TBD Meeting (2962-20)

The first three calcitonin gene-related peptide (CGRP) inhibitors approved for prevention of migraine displayed a reassuring safety profile in real-world clinical practice during the first 6 months following their marketing launch, Stephen D. Silberstein, MD, reported online as part of the 2020 American Academy of Neurology Science Highlights.

He presented a retrospective analysis of spontaneous postmarketing reports to the Food and Drug Administration Adverse Events Reporting System (FAERS) for Aimovig (erenumab-aooe), Ajovy (fremanezumab-vfrm), and Emgality (galcanezumab-gnlm).

The top-10 lists of adverse events for all three monoclonal antibodies targeting CGRP were skewed heavily towards injection-site reactions, such as injection-site pain, itching, swelling, and erythema. The rates were relatively low. For example, injection-site pain was reported at a rate of 2.94 cases per 1,000 patients exposed to erenumab, 0.8/1,000 for fremanezumab, and 4.9/1,000 for galcanezumab, according to Dr. Silberstein, professor of neurology and director of the headache center at Sidney Kimmel Medical College, Philadelphia.

Migraine, headache, and drug ineffectiveness were in the top 10 for all three medications, as is typical in FAERS reports, since no drug is effective in everyone. These events were reported at rates of 1-5/1,000 exposed patients. Constipation was reported in association with the use of erenumab at a rate of 4.9 cases/1,000 patients, but did not reach the top-10 lists for the other two CGRP antagonists.

Notably, cardiovascular events were not among the top-10 adverse events reported for any of the novel preventive agents.

“These results will be practice changing, since some physicians have been holding back from prescribing these drugs pending the results of this sort of longer-term safety data,” Dr. Silberstein predicted in an interview.

Asked to comment on the FAERS study, neurologist Holly Yancy, DO, said that she found the findings unsurprising because the adverse effects were essentially as expected based upon the earlier favorable clinical trials experience.

“These medications are living up to the expectations for good tolerability that were in place when they were initially approved by the FDA just under 2 years ago,” said Dr. Yancy, a headache specialist at the Banner–University Medicine Neuroscience Institute in Phoenix.

“Injection-site reactions were anticipated. Clinically, I’ve found that if the medications reduce migraine days and severity, patients find the risk of temporary pain, redness, or itching at the injection site is an easy trade off,” she added.

CGRP is a vasoactive peptide. There has been a theoretic concern that its pharmacologic inhibition for prevention of migraine could lead to an increased risk of adverse cardiovascular events, especially in individuals with coronary disease or a history of stroke. The absence of any such signal during the first 6 months of widespread clinical use of the CGRP inhibitors is highly encouraging, although this is an issue that warrants longer-term study, Dr. Yancy continued.

These drugs, which were expressly designed for migraine prevention, are a considerable advance over what was previously available in her view. They’re equally or more effective and considerably better tolerated than the preventive medications physicians had long been using off label, including antidepressants, antiepileptics, and cardiac drugs.

Dr. Silberstein reported financial relationships with close to two dozen pharmaceutical companies. Dr. Yancy reported serving on speakers’ bureaus for Amgen and Novartis.

bjancin@mdedge.com

SOURCE: Silverstein SD et al. AAN 2020, Abstract S58.008.

The first three calcitonin gene-related peptide (CGRP) inhibitors approved for prevention of migraine displayed a reassuring safety profile in real-world clinical practice during the first 6 months following their marketing launch, Stephen D. Silberstein, MD, reported online as part of the 2020 American Academy of Neurology Science Highlights.

He presented a retrospective analysis of spontaneous postmarketing reports to the Food and Drug Administration Adverse Events Reporting System (FAERS) for Aimovig (erenumab-aooe), Ajovy (fremanezumab-vfrm), and Emgality (galcanezumab-gnlm).

