that extra tau should be removed.

USP11’s job is to give instructions to make an enzyme that removes the ubiquitin tag to maintain balance. But if too much of the enzyme is present, too much tau gets untagged – and not enough of it gets cleared.

“Our study showed USP11 is higher in females than males in both humans and in mice,” Dr. Kang said. “That’s already true before the onset of dementia. But once someone has Alzheimer’s disease, USP11 is much higher – regardless of sex.”

The study adds to a growing body of evidence that shows that women may be more vulnerable than men to higher levels of tau, possibly explaining why women are affected by the disease more often than men.

But what if there was a way to “turn off” or deactivate the USP11 gene? Might that help prevent Alzheimer’s disease? And could it be done safely?
 

What happened when the gene was eliminated?

To examine these questions, researchers used a method of gene manipulation to completely delete the USP11 gene in mice. They then examined the mice for changes. The result? The mice seemed fine.

“The mice bred well. Their brains looked fine,” Dr. Woo said.

It would not be possible – or ethical – to remove a gene from humans. But when a medical condition makes a certain gene unhelpful, that gene can be partially blocked or expression of the gene can be reduced with medication. In fact, medications targeting enzymes are common. Examples include statins for cardiovascular disease or HIV treatments that inhibit protease enzymes.

“If we are able to identify some type of medicine that would inhibit USP11, our study suggests it would be well tolerated and benefit women,” Dr. Woo said.

Dr. Kang also cautions that the process for creating such a therapy takes at least 10-15 years. The researchers said they’d like to shorten the timeline and plan to study currently approved FDA medications to see if any might work to target USP11 gene activity – and hopefully bring forth a new treatment for Alzheimer’s disease sooner.

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

Of the more than 6 million patients with Alzheimer’s disease in the United States aged 65 or older, nearly two-thirds are women. A new study published online in Cell may help explain the gender gap – and offer clues to new treatments for helping patients of both sexes fight back.

Researchers zeroed in on a gene named USP11, found on the X chromosome. People assigned female at birth have two X chromosomes, while people assigned male at birth have one X and one Y. So while all males have one copy of USP11, females have two.
 

The body’s trash collection system

In the normal course of events, the brain creates waste that must be removed lest it becomes toxic. One waste product is the protein tau. Too little tau can damage nerve cells, explained researchers David Kang, PhD, and Jung-A “Alexa” Woo, PhD, who led the study. But too much becomes toxic and can lead to neurodegenerative diseases such as Alzheimer’s disease. In fact, new research suggests that testing for changes in tau may someday help doctors diagnose Alzheimer’s disease earlier.

To manage tau, the brain uses a regulatory protein called ubiquitin to “tag” or signal the body that extra tau should be removed.

USP11’s job is to give instructions to make an enzyme that removes the ubiquitin tag to maintain balance. But if too much of the enzyme is present, too much tau gets untagged – and not enough of it gets cleared.

“Our study showed USP11 is higher in females than males in both humans and in mice,” Dr. Kang said. “That’s already true before the onset of dementia. But once someone has Alzheimer’s disease, USP11 is much higher – regardless of sex.”

The study adds to a growing body of evidence that shows that women may be more vulnerable than men to higher levels of tau, possibly explaining why women are affected by the disease more often than men.

But what if there was a way to “turn off” or deactivate the USP11 gene? Might that help prevent Alzheimer’s disease? And could it be done safely?
 

What happened when the gene was eliminated?

To examine these questions, researchers used a method of gene manipulation to completely delete the USP11 gene in mice. They then examined the mice for changes. The result? The mice seemed fine.

“The mice bred well. Their brains looked fine,” Dr. Woo said.

It would not be possible – or ethical – to remove a gene from humans. But when a medical condition makes a certain gene unhelpful, that gene can be partially blocked or expression of the gene can be reduced with medication. In fact, medications targeting enzymes are common. Examples include statins for cardiovascular disease or HIV treatments that inhibit protease enzymes.

“If we are able to identify some type of medicine that would inhibit USP11, our study suggests it would be well tolerated and benefit women,” Dr. Woo said.

Dr. Kang also cautions that the process for creating such a therapy takes at least 10-15 years. The researchers said they’d like to shorten the timeline and plan to study currently approved FDA medications to see if any might work to target USP11 gene activity – and hopefully bring forth a new treatment for Alzheimer’s disease sooner.

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

Brain indicators of motor impairment were distinct among children with autism spectrum disorder (ASD), those with developmental coordination disorder (DCD), and controls, in a new study.

Previous research suggests that individuals with ASD overlap in motor impairment with those with DCD. But these two conditions may differ significantly in some areas, as children with ASD tend to show weaker skills in social motor tasks such as imitation, wrote Emil Kilroy, PhD, of the University of Southern California, Los Angeles, and colleagues.

The neurobiological basis of autism remains unknown, despite many research efforts, in part because of the heterogeneity of the disease, said corresponding author Lisa Aziz-Zadeh, PhD, also of the University of Southern California, in an interview.

Comorbidity with other disorders is a strong contributing factor to heterogeneity, and approximately 80% of autistic individuals have motor impairments and meet criteria for a diagnosis of DCD, said Dr. Aziz-Zadeh. “Controlling for other comorbidities, such as developmental coordination disorder, when trying to understand the neural basis of autism is important, so that we can understand which neural circuits are related to [core symptoms of autism] and which ones are related to motor impairments that are comorbid with autism, but not necessarily part of the core symptomology,” she explained. “We focused on white matter pathways here because many researchers now think the underlying basis of autism, besides genetics, is brain connectivity differences.”

In their study published in Scientific Reports, the researchers reviewed data from whole-brain correlational tractography for 22 individuals with autism spectrum disorder, 16 with developmental coordination disorder, and 21 normally developing individuals, who served as the control group. The mean age of the participants was approximately 11 years; the age range was 8-17 years.

