Neurology

“Smoldering” lesions—signaling chronic inflammation—may be a hallmark of more aggressive forms of multiple sclerosis (MS), according to researchers from the National Institute of Neurological Disorders and Stroke (NINDS). New technology that allows long-term in vivo monitoring could make it possible for the first time to predict who is at risk for progressive MS and potential treatments.

MS lesions appear as spots on brain scans. Some lesions heal. Others remain and may have characteristic dark rims, which is inflammatory demyelination at the edges. The dark-rimmed lesions appear to expand, or “smolder” for years. But until recently, researchers did not fully understand what role those chronic active lesions played in MS because it was difficult to find the ones that remain inflamed.

The researchers conducted 3 studies at the NIH Clinical Center. In the first, using a high-powered, 7-tesla MRI scanner and a 3D printer, they scanned the brains of 192 MS patients. Of those, 40% had no rimmed lesions; 32% had 1 to 3 rims; and 20% had ≥ 4 rims. Regardless of the treatment they were receiving, 56% of the patients had at < 1 rimmed lesion.  

The researchers compared the brain scans to the patients’ baseline neurologic examinations. Patients with ≥ 4 rimmed lesions were nearly twice as likely to be diagnosed with progressive MS than were those without rimmed lesions. Moreover, the patients with rimmed lesions developed motor and cognitive disabilities at a younger age than did patients without rimmed lesions. Patients with ≥ 4 rimmed lesions also had less white matter and smaller basal ganglia.

When they analyzed a subset of patients whose brains had been scanned once a year for ≥ 10 years, the researchers found that although the rimless lesions generally shrank, the rimmed lesions grew or stayed the same size and were “particularly damaged.”

The team also used a 3D printer to compare the spots they had seen on scans with lesions in brain tissue samples from a patient who died during the trial. All 10 expanding rimmed spots on the scans had the “telltale features” of chronic active lesions when examined under a microscope.

“Figuring out how to spot chronic active lesions was a big step,” said research team member Martina Absinta, MD, PhD. “We could not have done it without the high-powered MRI scanner.” Most MRI scanners used clinically have field strengths of 1.5 or 3 Tesla. The research team had previously published instructions for programming lower powered MRI scanners to detect rimmed chronic active lesions.

Chronic active lesions are common and exert ongoing tissue damage, said Daniel S. Reich, MD, PHD, senior investigator at NINDS, and senior author of the paper. The fact that these lesions are present in patients who are receiving anti-inflammatory drugs, he added, suggests that the field of MS research may want to focus on new treatments that target the brain’s unique immune system—especially a type of brain cell called microglia, which are instrumental in the immune response.

Their findings, the researchers say, should prompt MRI-based clinical trials aimed at treating perilesional chronic inflammation in MS. Dr. Reich said, “Our results point the way toward using specialized brain scans to predict who is at risk of developing progressive MS.”

“Smoldering” lesions—signaling chronic inflammation—may be a hallmark of more aggressive forms of multiple sclerosis (MS), according to researchers from the National Institute of Neurological Disorders and Stroke (NINDS). New technology that allows long-term in vivo monitoring could make it possible for the first time to predict who is at risk for progressive MS and potential treatments.

MS lesions appear as spots on brain scans. Some lesions heal. Others remain and may have characteristic dark rims, which is inflammatory demyelination at the edges. The dark-rimmed lesions appear to expand, or “smolder” for years. But until recently, researchers did not fully understand what role those chronic active lesions played in MS because it was difficult to find the ones that remain inflamed.

The researchers conducted 3 studies at the NIH Clinical Center. In the first, using a high-powered, 7-tesla MRI scanner and a 3D printer, they scanned the brains of 192 MS patients. Of those, 40% had no rimmed lesions; 32% had 1 to 3 rims; and 20% had ≥ 4 rims. Regardless of the treatment they were receiving, 56% of the patients had at < 1 rimmed lesion.  

The researchers compared the brain scans to the patients’ baseline neurologic examinations. Patients with ≥ 4 rimmed lesions were nearly twice as likely to be diagnosed with progressive MS than were those without rimmed lesions. Moreover, the patients with rimmed lesions developed motor and cognitive disabilities at a younger age than did patients without rimmed lesions. Patients with ≥ 4 rimmed lesions also had less white matter and smaller basal ganglia.

When they analyzed a subset of patients whose brains had been scanned once a year for ≥ 10 years, the researchers found that although the rimless lesions generally shrank, the rimmed lesions grew or stayed the same size and were “particularly damaged.”

The team also used a 3D printer to compare the spots they had seen on scans with lesions in brain tissue samples from a patient who died during the trial. All 10 expanding rimmed spots on the scans had the “telltale features” of chronic active lesions when examined under a microscope.

“Figuring out how to spot chronic active lesions was a big step,” said research team member Martina Absinta, MD, PhD. “We could not have done it without the high-powered MRI scanner.” Most MRI scanners used clinically have field strengths of 1.5 or 3 Tesla. The research team had previously published instructions for programming lower powered MRI scanners to detect rimmed chronic active lesions.

Chronic active lesions are common and exert ongoing tissue damage, said Daniel S. Reich, MD, PHD, senior investigator at NINDS, and senior author of the paper. The fact that these lesions are present in patients who are receiving anti-inflammatory drugs, he added, suggests that the field of MS research may want to focus on new treatments that target the brain’s unique immune system—especially a type of brain cell called microglia, which are instrumental in the immune response.

Their findings, the researchers say, should prompt MRI-based clinical trials aimed at treating perilesional chronic inflammation in MS. Dr. Reich said, “Our results point the way toward using specialized brain scans to predict who is at risk of developing progressive MS.”

“Smoldering” lesions—signaling chronic inflammation—may be a hallmark of more aggressive forms of multiple sclerosis (MS), according to researchers from the National Institute of Neurological Disorders and Stroke (NINDS). New technology that allows long-term in vivo monitoring could make it possible for the first time to predict who is at risk for progressive MS and potential treatments.

MS lesions appear as spots on brain scans. Some lesions heal. Others remain and may have characteristic dark rims, which is inflammatory demyelination at the edges. The dark-rimmed lesions appear to expand, or “smolder” for years. But until recently, researchers did not fully understand what role those chronic active lesions played in MS because it was difficult to find the ones that remain inflamed.

The researchers conducted 3 studies at the NIH Clinical Center. In the first, using a high-powered, 7-tesla MRI scanner and a 3D printer, they scanned the brains of 192 MS patients. Of those, 40% had no rimmed lesions; 32% had 1 to 3 rims; and 20% had ≥ 4 rims. Regardless of the treatment they were receiving, 56% of the patients had at < 1 rimmed lesion.  

The researchers compared the brain scans to the patients’ baseline neurologic examinations. Patients with ≥ 4 rimmed lesions were nearly twice as likely to be diagnosed with progressive MS than were those without rimmed lesions. Moreover, the patients with rimmed lesions developed motor and cognitive disabilities at a younger age than did patients without rimmed lesions. Patients with ≥ 4 rimmed lesions also had less white matter and smaller basal ganglia.

When they analyzed a subset of patients whose brains had been scanned once a year for ≥ 10 years, the researchers found that although the rimless lesions generally shrank, the rimmed lesions grew or stayed the same size and were “particularly damaged.”

The team also used a 3D printer to compare the spots they had seen on scans with lesions in brain tissue samples from a patient who died during the trial. All 10 expanding rimmed spots on the scans had the “telltale features” of chronic active lesions when examined under a microscope.

“Figuring out how to spot chronic active lesions was a big step,” said research team member Martina Absinta, MD, PhD. “We could not have done it without the high-powered MRI scanner.” Most MRI scanners used clinically have field strengths of 1.5 or 3 Tesla. The research team had previously published instructions for programming lower powered MRI scanners to detect rimmed chronic active lesions.

Chronic active lesions are common and exert ongoing tissue damage, said Daniel S. Reich, MD, PHD, senior investigator at NINDS, and senior author of the paper. The fact that these lesions are present in patients who are receiving anti-inflammatory drugs, he added, suggests that the field of MS research may want to focus on new treatments that target the brain’s unique immune system—especially a type of brain cell called microglia, which are instrumental in the immune response.

Their findings, the researchers say, should prompt MRI-based clinical trials aimed at treating perilesional chronic inflammation in MS. Dr. Reich said, “Our results point the way toward using specialized brain scans to predict who is at risk of developing progressive MS.”

BANGKOK – Interim results of long-term, open-label extension trials of add-on prescription cannabidiol in patients with Dravet syndrome or Lennox-Gastaut syndrome show sustained, clinically meaningful seizure reductions with no new safety concerns, Anup D. Patel, MD, reported at the International Epilepsy Congress.

“Overall, this is a very promising and sustainable result that we were happy to see,” said Dr. Patel, chief of child neurology at Nationwide Children’s Hospital in Columbus, Ohio.

Epidiolex is the brand name for the plant-derived, highly purified cannabidiol (CBD) in an oil-based oral solution at 100 mg/mL. Dr. Patel has been involved in the medication’s development program since the earliest open-label compassionate use study, which was followed by rigorous phase 3, double-blind, placebo-controlled randomized trials, eventually leading to Food and Drug Administration marketing approval for the treatment of Dravet syndrome and Lennox-Gastaut syndrome in patients 2 years of age or older.

“On June 25th, 2018, history was made: for the first time in United States history, a plant-based derivative of marijuana was approved for use as a medication, and it was also the first FDA-approved treatment for Dravet syndrome,” Dr. Patel noted at the congress sponsored by the International League Against Epilepsy.

A total of 96% of the 289 children with Dravet syndrome who completed the 14-week, double-blind, controlled randomized trials enrolled in the open-label, long-term extension study, during which they were on a median of three concurrent antiepileptic drugs along with a mean modal dose of CBD at 22 mg/kg/day. Although the target maintenance dose of CBD was 20 mg/kg/day, as advised in the product labeling, physicians could reduce or increase the dose up to 30 mg/kg/day.

“In the initial compassionate-use study, our site could go up to 50 mg/kg/day,” according to Dr. Patel. “We have plenty of data showing efficacy and continued safety beyond the FDA-recommended dose.”

In the open-label extension study, the median reduction from baseline in monthly seizure frequency assessed in 12-week intervals up to a maximum of week 72 was 44%-57% for convulsive seizures and 49%-67% for total seizures. More than 80% of patients and/or caregivers reported improvement in the patient’s overall condition as assessed on the Subject/Caregiver Global Impression of Change scale.

The pattern of adverse events associated with CBD has been consistent across all of the studies. The most common side effects are diarrhea in about one-third of patients, sleepiness in one-quarter, and decreased appetite in about one-quarter. Seven percent of patients discontinued the long-term extension trial because of adverse events.

Seventy percent of patients remained in the long-term extension study at 1 year.

Twenty-six patients developed liver transaminase levels greater than three times the upper limit of normal, and of note, 23 of the 26 were on concomitant valproic acid. None met criteria for severe drug-induced liver injury, and all recovered either spontaneously or after a reduction in the dose of CBD or valproic acid. But this association between CBD, valproic acid, and increased risk of mild liver injury has been a consistent finding across the clinical trials program.

“This is a very important clinical pearl to take away,” commented Dr. Patel, who is also a pediatric neurologist at Ohio State University.

The interim results of the long-term, open-label extension study of add-on CBD in patients with Lennox-Gastaut syndrome are similar to the Dravet syndrome study. Overall, 99% of the 368 patients with Lennox-Gastaut syndrome who completed the 14-week, double-blind, randomized trials signed up for the open-label extension. During a median follow-up of 61 weeks, the median percent reduction in seizure frequency as assessed in serial 12-week windows was 48%-70% for drop seizures and 48%-63% for total seizures. Twenty-four percent of patients withdrew from the study. Eighty-eight percent of patients or caregivers reported an improvement in overall condition when assessed at weeks 24 and 48. Forty-seven patients developed elevated transaminase levels – typically within the first 2 months on CBD – and 35 of them were on concomitant valproic acid.
 

More on drug-drug interactions

Elsewhere at IEC 2019, Gilmour Morrison of GW Pharmaceuticals, the Cambridge, England, company that markets Epidiolex, presented the findings of a series of drug-drug interaction studies involving coadministration of their CBD with clobazam (Sympazan and Onfi), valproate, stiripentol (Diacomit), or midazolam (Versed) in adult epilepsy patients and healthy volunteers. The researchers reported a bidirectional drug-drug interaction between Epidiolex and clobazam resulting in increased levels of the active metabolites of both drugs. The mechanism is believed to involve inhibition of cytochrome P450 2C19. However, there were no interactions with midazolam or valproate, and the slight bump in stiripentol levels when given with CBD didn’t reach the level of a clinically meaningful drug-drug interaction, according to the investigators.

On the horizon, Canadian researchers are investigating the possibility that since both the tetrahydrocannabinol (THC) and CBD components of marijuana have been shown to have anticonvulsant effects, adding a bit of THC to CBD will result in even better seizure control than with pure CBD in patients with Dravet syndrome. Investigators at Toronto’s Hospital for Sick Children have conducted a prospective, open-label study of a product containing CBD and THC in a 50:1 ratio as add-on therapy in 20 children with Dravet syndrome. The dose was 2-16 mg/kg/day of CBD and 0.04-0.32 mg/kg/day of THC. The cannabis plant extract used in the study was produced by Tilray, a Canadian pharmaceutical company.