The top-10 lists of adverse events for all three monoclonal antibodies targeting CGRP were skewed heavily towards injection-site reactions, such as injection-site pain, itching, swelling, and erythema. The rates were relatively low. For example, injection-site pain was reported at a rate of 2.94 cases per 1,000 patients exposed to erenumab, 0.8/1,000 for fremanezumab, and 4.9/1,000 for galcanezumab, according to Dr. Silberstein, professor of neurology and director of the headache center at Sidney Kimmel Medical College, Philadelphia.

Migraine, headache, and drug ineffectiveness were in the top 10 for all three medications, as is typical in FAERS reports, since no drug is effective in everyone. These events were reported at rates of 1-5/1,000 exposed patients. Constipation was reported in association with the use of erenumab at a rate of 4.9 cases/1,000 patients, but did not reach the top-10 lists for the other two CGRP antagonists.

Notably, cardiovascular events were not among the top-10 adverse events reported for any of the novel preventive agents.

“These results will be practice changing, since some physicians have been holding back from prescribing these drugs pending the results of this sort of longer-term safety data,” Dr. Silberstein predicted in an interview.

Asked to comment on the FAERS study, neurologist Holly Yancy, DO, said that she found the findings unsurprising because the adverse effects were essentially as expected based upon the earlier favorable clinical trials experience.

“These medications are living up to the expectations for good tolerability that were in place when they were initially approved by the FDA just under 2 years ago,” said Dr. Yancy, a headache specialist at the Banner–University Medicine Neuroscience Institute in Phoenix.

“Injection-site reactions were anticipated. Clinically, I’ve found that if the medications reduce migraine days and severity, patients find the risk of temporary pain, redness, or itching at the injection site is an easy trade off,” she added.

CGRP is a vasoactive peptide. There has been a theoretic concern that its pharmacologic inhibition for prevention of migraine could lead to an increased risk of adverse cardiovascular events, especially in individuals with coronary disease or a history of stroke. The absence of any such signal during the first 6 months of widespread clinical use of the CGRP inhibitors is highly encouraging, although this is an issue that warrants longer-term study, Dr. Yancy continued.

These drugs, which were expressly designed for migraine prevention, are a considerable advance over what was previously available in her view. They’re equally or more effective and considerably better tolerated than the preventive medications physicians had long been using off label, including antidepressants, antiepileptics, and cardiac drugs.

Dr. Silberstein reported financial relationships with close to two dozen pharmaceutical companies. Dr. Yancy reported serving on speakers’ bureaus for Amgen and Novartis.

bjancin@mdedge.com

SOURCE: Silverstein SD et al. AAN 2020, Abstract S58.008.

The first three calcitonin gene-related peptide (CGRP) inhibitors approved for prevention of migraine displayed a reassuring safety profile in real-world clinical practice during the first 6 months following their marketing launch, Stephen D. Silberstein, MD, reported online as part of the 2020 American Academy of Neurology Science Highlights.

He presented a retrospective analysis of spontaneous postmarketing reports to the Food and Drug Administration Adverse Events Reporting System (FAERS) for Aimovig (erenumab-aooe), Ajovy (fremanezumab-vfrm), and Emgality (galcanezumab-gnlm).

The top-10 lists of adverse events for all three monoclonal antibodies targeting CGRP were skewed heavily towards injection-site reactions, such as injection-site pain, itching, swelling, and erythema. The rates were relatively low. For example, injection-site pain was reported at a rate of 2.94 cases per 1,000 patients exposed to erenumab, 0.8/1,000 for fremanezumab, and 4.9/1,000 for galcanezumab, according to Dr. Silberstein, professor of neurology and director of the headache center at Sidney Kimmel Medical College, Philadelphia.

Migraine, headache, and drug ineffectiveness were in the top 10 for all three medications, as is typical in FAERS reports, since no drug is effective in everyone. These events were reported at rates of 1-5/1,000 exposed patients. Constipation was reported in association with the use of erenumab at a rate of 4.9 cases/1,000 patients, but did not reach the top-10 lists for the other two CGRP antagonists.

Notably, cardiovascular events were not among the top-10 adverse events reported for any of the novel preventive agents.