Overall, patterns of brain diffusion (movement of fluid, mainly water molecules, in the brain) were significantly different in ASD children, compared with typically developing children.

The ASD group showed significantly reduced diffusivity in the bilateral fronto-parietal cingulum and the left parolfactory cingulum. This finding reflects previous studies suggesting an association between brain patterns in the cingulum area and ASD. But the current study is “the first to identify the fronto-parietal and the parolfactory portions of the cingulum as well as the anterior caudal u-fibers as specific to core ASD symptomatology and not related to motor-related comorbidity,” the researchers wrote.

Differences in brain diffusivity were associated with worse performance on motor skills and behavioral measures for children with ASD and children with DCD, compared with controls.

Motor development was assessed using the Total Movement Assessment Battery for Children-2 (MABC-2) and the Florida Apraxia Battery modified for children (FAB-M). The MABC-2 is among the most common tools for measuring motor skills and identifying clinically relevant motor deficits in children and teens aged 3-16 years. The test includes three subtest scores (manual dexterity, gross-motor aiming and catching, and balance) and a total score. Scores are based on a child’s best performance on each component, and higher scores indicate better functioning. In the new study, The MABC-2 total scores averaged 10.57 for controls, compared with 5.76 in the ASD group, and 4.31 in the DCD group.

Children with ASD differed from the other groups in social measures. Social skills were measured using several tools, including the Social Responsivity Scale (SRS Total), which is a parent-completed survey that includes a total score designed to reflect the severity of social deficits in ASD. It is divided into five subscales for parents to assess a child’s social skill impairment: social awareness, social cognition, social communication, social motivation, and mannerisms. Scores for the SRS are calculated in T-scores, in which a score of 50 represents the mean. T-scores of 59 and below are generally not associated with ASD, and patients with these scores are considered to have low to no symptomatology. Scores on the SRS Total in the new study were 45.95, 77.45, and 55.81 for the controls, ASD group, and DCD group, respectively.
 

Results should raise awareness

“The results were largely predicted in our hypotheses – that we would find specific white matter pathways in autism that would differ from [what we saw in typically developing patients and those with DCD], and that diffusivity in ASD would be related to socioemotional differences,” Dr. Aziz-Zadeh said, in an interview.

“What was surprising was that some pathways that had previously been thought to be different in autism were also compromised in DCD, indicating that they were common to motor deficits which both groups shared, not to core autism symptomology,” she noted.

A message for clinicians from the study is that a dual diagnosis of DCD is often missing in ASD practice, said Dr. Aziz-Zadeh. “Given that approximately 80% of children with ASD have DCD, testing for DCD and addressing potential motor issues should be more common practice,” she said.

Dr. Aziz-Zadeh and colleagues are now investigating relationships between the brain, behavior, and the gut microbiome. “We think that understanding autism from a full-body perspective, examining interactions between the brain and the body, will be an important step in this field,” she emphasized.

The study was limited by several factors, including the small sample size, the use of only right-handed participants, and the use of self-reports by children and parents, the researchers noted. Additionally, they noted that white matter develops at different rates in different age groups, and future studies might consider age as a factor, as well as further behavioral assessments, they said.
 

Small sample size limits conclusions

“Understanding the neuroanatomic differences that may contribute to the core symptoms of ASD is a very important goal for the field, particularly how they relate to other comorbid symptoms and neurodevelopmental disorders,” said Michael Gandal, MD, of the department of psychiatry at the University of Pennsylvania, Philadelphia, and a member of the Lifespan Brain Institute at the Children’s Hospital of Philadelphia, in an interview.

“While this study provides some clues into how structural connectivity may relate to motor coordination in ASD, it will be important to replicate these findings in a much larger sample before we can really appreciate how robust these findings are and how well they generalize to the broader ASD population,” Dr. Gandal emphasized.

The study was supported by the Eunice Kennedy Shriver National Institute of Child Health and Human Development. The researchers had no financial conflicts to disclose. Dr. Gandal had no financial conflicts to disclose.

Brain indicators of motor impairment were distinct among children with autism spectrum disorder (ASD), those with developmental coordination disorder (DCD), and controls, in a new study.

Previous research suggests that individuals with ASD overlap in motor impairment with those with DCD. But these two conditions may differ significantly in some areas, as children with ASD tend to show weaker skills in social motor tasks such as imitation, wrote Emil Kilroy, PhD, of the University of Southern California, Los Angeles, and colleagues.

The neurobiological basis of autism remains unknown, despite many research efforts, in part because of the heterogeneity of the disease, said corresponding author Lisa Aziz-Zadeh, PhD, also of the University of Southern California, in an interview.

Comorbidity with other disorders is a strong contributing factor to heterogeneity, and approximately 80% of autistic individuals have motor impairments and meet criteria for a diagnosis of DCD, said Dr. Aziz-Zadeh. “Controlling for other comorbidities, such as developmental coordination disorder, when trying to understand the neural basis of autism is important, so that we can understand which neural circuits are related to [core symptoms of autism] and which ones are related to motor impairments that are comorbid with autism, but not necessarily part of the core symptomology,” she explained. “We focused on white matter pathways here because many researchers now think the underlying basis of autism, besides genetics, is brain connectivity differences.”

In their study published in Scientific Reports, the researchers reviewed data from whole-brain correlational tractography for 22 individuals with autism spectrum disorder, 16 with developmental coordination disorder, and 21 normally developing individuals, who served as the control group. The mean age of the participants was approximately 11 years; the age range was 8-17 years.

Overall, patterns of brain diffusion (movement of fluid, mainly water molecules, in the brain) were significantly different in ASD children, compared with typically developing children.

The ASD group showed significantly reduced diffusivity in the bilateral fronto-parietal cingulum and the left parolfactory cingulum. This finding reflects previous studies suggesting an association between brain patterns in the cingulum area and ASD. But the current study is “the first to identify the fronto-parietal and the parolfactory portions of the cingulum as well as the anterior caudal u-fibers as specific to core ASD symptomatology and not related to motor-related comorbidity,” the researchers wrote.