Nineteen of the 20 patients completed the 20-week study. The sole noncompleter died of SUDEP (sudden unexpected death in epilepsy) deemed treatment unrelated. Patients experienced a median 71% reduction in motor seizures, compared with baseline. Sixty-three percent of patients had at least a 50% reduction in seizure frequency. Elevated liver transaminases occurred in patients on concomitant valproic acid, as did platelet abnormalities, which have not been seen in the Epidiolex studies, noted Dr. Patel, who was not involved in the Canadian study (Ann Clin Transl Neurol. 2018 Aug 1;5[9]:1077-88).

Dr. Patel reported serving as a consultant to Greenwich Biosciences, a U.S. offshoot of GW Pharmaceuticals. He receives research grants from that company as well as from the National Institutes of Health and the Pediatric Epilepsy Research Foundation.

[email protected]

BANGKOK – Interim results of long-term, open-label extension trials of add-on prescription cannabidiol in patients with Dravet syndrome or Lennox-Gastaut syndrome show sustained, clinically meaningful seizure reductions with no new safety concerns, Anup D. Patel, MD, reported at the International Epilepsy Congress.

“Overall, this is a very promising and sustainable result that we were happy to see,” said Dr. Patel, chief of child neurology at Nationwide Children’s Hospital in Columbus, Ohio.

Epidiolex is the brand name for the plant-derived, highly purified cannabidiol (CBD) in an oil-based oral solution at 100 mg/mL. Dr. Patel has been involved in the medication’s development program since the earliest open-label compassionate use study, which was followed by rigorous phase 3, double-blind, placebo-controlled randomized trials, eventually leading to Food and Drug Administration marketing approval for the treatment of Dravet syndrome and Lennox-Gastaut syndrome in patients 2 years of age or older.

“On June 25th, 2018, history was made: for the first time in United States history, a plant-based derivative of marijuana was approved for use as a medication, and it was also the first FDA-approved treatment for Dravet syndrome,” Dr. Patel noted at the congress sponsored by the International League Against Epilepsy.

A total of 96% of the 289 children with Dravet syndrome who completed the 14-week, double-blind, controlled randomized trials enrolled in the open-label, long-term extension study, during which they were on a median of three concurrent antiepileptic drugs along with a mean modal dose of CBD at 22 mg/kg/day. Although the target maintenance dose of CBD was 20 mg/kg/day, as advised in the product labeling, physicians could reduce or increase the dose up to 30 mg/kg/day.

“In the initial compassionate-use study, our site could go up to 50 mg/kg/day,” according to Dr. Patel. “We have plenty of data showing efficacy and continued safety beyond the FDA-recommended dose.”

In the open-label extension study, the median reduction from baseline in monthly seizure frequency assessed in 12-week intervals up to a maximum of week 72 was 44%-57% for convulsive seizures and 49%-67% for total seizures. More than 80% of patients and/or caregivers reported improvement in the patient’s overall condition as assessed on the Subject/Caregiver Global Impression of Change scale.

The pattern of adverse events associated with CBD has been consistent across all of the studies. The most common side effects are diarrhea in about one-third of patients, sleepiness in one-quarter, and decreased appetite in about one-quarter. Seven percent of patients discontinued the long-term extension trial because of adverse events.

Seventy percent of patients remained in the long-term extension study at 1 year.

Twenty-six patients developed liver transaminase levels greater than three times the upper limit of normal, and of note, 23 of the 26 were on concomitant valproic acid. None met criteria for severe drug-induced liver injury, and all recovered either spontaneously or after a reduction in the dose of CBD or valproic acid. But this association between CBD, valproic acid, and increased risk of mild liver injury has been a consistent finding across the clinical trials program.

“This is a very important clinical pearl to take away,” commented Dr. Patel, who is also a pediatric neurologist at Ohio State University.

The interim results of the long-term, open-label extension study of add-on CBD in patients with Lennox-Gastaut syndrome are similar to the Dravet syndrome study. Overall, 99% of the 368 patients with Lennox-Gastaut syndrome who completed the 14-week, double-blind, randomized trials signed up for the open-label extension. During a median follow-up of 61 weeks, the median percent reduction in seizure frequency as assessed in serial 12-week windows was 48%-70% for drop seizures and 48%-63% for total seizures. Twenty-four percent of patients withdrew from the study. Eighty-eight percent of patients or caregivers reported an improvement in overall condition when assessed at weeks 24 and 48. Forty-seven patients developed elevated transaminase levels – typically within the first 2 months on CBD – and 35 of them were on concomitant valproic acid.
 

More on drug-drug interactions

Elsewhere at IEC 2019, Gilmour Morrison of GW Pharmaceuticals, the Cambridge, England, company that markets Epidiolex, presented the findings of a series of drug-drug interaction studies involving coadministration of their CBD with clobazam (Sympazan and Onfi), valproate, stiripentol (Diacomit), or midazolam (Versed) in adult epilepsy patients and healthy volunteers. The researchers reported a bidirectional drug-drug interaction between Epidiolex and clobazam resulting in increased levels of the active metabolites of both drugs. The mechanism is believed to involve inhibition of cytochrome P450 2C19. However, there were no interactions with midazolam or valproate, and the slight bump in stiripentol levels when given with CBD didn’t reach the level of a clinically meaningful drug-drug interaction, according to the investigators.

On the horizon, Canadian researchers are investigating the possibility that since both the tetrahydrocannabinol (THC) and CBD components of marijuana have been shown to have anticonvulsant effects, adding a bit of THC to CBD will result in even better seizure control than with pure CBD in patients with Dravet syndrome. Investigators at Toronto’s Hospital for Sick Children have conducted a prospective, open-label study of a product containing CBD and THC in a 50:1 ratio as add-on therapy in 20 children with Dravet syndrome. The dose was 2-16 mg/kg/day of CBD and 0.04-0.32 mg/kg/day of THC. The cannabis plant extract used in the study was produced by Tilray, a Canadian pharmaceutical company.

Nineteen of the 20 patients completed the 20-week study. The sole noncompleter died of SUDEP (sudden unexpected death in epilepsy) deemed treatment unrelated. Patients experienced a median 71% reduction in motor seizures, compared with baseline. Sixty-three percent of patients had at least a 50% reduction in seizure frequency. Elevated liver transaminases occurred in patients on concomitant valproic acid, as did platelet abnormalities, which have not been seen in the Epidiolex studies, noted Dr. Patel, who was not involved in the Canadian study (Ann Clin Transl Neurol. 2018 Aug 1;5[9]:1077-88).

Dr. Patel reported serving as a consultant to Greenwich Biosciences, a U.S. offshoot of GW Pharmaceuticals. He receives research grants from that company as well as from the National Institutes of Health and the Pediatric Epilepsy Research Foundation.

[email protected]

BANGKOK – Interim results of long-term, open-label extension trials of add-on prescription cannabidiol in patients with Dravet syndrome or Lennox-Gastaut syndrome show sustained, clinically meaningful seizure reductions with no new safety concerns, Anup D. Patel, MD, reported at the International Epilepsy Congress.

“Overall, this is a very promising and sustainable result that we were happy to see,” said Dr. Patel, chief of child neurology at Nationwide Children’s Hospital in Columbus, Ohio.

Epidiolex is the brand name for the plant-derived, highly purified cannabidiol (CBD) in an oil-based oral solution at 100 mg/mL. Dr. Patel has been involved in the medication’s development program since the earliest open-label compassionate use study, which was followed by rigorous phase 3, double-blind, placebo-controlled randomized trials, eventually leading to Food and Drug Administration marketing approval for the treatment of Dravet syndrome and Lennox-Gastaut syndrome in patients 2 years of age or older.

“On June 25th, 2018, history was made: for the first time in United States history, a plant-based derivative of marijuana was approved for use as a medication, and it was also the first FDA-approved treatment for Dravet syndrome,” Dr. Patel noted at the congress sponsored by the International League Against Epilepsy.

A total of 96% of the 289 children with Dravet syndrome who completed the 14-week, double-blind, controlled randomized trials enrolled in the open-label, long-term extension study, during which they were on a median of three concurrent antiepileptic drugs along with a mean modal dose of CBD at 22 mg/kg/day. Although the target maintenance dose of CBD was 20 mg/kg/day, as advised in the product labeling, physicians could reduce or increase the dose up to 30 mg/kg/day.

“In the initial compassionate-use study, our site could go up to 50 mg/kg/day,” according to Dr. Patel. “We have plenty of data showing efficacy and continued safety beyond the FDA-recommended dose.”

In the open-label extension study, the median reduction from baseline in monthly seizure frequency assessed in 12-week intervals up to a maximum of week 72 was 44%-57% for convulsive seizures and 49%-67% for total seizures. More than 80% of patients and/or caregivers reported improvement in the patient’s overall condition as assessed on the Subject/Caregiver Global Impression of Change scale.

The pattern of adverse events associated with CBD has been consistent across all of the studies. The most common side effects are diarrhea in about one-third of patients, sleepiness in one-quarter, and decreased appetite in about one-quarter. Seven percent of patients discontinued the long-term extension trial because of adverse events.

Seventy percent of patients remained in the long-term extension study at 1 year.

Twenty-six patients developed liver transaminase levels greater than three times the upper limit of normal, and of note, 23 of the 26 were on concomitant valproic acid. None met criteria for severe drug-induced liver injury, and all recovered either spontaneously or after a reduction in the dose of CBD or valproic acid. But this association between CBD, valproic acid, and increased risk of mild liver injury has been a consistent finding across the clinical trials program.

“This is a very important clinical pearl to take away,” commented Dr. Patel, who is also a pediatric neurologist at Ohio State University.

The interim results of the long-term, open-label extension study of add-on CBD in patients with Lennox-Gastaut syndrome are similar to the Dravet syndrome study. Overall, 99% of the 368 patients with Lennox-Gastaut syndrome who completed the 14-week, double-blind, randomized trials signed up for the open-label extension. During a median follow-up of 61 weeks, the median percent reduction in seizure frequency as assessed in serial 12-week windows was 48%-70% for drop seizures and 48%-63% for total seizures. Twenty-four percent of patients withdrew from the study. Eighty-eight percent of patients or caregivers reported an improvement in overall condition when assessed at weeks 24 and 48. Forty-seven patients developed elevated transaminase levels – typically within the first 2 months on CBD – and 35 of them were on concomitant valproic acid.
 

More on drug-drug interactions

Elsewhere at IEC 2019, Gilmour Morrison of GW Pharmaceuticals, the Cambridge, England, company that markets Epidiolex, presented the findings of a series of drug-drug interaction studies involving coadministration of their CBD with clobazam (Sympazan and Onfi), valproate, stiripentol (Diacomit), or midazolam (Versed) in adult epilepsy patients and healthy volunteers. The researchers reported a bidirectional drug-drug interaction between Epidiolex and clobazam resulting in increased levels of the active metabolites of both drugs. The mechanism is believed to involve inhibition of cytochrome P450 2C19. However, there were no interactions with midazolam or valproate, and the slight bump in stiripentol levels when given with CBD didn’t reach the level of a clinically meaningful drug-drug interaction, according to the investigators.

On the horizon, Canadian researchers are investigating the possibility that since both the tetrahydrocannabinol (THC) and CBD components of marijuana have been shown to have anticonvulsant effects, adding a bit of THC to CBD will result in even better seizure control than with pure CBD in patients with Dravet syndrome. Investigators at Toronto’s Hospital for Sick Children have conducted a prospective, open-label study of a product containing CBD and THC in a 50:1 ratio as add-on therapy in 20 children with Dravet syndrome. The dose was 2-16 mg/kg/day of CBD and 0.04-0.32 mg/kg/day of THC. The cannabis plant extract used in the study was produced by Tilray, a Canadian pharmaceutical company.

Nineteen of the 20 patients completed the 20-week study. The sole noncompleter died of SUDEP (sudden unexpected death in epilepsy) deemed treatment unrelated. Patients experienced a median 71% reduction in motor seizures, compared with baseline. Sixty-three percent of patients had at least a 50% reduction in seizure frequency. Elevated liver transaminases occurred in patients on concomitant valproic acid, as did platelet abnormalities, which have not been seen in the Epidiolex studies, noted Dr. Patel, who was not involved in the Canadian study (Ann Clin Transl Neurol. 2018 Aug 1;5[9]:1077-88).

Dr. Patel reported serving as a consultant to Greenwich Biosciences, a U.S. offshoot of GW Pharmaceuticals. He receives research grants from that company as well as from the National Institutes of Health and the Pediatric Epilepsy Research Foundation.

[email protected]

PHILADELPHIA – In patients with migraine and medication overuse, galcanezumab reduces the number of mean monthly migraine headache days, according to research presented at the annual meeting of the American Headache Society. Furthermore, galcanezumab is associated with a reduction in medication overuse, compared with placebo, in this population.