“These results will be practice changing, since some physicians have been holding back from prescribing these drugs pending the results of this sort of longer-term safety data,” Dr. Silberstein predicted in an interview.

Asked to comment on the FAERS study, neurologist Holly Yancy, DO, said that she found the findings unsurprising because the adverse effects were essentially as expected based upon the earlier favorable clinical trials experience.

“These medications are living up to the expectations for good tolerability that were in place when they were initially approved by the FDA just under 2 years ago,” said Dr. Yancy, a headache specialist at the Banner–University Medicine Neuroscience Institute in Phoenix.

“Injection-site reactions were anticipated. Clinically, I’ve found that if the medications reduce migraine days and severity, patients find the risk of temporary pain, redness, or itching at the injection site is an easy trade off,” she added.

CGRP is a vasoactive peptide. There has been a theoretic concern that its pharmacologic inhibition for prevention of migraine could lead to an increased risk of adverse cardiovascular events, especially in individuals with coronary disease or a history of stroke. The absence of any such signal during the first 6 months of widespread clinical use of the CGRP inhibitors is highly encouraging, although this is an issue that warrants longer-term study, Dr. Yancy continued.

These drugs, which were expressly designed for migraine prevention, are a considerable advance over what was previously available in her view. They’re equally or more effective and considerably better tolerated than the preventive medications physicians had long been using off label, including antidepressants, antiepileptics, and cardiac drugs.

Dr. Silberstein reported financial relationships with close to two dozen pharmaceutical companies. Dr. Yancy reported serving on speakers’ bureaus for Amgen and Novartis.

bjancin@mdedge.com

SOURCE: Silverstein SD et al. AAN 2020, Abstract S58.008.

The first case of progressive multifocal leukoencephalopathy (PML) directly associated with ocrelizumab occurred in a patient with primary progressive multiple sclerosis (MS) who received 2 years of ocrelizumab monotherapy and had not received prior immunomodulatory medication. The case report was presented online as part of the 2020 American Academy of Neurology Science Highlights.

PML, an opportunistic infection of the brain caused by reactivation of the John Cunningham (JC) virus, has occurred with rituximab, another anti-CD20 therapy, in rare cases. Eight other cases of PML diagnosed after ocrelizumab initiation are considered carry-over cases related to prior treatment with natalizumab or fingolimod, according to Genentech, the manufacturer of ocrelizumab. No other PML cases have been associated with ocrelizumab alone.

The case without prior MS treatment was in a 78-year-old man. He presented with 2 weeks of progressive visual disturbance and confusion, said Marc L. Gordon, MD, chief of neurology at the Zucker Hillside Hospital in Glen Oaks, N.Y., and professor of neurology and psychiatry at the Donald and Barbara Zucker School of Medicine at Hofstra/Northwell in Hempstead, N.Y.

The patient had a right homonymous hemianopia. “MRI revealed an enlarging non-enhancing left parietal lesion without mass effect,” reported Dr. Gordon and colleagues. “CSF PCR revealed 1,000 copies/mL of JCV, confirming the diagnosis of PML. Blood work upon diagnosis revealed grade-2 lymphopenia ... and negative HIV serology.”

“The patient’s symptoms progressed over weeks to involve bilateral visual loss, right facial droop, and dysphasia,” they said. “Ocrelizumab was discontinued and off-label pembrolizumab treatment was initiated.” The patient did not respond to therapy and became bedbound, Dr. Gordon said in an interview. The patient received palliative care and died. An autopsy is pending.

“PML occurrence may have been multifactorial, due to a combination of the immunomodulatory function of ocrelizumab, possible immune senescence, and preceding mild lymphopenia,” Dr. Gordon and coauthors said. “This case emphasizes the importance of a thorough discussion of the risks and benefits of ocrelizumab, especially in patients at higher risk for infections, such as the elderly.”

The patient, who was Dr. Gordon’s patient for 20 years, had monitored updates in drug development and had looked forward to starting ocrelizumab, the first therapy approved for primary progressive MS, when it became available after its approval in 2017. The patient was concerned about progressively worsening gait impairment and related falls caused by MS.