Differences in brain diffusivity were associated with worse performance on motor skills and behavioral measures for children with ASD and children with DCD, compared with controls.

Motor development was assessed using the Total Movement Assessment Battery for Children-2 (MABC-2) and the Florida Apraxia Battery modified for children (FAB-M). The MABC-2 is among the most common tools for measuring motor skills and identifying clinically relevant motor deficits in children and teens aged 3-16 years. The test includes three subtest scores (manual dexterity, gross-motor aiming and catching, and balance) and a total score. Scores are based on a child’s best performance on each component, and higher scores indicate better functioning. In the new study, The MABC-2 total scores averaged 10.57 for controls, compared with 5.76 in the ASD group, and 4.31 in the DCD group.

Children with ASD differed from the other groups in social measures. Social skills were measured using several tools, including the Social Responsivity Scale (SRS Total), which is a parent-completed survey that includes a total score designed to reflect the severity of social deficits in ASD. It is divided into five subscales for parents to assess a child’s social skill impairment: social awareness, social cognition, social communication, social motivation, and mannerisms. Scores for the SRS are calculated in T-scores, in which a score of 50 represents the mean. T-scores of 59 and below are generally not associated with ASD, and patients with these scores are considered to have low to no symptomatology. Scores on the SRS Total in the new study were 45.95, 77.45, and 55.81 for the controls, ASD group, and DCD group, respectively.
 

Results should raise awareness

“The results were largely predicted in our hypotheses – that we would find specific white matter pathways in autism that would differ from [what we saw in typically developing patients and those with DCD], and that diffusivity in ASD would be related to socioemotional differences,” Dr. Aziz-Zadeh said, in an interview.

“What was surprising was that some pathways that had previously been thought to be different in autism were also compromised in DCD, indicating that they were common to motor deficits which both groups shared, not to core autism symptomology,” she noted.

A message for clinicians from the study is that a dual diagnosis of DCD is often missing in ASD practice, said Dr. Aziz-Zadeh. “Given that approximately 80% of children with ASD have DCD, testing for DCD and addressing potential motor issues should be more common practice,” she said.

Dr. Aziz-Zadeh and colleagues are now investigating relationships between the brain, behavior, and the gut microbiome. “We think that understanding autism from a full-body perspective, examining interactions between the brain and the body, will be an important step in this field,” she emphasized.

The study was limited by several factors, including the small sample size, the use of only right-handed participants, and the use of self-reports by children and parents, the researchers noted. Additionally, they noted that white matter develops at different rates in different age groups, and future studies might consider age as a factor, as well as further behavioral assessments, they said.
 

Small sample size limits conclusions

“Understanding the neuroanatomic differences that may contribute to the core symptoms of ASD is a very important goal for the field, particularly how they relate to other comorbid symptoms and neurodevelopmental disorders,” said Michael Gandal, MD, of the department of psychiatry at the University of Pennsylvania, Philadelphia, and a member of the Lifespan Brain Institute at the Children’s Hospital of Philadelphia, in an interview.

“While this study provides some clues into how structural connectivity may relate to motor coordination in ASD, it will be important to replicate these findings in a much larger sample before we can really appreciate how robust these findings are and how well they generalize to the broader ASD population,” Dr. Gandal emphasized.

The study was supported by the Eunice Kennedy Shriver National Institute of Child Health and Human Development. The researchers had no financial conflicts to disclose. Dr. Gandal had no financial conflicts to disclose.

Brain indicators of motor impairment were distinct among children with autism spectrum disorder (ASD), those with developmental coordination disorder (DCD), and controls, in a new study.

Previous research suggests that individuals with ASD overlap in motor impairment with those with DCD. But these two conditions may differ significantly in some areas, as children with ASD tend to show weaker skills in social motor tasks such as imitation, wrote Emil Kilroy, PhD, of the University of Southern California, Los Angeles, and colleagues.

The neurobiological basis of autism remains unknown, despite many research efforts, in part because of the heterogeneity of the disease, said corresponding author Lisa Aziz-Zadeh, PhD, also of the University of Southern California, in an interview.

Comorbidity with other disorders is a strong contributing factor to heterogeneity, and approximately 80% of autistic individuals have motor impairments and meet criteria for a diagnosis of DCD, said Dr. Aziz-Zadeh. “Controlling for other comorbidities, such as developmental coordination disorder, when trying to understand the neural basis of autism is important, so that we can understand which neural circuits are related to [core symptoms of autism] and which ones are related to motor impairments that are comorbid with autism, but not necessarily part of the core symptomology,” she explained. “We focused on white matter pathways here because many researchers now think the underlying basis of autism, besides genetics, is brain connectivity differences.”

In their study published in Scientific Reports, the researchers reviewed data from whole-brain correlational tractography for 22 individuals with autism spectrum disorder, 16 with developmental coordination disorder, and 21 normally developing individuals, who served as the control group. The mean age of the participants was approximately 11 years; the age range was 8-17 years.

Overall, patterns of brain diffusion (movement of fluid, mainly water molecules, in the brain) were significantly different in ASD children, compared with typically developing children.

The ASD group showed significantly reduced diffusivity in the bilateral fronto-parietal cingulum and the left parolfactory cingulum. This finding reflects previous studies suggesting an association between brain patterns in the cingulum area and ASD. But the current study is “the first to identify the fronto-parietal and the parolfactory portions of the cingulum as well as the anterior caudal u-fibers as specific to core ASD symptomatology and not related to motor-related comorbidity,” the researchers wrote.

Differences in brain diffusivity were associated with worse performance on motor skills and behavioral measures for children with ASD and children with DCD, compared with controls.