“When you have targeted preventive treatment and you reduce the burden of illness, medication overuse seems to be reduced as well,” said Sheena Aurora, MD, adjunct clinical associate professor of anesthesiology and perioperative and pain medicine at Stanford (Calif.) Health Care. Dr. Aurora also is a medical fellow and global launch leader for galcanezumab at Eli Lilly, which has developed the treatment.

Galcanezumab is a humanized monoclonal antibody that selectively binds to the calcitonin gene-related peptide. The phase 3 EVOLVE-1, EVOLVE-2, and REGAIN studies indicated galcanezumab’s superiority to placebo in preventing episodic and chronic migraine.
 

A post hoc analysis of phase 3 data

Dr. Aurora and colleagues conducted a post hoc analysis of data from the three phase 3 studies to examine galcanezumab’s effect in patients with medication overuse. EVOLVE-1 and EVOLVE-2 included patients with episodic migraine, and REGAIN included patients with chronic migraine. All participants were randomized to monthly subcutaneous injections of placebo or galcanezumab (120 mg/month or 240 mg/month) for 3-6 months. Based on information obtained through electronic patient-reported outcome diaries, investigators determined headache medication overuse using criteria adapted from the International Classification of Headache Disorders, third edition. They estimated mean changes in monthly headache days and the proportion of patients with medication overuse after randomization using mixed modeling.

The demographic characteristics of the three study populations were similar to those reported in epidemiologic studies of migraine, said Dr. Aurora. Most participants were women, and most patients were between ages 40 and 49 years. At baseline, the mean number of monthly migraine headache days was 20 among patients with chronic migraine and 9 among patients with episodic migraine.

The rate of medication overuse was higher in the combined study population than in the literature. Patients with medication overuse had greater disability and greater health care resource utilization, compared with patients without medication overuse. Among patients with chronic migraine, participants who overused medication were not significantly different from those who did not. But among patients with episodic migraine, participants who overused medication had higher headache frequency than those who did not.

In the EVOLVE trials, the proportion of patients with baseline medication overuse was 19.3% in the placebo arm, 17.0% in the galcanezumab 120-mg arm, and 19.2% in the galcanezumab 240-mg arm. In REGAIN, the proportion of patients with baseline medication overuse was 63.4% in the placebo arm, 64.3% in the galcanezumab 120-mg arm, and 64.1% in the galcanezumab 240-mg arm.

Galcanezumab reduced medication overuse

Compared with placebo, both doses of galcanezumab significantly decreased mean monthly migraine headache days in patients with baseline medication overuse. In the EVOLVE studies, this endpoint decreased by 2.71 in the placebo group, 6.26 in the galcanezumab 120-mg group, and 5.77 in the galcanezumab 240-mg group. In REGAIN, the reductions were 2.25 in the placebo group, 4.78 in the galcanezumab 120-mg group, and 4.51 in the galcanezumab 240-mg group. The effect size was higher in patients who were overusing medications, compared with those who were not, said Dr. Aurora. “This is clinically relevant, because most of us ... had this belief that patients who were overusing medications may be more treatment-resistant to prevention.”

In addition, galcanezumab was associated with significantly lower rates of average monthly medication overuse, compared with placebo. In the EVOLVE studies, the average rate of monthly medication overuse was 15.9% for the placebo group, 6.2% for the galcanezumab 120-mg group, and 7.9% for the galcanezumab 240-mg group. In REGAIN, the average rate of monthly medication overuse was 40.6% in the placebo group, 24.3% in the galcanezumab 120-mg group, and 23.1% in the galcanezumab 240-mg group. About 85% of patients with episodic migraine and medication overuse had a reduction in medication overuse, and approximately 50% of patients with chronic migraine and medication overuse had a reduction in medication overuse, said Dr. Aurora.

Dr. Aurora and coinvestigators are employees of Eli Lilly, which developed galcanezumab and funded the EVOLVE and REGAIN studies.

[email protected]

SOURCE: Aurora S et al. AHS 2019. Abstract IOR07.

PHILADELPHIA – In patients with migraine and medication overuse, galcanezumab reduces the number of mean monthly migraine headache days, according to research presented at the annual meeting of the American Headache Society. Furthermore, galcanezumab is associated with a reduction in medication overuse, compared with placebo, in this population.

“When you have targeted preventive treatment and you reduce the burden of illness, medication overuse seems to be reduced as well,” said Sheena Aurora, MD, adjunct clinical associate professor of anesthesiology and perioperative and pain medicine at Stanford (Calif.) Health Care. Dr. Aurora also is a medical fellow and global launch leader for galcanezumab at Eli Lilly, which has developed the treatment.

Galcanezumab is a humanized monoclonal antibody that selectively binds to the calcitonin gene-related peptide. The phase 3 EVOLVE-1, EVOLVE-2, and REGAIN studies indicated galcanezumab’s superiority to placebo in preventing episodic and chronic migraine.
 

A post hoc analysis of phase 3 data

Dr. Aurora and colleagues conducted a post hoc analysis of data from the three phase 3 studies to examine galcanezumab’s effect in patients with medication overuse. EVOLVE-1 and EVOLVE-2 included patients with episodic migraine, and REGAIN included patients with chronic migraine. All participants were randomized to monthly subcutaneous injections of placebo or galcanezumab (120 mg/month or 240 mg/month) for 3-6 months. Based on information obtained through electronic patient-reported outcome diaries, investigators determined headache medication overuse using criteria adapted from the International Classification of Headache Disorders, third edition. They estimated mean changes in monthly headache days and the proportion of patients with medication overuse after randomization using mixed modeling.

The demographic characteristics of the three study populations were similar to those reported in epidemiologic studies of migraine, said Dr. Aurora. Most participants were women, and most patients were between ages 40 and 49 years. At baseline, the mean number of monthly migraine headache days was 20 among patients with chronic migraine and 9 among patients with episodic migraine.

The rate of medication overuse was higher in the combined study population than in the literature. Patients with medication overuse had greater disability and greater health care resource utilization, compared with patients without medication overuse. Among patients with chronic migraine, participants who overused medication were not significantly different from those who did not. But among patients with episodic migraine, participants who overused medication had higher headache frequency than those who did not.

In the EVOLVE trials, the proportion of patients with baseline medication overuse was 19.3% in the placebo arm, 17.0% in the galcanezumab 120-mg arm, and 19.2% in the galcanezumab 240-mg arm. In REGAIN, the proportion of patients with baseline medication overuse was 63.4% in the placebo arm, 64.3% in the galcanezumab 120-mg arm, and 64.1% in the galcanezumab 240-mg arm.

Galcanezumab reduced medication overuse

Compared with placebo, both doses of galcanezumab significantly decreased mean monthly migraine headache days in patients with baseline medication overuse. In the EVOLVE studies, this endpoint decreased by 2.71 in the placebo group, 6.26 in the galcanezumab 120-mg group, and 5.77 in the galcanezumab 240-mg group. In REGAIN, the reductions were 2.25 in the placebo group, 4.78 in the galcanezumab 120-mg group, and 4.51 in the galcanezumab 240-mg group. The effect size was higher in patients who were overusing medications, compared with those who were not, said Dr. Aurora. “This is clinically relevant, because most of us ... had this belief that patients who were overusing medications may be more treatment-resistant to prevention.”

In addition, galcanezumab was associated with significantly lower rates of average monthly medication overuse, compared with placebo. In the EVOLVE studies, the average rate of monthly medication overuse was 15.9% for the placebo group, 6.2% for the galcanezumab 120-mg group, and 7.9% for the galcanezumab 240-mg group. In REGAIN, the average rate of monthly medication overuse was 40.6% in the placebo group, 24.3% in the galcanezumab 120-mg group, and 23.1% in the galcanezumab 240-mg group. About 85% of patients with episodic migraine and medication overuse had a reduction in medication overuse, and approximately 50% of patients with chronic migraine and medication overuse had a reduction in medication overuse, said Dr. Aurora.

Dr. Aurora and coinvestigators are employees of Eli Lilly, which developed galcanezumab and funded the EVOLVE and REGAIN studies.

[email protected]

SOURCE: Aurora S et al. AHS 2019. Abstract IOR07.

PHILADELPHIA – In patients with migraine and medication overuse, galcanezumab reduces the number of mean monthly migraine headache days, according to research presented at the annual meeting of the American Headache Society. Furthermore, galcanezumab is associated with a reduction in medication overuse, compared with placebo, in this population.

“When you have targeted preventive treatment and you reduce the burden of illness, medication overuse seems to be reduced as well,” said Sheena Aurora, MD, adjunct clinical associate professor of anesthesiology and perioperative and pain medicine at Stanford (Calif.) Health Care. Dr. Aurora also is a medical fellow and global launch leader for galcanezumab at Eli Lilly, which has developed the treatment.

Galcanezumab is a humanized monoclonal antibody that selectively binds to the calcitonin gene-related peptide. The phase 3 EVOLVE-1, EVOLVE-2, and REGAIN studies indicated galcanezumab’s superiority to placebo in preventing episodic and chronic migraine.
 

A post hoc analysis of phase 3 data

Dr. Aurora and colleagues conducted a post hoc analysis of data from the three phase 3 studies to examine galcanezumab’s effect in patients with medication overuse. EVOLVE-1 and EVOLVE-2 included patients with episodic migraine, and REGAIN included patients with chronic migraine. All participants were randomized to monthly subcutaneous injections of placebo or galcanezumab (120 mg/month or 240 mg/month) for 3-6 months. Based on information obtained through electronic patient-reported outcome diaries, investigators determined headache medication overuse using criteria adapted from the International Classification of Headache Disorders, third edition. They estimated mean changes in monthly headache days and the proportion of patients with medication overuse after randomization using mixed modeling.

The demographic characteristics of the three study populations were similar to those reported in epidemiologic studies of migraine, said Dr. Aurora. Most participants were women, and most patients were between ages 40 and 49 years. At baseline, the mean number of monthly migraine headache days was 20 among patients with chronic migraine and 9 among patients with episodic migraine.

The rate of medication overuse was higher in the combined study population than in the literature. Patients with medication overuse had greater disability and greater health care resource utilization, compared with patients without medication overuse. Among patients with chronic migraine, participants who overused medication were not significantly different from those who did not. But among patients with episodic migraine, participants who overused medication had higher headache frequency than those who did not.

In the EVOLVE trials, the proportion of patients with baseline medication overuse was 19.3% in the placebo arm, 17.0% in the galcanezumab 120-mg arm, and 19.2% in the galcanezumab 240-mg arm. In REGAIN, the proportion of patients with baseline medication overuse was 63.4% in the placebo arm, 64.3% in the galcanezumab 120-mg arm, and 64.1% in the galcanezumab 240-mg arm.

Galcanezumab reduced medication overuse

Compared with placebo, both doses of galcanezumab significantly decreased mean monthly migraine headache days in patients with baseline medication overuse. In the EVOLVE studies, this endpoint decreased by 2.71 in the placebo group, 6.26 in the galcanezumab 120-mg group, and 5.77 in the galcanezumab 240-mg group. In REGAIN, the reductions were 2.25 in the placebo group, 4.78 in the galcanezumab 120-mg group, and 4.51 in the galcanezumab 240-mg group. The effect size was higher in patients who were overusing medications, compared with those who were not, said Dr. Aurora. “This is clinically relevant, because most of us ... had this belief that patients who were overusing medications may be more treatment-resistant to prevention.”

In addition, galcanezumab was associated with significantly lower rates of average monthly medication overuse, compared with placebo. In the EVOLVE studies, the average rate of monthly medication overuse was 15.9% for the placebo group, 6.2% for the galcanezumab 120-mg group, and 7.9% for the galcanezumab 240-mg group. In REGAIN, the average rate of monthly medication overuse was 40.6% in the placebo group, 24.3% in the galcanezumab 120-mg group, and 23.1% in the galcanezumab 240-mg group. About 85% of patients with episodic migraine and medication overuse had a reduction in medication overuse, and approximately 50% of patients with chronic migraine and medication overuse had a reduction in medication overuse, said Dr. Aurora.

Dr. Aurora and coinvestigators are employees of Eli Lilly, which developed galcanezumab and funded the EVOLVE and REGAIN studies.

[email protected]

SOURCE: Aurora S et al. AHS 2019. Abstract IOR07.

Maternal exposure to fluoride during pregnancy was associated with lower IQ scores in children at 3 years and 4 years, with boys having a lower mean score than girls, according to a recent prospective, multicenter birth cohort study.

LightFieldStudios/iStock/Getty Images Plus

“These findings were observed at fluoride levels typically found in white North American women,” wrote Rivka Green, York University, Toronto, and colleagues. “This indicates the possible need to reduce fluoride intake during pregnancy.”

This study confirms findings in a 2017 study suggesting a relationship between maternal fluoride levels and children’s later cognitive scores.

Ms. Green and colleagues evaluated 512 mother-child pairs in the Maternal-Infant Research on Environmental Chemicals (MIREC) cohort from six Canadian cities. The children were born between 2008 and 2012, underwent neurodevelopmental testing between 3 and 4 years, and were assessed using the Wechsler Preschool and Primary Scale of Intelligence, Third Edition. Full Scale IQ (FSIQ) test.