Antibodies indicated that the patient had prior exposure to JCV, but Dr. Gordon considered the risk of PML to be relatively small. Prior to treatment, the patient’s absolute lymphocyte count was normal or indicated mild lymphocytopenia, which Dr. Gordon did not consider clinically significant. The patient received ocrelizumab for 2 years without incident.

In an information sheet for health care professionals about ocrelizumab and PML prepared in February 2020, Genentech says the patient’s age and low absolute lymphocyte count are confounding factors, which distort “the assessment of association between exposure to a drug and an adverse event.

“As of January 31, 2020, no unconfounded PML cases associated with ocrelizumab therapy have been reported,” according to the document. “Out of more than 150,000 patients treated globally (clinical trials and post-marketing experience), there have been nine confirmed, confounded cases of PML in patients treated with ocrelizumab, of which eight were carry-over cases from a prior DMT.”

The prescribing information for the drug notes that no cases of PML were identified in ocrelizumab clinical trials, but that PML has been observed in patients treated with other anti-CD20 antibodies and other MS therapies. In addition, PML “has been associated with some risk factors (eg, immunocompromised patients, polytherapy with immunosuppressants).

“At the first sign or symptom suggestive of PML, withhold ocrelizumab and perform an appropriate diagnostic evaluation,” the prescribing information says. “MRI findings may be apparent before clinical signs or symptoms. Typical symptoms associated with PML are diverse, progress over days to weeks, and include progressive weakness on one side of the body or clumsiness of limbs, disturbance of vision, and changes in thinking, memory, and orientation leading to confusion and personality changes.”

“It is important for people to recognize that this is at least a possibility,” Dr. Gordon said. Any change in clinical symptomatology may warrant imaging, and CSF testing may be warranted if an MRI raises concerns about PML, he said.

Dr. Gordon has received research support from MSD (Merck), Eisai, AbbVie, and Janssen.

jremaly@mdedge.com

SOURCE: Sul J et al. AAN 2020. Abstract S29.001.

The first case of progressive multifocal leukoencephalopathy (PML) directly associated with ocrelizumab occurred in a patient with primary progressive multiple sclerosis (MS) who received 2 years of ocrelizumab monotherapy and had not received prior immunomodulatory medication. The case report was presented online as part of the 2020 American Academy of Neurology Science Highlights.

PML, an opportunistic infection of the brain caused by reactivation of the John Cunningham (JC) virus, has occurred with rituximab, another anti-CD20 therapy, in rare cases. Eight other cases of PML diagnosed after ocrelizumab initiation are considered carry-over cases related to prior treatment with natalizumab or fingolimod, according to Genentech, the manufacturer of ocrelizumab. No other PML cases have been associated with ocrelizumab alone.

The case without prior MS treatment was in a 78-year-old man. He presented with 2 weeks of progressive visual disturbance and confusion, said Marc L. Gordon, MD, chief of neurology at the Zucker Hillside Hospital in Glen Oaks, N.Y., and professor of neurology and psychiatry at the Donald and Barbara Zucker School of Medicine at Hofstra/Northwell in Hempstead, N.Y.

The patient had a right homonymous hemianopia. “MRI revealed an enlarging non-enhancing left parietal lesion without mass effect,” reported Dr. Gordon and colleagues. “CSF PCR revealed 1,000 copies/mL of JCV, confirming the diagnosis of PML. Blood work upon diagnosis revealed grade-2 lymphopenia ... and negative HIV serology.”

“The patient’s symptoms progressed over weeks to involve bilateral visual loss, right facial droop, and dysphasia,” they said. “Ocrelizumab was discontinued and off-label pembrolizumab treatment was initiated.” The patient did not respond to therapy and became bedbound, Dr. Gordon said in an interview. The patient received palliative care and died. An autopsy is pending.