Motor development was assessed using the Total Movement Assessment Battery for Children-2 (MABC-2) and the Florida Apraxia Battery modified for children (FAB-M). The MABC-2 is among the most common tools for measuring motor skills and identifying clinically relevant motor deficits in children and teens aged 3-16 years. The test includes three subtest scores (manual dexterity, gross-motor aiming and catching, and balance) and a total score. Scores are based on a child’s best performance on each component, and higher scores indicate better functioning. In the new study, The MABC-2 total scores averaged 10.57 for controls, compared with 5.76 in the ASD group, and 4.31 in the DCD group.

Children with ASD differed from the other groups in social measures. Social skills were measured using several tools, including the Social Responsivity Scale (SRS Total), which is a parent-completed survey that includes a total score designed to reflect the severity of social deficits in ASD. It is divided into five subscales for parents to assess a child’s social skill impairment: social awareness, social cognition, social communication, social motivation, and mannerisms. Scores for the SRS are calculated in T-scores, in which a score of 50 represents the mean. T-scores of 59 and below are generally not associated with ASD, and patients with these scores are considered to have low to no symptomatology. Scores on the SRS Total in the new study were 45.95, 77.45, and 55.81 for the controls, ASD group, and DCD group, respectively.
 

Results should raise awareness

“The results were largely predicted in our hypotheses – that we would find specific white matter pathways in autism that would differ from [what we saw in typically developing patients and those with DCD], and that diffusivity in ASD would be related to socioemotional differences,” Dr. Aziz-Zadeh said, in an interview.

“What was surprising was that some pathways that had previously been thought to be different in autism were also compromised in DCD, indicating that they were common to motor deficits which both groups shared, not to core autism symptomology,” she noted.

A message for clinicians from the study is that a dual diagnosis of DCD is often missing in ASD practice, said Dr. Aziz-Zadeh. “Given that approximately 80% of children with ASD have DCD, testing for DCD and addressing potential motor issues should be more common practice,” she said.

Dr. Aziz-Zadeh and colleagues are now investigating relationships between the brain, behavior, and the gut microbiome. “We think that understanding autism from a full-body perspective, examining interactions between the brain and the body, will be an important step in this field,” she emphasized.

The study was limited by several factors, including the small sample size, the use of only right-handed participants, and the use of self-reports by children and parents, the researchers noted. Additionally, they noted that white matter develops at different rates in different age groups, and future studies might consider age as a factor, as well as further behavioral assessments, they said.
 

Small sample size limits conclusions

“Understanding the neuroanatomic differences that may contribute to the core symptoms of ASD is a very important goal for the field, particularly how they relate to other comorbid symptoms and neurodevelopmental disorders,” said Michael Gandal, MD, of the department of psychiatry at the University of Pennsylvania, Philadelphia, and a member of the Lifespan Brain Institute at the Children’s Hospital of Philadelphia, in an interview.

“While this study provides some clues into how structural connectivity may relate to motor coordination in ASD, it will be important to replicate these findings in a much larger sample before we can really appreciate how robust these findings are and how well they generalize to the broader ASD population,” Dr. Gandal emphasized.

The study was supported by the Eunice Kennedy Shriver National Institute of Child Health and Human Development. The researchers had no financial conflicts to disclose. Dr. Gandal had no financial conflicts to disclose.

The study covered in this summary was published on ResearchSquare.com as a preprint and has not yet been peer-reviewed.

Key takeaway

• Acute atrial fibrillation (AF) is an independent predictor of severity of neurological deficits from early acute ischemic stroke and a high-probability predictor of death within 30 days after such strokes.

Why this matters

• A comprehensive understanding of the relationship between acute AF and risk for acute ischemic stroke and prognosis will help improve management and treatment of patients with acute ischemic stroke.

Study design

• The retrospective study included patients with acute ischemic stroke within the prior 24 hours; 12-lead electrocardiogram in the emergency department; and hospitalization and treatment at the hospital stroke center.
• The cohort of 706 patients admitted to a single center in Shanghai, China, from December 2019 to December 2021, included 142 with episodes of acute AF and 564 without such episodes.
• Patients with acute ischemic stroke and acute AF – including AF of new onset, paroxysmal, persistent, or permanent with symptoms such as palpitations or dizziness attributed to rapid ventricular rates – were identified.
• Neurological deficits were assessed using the 7-day National Institutes of Health Stroke Scale/Score (NIHSS). Patients with a 7-day NIHSS score of at least 16 were considered to have moderate to severe stroke.
• Associations between acute AF onset and the severity of early neurological deficits were assessed and related to all-cause mortality within 30 days of the stroke.

Key results

• Patients with acute AF were older than those without acute AF (80.3 years vs. 71.0 years; P < .001).
• Baseline NIHSS scores averaged 16.09 for the stroke patients with acute AF and 8.65 for those without acute AF (P < .001).
• Significantly more patients with acute AF than without acute AF had a 7-day NIHSS score of at least 16 (45.1% vs. 14.4%; P < .001).
• More patients with than without acute AF underwent transcatheter thrombectomy (44.4% vs. 24.5%; P < .001) or received thrombolytic therapy (31.6% vs. 19.7%; P = .005).
• Patients aged 73 years or older showed baseline NIHSS score and acute AF as independent risk factors for early neurological deficits in stroke patients admitted to the emergency department.
• Mortality at 30 days was significantly higher in patients with acute AF than in those without acute AF (30.3% vs. 10.1%; P < .001).
• Baseline NIHSS had an adjusted odds ratio for 30-day mortality of 1.18 (95% confidence interval, 1.15-1.22; P < .001).  
• Other independent predictors included acute AF (1.87 [95% CI, 1.09-3.19; P = .022]) and age 73 or older (2.00 [95% CI, 1.18-3.37; P = .01]).

Limitations

• The study was retrospective and didn’t have access to some potentially relevant data, such as duration of AF.
• The single-center study with limited generalizability does not necessarily represent the broad population of stroke patients in China or elsewhere.