Of these, 400 mother-child pairs had data on fluoride intake, IQ, and complete covariate data; 141 of these mothers lived in areas with fluoridated tap water, while 228 mothers lived in areas without fluoridated tap water. Maternal urinary fluoride adjusted for specific gravity (MUF_SG) was averaged across three trimesters of data, and the estimated fluoride level was obtained through self-reported exposure by women included in the study.

The researchers found mothers living in areas with fluoridated water had significantly higher MUF_SG levels (0.69 mg/L), compared with women in areas without fluoridated water (0.40 mg/L; P equals .001). The median estimated fluoride intake was significantly higher among women living in areas with fluoridated water (0.93 mg per day) than in women who did not live in areas with fluoridated water (0.30 mg per day; P less than .001).

Overall, children scored a mean 107.16 (range, 52-143) on the IQ test, and girls had significantly higher mean IQ scores than did boys (109.56 vs. 104.61; P = .001). After adjusting for covariates of maternal age, race, parity, smoking, and alcohol status during pregnancy, child gender, gestational age, and birth weight, the researchers found a significant interaction between MUF_SG and the child’s gender (P = .02), and a 1-mg/L MUF_SG increase was associated with a decrease in 4.49 IQ points in boys (95% confidence interval, −8.38 to −0.60) but not girls. There also was an association between 1-mg higher daily intake of maternal fluoride intake and decreased IQ score in both boys and girls (−3.66; 95% CI, −7.16 to −0.15 ; P = .04).

Ms. Green and her colleagues acknowledged several limitations with the study, such as the short half-life of urinary fluoride and the potential inaccuracy of maternal urinary samples at predicting fetal exposure to fluoride, the self-reported nature of estimated fluoride consumption, lack of availability of maternal IQ data, and not including postnatal exposure and consumption of fluoride.

In a related editorial, David C. Bellinger, PhD, MSc, referred to a previous prospective study in Mexico City by Bashash et al. that found a maternal fluoride level of 0.9 mg/L was associated with a decrease in cognitive scores in children at 4 years and between 6 years and 12 years (Environ Health Perspect. 2017;125(9):097017. doi: 10.1289/EHP655), and noted the effect sizes seen in the Mexico City study were similar to those reported by Green et al. “If the effect sizes reported by Green et al. and others are valid, the total cognitive loss at the population level that might be associated with children’s prenatal exposure to fluoride could be substantial,” he said.

The study raises many questions, including whether there is a concentration where neurotoxicity risk is negligible, if gender plays a role (there was no gender risk difference in Bashash et al.), whether other developmental domains are affected apart from IQ, and if postnatal exposure carries a risk, Dr. Bellinger said. “The findings of Green et al. and others indicate that a dispassionate and tempered discussion of fluoride’s potential neurotoxicity is warranted, including consideration of what additional research is needed to reach more definitive conclusions about the implications, if any, for public health,” he said.

Dimitri A. Christakis, MD, MPH, editor of JAMA Pediatrics and director of the Center for Child Health, Behavior, and Development at Seattle Children’s Research Institute, said in an editor’s note that it was not an easy decision to publish the article because of the potential implications of the findings.

“The mission of the journal is to ensure that child health is optimized by bringing the best available evidence to the fore,” he said. “Publishing it serves as testament to the fact that JAMA Pediatrics is committed to disseminating the best science based entirely on the rigor of the methods and the soundness of the hypotheses tested, regardless of how contentious the results may be.”

However, “scientific inquiry is an iterative process,” Dr. Christakis said, and rarely does a single study provide “definitive evidence.

“We hope that purveyors and consumers of these findings are mindful of that as the implications of this study are debated in the public arena.”

This study was funded in a grant from the National Institute of Environmental Health Science, and the MIREC Study was funded by Chemicals Management Plan at Health Canada, the Ontario Ministry of the Environment, and the Canadian Institutes for Health Research. Dr. Bruce Lanphear reported being an unpaid expert witness for an upcoming case involving the U.S. Environmental Protection Agency and water fluoridation. Dr. Richard Hornung reported receiving personal fees from York University. Dr. E. Angeles Martinez-Mier reported receiving grants from the National Institutes of Health. The other authors report no relevant conflicts of interest. Dr. Bellinger reported no relevant conflicts of interest with regard to his editorial.

SOURCEs: Green R et al. JAMA Pediatr. 2019. doi: 10.1001/jamapediatrics.2019.1729; Bellinger. JAMA Pediatr. 2019. doi: 10.1001/ jamapediatrics.2019.1728.

Maternal exposure to fluoride during pregnancy was associated with lower IQ scores in children at 3 years and 4 years, with boys having a lower mean score than girls, according to a recent prospective, multicenter birth cohort study.

LightFieldStudios/iStock/Getty Images Plus

“These findings were observed at fluoride levels typically found in white North American women,” wrote Rivka Green, York University, Toronto, and colleagues. “This indicates the possible need to reduce fluoride intake during pregnancy.”

This study confirms findings in a 2017 study suggesting a relationship between maternal fluoride levels and children’s later cognitive scores.

Ms. Green and colleagues evaluated 512 mother-child pairs in the Maternal-Infant Research on Environmental Chemicals (MIREC) cohort from six Canadian cities. The children were born between 2008 and 2012, underwent neurodevelopmental testing between 3 and 4 years, and were assessed using the Wechsler Preschool and Primary Scale of Intelligence, Third Edition. Full Scale IQ (FSIQ) test.

Of these, 400 mother-child pairs had data on fluoride intake, IQ, and complete covariate data; 141 of these mothers lived in areas with fluoridated tap water, while 228 mothers lived in areas without fluoridated tap water. Maternal urinary fluoride adjusted for specific gravity (MUF_SG) was averaged across three trimesters of data, and the estimated fluoride level was obtained through self-reported exposure by women included in the study.

The researchers found mothers living in areas with fluoridated water had significantly higher MUF_SG levels (0.69 mg/L), compared with women in areas without fluoridated water (0.40 mg/L; P equals .001). The median estimated fluoride intake was significantly higher among women living in areas with fluoridated water (0.93 mg per day) than in women who did not live in areas with fluoridated water (0.30 mg per day; P less than .001).

Overall, children scored a mean 107.16 (range, 52-143) on the IQ test, and girls had significantly higher mean IQ scores than did boys (109.56 vs. 104.61; P = .001). After adjusting for covariates of maternal age, race, parity, smoking, and alcohol status during pregnancy, child gender, gestational age, and birth weight, the researchers found a significant interaction between MUF_SG and the child’s gender (P = .02), and a 1-mg/L MUF_SG increase was associated with a decrease in 4.49 IQ points in boys (95% confidence interval, −8.38 to −0.60) but not girls. There also was an association between 1-mg higher daily intake of maternal fluoride intake and decreased IQ score in both boys and girls (−3.66; 95% CI, −7.16 to −0.15 ; P = .04).

Ms. Green and her colleagues acknowledged several limitations with the study, such as the short half-life of urinary fluoride and the potential inaccuracy of maternal urinary samples at predicting fetal exposure to fluoride, the self-reported nature of estimated fluoride consumption, lack of availability of maternal IQ data, and not including postnatal exposure and consumption of fluoride.

In a related editorial, David C. Bellinger, PhD, MSc, referred to a previous prospective study in Mexico City by Bashash et al. that found a maternal fluoride level of 0.9 mg/L was associated with a decrease in cognitive scores in children at 4 years and between 6 years and 12 years (Environ Health Perspect. 2017;125(9):097017. doi: 10.1289/EHP655), and noted the effect sizes seen in the Mexico City study were similar to those reported by Green et al. “If the effect sizes reported by Green et al. and others are valid, the total cognitive loss at the population level that might be associated with children’s prenatal exposure to fluoride could be substantial,” he said.

The study raises many questions, including whether there is a concentration where neurotoxicity risk is negligible, if gender plays a role (there was no gender risk difference in Bashash et al.), whether other developmental domains are affected apart from IQ, and if postnatal exposure carries a risk, Dr. Bellinger said. “The findings of Green et al. and others indicate that a dispassionate and tempered discussion of fluoride’s potential neurotoxicity is warranted, including consideration of what additional research is needed to reach more definitive conclusions about the implications, if any, for public health,” he said.

Dimitri A. Christakis, MD, MPH, editor of JAMA Pediatrics and director of the Center for Child Health, Behavior, and Development at Seattle Children’s Research Institute, said in an editor’s note that it was not an easy decision to publish the article because of the potential implications of the findings.

“The mission of the journal is to ensure that child health is optimized by bringing the best available evidence to the fore,” he said. “Publishing it serves as testament to the fact that JAMA Pediatrics is committed to disseminating the best science based entirely on the rigor of the methods and the soundness of the hypotheses tested, regardless of how contentious the results may be.”

However, “scientific inquiry is an iterative process,” Dr. Christakis said, and rarely does a single study provide “definitive evidence.

“We hope that purveyors and consumers of these findings are mindful of that as the implications of this study are debated in the public arena.”

This study was funded in a grant from the National Institute of Environmental Health Science, and the MIREC Study was funded by Chemicals Management Plan at Health Canada, the Ontario Ministry of the Environment, and the Canadian Institutes for Health Research. Dr. Bruce Lanphear reported being an unpaid expert witness for an upcoming case involving the U.S. Environmental Protection Agency and water fluoridation. Dr. Richard Hornung reported receiving personal fees from York University. Dr. E. Angeles Martinez-Mier reported receiving grants from the National Institutes of Health. The other authors report no relevant conflicts of interest. Dr. Bellinger reported no relevant conflicts of interest with regard to his editorial.

SOURCEs: Green R et al. JAMA Pediatr. 2019. doi: 10.1001/jamapediatrics.2019.1729; Bellinger. JAMA Pediatr. 2019. doi: 10.1001/ jamapediatrics.2019.1728.

Maternal exposure to fluoride during pregnancy was associated with lower IQ scores in children at 3 years and 4 years, with boys having a lower mean score than girls, according to a recent prospective, multicenter birth cohort study.

LightFieldStudios/iStock/Getty Images Plus

“These findings were observed at fluoride levels typically found in white North American women,” wrote Rivka Green, York University, Toronto, and colleagues. “This indicates the possible need to reduce fluoride intake during pregnancy.”

This study confirms findings in a 2017 study suggesting a relationship between maternal fluoride levels and children’s later cognitive scores.

Ms. Green and colleagues evaluated 512 mother-child pairs in the Maternal-Infant Research on Environmental Chemicals (MIREC) cohort from six Canadian cities. The children were born between 2008 and 2012, underwent neurodevelopmental testing between 3 and 4 years, and were assessed using the Wechsler Preschool and Primary Scale of Intelligence, Third Edition. Full Scale IQ (FSIQ) test.

Of these, 400 mother-child pairs had data on fluoride intake, IQ, and complete covariate data; 141 of these mothers lived in areas with fluoridated tap water, while 228 mothers lived in areas without fluoridated tap water. Maternal urinary fluoride adjusted for specific gravity (MUF_SG) was averaged across three trimesters of data, and the estimated fluoride level was obtained through self-reported exposure by women included in the study.

The researchers found mothers living in areas with fluoridated water had significantly higher MUF_SG levels (0.69 mg/L), compared with women in areas without fluoridated water (0.40 mg/L; P equals .001). The median estimated fluoride intake was significantly higher among women living in areas with fluoridated water (0.93 mg per day) than in women who did not live in areas with fluoridated water (0.30 mg per day; P less than .001).

Overall, children scored a mean 107.16 (range, 52-143) on the IQ test, and girls had significantly higher mean IQ scores than did boys (109.56 vs. 104.61; P = .001). After adjusting for covariates of maternal age, race, parity, smoking, and alcohol status during pregnancy, child gender, gestational age, and birth weight, the researchers found a significant interaction between MUF_SG and the child’s gender (P = .02), and a 1-mg/L MUF_SG increase was associated with a decrease in 4.49 IQ points in boys (95% confidence interval, −8.38 to −0.60) but not girls. There also was an association between 1-mg higher daily intake of maternal fluoride intake and decreased IQ score in both boys and girls (−3.66; 95% CI, −7.16 to −0.15 ; P = .04).

Ms. Green and her colleagues acknowledged several limitations with the study, such as the short half-life of urinary fluoride and the potential inaccuracy of maternal urinary samples at predicting fetal exposure to fluoride, the self-reported nature of estimated fluoride consumption, lack of availability of maternal IQ data, and not including postnatal exposure and consumption of fluoride.

In a related editorial, David C. Bellinger, PhD, MSc, referred to a previous prospective study in Mexico City by Bashash et al. that found a maternal fluoride level of 0.9 mg/L was associated with a decrease in cognitive scores in children at 4 years and between 6 years and 12 years (Environ Health Perspect. 2017;125(9):097017. doi: 10.1289/EHP655), and noted the effect sizes seen in the Mexico City study were similar to those reported by Green et al. “If the effect sizes reported by Green et al. and others are valid, the total cognitive loss at the population level that might be associated with children’s prenatal exposure to fluoride could be substantial,” he said.

The study raises many questions, including whether there is a concentration where neurotoxicity risk is negligible, if gender plays a role (there was no gender risk difference in Bashash et al.), whether other developmental domains are affected apart from IQ, and if postnatal exposure carries a risk, Dr. Bellinger said. “The findings of Green et al. and others indicate that a dispassionate and tempered discussion of fluoride’s potential neurotoxicity is warranted, including consideration of what additional research is needed to reach more definitive conclusions about the implications, if any, for public health,” he said.