“PML occurrence may have been multifactorial, due to a combination of the immunomodulatory function of ocrelizumab, possible immune senescence, and preceding mild lymphopenia,” Dr. Gordon and coauthors said. “This case emphasizes the importance of a thorough discussion of the risks and benefits of ocrelizumab, especially in patients at higher risk for infections, such as the elderly.”

The patient, who was Dr. Gordon’s patient for 20 years, had monitored updates in drug development and had looked forward to starting ocrelizumab, the first therapy approved for primary progressive MS, when it became available after its approval in 2017. The patient was concerned about progressively worsening gait impairment and related falls caused by MS.

Antibodies indicated that the patient had prior exposure to JCV, but Dr. Gordon considered the risk of PML to be relatively small. Prior to treatment, the patient’s absolute lymphocyte count was normal or indicated mild lymphocytopenia, which Dr. Gordon did not consider clinically significant. The patient received ocrelizumab for 2 years without incident.

In an information sheet for health care professionals about ocrelizumab and PML prepared in February 2020, Genentech says the patient’s age and low absolute lymphocyte count are confounding factors, which distort “the assessment of association between exposure to a drug and an adverse event.

“As of January 31, 2020, no unconfounded PML cases associated with ocrelizumab therapy have been reported,” according to the document. “Out of more than 150,000 patients treated globally (clinical trials and post-marketing experience), there have been nine confirmed, confounded cases of PML in patients treated with ocrelizumab, of which eight were carry-over cases from a prior DMT.”

The prescribing information for the drug notes that no cases of PML were identified in ocrelizumab clinical trials, but that PML has been observed in patients treated with other anti-CD20 antibodies and other MS therapies. In addition, PML “has been associated with some risk factors (eg, immunocompromised patients, polytherapy with immunosuppressants).

“At the first sign or symptom suggestive of PML, withhold ocrelizumab and perform an appropriate diagnostic evaluation,” the prescribing information says. “MRI findings may be apparent before clinical signs or symptoms. Typical symptoms associated with PML are diverse, progress over days to weeks, and include progressive weakness on one side of the body or clumsiness of limbs, disturbance of vision, and changes in thinking, memory, and orientation leading to confusion and personality changes.”

“It is important for people to recognize that this is at least a possibility,” Dr. Gordon said. Any change in clinical symptomatology may warrant imaging, and CSF testing may be warranted if an MRI raises concerns about PML, he said.

Dr. Gordon has received research support from MSD (Merck), Eisai, AbbVie, and Janssen.

jremaly@mdedge.com

SOURCE: Sul J et al. AAN 2020. Abstract S29.001.

The first case of progressive multifocal leukoencephalopathy (PML) directly associated with ocrelizumab occurred in a patient with primary progressive multiple sclerosis (MS) who received 2 years of ocrelizumab monotherapy and had not received prior immunomodulatory medication. The case report was presented online as part of the 2020 American Academy of Neurology Science Highlights.

PML, an opportunistic infection of the brain caused by reactivation of the John Cunningham (JC) virus, has occurred with rituximab, another anti-CD20 therapy, in rare cases. Eight other cases of PML diagnosed after ocrelizumab initiation are considered carry-over cases related to prior treatment with natalizumab or fingolimod, according to Genentech, the manufacturer of ocrelizumab. No other PML cases have been associated with ocrelizumab alone.

The case without prior MS treatment was in a 78-year-old man. He presented with 2 weeks of progressive visual disturbance and confusion, said Marc L. Gordon, MD, chief of neurology at the Zucker Hillside Hospital in Glen Oaks, N.Y., and professor of neurology and psychiatry at the Donald and Barbara Zucker School of Medicine at Hofstra/Northwell in Hempstead, N.Y.

The patient had a right homonymous hemianopia. “MRI revealed an enlarging non-enhancing left parietal lesion without mass effect,” reported Dr. Gordon and colleagues. “CSF PCR revealed 1,000 copies/mL of JCV, confirming the diagnosis of PML. Blood work upon diagnosis revealed grade-2 lymphopenia ... and negative HIV serology.”