Disclosures

• This study was supported by the Cardiovascular Multidisciplinary Integrated Research Fund and Construction of Shanghai Municipal Health Commission.
• The authors report no relevant financial relationships.

This is a summary of a preprint research study, “Acute Atrial Fibrillation During Onset of Stroke Indicates Higher Probability of Post-Stroke Death Outcomes,” written by Yongxia Li, from the Shanghai Sixth People’s Hospital, and colleagues, on ResearchSquare.com. This study has not yet been peer reviewed. The full text of the study can be found on ResearchSquare.com.A version of this article first appeared on Medscape.com.

The study covered in this summary was published on ResearchSquare.com as a preprint and has not yet been peer-reviewed.

Key takeaway

• Acute atrial fibrillation (AF) is an independent predictor of severity of neurological deficits from early acute ischemic stroke and a high-probability predictor of death within 30 days after such strokes.

Why this matters

• A comprehensive understanding of the relationship between acute AF and risk for acute ischemic stroke and prognosis will help improve management and treatment of patients with acute ischemic stroke.

Study design

• The retrospective study included patients with acute ischemic stroke within the prior 24 hours; 12-lead electrocardiogram in the emergency department; and hospitalization and treatment at the hospital stroke center.
• The cohort of 706 patients admitted to a single center in Shanghai, China, from December 2019 to December 2021, included 142 with episodes of acute AF and 564 without such episodes.
• Patients with acute ischemic stroke and acute AF – including AF of new onset, paroxysmal, persistent, or permanent with symptoms such as palpitations or dizziness attributed to rapid ventricular rates – were identified.
• Neurological deficits were assessed using the 7-day National Institutes of Health Stroke Scale/Score (NIHSS). Patients with a 7-day NIHSS score of at least 16 were considered to have moderate to severe stroke.
• Associations between acute AF onset and the severity of early neurological deficits were assessed and related to all-cause mortality within 30 days of the stroke.

Key results

• Patients with acute AF were older than those without acute AF (80.3 years vs. 71.0 years; P < .001).
• Baseline NIHSS scores averaged 16.09 for the stroke patients with acute AF and 8.65 for those without acute AF (P < .001).
• Significantly more patients with acute AF than without acute AF had a 7-day NIHSS score of at least 16 (45.1% vs. 14.4%; P < .001).
• More patients with than without acute AF underwent transcatheter thrombectomy (44.4% vs. 24.5%; P < .001) or received thrombolytic therapy (31.6% vs. 19.7%; P = .005).
• Patients aged 73 years or older showed baseline NIHSS score and acute AF as independent risk factors for early neurological deficits in stroke patients admitted to the emergency department.
• Mortality at 30 days was significantly higher in patients with acute AF than in those without acute AF (30.3% vs. 10.1%; P < .001).
• Baseline NIHSS had an adjusted odds ratio for 30-day mortality of 1.18 (95% confidence interval, 1.15-1.22; P < .001).  
• Other independent predictors included acute AF (1.87 [95% CI, 1.09-3.19; P = .022]) and age 73 or older (2.00 [95% CI, 1.18-3.37; P = .01]).

Limitations

• The study was retrospective and didn’t have access to some potentially relevant data, such as duration of AF.
• The single-center study with limited generalizability does not necessarily represent the broad population of stroke patients in China or elsewhere.

Disclosures

• This study was supported by the Cardiovascular Multidisciplinary Integrated Research Fund and Construction of Shanghai Municipal Health Commission.
• The authors report no relevant financial relationships.

This is a summary of a preprint research study, “Acute Atrial Fibrillation During Onset of Stroke Indicates Higher Probability of Post-Stroke Death Outcomes,” written by Yongxia Li, from the Shanghai Sixth People’s Hospital, and colleagues, on ResearchSquare.com. This study has not yet been peer reviewed. The full text of the study can be found on ResearchSquare.com.A version of this article first appeared on Medscape.com.

The study covered in this summary was published on ResearchSquare.com as a preprint and has not yet been peer-reviewed.

Key takeaway

• Acute atrial fibrillation (AF) is an independent predictor of severity of neurological deficits from early acute ischemic stroke and a high-probability predictor of death within 30 days after such strokes.

Why this matters

• A comprehensive understanding of the relationship between acute AF and risk for acute ischemic stroke and prognosis will help improve management and treatment of patients with acute ischemic stroke.

Study design

• The retrospective study included patients with acute ischemic stroke within the prior 24 hours; 12-lead electrocardiogram in the emergency department; and hospitalization and treatment at the hospital stroke center.
• The cohort of 706 patients admitted to a single center in Shanghai, China, from December 2019 to December 2021, included 142 with episodes of acute AF and 564 without such episodes.
• Patients with acute ischemic stroke and acute AF – including AF of new onset, paroxysmal, persistent, or permanent with symptoms such as palpitations or dizziness attributed to rapid ventricular rates – were identified.
• Neurological deficits were assessed using the 7-day National Institutes of Health Stroke Scale/Score (NIHSS). Patients with a 7-day NIHSS score of at least 16 were considered to have moderate to severe stroke.
• Associations between acute AF onset and the severity of early neurological deficits were assessed and related to all-cause mortality within 30 days of the stroke.

Key results

• Patients with acute AF were older than those without acute AF (80.3 years vs. 71.0 years; P < .001).
• Baseline NIHSS scores averaged 16.09 for the stroke patients with acute AF and 8.65 for those without acute AF (P < .001).
• Significantly more patients with acute AF than without acute AF had a 7-day NIHSS score of at least 16 (45.1% vs. 14.4%; P < .001).
• More patients with than without acute AF underwent transcatheter thrombectomy (44.4% vs. 24.5%; P < .001) or received thrombolytic therapy (31.6% vs. 19.7%; P = .005).
• Patients aged 73 years or older showed baseline NIHSS score and acute AF as independent risk factors for early neurological deficits in stroke patients admitted to the emergency department.
• Mortality at 30 days was significantly higher in patients with acute AF than in those without acute AF (30.3% vs. 10.1%; P < .001).
• Baseline NIHSS had an adjusted odds ratio for 30-day mortality of 1.18 (95% confidence interval, 1.15-1.22; P < .001).  
• Other independent predictors included acute AF (1.87 [95% CI, 1.09-3.19; P = .022]) and age 73 or older (2.00 [95% CI, 1.18-3.37; P = .01]).