Dimitri A. Christakis, MD, MPH, editor of JAMA Pediatrics and director of the Center for Child Health, Behavior, and Development at Seattle Children’s Research Institute, said in an editor’s note that it was not an easy decision to publish the article because of the potential implications of the findings.

“The mission of the journal is to ensure that child health is optimized by bringing the best available evidence to the fore,” he said. “Publishing it serves as testament to the fact that JAMA Pediatrics is committed to disseminating the best science based entirely on the rigor of the methods and the soundness of the hypotheses tested, regardless of how contentious the results may be.”

However, “scientific inquiry is an iterative process,” Dr. Christakis said, and rarely does a single study provide “definitive evidence.

“We hope that purveyors and consumers of these findings are mindful of that as the implications of this study are debated in the public arena.”

This study was funded in a grant from the National Institute of Environmental Health Science, and the MIREC Study was funded by Chemicals Management Plan at Health Canada, the Ontario Ministry of the Environment, and the Canadian Institutes for Health Research. Dr. Bruce Lanphear reported being an unpaid expert witness for an upcoming case involving the U.S. Environmental Protection Agency and water fluoridation. Dr. Richard Hornung reported receiving personal fees from York University. Dr. E. Angeles Martinez-Mier reported receiving grants from the National Institutes of Health. The other authors report no relevant conflicts of interest. Dr. Bellinger reported no relevant conflicts of interest with regard to his editorial.

SOURCEs: Green R et al. JAMA Pediatr. 2019. doi: 10.1001/jamapediatrics.2019.1729; Bellinger. JAMA Pediatr. 2019. doi: 10.1001/ jamapediatrics.2019.1728.

The progression, not just age of onset, of Huntington’s disease can be predicted by a measurable genetic factor, researchers have learned.

Huntington’s, an inherited neurodegenerative disease that affects motor function and cognition, is caused by an expansion of the CAG trinucleotide sequence on the huntingtin gene. Scientists have previously linked younger age at onset to a higher number of CAG repeats on the gene, but the association between these and the rate of progression after onset was poorly understood.

In research published online August 12 in JAMA Neurology, investigators linked the rate of progression – which, like age at onset, is highly variable in Huntington’s – to CAG repeat length. CAG repeat length was strongly associated with distinct patterns of brain damage, as well as clinical measures of cognitive and motor decline.

For their research, Douglas R. Langbehn, MD, PhD, of the University of Iowa, Iowa City, and colleagues used data from two longitudinal observational studies in gene carriers for Huntington’s and nonrelated controls. The researchers looked at data from 443 participants (56% female; mean age, 44.4 years) who were followed for a mean of 4 years, with more than 2,000 study visits across the multisite cohort. Neuropsychiatric testing and brain imaging were conducted annually, using composite scoring systems of the investigators’ design. These composite scores sought to be more sensitive by combining results from several validated clinical and imaging tests.

Age and speed of decline in total functional capacity tracked with more CAG repeats, the researchers found. For example, in people with 40 CAG repeats, the estimated mean age of initial motor-cognitive score change was 42.46 years; for those with 45 repeats, 26.65 years, and for people with 50 CAG repeats, 18.49 years. Higher repeats were seen significantly associated with accelerated, nonlinear decline on both clinical and brain-volume measures, except gray matter volume, according to principal component analyses conducted on the data.

“We derived a single summary measure capturing the motor-cognitive phenotype and showed that the accelerating progression of the phenotype with aging is highly CAG repeat length dependent (i.e., those with higher CAG decline earlier and faster). Contrary to some previous assertions, this CAG dependence continues well past the onset of clinical illness,” Dr. Langbehn and colleagues wrote in their analysis. “By characterizing these CAG repeat length–dependent disease trajectories, we provide insights into disease progression that may guide future therapeutic approaches and identify the most appropriate intervention ages to prevent clinical decline.”

Dr. Langbehn and colleagues acknowledged as a limitation of their study its likely exclusion of the sickest subjects because of the cohorts’ design. The CHDI Foundation funded the study. Of the 16 coauthors, 13 reported receiving funding from CHDI and/or from pharmaceutical manufacturers.

SOURCE: Langbehn et al. JAMA Neurol. 2019 Aug 12. doi: 10.1001/jamaneurol.2019.2328

The progression, not just age of onset, of Huntington’s disease can be predicted by a measurable genetic factor, researchers have learned.

Huntington’s, an inherited neurodegenerative disease that affects motor function and cognition, is caused by an expansion of the CAG trinucleotide sequence on the huntingtin gene. Scientists have previously linked younger age at onset to a higher number of CAG repeats on the gene, but the association between these and the rate of progression after onset was poorly understood.

In research published online August 12 in JAMA Neurology, investigators linked the rate of progression – which, like age at onset, is highly variable in Huntington’s – to CAG repeat length. CAG repeat length was strongly associated with distinct patterns of brain damage, as well as clinical measures of cognitive and motor decline.

For their research, Douglas R. Langbehn, MD, PhD, of the University of Iowa, Iowa City, and colleagues used data from two longitudinal observational studies in gene carriers for Huntington’s and nonrelated controls. The researchers looked at data from 443 participants (56% female; mean age, 44.4 years) who were followed for a mean of 4 years, with more than 2,000 study visits across the multisite cohort. Neuropsychiatric testing and brain imaging were conducted annually, using composite scoring systems of the investigators’ design. These composite scores sought to be more sensitive by combining results from several validated clinical and imaging tests.

Age and speed of decline in total functional capacity tracked with more CAG repeats, the researchers found. For example, in people with 40 CAG repeats, the estimated mean age of initial motor-cognitive score change was 42.46 years; for those with 45 repeats, 26.65 years, and for people with 50 CAG repeats, 18.49 years. Higher repeats were seen significantly associated with accelerated, nonlinear decline on both clinical and brain-volume measures, except gray matter volume, according to principal component analyses conducted on the data.

“We derived a single summary measure capturing the motor-cognitive phenotype and showed that the accelerating progression of the phenotype with aging is highly CAG repeat length dependent (i.e., those with higher CAG decline earlier and faster). Contrary to some previous assertions, this CAG dependence continues well past the onset of clinical illness,” Dr. Langbehn and colleagues wrote in their analysis. “By characterizing these CAG repeat length–dependent disease trajectories, we provide insights into disease progression that may guide future therapeutic approaches and identify the most appropriate intervention ages to prevent clinical decline.”

Dr. Langbehn and colleagues acknowledged as a limitation of their study its likely exclusion of the sickest subjects because of the cohorts’ design. The CHDI Foundation funded the study. Of the 16 coauthors, 13 reported receiving funding from CHDI and/or from pharmaceutical manufacturers.

SOURCE: Langbehn et al. JAMA Neurol. 2019 Aug 12. doi: 10.1001/jamaneurol.2019.2328

The progression, not just age of onset, of Huntington’s disease can be predicted by a measurable genetic factor, researchers have learned.

Huntington’s, an inherited neurodegenerative disease that affects motor function and cognition, is caused by an expansion of the CAG trinucleotide sequence on the huntingtin gene. Scientists have previously linked younger age at onset to a higher number of CAG repeats on the gene, but the association between these and the rate of progression after onset was poorly understood.

In research published online August 12 in JAMA Neurology, investigators linked the rate of progression – which, like age at onset, is highly variable in Huntington’s – to CAG repeat length. CAG repeat length was strongly associated with distinct patterns of brain damage, as well as clinical measures of cognitive and motor decline.

For their research, Douglas R. Langbehn, MD, PhD, of the University of Iowa, Iowa City, and colleagues used data from two longitudinal observational studies in gene carriers for Huntington’s and nonrelated controls. The researchers looked at data from 443 participants (56% female; mean age, 44.4 years) who were followed for a mean of 4 years, with more than 2,000 study visits across the multisite cohort. Neuropsychiatric testing and brain imaging were conducted annually, using composite scoring systems of the investigators’ design. These composite scores sought to be more sensitive by combining results from several validated clinical and imaging tests.

Age and speed of decline in total functional capacity tracked with more CAG repeats, the researchers found. For example, in people with 40 CAG repeats, the estimated mean age of initial motor-cognitive score change was 42.46 years; for those with 45 repeats, 26.65 years, and for people with 50 CAG repeats, 18.49 years. Higher repeats were seen significantly associated with accelerated, nonlinear decline on both clinical and brain-volume measures, except gray matter volume, according to principal component analyses conducted on the data.

“We derived a single summary measure capturing the motor-cognitive phenotype and showed that the accelerating progression of the phenotype with aging is highly CAG repeat length dependent (i.e., those with higher CAG decline earlier and faster). Contrary to some previous assertions, this CAG dependence continues well past the onset of clinical illness,” Dr. Langbehn and colleagues wrote in their analysis. “By characterizing these CAG repeat length–dependent disease trajectories, we provide insights into disease progression that may guide future therapeutic approaches and identify the most appropriate intervention ages to prevent clinical decline.”

Dr. Langbehn and colleagues acknowledged as a limitation of their study its likely exclusion of the sickest subjects because of the cohorts’ design. The CHDI Foundation funded the study. Of the 16 coauthors, 13 reported receiving funding from CHDI and/or from pharmaceutical manufacturers.

SOURCE: Langbehn et al. JAMA Neurol. 2019 Aug 12. doi: 10.1001/jamaneurol.2019.2328

Two new guidelines on the treatment and prevention of migraines in children and adolescents have been released by the American Academy of Neurology and the American Headache Society.

This update to the previous guidelines released by the American Academy of Neurology in 2004 reflects the expansion in pharmacologic and nonpharmacologic approaches during the last 15 years, Andrew D. Hershey, MD, PhD, director of the division of neurology at Cincinnati Children’s Hospital and a fellow of the American Academy of Neurology, said in an interview.

“There has also been an increase in the number of randomized controlled studies, which have allowed for a more robust statement on acute and preventive treatments to be made,” said Dr. Hershey, who is also a senior author for both guidelines.

The two reports focused on separate issues: One guideline outlined the options for treatment of acute migraine, and the second guideline summarized the available studies on the effectiveness of preventive medications for migraine in children and adolescents.

The guidelines recommend a physical examination and history to establish a specific headache diagnosis and afford a treatment that provides fast and complete pain relief. Treatment should be initiated as soon as a patient realizes an attack is occurring. Patients with signs of secondary headache should be evaluated by a neurologist or a headache specialist.

Studies support the use of ibuprofen and acetaminophen for pain relief in cases of acute migraine, but only some triptans (such as almotriptan, rizatriptan, sumatriptan/naproxen, and zolmitriptan nasal spray) are approved for use in adolescents. Specifically, sumatriptan/naproxen was shown to be effective when compared with placebo in studies with adolescents, whose headache symptoms resolved within 2 hours.

It may be necessary to try more than one triptan, the guidelines noted, because patients respond differently to medications. A failure to respond to one triptan does not necessarily mean that treatment with another triptan will be unsuccessful.

The guidelines also focused on patient and family education to improve medication safety and adherence. Lifestyle modification, avoidance of migraine triggers, creating good sleep habits, and staying hydrated can help reduce migraines. While no medications improved associated symptoms of migraines such as nausea or vomiting, triptans did show a benefit in reducing phonophobia and photophobia.

Evidence for pharmacologic prevention of migraines in children and adolescents is limited, according to the guidelines. In the 15 studies included in a literature review, there was not sufficient evidence to show preventive treatments, such as divalproex, onabotulinumtoxinA, amitriptyline, nimodipine, and flunarizine, were more effective than placebo at reducing the frequency of headaches. There was some evidence to show propranolol in children and topiramate and cinnarizine in children and adolescents can reduce headache frequency. Children and adolescents who received cognitive-behavioral therapy together with amitriptyline were more likely to have reduced frequency of headaches than were those who received amitriptyline with patient education.

“The consensus conclusion was that a multidisciplinary approach that combines acute treatments, preventive treatments, and healthy habits is likely to have the best outcomes,” said Dr. Hershey.

Dr. Hershey acknowledged the many gaps between what is clinically observed and what the studies in the guidelines demonstrated.

“One of the biggest questions is how to minimize the expectation response in the controlled studies,” he said. “Additionally, we are moving toward a better recognition of the mechanism by which the various treatments work in a genetic-based disease that is polygenic in nature” with up to 38 different gene polymorphisms identified to date.

The guidelines also do not address newer treatments, such as calcitonin gene–related peptide (CGRP) antibodies, CGRP antagonists, serotonin antagonists, and devices because there are as yet no studies of their effectiveness in children and adolescents.

“They have been studied in adults, so will be prone to the expectation response; but given the large number of diverse therapies, one can hope that many of the gaps can be filled,” said Dr. Hershey.

The American Academy of Neurology provided funding for development of the guidelines and reimbursed authors who served as subcommittee members for travel expenses and in-person meetings. The authors reported personal and institutional relationships in the form of advisory board memberships, investigator appointments, speakers bureau positions, research support, grants, honorariums, consultancies, and publishing royalties for pharmaceutical companies and other organizations.