“The patient’s symptoms progressed over weeks to involve bilateral visual loss, right facial droop, and dysphasia,” they said. “Ocrelizumab was discontinued and off-label pembrolizumab treatment was initiated.” The patient did not respond to therapy and became bedbound, Dr. Gordon said in an interview. The patient received palliative care and died. An autopsy is pending.

“PML occurrence may have been multifactorial, due to a combination of the immunomodulatory function of ocrelizumab, possible immune senescence, and preceding mild lymphopenia,” Dr. Gordon and coauthors said. “This case emphasizes the importance of a thorough discussion of the risks and benefits of ocrelizumab, especially in patients at higher risk for infections, such as the elderly.”

The patient, who was Dr. Gordon’s patient for 20 years, had monitored updates in drug development and had looked forward to starting ocrelizumab, the first therapy approved for primary progressive MS, when it became available after its approval in 2017. The patient was concerned about progressively worsening gait impairment and related falls caused by MS.

Antibodies indicated that the patient had prior exposure to JCV, but Dr. Gordon considered the risk of PML to be relatively small. Prior to treatment, the patient’s absolute lymphocyte count was normal or indicated mild lymphocytopenia, which Dr. Gordon did not consider clinically significant. The patient received ocrelizumab for 2 years without incident.

In an information sheet for health care professionals about ocrelizumab and PML prepared in February 2020, Genentech says the patient’s age and low absolute lymphocyte count are confounding factors, which distort “the assessment of association between exposure to a drug and an adverse event.

“As of January 31, 2020, no unconfounded PML cases associated with ocrelizumab therapy have been reported,” according to the document. “Out of more than 150,000 patients treated globally (clinical trials and post-marketing experience), there have been nine confirmed, confounded cases of PML in patients treated with ocrelizumab, of which eight were carry-over cases from a prior DMT.”

The prescribing information for the drug notes that no cases of PML were identified in ocrelizumab clinical trials, but that PML has been observed in patients treated with other anti-CD20 antibodies and other MS therapies. In addition, PML “has been associated with some risk factors (eg, immunocompromised patients, polytherapy with immunosuppressants).

“At the first sign or symptom suggestive of PML, withhold ocrelizumab and perform an appropriate diagnostic evaluation,” the prescribing information says. “MRI findings may be apparent before clinical signs or symptoms. Typical symptoms associated with PML are diverse, progress over days to weeks, and include progressive weakness on one side of the body or clumsiness of limbs, disturbance of vision, and changes in thinking, memory, and orientation leading to confusion and personality changes.”

“It is important for people to recognize that this is at least a possibility,” Dr. Gordon said. Any change in clinical symptomatology may warrant imaging, and CSF testing may be warranted if an MRI raises concerns about PML, he said.

Dr. Gordon has received research support from MSD (Merck), Eisai, AbbVie, and Janssen.

jremaly@mdedge.com

SOURCE: Sul J et al. AAN 2020. Abstract S29.001.

Children with refractory epilepsy who took pharmaceutical cannabidiol (CBD) had higher serum CBD levels and better seizure control than those who took artisanal CBD, but they had more adverse side effects, preliminary results of a small study indicate.

Given the widespread use of artisanal CBD products, Nathan T. Cohen, MD, pediatric epilepsy fellow, Children’s National Hospital, Washington, DC, and his colleagues wanted to know how these products differ from pharmaceutical grade CBD with respect to seizure control.

“One of the challenges or questions we have is whether there is any information that would guide us and suggest patients transition from artisanal to pharmaceutical grade CBD,” Dr. Cohen, who is lead author of the study, told Medscape Medical News.

The findings were released February 27 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage. The study received no outside funding.

In addition to helping relieve anxiety and stress, CBD, one of many constituents of Cannabis sativa, has antiseizure properties. The US Food and Drug Administration (FDA) has approved a pharmaceutical CBD (Epidiolex, GW Pharmaceuticals) for the management of seizures associated with Lennox-Gastaut syndrome (LGS) and Dravet syndrome.