Limitations

• The study was retrospective and didn’t have access to some potentially relevant data, such as duration of AF.
• The single-center study with limited generalizability does not necessarily represent the broad population of stroke patients in China or elsewhere.

Disclosures

• This study was supported by the Cardiovascular Multidisciplinary Integrated Research Fund and Construction of Shanghai Municipal Health Commission.
• The authors report no relevant financial relationships.

This is a summary of a preprint research study, “Acute Atrial Fibrillation During Onset of Stroke Indicates Higher Probability of Post-Stroke Death Outcomes,” written by Yongxia Li, from the Shanghai Sixth People’s Hospital, and colleagues, on ResearchSquare.com. This study has not yet been peer reviewed. The full text of the study can be found on ResearchSquare.com.A version of this article first appeared on Medscape.com.

Texas-based researchers have developed a vaccine that blocks the euphoric effects of fentanyl, a potent synthetic opioid that is increasingly involved in opioid overdose deaths in the United States.

In studies in male and female mice, the vaccine generated significant and long-lasting levels of anti-fentanyl antibodies that were highly effective at reducing the antinociceptive, behavioral, and physiological effects of the drug.

The vaccine prevents fentanyl from entering the brain. “Thus, the individual will not feel the euphoric effects and can ‘get back on the wagon’ to sobriety,” lead investigator Colin Haile, MD, PhD, with University of Houston and founding member of the UH Drug Discovery Institute, said in a news release. The study was published online in the journal Pharmaceutics.

“The anti-fentanyl antibodies were specific to fentanyl and a fentanyl derivative and did not cross-react with other opioids, such as morphine. That means a vaccinated person would still be able to be treated for pain relief with other opioids,” said Dr. Haile.

The vaccine did not cause any adverse effects in the immunized mice. The research team plans to start manufacturing clinical-grade vaccine in the coming months with clinical trials in humans planned soon.

If proven safe and effective in clinical testing, the vaccine could have major implications for the nation’s opioid epidemic by becoming a relapse prevention agent for people trying to quit using opioids, the researchers note.

The United States in 2021 recorded more than 107,000 drug overdose deaths – a record high, according to federal health officials – and fentanyl was involved in most of these deaths. 

Senior author Therese Kosten, PhD, director of the UH Developmental, Cognitive & Behavioral Neuroscience program, calls the new fentanyl vaccine a potential “game changer.”

“Fentanyl use and overdose is a particular treatment challenge that is not adequately addressed with current medications because of its pharmacodynamics, and managing acute overdose with the short-acting naloxone [Narcan] is not appropriately effective as multiple doses of naloxone are often needed to reverse fentanyl’s fatal effects,” said Dr. Kosten.

Funding for the study was provided by the Department of Defense through the Alcohol and Substance Abuse Disorders Program managed by RTI International’s Pharmacotherapies for Alcohol and Substance Use Disorders Alliance, which has funded Dr. Haile’s lab for several years to develop the anti-fentanyl vaccine. The authors have no relevant conflicts of interest. A provisional patent has been submitted by the University of Houston on behalf of four of the investigators containing technology related to the fentanyl vaccine.

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

Texas-based researchers have developed a vaccine that blocks the euphoric effects of fentanyl, a potent synthetic opioid that is increasingly involved in opioid overdose deaths in the United States.

In studies in male and female mice, the vaccine generated significant and long-lasting levels of anti-fentanyl antibodies that were highly effective at reducing the antinociceptive, behavioral, and physiological effects of the drug.

The vaccine prevents fentanyl from entering the brain. “Thus, the individual will not feel the euphoric effects and can ‘get back on the wagon’ to sobriety,” lead investigator Colin Haile, MD, PhD, with University of Houston and founding member of the UH Drug Discovery Institute, said in a news release. The study was published online in the journal Pharmaceutics.

“The anti-fentanyl antibodies were specific to fentanyl and a fentanyl derivative and did not cross-react with other opioids, such as morphine. That means a vaccinated person would still be able to be treated for pain relief with other opioids,” said Dr. Haile.

The vaccine did not cause any adverse effects in the immunized mice. The research team plans to start manufacturing clinical-grade vaccine in the coming months with clinical trials in humans planned soon.

If proven safe and effective in clinical testing, the vaccine could have major implications for the nation’s opioid epidemic by becoming a relapse prevention agent for people trying to quit using opioids, the researchers note.

The United States in 2021 recorded more than 107,000 drug overdose deaths – a record high, according to federal health officials – and fentanyl was involved in most of these deaths. 

Senior author Therese Kosten, PhD, director of the UH Developmental, Cognitive & Behavioral Neuroscience program, calls the new fentanyl vaccine a potential “game changer.”

“Fentanyl use and overdose is a particular treatment challenge that is not adequately addressed with current medications because of its pharmacodynamics, and managing acute overdose with the short-acting naloxone [Narcan] is not appropriately effective as multiple doses of naloxone are often needed to reverse fentanyl’s fatal effects,” said Dr. Kosten.

Funding for the study was provided by the Department of Defense through the Alcohol and Substance Abuse Disorders Program managed by RTI International’s Pharmacotherapies for Alcohol and Substance Use Disorders Alliance, which has funded Dr. Haile’s lab for several years to develop the anti-fentanyl vaccine. The authors have no relevant conflicts of interest. A provisional patent has been submitted by the University of Houston on behalf of four of the investigators containing technology related to the fentanyl vaccine.

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

Texas-based researchers have developed a vaccine that blocks the euphoric effects of fentanyl, a potent synthetic opioid that is increasingly involved in opioid overdose deaths in the United States.