SOURCES: Oskoui M et al. Neurology. 2019 Aug 14. doi: 10.1212/WNL.0000000000008095. Oskoui M et al. Neurology. 2019 Aug 14. doi: 10.1212/WNL.0000000000008105.

Two new guidelines on the treatment and prevention of migraines in children and adolescents have been released by the American Academy of Neurology and the American Headache Society.

This update to the previous guidelines released by the American Academy of Neurology in 2004 reflects the expansion in pharmacologic and nonpharmacologic approaches during the last 15 years, Andrew D. Hershey, MD, PhD, director of the division of neurology at Cincinnati Children’s Hospital and a fellow of the American Academy of Neurology, said in an interview.

“There has also been an increase in the number of randomized controlled studies, which have allowed for a more robust statement on acute and preventive treatments to be made,” said Dr. Hershey, who is also a senior author for both guidelines.

The two reports focused on separate issues: One guideline outlined the options for treatment of acute migraine, and the second guideline summarized the available studies on the effectiveness of preventive medications for migraine in children and adolescents.

The guidelines recommend a physical examination and history to establish a specific headache diagnosis and afford a treatment that provides fast and complete pain relief. Treatment should be initiated as soon as a patient realizes an attack is occurring. Patients with signs of secondary headache should be evaluated by a neurologist or a headache specialist.

Studies support the use of ibuprofen and acetaminophen for pain relief in cases of acute migraine, but only some triptans (such as almotriptan, rizatriptan, sumatriptan/naproxen, and zolmitriptan nasal spray) are approved for use in adolescents. Specifically, sumatriptan/naproxen was shown to be effective when compared with placebo in studies with adolescents, whose headache symptoms resolved within 2 hours.

It may be necessary to try more than one triptan, the guidelines noted, because patients respond differently to medications. A failure to respond to one triptan does not necessarily mean that treatment with another triptan will be unsuccessful.

The guidelines also focused on patient and family education to improve medication safety and adherence. Lifestyle modification, avoidance of migraine triggers, creating good sleep habits, and staying hydrated can help reduce migraines. While no medications improved associated symptoms of migraines such as nausea or vomiting, triptans did show a benefit in reducing phonophobia and photophobia.

Evidence for pharmacologic prevention of migraines in children and adolescents is limited, according to the guidelines. In the 15 studies included in a literature review, there was not sufficient evidence to show preventive treatments, such as divalproex, onabotulinumtoxinA, amitriptyline, nimodipine, and flunarizine, were more effective than placebo at reducing the frequency of headaches. There was some evidence to show propranolol in children and topiramate and cinnarizine in children and adolescents can reduce headache frequency. Children and adolescents who received cognitive-behavioral therapy together with amitriptyline were more likely to have reduced frequency of headaches than were those who received amitriptyline with patient education.

“The consensus conclusion was that a multidisciplinary approach that combines acute treatments, preventive treatments, and healthy habits is likely to have the best outcomes,” said Dr. Hershey.

Dr. Hershey acknowledged the many gaps between what is clinically observed and what the studies in the guidelines demonstrated.

“One of the biggest questions is how to minimize the expectation response in the controlled studies,” he said. “Additionally, we are moving toward a better recognition of the mechanism by which the various treatments work in a genetic-based disease that is polygenic in nature” with up to 38 different gene polymorphisms identified to date.

The guidelines also do not address newer treatments, such as calcitonin gene–related peptide (CGRP) antibodies, CGRP antagonists, serotonin antagonists, and devices because there are as yet no studies of their effectiveness in children and adolescents.

“They have been studied in adults, so will be prone to the expectation response; but given the large number of diverse therapies, one can hope that many of the gaps can be filled,” said Dr. Hershey.

The American Academy of Neurology provided funding for development of the guidelines and reimbursed authors who served as subcommittee members for travel expenses and in-person meetings. The authors reported personal and institutional relationships in the form of advisory board memberships, investigator appointments, speakers bureau positions, research support, grants, honorariums, consultancies, and publishing royalties for pharmaceutical companies and other organizations.

SOURCES: Oskoui M et al. Neurology. 2019 Aug 14. doi: 10.1212/WNL.0000000000008095. Oskoui M et al. Neurology. 2019 Aug 14. doi: 10.1212/WNL.0000000000008105.

Two new guidelines on the treatment and prevention of migraines in children and adolescents have been released by the American Academy of Neurology and the American Headache Society.

This update to the previous guidelines released by the American Academy of Neurology in 2004 reflects the expansion in pharmacologic and nonpharmacologic approaches during the last 15 years, Andrew D. Hershey, MD, PhD, director of the division of neurology at Cincinnati Children’s Hospital and a fellow of the American Academy of Neurology, said in an interview.

“There has also been an increase in the number of randomized controlled studies, which have allowed for a more robust statement on acute and preventive treatments to be made,” said Dr. Hershey, who is also a senior author for both guidelines.

The two reports focused on separate issues: One guideline outlined the options for treatment of acute migraine, and the second guideline summarized the available studies on the effectiveness of preventive medications for migraine in children and adolescents.

The guidelines recommend a physical examination and history to establish a specific headache diagnosis and afford a treatment that provides fast and complete pain relief. Treatment should be initiated as soon as a patient realizes an attack is occurring. Patients with signs of secondary headache should be evaluated by a neurologist or a headache specialist.

Studies support the use of ibuprofen and acetaminophen for pain relief in cases of acute migraine, but only some triptans (such as almotriptan, rizatriptan, sumatriptan/naproxen, and zolmitriptan nasal spray) are approved for use in adolescents. Specifically, sumatriptan/naproxen was shown to be effective when compared with placebo in studies with adolescents, whose headache symptoms resolved within 2 hours.

It may be necessary to try more than one triptan, the guidelines noted, because patients respond differently to medications. A failure to respond to one triptan does not necessarily mean that treatment with another triptan will be unsuccessful.

The guidelines also focused on patient and family education to improve medication safety and adherence. Lifestyle modification, avoidance of migraine triggers, creating good sleep habits, and staying hydrated can help reduce migraines. While no medications improved associated symptoms of migraines such as nausea or vomiting, triptans did show a benefit in reducing phonophobia and photophobia.

Evidence for pharmacologic prevention of migraines in children and adolescents is limited, according to the guidelines. In the 15 studies included in a literature review, there was not sufficient evidence to show preventive treatments, such as divalproex, onabotulinumtoxinA, amitriptyline, nimodipine, and flunarizine, were more effective than placebo at reducing the frequency of headaches. There was some evidence to show propranolol in children and topiramate and cinnarizine in children and adolescents can reduce headache frequency. Children and adolescents who received cognitive-behavioral therapy together with amitriptyline were more likely to have reduced frequency of headaches than were those who received amitriptyline with patient education.

“The consensus conclusion was that a multidisciplinary approach that combines acute treatments, preventive treatments, and healthy habits is likely to have the best outcomes,” said Dr. Hershey.

Dr. Hershey acknowledged the many gaps between what is clinically observed and what the studies in the guidelines demonstrated.

“One of the biggest questions is how to minimize the expectation response in the controlled studies,” he said. “Additionally, we are moving toward a better recognition of the mechanism by which the various treatments work in a genetic-based disease that is polygenic in nature” with up to 38 different gene polymorphisms identified to date.

The guidelines also do not address newer treatments, such as calcitonin gene–related peptide (CGRP) antibodies, CGRP antagonists, serotonin antagonists, and devices because there are as yet no studies of their effectiveness in children and adolescents.

“They have been studied in adults, so will be prone to the expectation response; but given the large number of diverse therapies, one can hope that many of the gaps can be filled,” said Dr. Hershey.

The American Academy of Neurology provided funding for development of the guidelines and reimbursed authors who served as subcommittee members for travel expenses and in-person meetings. The authors reported personal and institutional relationships in the form of advisory board memberships, investigator appointments, speakers bureau positions, research support, grants, honorariums, consultancies, and publishing royalties for pharmaceutical companies and other organizations.

SOURCES: Oskoui M et al. Neurology. 2019 Aug 14. doi: 10.1212/WNL.0000000000008095. Oskoui M et al. Neurology. 2019 Aug 14. doi: 10.1212/WNL.0000000000008105.

PHILADELPHIA – The oral, small molecule, calcitonin gene-related peptide receptor antagonist ubrogepant, currently under regulatory review for approval as a treatment for acute migraine headache, was as effective for migraine relief in patients with a history of triptan ineffectiveness as it was in patients for whom triptans had been effective, based on a post hoc analysis of data collected from 1,798 patients enrolled in two phase 3 trials.

Mitchel L. Zoler/MDedge News

In the roughly one-quarter of all patients who had a clinical history consistent with triptan ineffectiveness, one 50-mg dose of ubrogepant led to pain freedom 2 hours after treatment in 16% of patients, compared with a response rate of 8% in placebo-treated patients. Ubrogepant’s effectiveness rate that was about the same as seen in patients with a history of triptan effectiveness, who were about 37% of the study population, Susan Hutchinson, MD, said at the annual meeting of the American Headache Society.

Among those with a history of triptan effectiveness, 20% were pain free after 2 hours, compared with 11% of placebo-treated controls, said Dr. Hutchinson, a family physician and headache specialist who practices in Irvine, Calif. Both of these between-group differences were statistically significant. The remaining patients included in the analysis had no triptan history, and among these patients a single, 50-mg dose of ubrogepant produced pain freedom at 2 hours in 24% of patients, versus an 18% response in placebo-treated controls, a difference that fell short of statistical significance.

The analysis Dr. Hutchinson reported came from data collected in two pivotal trials of ubrogepant for treatment of an acute migraine headache, the ACHIEVE I and ACHIEVE II trials, which together randomized more than 2,600 migraine patients eligible for the study’s modified intention-to-treat analysis, and 1,798 patients from that analysis who received a 50-mg dose of ubrogepant or placebo. In March 2019, the company developing ubrogepant, Allergan, announced that the Food and Drug Administration had accepted the company’s application for marketing approval of ubrogepant as a treatment for acute migraine largely based on data from ACHIEVE I and ACHIEVE II.

The researchers defined a history of triptan ineffectiveness as a patient who never used a triptan because of a warning, precaution, or contraindication, a patient who recently used triptans but did not achieve pain freedom within 2 hours more than half the time taking the drugs, or a patient who no longer used triptans because of adverse effects or lack of efficacy. Patients who had used triptans in the past and had complete pain relief within 2 hours more than half the time were deemed triptan-effective patients.

The analysis also looked at two other endpoints in addition to complete pain freedom: complete relief of the most-bothersome symptom of the migraine headache (photophobia for most patients), which resolved in 39% and 36% of the triptan-effective and triptan-ineffective patients, respectively, compared with placebo response rates of 27% and 23%; both between-group differences were statistically significant. A third measure of efficacy was some degree of pain relief after 2 hours, which occurred in 62% of patients in whom triptans were effective and 55% in those in whom triptans were ineffective, which were again statistically significant higher rates than among patients who received placebo.

Safety findings from the two ubrogepant pivotal trials showed good drug tolerability, with no treatment-related serious adverse events, and a profile of modest numbers of treatment-related and total adverse events similar to what occurred among patients who received placebo.

ACHIEVE I and II were funded by Allergan, the company developing ubrogepant. Dr. Hutchinson has been an adviser to and a speaker on behalf of Allergan and several other companies.

[email protected]

SOURCE: Blumenfeld AM. Headache. 2019 June;59[S1]:1-208, Abstract IOR02.

PHILADELPHIA – The oral, small molecule, calcitonin gene-related peptide receptor antagonist ubrogepant, currently under regulatory review for approval as a treatment for acute migraine headache, was as effective for migraine relief in patients with a history of triptan ineffectiveness as it was in patients for whom triptans had been effective, based on a post hoc analysis of data collected from 1,798 patients enrolled in two phase 3 trials.

Mitchel L. Zoler/MDedge News

In the roughly one-quarter of all patients who had a clinical history consistent with triptan ineffectiveness, one 50-mg dose of ubrogepant led to pain freedom 2 hours after treatment in 16% of patients, compared with a response rate of 8% in placebo-treated patients. Ubrogepant’s effectiveness rate that was about the same as seen in patients with a history of triptan effectiveness, who were about 37% of the study population, Susan Hutchinson, MD, said at the annual meeting of the American Headache Society.

Among those with a history of triptan effectiveness, 20% were pain free after 2 hours, compared with 11% of placebo-treated controls, said Dr. Hutchinson, a family physician and headache specialist who practices in Irvine, Calif. Both of these between-group differences were statistically significant. The remaining patients included in the analysis had no triptan history, and among these patients a single, 50-mg dose of ubrogepant produced pain freedom at 2 hours in 24% of patients, versus an 18% response in placebo-treated controls, a difference that fell short of statistical significance.

The analysis Dr. Hutchinson reported came from data collected in two pivotal trials of ubrogepant for treatment of an acute migraine headache, the ACHIEVE I and ACHIEVE II trials, which together randomized more than 2,600 migraine patients eligible for the study’s modified intention-to-treat analysis, and 1,798 patients from that analysis who received a 50-mg dose of ubrogepant or placebo. In March 2019, the company developing ubrogepant, Allergan, announced that the Food and Drug Administration had accepted the company’s application for marketing approval of ubrogepant as a treatment for acute migraine largely based on data from ACHIEVE I and ACHIEVE II.