In studies in male and female mice, the vaccine generated significant and long-lasting levels of anti-fentanyl antibodies that were highly effective at reducing the antinociceptive, behavioral, and physiological effects of the drug.

The vaccine prevents fentanyl from entering the brain. “Thus, the individual will not feel the euphoric effects and can ‘get back on the wagon’ to sobriety,” lead investigator Colin Haile, MD, PhD, with University of Houston and founding member of the UH Drug Discovery Institute, said in a news release. The study was published online in the journal Pharmaceutics.

“The anti-fentanyl antibodies were specific to fentanyl and a fentanyl derivative and did not cross-react with other opioids, such as morphine. That means a vaccinated person would still be able to be treated for pain relief with other opioids,” said Dr. Haile.

The vaccine did not cause any adverse effects in the immunized mice. The research team plans to start manufacturing clinical-grade vaccine in the coming months with clinical trials in humans planned soon.

If proven safe and effective in clinical testing, the vaccine could have major implications for the nation’s opioid epidemic by becoming a relapse prevention agent for people trying to quit using opioids, the researchers note.

The United States in 2021 recorded more than 107,000 drug overdose deaths – a record high, according to federal health officials – and fentanyl was involved in most of these deaths. 

Senior author Therese Kosten, PhD, director of the UH Developmental, Cognitive & Behavioral Neuroscience program, calls the new fentanyl vaccine a potential “game changer.”

“Fentanyl use and overdose is a particular treatment challenge that is not adequately addressed with current medications because of its pharmacodynamics, and managing acute overdose with the short-acting naloxone [Narcan] is not appropriately effective as multiple doses of naloxone are often needed to reverse fentanyl’s fatal effects,” said Dr. Kosten.

Funding for the study was provided by the Department of Defense through the Alcohol and Substance Abuse Disorders Program managed by RTI International’s Pharmacotherapies for Alcohol and Substance Use Disorders Alliance, which has funded Dr. Haile’s lab for several years to develop the anti-fentanyl vaccine. The authors have no relevant conflicts of interest. A provisional patent has been submitted by the University of Houston on behalf of four of the investigators containing technology related to the fentanyl vaccine.

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

Experts recommend that children and adolescents who have had a concussion rest for a day or 2 before returning to light physical activity. Slowly getting back to normal helps young patients recover faster than strict rest, research shows.

Now a study suggests that getting back on TikTok and Snapchat may help, too.

After surveying 700 patients ages 8-16 following an injury, researchers for the Pediatric Emergency Research Canada A-CAP study team found that children and adolescents who had a concussion recovered faster if they engaged in a moderate amount of screen time.

A “moderate” amount was between 2 and 7 hours per day on various screens. “That includes their phones, computers, and televisions,” says lead author Molly Cairncross, PhD, of Simon Fraser University, Vancouver.

People in the study who reported either less or more screen time than that in the 7-10 days after injury also reported more symptoms, such as headaches and fatigue, during the first month. After that month, all the participants reported similar symptoms, regardless of their early screen use – suggesting that screen time makes little difference long term in pediatric concussion recovery.

The findings differ from a 2021 study by researchers at the University of Massachusetts, Boston, that found screen time slowed recovery. Why the clashing results? “I think what it comes down to are differences in study design,” says Dr. Cairncross. While the earlier study measured screen use in the first 48 hours, and recovery over 10 days, “we focused on screen time use over the first 7-10 days, and tracked recovery over 6 months,” she says.

“Taken together, the studies suggest a need to find balance – not too little and not too much time on screens for kids and teens following a concussion,” Dr. Cairncross says.

Ultimately, the findings support moderation rather than blanket restrictions on screen time as the best way to manage pediatric concussion, especially after the first 48 hours.

“It’s actually unsurprising,” says Sarah Brittain, MS, a speech-language pathologist and founder of Colorado Brain Recovery in Wheat Ridge, who was not involved in the study. “An early return to both cognitive and physical activity in a controlled fashion is really important. Sitting in a dark room and resting is not the answer and has been disproven in the literature.”

Old advice involved lying in a quiet, dark room for days, but recent evidence reveals that such “cocoon therapy” may actually prolong symptoms.

“With time, we have found this can negatively impact quality of life and depression scores, especially in teenagers,” says Katherine Labiner, MD, a child neurologist at Pediatrix Child Neurology Consultants of Austin, Tex., who was not involved in the study.

So, how might screens help? Dr. Labiner, Ms. Brittain, and Dr. Cairncross all point to the importance of connection – not the Internet kind, but the social kind. Children and teens use smartphones and computers to stay connected with peers, so banning screen time could have a negative impact on mental health by leading to loneliness, separation, and lack of social support.

“Depression can prolong the course of recovery,” says Ms. Brittain.

It’s worth noting that screen time could trigger visual symptoms in some patients, she says. “If someone feels worse within 2 minutes of being on a screen, that’s a good indicator that screens aren’t working for them,” Ms. Brittain says. “If being on a screen makes them dizzy or wiped out, or the words on the screen look like they’re moving when they’re not, that means it’s time to back off.”

She advises parents to watch for behavior changes like increased crankiness, impatience, and/or fatigue, which could mean that the child has returned to screen time – or any activity – too soon and should scale back until symptoms subside.

“The most important thing to stress with concussion is full recovery before complete return to activity,” Dr. Labiner says.

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

Experts recommend that children and adolescents who have had a concussion rest for a day or 2 before returning to light physical activity. Slowly getting back to normal helps young patients recover faster than strict rest, research shows.

Now a study suggests that getting back on TikTok and Snapchat may help, too.

After surveying 700 patients ages 8-16 following an injury, researchers for the Pediatric Emergency Research Canada A-CAP study team found that children and adolescents who had a concussion recovered faster if they engaged in a moderate amount of screen time.