The researchers defined a history of triptan ineffectiveness as a patient who never used a triptan because of a warning, precaution, or contraindication, a patient who recently used triptans but did not achieve pain freedom within 2 hours more than half the time taking the drugs, or a patient who no longer used triptans because of adverse effects or lack of efficacy. Patients who had used triptans in the past and had complete pain relief within 2 hours more than half the time were deemed triptan-effective patients.

The analysis also looked at two other endpoints in addition to complete pain freedom: complete relief of the most-bothersome symptom of the migraine headache (photophobia for most patients), which resolved in 39% and 36% of the triptan-effective and triptan-ineffective patients, respectively, compared with placebo response rates of 27% and 23%; both between-group differences were statistically significant. A third measure of efficacy was some degree of pain relief after 2 hours, which occurred in 62% of patients in whom triptans were effective and 55% in those in whom triptans were ineffective, which were again statistically significant higher rates than among patients who received placebo.

Safety findings from the two ubrogepant pivotal trials showed good drug tolerability, with no treatment-related serious adverse events, and a profile of modest numbers of treatment-related and total adverse events similar to what occurred among patients who received placebo.

ACHIEVE I and II were funded by Allergan, the company developing ubrogepant. Dr. Hutchinson has been an adviser to and a speaker on behalf of Allergan and several other companies.

[email protected]

SOURCE: Blumenfeld AM. Headache. 2019 June;59[S1]:1-208, Abstract IOR02.

PHILADELPHIA – The oral, small molecule, calcitonin gene-related peptide receptor antagonist ubrogepant, currently under regulatory review for approval as a treatment for acute migraine headache, was as effective for migraine relief in patients with a history of triptan ineffectiveness as it was in patients for whom triptans had been effective, based on a post hoc analysis of data collected from 1,798 patients enrolled in two phase 3 trials.

Mitchel L. Zoler/MDedge News

In the roughly one-quarter of all patients who had a clinical history consistent with triptan ineffectiveness, one 50-mg dose of ubrogepant led to pain freedom 2 hours after treatment in 16% of patients, compared with a response rate of 8% in placebo-treated patients. Ubrogepant’s effectiveness rate that was about the same as seen in patients with a history of triptan effectiveness, who were about 37% of the study population, Susan Hutchinson, MD, said at the annual meeting of the American Headache Society.

Among those with a history of triptan effectiveness, 20% were pain free after 2 hours, compared with 11% of placebo-treated controls, said Dr. Hutchinson, a family physician and headache specialist who practices in Irvine, Calif. Both of these between-group differences were statistically significant. The remaining patients included in the analysis had no triptan history, and among these patients a single, 50-mg dose of ubrogepant produced pain freedom at 2 hours in 24% of patients, versus an 18% response in placebo-treated controls, a difference that fell short of statistical significance.

The analysis Dr. Hutchinson reported came from data collected in two pivotal trials of ubrogepant for treatment of an acute migraine headache, the ACHIEVE I and ACHIEVE II trials, which together randomized more than 2,600 migraine patients eligible for the study’s modified intention-to-treat analysis, and 1,798 patients from that analysis who received a 50-mg dose of ubrogepant or placebo. In March 2019, the company developing ubrogepant, Allergan, announced that the Food and Drug Administration had accepted the company’s application for marketing approval of ubrogepant as a treatment for acute migraine largely based on data from ACHIEVE I and ACHIEVE II.

The researchers defined a history of triptan ineffectiveness as a patient who never used a triptan because of a warning, precaution, or contraindication, a patient who recently used triptans but did not achieve pain freedom within 2 hours more than half the time taking the drugs, or a patient who no longer used triptans because of adverse effects or lack of efficacy. Patients who had used triptans in the past and had complete pain relief within 2 hours more than half the time were deemed triptan-effective patients.

The analysis also looked at two other endpoints in addition to complete pain freedom: complete relief of the most-bothersome symptom of the migraine headache (photophobia for most patients), which resolved in 39% and 36% of the triptan-effective and triptan-ineffective patients, respectively, compared with placebo response rates of 27% and 23%; both between-group differences were statistically significant. A third measure of efficacy was some degree of pain relief after 2 hours, which occurred in 62% of patients in whom triptans were effective and 55% in those in whom triptans were ineffective, which were again statistically significant higher rates than among patients who received placebo.

Safety findings from the two ubrogepant pivotal trials showed good drug tolerability, with no treatment-related serious adverse events, and a profile of modest numbers of treatment-related and total adverse events similar to what occurred among patients who received placebo.

ACHIEVE I and II were funded by Allergan, the company developing ubrogepant. Dr. Hutchinson has been an adviser to and a speaker on behalf of Allergan and several other companies.

[email protected]

SOURCE: Blumenfeld AM. Headache. 2019 June;59[S1]:1-208, Abstract IOR02.

Two variants of MS4A are associated with the risk of Alzheimer’s disease, according to research published online August 14 in Science Translational Medicine. The variants affect cerebrospinal fluid (CSF) concentrations of a soluble form of the TREM2 protein (sTREM2), which may be involved in Alzheimer’s disease pathology. “Increasing TREM2 or activating the TREM2 signaling pathway could offer a new therapeutic approach for treating Alzheimer’s disease,” wrote the researchers.

[email protected]

SOURCE: Deming Y et al. Sci Transl Med. 2019 Aug 14. doi: 10.1126/scitranslmed.aau2291.

Two variants of MS4A are associated with the risk of Alzheimer’s disease, according to research published online August 14 in Science Translational Medicine. The variants affect cerebrospinal fluid (CSF) concentrations of a soluble form of the TREM2 protein (sTREM2), which may be involved in Alzheimer’s disease pathology. “Increasing TREM2 or activating the TREM2 signaling pathway could offer a new therapeutic approach for treating Alzheimer’s disease,” wrote the researchers.

[email protected]

SOURCE: Deming Y et al. Sci Transl Med. 2019 Aug 14. doi: 10.1126/scitranslmed.aau2291.

Two variants of MS4A are associated with the risk of Alzheimer’s disease, according to research published online August 14 in Science Translational Medicine. The variants affect cerebrospinal fluid (CSF) concentrations of a soluble form of the TREM2 protein (sTREM2), which may be involved in Alzheimer’s disease pathology. “Increasing TREM2 or activating the TREM2 signaling pathway could offer a new therapeutic approach for treating Alzheimer’s disease,” wrote the researchers.

[email protected]

SOURCE: Deming Y et al. Sci Transl Med. 2019 Aug 14. doi: 10.1126/scitranslmed.aau2291.

High levels of enterovirus (EV) peptides were found in the cerebrospinal fluid (CSF) and serum samples of individuals with acute flaccid myelitis (AFM) that were not present in a variety of control individuals, according to the results of a small study of patients with and without AFM published online in mBio.

CDC

In 2018, CSF samples from AFM patients were investigated by viral-capture high-throughput sequencing. These CSF and serum samples, as well as those from multiple controls, were tested for antibodies to human EVs using peptide microarrays, according to Nischay Mishra, PhD, of Columbia University, New York, and colleagues.

Although EV RNA was confirmed in CSF from only 1 adult AFM case and 1 non-AFM case, antibodies to EV peptides were present in 11 of 14 AFM patients (79%), which was a significantly higher rate than in control groups, including non-AFM patients (1 of 5, or 20%), children with Kawasaki disease (0 of 10), and adults with non-AFM CNS diseases (2 of 11, 18%), according to the authors.

In addition, 6 of 14 (43%) CSF samples and 8 of 11 (73%) serum samples from AFM patients were immunoreactive to an EV-D68–specific peptide, whereas samples from the three control groups were not immunoreactive in either CSF or sera. Previous studies have suggested that infection with EV-D68 and EV-A71 may contribute to AFM.

“There have been 570 confirmed cases since CDC began tracking AFM in August 2014. AFM outbreaks were reported to the CDC in 2014, 2016, and 2018. AFM affects the spinal cord and is characterized by the sudden onset of muscle weakness in one or more limbs. Spikes in AFM cases, primarily in children, have coincided in time and location with outbreaks of EV-D68 and a related enterovirus, EV-A71,” according to an NIH media advisory discussing the article.

In particular, as the study authors point out, a potential link to EV-D68 has also been based on the presence of viral RNA in some respiratory and stool specimens and the observation that EV-D68 infection can result in spinal cord infection.

“While other etiologies of AFM continue to be investigated, our study provides further evidence that EV infection may be a factor in AFM. In the absence of direct detection of a pathogen, antibody evidence of pathogen exposure within the CNS can be an important indicator of the underlying cause of disease,” Dr. Mishra and his colleagues added.

“These initial results may provide avenues to further explore how exposure to EV may contribute to AFM as well as the development of diagnostic tools and treatments,” the researchers concluded.

The study was funded by the National Institutes of Health. The authors reported that they had no competing financial interests.

[email protected]

SOURCE: Mishra N et al. mBio. 2019 Aug;10(4):e01903-19.

High levels of enterovirus (EV) peptides were found in the cerebrospinal fluid (CSF) and serum samples of individuals with acute flaccid myelitis (AFM) that were not present in a variety of control individuals, according to the results of a small study of patients with and without AFM published online in mBio.

CDC

In 2018, CSF samples from AFM patients were investigated by viral-capture high-throughput sequencing. These CSF and serum samples, as well as those from multiple controls, were tested for antibodies to human EVs using peptide microarrays, according to Nischay Mishra, PhD, of Columbia University, New York, and colleagues.

Although EV RNA was confirmed in CSF from only 1 adult AFM case and 1 non-AFM case, antibodies to EV peptides were present in 11 of 14 AFM patients (79%), which was a significantly higher rate than in control groups, including non-AFM patients (1 of 5, or 20%), children with Kawasaki disease (0 of 10), and adults with non-AFM CNS diseases (2 of 11, 18%), according to the authors.

In addition, 6 of 14 (43%) CSF samples and 8 of 11 (73%) serum samples from AFM patients were immunoreactive to an EV-D68–specific peptide, whereas samples from the three control groups were not immunoreactive in either CSF or sera. Previous studies have suggested that infection with EV-D68 and EV-A71 may contribute to AFM.

“There have been 570 confirmed cases since CDC began tracking AFM in August 2014. AFM outbreaks were reported to the CDC in 2014, 2016, and 2018. AFM affects the spinal cord and is characterized by the sudden onset of muscle weakness in one or more limbs. Spikes in AFM cases, primarily in children, have coincided in time and location with outbreaks of EV-D68 and a related enterovirus, EV-A71,” according to an NIH media advisory discussing the article.

In particular, as the study authors point out, a potential link to EV-D68 has also been based on the presence of viral RNA in some respiratory and stool specimens and the observation that EV-D68 infection can result in spinal cord infection.

“While other etiologies of AFM continue to be investigated, our study provides further evidence that EV infection may be a factor in AFM. In the absence of direct detection of a pathogen, antibody evidence of pathogen exposure within the CNS can be an important indicator of the underlying cause of disease,” Dr. Mishra and his colleagues added.

“These initial results may provide avenues to further explore how exposure to EV may contribute to AFM as well as the development of diagnostic tools and treatments,” the researchers concluded.

The study was funded by the National Institutes of Health. The authors reported that they had no competing financial interests.

[email protected]

SOURCE: Mishra N et al. mBio. 2019 Aug;10(4):e01903-19.

High levels of enterovirus (EV) peptides were found in the cerebrospinal fluid (CSF) and serum samples of individuals with acute flaccid myelitis (AFM) that were not present in a variety of control individuals, according to the results of a small study of patients with and without AFM published online in mBio.

CDC

In 2018, CSF samples from AFM patients were investigated by viral-capture high-throughput sequencing. These CSF and serum samples, as well as those from multiple controls, were tested for antibodies to human EVs using peptide microarrays, according to Nischay Mishra, PhD, of Columbia University, New York, and colleagues.

Although EV RNA was confirmed in CSF from only 1 adult AFM case and 1 non-AFM case, antibodies to EV peptides were present in 11 of 14 AFM patients (79%), which was a significantly higher rate than in control groups, including non-AFM patients (1 of 5, or 20%), children with Kawasaki disease (0 of 10), and adults with non-AFM CNS diseases (2 of 11, 18%), according to the authors.

In addition, 6 of 14 (43%) CSF samples and 8 of 11 (73%) serum samples from AFM patients were immunoreactive to an EV-D68–specific peptide, whereas samples from the three control groups were not immunoreactive in either CSF or sera. Previous studies have suggested that infection with EV-D68 and EV-A71 may contribute to AFM.

“There have been 570 confirmed cases since CDC began tracking AFM in August 2014. AFM outbreaks were reported to the CDC in 2014, 2016, and 2018. AFM affects the spinal cord and is characterized by the sudden onset of muscle weakness in one or more limbs. Spikes in AFM cases, primarily in children, have coincided in time and location with outbreaks of EV-D68 and a related enterovirus, EV-A71,” according to an NIH media advisory discussing the article.

In particular, as the study authors point out, a potential link to EV-D68 has also been based on the presence of viral RNA in some respiratory and stool specimens and the observation that EV-D68 infection can result in spinal cord infection.

“While other etiologies of AFM continue to be investigated, our study provides further evidence that EV infection may be a factor in AFM. In the absence of direct detection of a pathogen, antibody evidence of pathogen exposure within the CNS can be an important indicator of the underlying cause of disease,” Dr. Mishra and his colleagues added.

“These initial results may provide avenues to further explore how exposure to EV may contribute to AFM as well as the development of diagnostic tools and treatments,” the researchers concluded.

The study was funded by the National Institutes of Health. The authors reported that they had no competing financial interests.

[email protected]

SOURCE: Mishra N et al. mBio. 2019 Aug;10(4):e01903-19.

Uncontrolled hypertension among individuals aged 45-65 years of age is associated with an increased risk of subsequent dementia, according to a relatively large prospective population-based cohort study that followed patients for almost 30 years.

Ingram Publishing/ThinkStock

Even though previously published studies have not conclusively linked blood pressure control with a reduction in dementia risk, a second study, published simultaneously, did link blood pressure control with a smaller increase in white matter lesions, which are a marker of dementia risk. However, a reduction in total brain volume that accompanied this protection raised concern.

In the first of the two reports published Aug. 13 in JAMA, individuals 45-65 years of age participating in the Atherosclerosis Risk in Communities (ARIC) study were followed for cognitive function in relation to blood pressure. The baseline visit took place in 1987-1989. Cognitive function was also evaluated at the fifth visit, which took place in 2011-2013, and the sixth visit, which took place in 2016-2017.

At the sixth visit, the incidence of dementia among patients who were normotensive at baseline and also normotensive at the fifth visit was 1.31 per 100 person-years. For those with hypertension (greater than 140/90 mm Hg) at the fifth visit but normotensive at baseline, the incidence was 1.99 per 100 patient-years. For those with hypertension at both time points, the incidence was 4.26 per 100 patient-years.

When translated into hazard ratios, those with midlife and late-life hypertension were nearly 50% more likely to develop dementia (HR, 1.49) relative to those who remained normotensive. For those who had only midlife hypertension, the risk was also significantly increased (HR, 1.41) relative to those who remained normotensive at both time points.

Those with midlife hypertension but late-life hypotension were also found to be at greater risk of dementia (HR, 1.62) relative to those who remained normotensive.

These data support the premise that uncontrolled midlife hypertension increases risk of dementia but do not touch on whether blood pressure reductions reduce this risk. However, a second study published simultaneously provided at least some evidence that blood pressure control might offer some protection.

In this report, which is a substudy of the previously published Systolic Blood Pressure Intervention Trial (SPRINT) MIND trial, brain volume changes were evaluated via MRI in 449 of the more than 2,000 patients included in the previously published trial (Williamson JD et al. JAMA. 2019;321[6]:553-61).

After a median 3.4 years of follow-up, mean white matter lesion volume increased only 0.92 cm³ in patients receiving intensive systolic blood pressure control, defined as less than 120 mm Hg, versus 1.45 cm³ in those with higher systolic blood pressures.

These substudy data are encouraging, but it is important to recognize that the previously published and larger SPRINT MIND trial did not achieve its endpoint. In that study, the protection against dementia was nonsignificant (HR, 0.83; 95% confidence interval, 0.67-1.04).

In addition, the lower loss in white matter volume with intensive blood pressure lowering in the MRI substudy was accompanied with a greater loss in total brain volume (–30.6 vs. –26.9 cm³), which is considered a potentially negative effect.

As a result, the picture for risk management remains unclear, according to an editorial that accompanied publication of both studies.

“The important clinical question is whether changes of a few cubic millimeters in white matter hyperintensity volume or brain make a difference on brain function,” observed the author of the editorial, Shyam Prabhakaran, MD, of the department of neurology at the University of Chicago.

He believes that there are several findings from both studies that are “encouraging” in regard to blood pressure control for the prevention of dementia, but he also listed many unanswered questions, including why benefits observed to date have been so modest. He speculated that meaningful clinical benefits might depend on a multimodal approach that includes modification of other vascular risk factors, such as elevated lipids.

He also suggested that many issues regarding intensive blood pressure control for preventing dementia are unresolved, suggesting the need for more studies.

Not least, “later blood-pressure lowering interventions require careful monitoring for the potential cognitive harm associated with late-life hypotension,” Dr. Prabhakaran noted. Calling the effects of blood pressure control on brain health “nuanced,” he concluded that there is an opportunity for blood pressure modifications to prevent dementia, but stressed that optimal blood pressure targets for the purposes of preventing dementia are unknown.

The ARIC and SPRINT studies are supported by the National Institutes of Health. Several authors reported relationships with industry but no conflicts of interest relevant to this study.

SOURCES: Walker KA et al. JAMA. 2019;322(6):535-45; SPRINT MIND investigators. JAMA. 2019;322(6):524-34; Prabhakaran S. JAMA. 2019;322(6):512-3

Uncontrolled hypertension among individuals aged 45-65 years of age is associated with an increased risk of subsequent dementia, according to a relatively large prospective population-based cohort study that followed patients for almost 30 years.

Ingram Publishing/ThinkStock

Even though previously published studies have not conclusively linked blood pressure control with a reduction in dementia risk, a second study, published simultaneously, did link blood pressure control with a smaller increase in white matter lesions, which are a marker of dementia risk. However, a reduction in total brain volume that accompanied this protection raised concern.

In the first of the two reports published Aug. 13 in JAMA, individuals 45-65 years of age participating in the Atherosclerosis Risk in Communities (ARIC) study were followed for cognitive function in relation to blood pressure. The baseline visit took place in 1987-1989. Cognitive function was also evaluated at the fifth visit, which took place in 2011-2013, and the sixth visit, which took place in 2016-2017.

At the sixth visit, the incidence of dementia among patients who were normotensive at baseline and also normotensive at the fifth visit was 1.31 per 100 person-years. For those with hypertension (greater than 140/90 mm Hg) at the fifth visit but normotensive at baseline, the incidence was 1.99 per 100 patient-years. For those with hypertension at both time points, the incidence was 4.26 per 100 patient-years.

When translated into hazard ratios, those with midlife and late-life hypertension were nearly 50% more likely to develop dementia (HR, 1.49) relative to those who remained normotensive. For those who had only midlife hypertension, the risk was also significantly increased (HR, 1.41) relative to those who remained normotensive at both time points.

Those with midlife hypertension but late-life hypotension were also found to be at greater risk of dementia (HR, 1.62) relative to those who remained normotensive.

These data support the premise that uncontrolled midlife hypertension increases risk of dementia but do not touch on whether blood pressure reductions reduce this risk. However, a second study published simultaneously provided at least some evidence that blood pressure control might offer some protection.

In this report, which is a substudy of the previously published Systolic Blood Pressure Intervention Trial (SPRINT) MIND trial, brain volume changes were evaluated via MRI in 449 of the more than 2,000 patients included in the previously published trial (Williamson JD et al. JAMA. 2019;321[6]:553-61).

After a median 3.4 years of follow-up, mean white matter lesion volume increased only 0.92 cm³ in patients receiving intensive systolic blood pressure control, defined as less than 120 mm Hg, versus 1.45 cm³ in those with higher systolic blood pressures.

These substudy data are encouraging, but it is important to recognize that the previously published and larger SPRINT MIND trial did not achieve its endpoint. In that study, the protection against dementia was nonsignificant (HR, 0.83; 95% confidence interval, 0.67-1.04).

In addition, the lower loss in white matter volume with intensive blood pressure lowering in the MRI substudy was accompanied with a greater loss in total brain volume (–30.6 vs. –26.9 cm³), which is considered a potentially negative effect.

As a result, the picture for risk management remains unclear, according to an editorial that accompanied publication of both studies.

“The important clinical question is whether changes of a few cubic millimeters in white matter hyperintensity volume or brain make a difference on brain function,” observed the author of the editorial, Shyam Prabhakaran, MD, of the department of neurology at the University of Chicago.

He believes that there are several findings from both studies that are “encouraging” in regard to blood pressure control for the prevention of dementia, but he also listed many unanswered questions, including why benefits observed to date have been so modest. He speculated that meaningful clinical benefits might depend on a multimodal approach that includes modification of other vascular risk factors, such as elevated lipids.

He also suggested that many issues regarding intensive blood pressure control for preventing dementia are unresolved, suggesting the need for more studies.

Not least, “later blood-pressure lowering interventions require careful monitoring for the potential cognitive harm associated with late-life hypotension,” Dr. Prabhakaran noted. Calling the effects of blood pressure control on brain health “nuanced,” he concluded that there is an opportunity for blood pressure modifications to prevent dementia, but stressed that optimal blood pressure targets for the purposes of preventing dementia are unknown.

The ARIC and SPRINT studies are supported by the National Institutes of Health. Several authors reported relationships with industry but no conflicts of interest relevant to this study.

SOURCES: Walker KA et al. JAMA. 2019;322(6):535-45; SPRINT MIND investigators. JAMA. 2019;322(6):524-34; Prabhakaran S. JAMA. 2019;322(6):512-3

Uncontrolled hypertension among individuals aged 45-65 years of age is associated with an increased risk of subsequent dementia, according to a relatively large prospective population-based cohort study that followed patients for almost 30 years.

Ingram Publishing/ThinkStock

Even though previously published studies have not conclusively linked blood pressure control with a reduction in dementia risk, a second study, published simultaneously, did link blood pressure control with a smaller increase in white matter lesions, which are a marker of dementia risk. However, a reduction in total brain volume that accompanied this protection raised concern.

In the first of the two reports published Aug. 13 in JAMA, individuals 45-65 years of age participating in the Atherosclerosis Risk in Communities (ARIC) study were followed for cognitive function in relation to blood pressure. The baseline visit took place in 1987-1989. Cognitive function was also evaluated at the fifth visit, which took place in 2011-2013, and the sixth visit, which took place in 2016-2017.

At the sixth visit, the incidence of dementia among patients who were normotensive at baseline and also normotensive at the fifth visit was 1.31 per 100 person-years. For those with hypertension (greater than 140/90 mm Hg) at the fifth visit but normotensive at baseline, the incidence was 1.99 per 100 patient-years. For those with hypertension at both time points, the incidence was 4.26 per 100 patient-years.

When translated into hazard ratios, those with midlife and late-life hypertension were nearly 50% more likely to develop dementia (HR, 1.49) relative to those who remained normotensive. For those who had only midlife hypertension, the risk was also significantly increased (HR, 1.41) relative to those who remained normotensive at both time points.

Those with midlife hypertension but late-life hypotension were also found to be at greater risk of dementia (HR, 1.62) relative to those who remained normotensive.

These data support the premise that uncontrolled midlife hypertension increases risk of dementia but do not touch on whether blood pressure reductions reduce this risk. However, a second study published simultaneously provided at least some evidence that blood pressure control might offer some protection.

In this report, which is a substudy of the previously published Systolic Blood Pressure Intervention Trial (SPRINT) MIND trial, brain volume changes were evaluated via MRI in 449 of the more than 2,000 patients included in the previously published trial (Williamson JD et al. JAMA. 2019;321[6]:553-61).

After a median 3.4 years of follow-up, mean white matter lesion volume increased only 0.92 cm³ in patients receiving intensive systolic blood pressure control, defined as less than 120 mm Hg, versus 1.45 cm³ in those with higher systolic blood pressures.

These substudy data are encouraging, but it is important to recognize that the previously published and larger SPRINT MIND trial did not achieve its endpoint. In that study, the protection against dementia was nonsignificant (HR, 0.83; 95% confidence interval, 0.67-1.04).

In addition, the lower loss in white matter volume with intensive blood pressure lowering in the MRI substudy was accompanied with a greater loss in total brain volume (–30.6 vs. –26.9 cm³), which is considered a potentially negative effect.

As a result, the picture for risk management remains unclear, according to an editorial that accompanied publication of both studies.

“The important clinical question is whether changes of a few cubic millimeters in white matter hyperintensity volume or brain make a difference on brain function,” observed the author of the editorial, Shyam Prabhakaran, MD, of the department of neurology at the University of Chicago.

He believes that there are several findings from both studies that are “encouraging” in regard to blood pressure control for the prevention of dementia, but he also listed many unanswered questions, including why benefits observed to date have been so modest. He speculated that meaningful clinical benefits might depend on a multimodal approach that includes modification of other vascular risk factors, such as elevated lipids.

He also suggested that many issues regarding intensive blood pressure control for preventing dementia are unresolved, suggesting the need for more studies.

Not least, “later blood-pressure lowering interventions require careful monitoring for the potential cognitive harm associated with late-life hypotension,” Dr. Prabhakaran noted. Calling the effects of blood pressure control on brain health “nuanced,” he concluded that there is an opportunity for blood pressure modifications to prevent dementia, but stressed that optimal blood pressure targets for the purposes of preventing dementia are unknown.

The ARIC and SPRINT studies are supported by the National Institutes of Health. Several authors reported relationships with industry but no conflicts of interest relevant to this study.

SOURCES: Walker KA et al. JAMA. 2019;322(6):535-45; SPRINT MIND investigators. JAMA. 2019;322(6):524-34; Prabhakaran S. JAMA. 2019;322(6):512-3