A “moderate” amount was between 2 and 7 hours per day on various screens. “That includes their phones, computers, and televisions,” says lead author Molly Cairncross, PhD, of Simon Fraser University, Vancouver.

People in the study who reported either less or more screen time than that in the 7-10 days after injury also reported more symptoms, such as headaches and fatigue, during the first month. After that month, all the participants reported similar symptoms, regardless of their early screen use – suggesting that screen time makes little difference long term in pediatric concussion recovery.

The findings differ from a 2021 study by researchers at the University of Massachusetts, Boston, that found screen time slowed recovery. Why the clashing results? “I think what it comes down to are differences in study design,” says Dr. Cairncross. While the earlier study measured screen use in the first 48 hours, and recovery over 10 days, “we focused on screen time use over the first 7-10 days, and tracked recovery over 6 months,” she says.

“Taken together, the studies suggest a need to find balance – not too little and not too much time on screens for kids and teens following a concussion,” Dr. Cairncross says.

Ultimately, the findings support moderation rather than blanket restrictions on screen time as the best way to manage pediatric concussion, especially after the first 48 hours.

“It’s actually unsurprising,” says Sarah Brittain, MS, a speech-language pathologist and founder of Colorado Brain Recovery in Wheat Ridge, who was not involved in the study. “An early return to both cognitive and physical activity in a controlled fashion is really important. Sitting in a dark room and resting is not the answer and has been disproven in the literature.”

Old advice involved lying in a quiet, dark room for days, but recent evidence reveals that such “cocoon therapy” may actually prolong symptoms.

“With time, we have found this can negatively impact quality of life and depression scores, especially in teenagers,” says Katherine Labiner, MD, a child neurologist at Pediatrix Child Neurology Consultants of Austin, Tex., who was not involved in the study.

So, how might screens help? Dr. Labiner, Ms. Brittain, and Dr. Cairncross all point to the importance of connection – not the Internet kind, but the social kind. Children and teens use smartphones and computers to stay connected with peers, so banning screen time could have a negative impact on mental health by leading to loneliness, separation, and lack of social support.

“Depression can prolong the course of recovery,” says Ms. Brittain.

It’s worth noting that screen time could trigger visual symptoms in some patients, she says. “If someone feels worse within 2 minutes of being on a screen, that’s a good indicator that screens aren’t working for them,” Ms. Brittain says. “If being on a screen makes them dizzy or wiped out, or the words on the screen look like they’re moving when they’re not, that means it’s time to back off.”

She advises parents to watch for behavior changes like increased crankiness, impatience, and/or fatigue, which could mean that the child has returned to screen time – or any activity – too soon and should scale back until symptoms subside.

“The most important thing to stress with concussion is full recovery before complete return to activity,” Dr. Labiner says.

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

Experts recommend that children and adolescents who have had a concussion rest for a day or 2 before returning to light physical activity. Slowly getting back to normal helps young patients recover faster than strict rest, research shows.

Now a study suggests that getting back on TikTok and Snapchat may help, too.

After surveying 700 patients ages 8-16 following an injury, researchers for the Pediatric Emergency Research Canada A-CAP study team found that children and adolescents who had a concussion recovered faster if they engaged in a moderate amount of screen time.

A “moderate” amount was between 2 and 7 hours per day on various screens. “That includes their phones, computers, and televisions,” says lead author Molly Cairncross, PhD, of Simon Fraser University, Vancouver.

People in the study who reported either less or more screen time than that in the 7-10 days after injury also reported more symptoms, such as headaches and fatigue, during the first month. After that month, all the participants reported similar symptoms, regardless of their early screen use – suggesting that screen time makes little difference long term in pediatric concussion recovery.

The findings differ from a 2021 study by researchers at the University of Massachusetts, Boston, that found screen time slowed recovery. Why the clashing results? “I think what it comes down to are differences in study design,” says Dr. Cairncross. While the earlier study measured screen use in the first 48 hours, and recovery over 10 days, “we focused on screen time use over the first 7-10 days, and tracked recovery over 6 months,” she says.

“Taken together, the studies suggest a need to find balance – not too little and not too much time on screens for kids and teens following a concussion,” Dr. Cairncross says.

Ultimately, the findings support moderation rather than blanket restrictions on screen time as the best way to manage pediatric concussion, especially after the first 48 hours.

“It’s actually unsurprising,” says Sarah Brittain, MS, a speech-language pathologist and founder of Colorado Brain Recovery in Wheat Ridge, who was not involved in the study. “An early return to both cognitive and physical activity in a controlled fashion is really important. Sitting in a dark room and resting is not the answer and has been disproven in the literature.”

Old advice involved lying in a quiet, dark room for days, but recent evidence reveals that such “cocoon therapy” may actually prolong symptoms.

“With time, we have found this can negatively impact quality of life and depression scores, especially in teenagers,” says Katherine Labiner, MD, a child neurologist at Pediatrix Child Neurology Consultants of Austin, Tex., who was not involved in the study.

So, how might screens help? Dr. Labiner, Ms. Brittain, and Dr. Cairncross all point to the importance of connection – not the Internet kind, but the social kind. Children and teens use smartphones and computers to stay connected with peers, so banning screen time could have a negative impact on mental health by leading to loneliness, separation, and lack of social support.

“Depression can prolong the course of recovery,” says Ms. Brittain.

It’s worth noting that screen time could trigger visual symptoms in some patients, she says. “If someone feels worse within 2 minutes of being on a screen, that’s a good indicator that screens aren’t working for them,” Ms. Brittain says. “If being on a screen makes them dizzy or wiped out, or the words on the screen look like they’re moving when they’re not, that means it’s time to back off.”

She advises parents to watch for behavior changes like increased crankiness, impatience, and/or fatigue, which could mean that the child has returned to screen time – or any activity – too soon and should scale back until symptoms subside.

“The most important thing to stress with concussion is full recovery before complete return to activity,” Dr. Labiner says.

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