This purified oral CBD prescription product does not contain tetrahydrocannabinol (THC), the component of marijuana that produces a “high.”
 

Popular products

Artisanal CBD, which has been around since the late 1970s, is manufactured using variable amounts of CBD and THC. Artisanal products, which typically come in the form of oils that are swallowed, are available in dispensaries and elsewhere, depending on the legal status in individual states.

These artisanal formulations are popular among patients with epilepsy and their families. On the basis of the advertising he sees, Dr. Cohen estimates there are at least 100 artisanal CBD products, but he was quick to stress he’s not an expert on artisanal CBD.

He noted that some families are “searching for an alternative treatment” to help control their child’s seizures, and if the seizure syndrome isn’t LGS or Dravet, “then technically, they don’t qualify for prescription-strength CBD,” said Dr. Cohen.

The current study was a retrospective chart review and included patients with epilepsy who underwent treatment with artisanal or pharmaceutical CBD for whom serum CBD levels were available.

In addition to CBD levels, the researchers had information on patients’ date of birth, gender, epilepsy diagnosis, artisanal or pharmaceutical CBD dose, seizure history, and side effects, among other things.

The analysis included 31 patients (48% female; mean age, about 10 years). Of these, 32% had LGS, 6% had Dravet, and the rest had other epilepsy syndromes.

Of the total, 22 patients participated in a pharmaceutical CBD expanded-access program. The remaining nine patients received artisanal CBD.

The mean serum CBD level was 30.1 ng/mL in the artisanal group and 124 ng/mL in the pharmaceutical group.

Dr. Cohen noted that artisanal products contain lower amounts of CBD because they’re not purified, and they may contain other compounds derived from marijuana.

At the last follow-up, which was a median of 11.8 months, patients who took artisanal CBD had a 70% increase in overall seizures. Dr. Cohen pointed out that some of the hundreds of compounds in marijuana could be “pro-convulsant.”
 

Some seizure free

The prescription CBD group experienced a 39% reduction in seizures. “Some of these kids had up to hundreds of seizures a day and went down to tens, and some kids became seizure free,” said Dr. Cohen.

Because the study was “looking back in time,” the investigators couldn’t determine whether age, type of epilepsy, or other factors affected seizure control in the two groups, said Dr. Cohen. “One of the limitations of a retrospective study is that we’re not able to control for those factors,” he said.

Eleven patients—all in the prescription CBD group—reported adverse effects, including somnolence, emesis, diarrhea, and diminished appetite; six discontinued CBD because of side effects.

Dr. Cohen said he’s not aware of any study that has compared artisanal products “head to head” with pharmaceutical grade CBD. “The whole point of this study was to ask the question, Is there a difference between the groups?, and these new data would suggest that there may be.”

The results appear to support giving encouragement to patients to transition from artisanal to pharmaceutical CBD if appropriate. “Anytime you’re giving your child a medication that has not been produced under the stringent guidelines that all pharmaceutical FDA-approved medications undergo, you don’t know exactly what’s in the product, and not knowing is a potential issue,” said Dr. Cohen.

The findings need to be studied in a more controlled setting “to make sure they’re valid,” said Dr. Cohen. Because this is “a very hot topic,” he’s keen to see what further research his colleagues would be interested in pursuing.

Commenting on the research, Joseph Sirven, MD, a neurologist in Scottsdale, Arizona, said this is an important study.

“It highlights one of the most common questions that I receive almost on a daily basis in my neurology practice,” he said.

Most people think that dispensary-based CBD is the same as prescription-based CBD, said Dr. Sirven. “Technically and theoretically, they certainly could be; however, what this study highlights is that in practice, they are not the same.”

He stressed that prescription CBD has to meet certain quality standards. “That means that whatever the ingredient list states about the concentration of CBD in the product has to be within the product, which is why the FDA approved it. It is, in essence, a quality control issue.”

A dispensary-based product does not need to meet such stringent standards and so “is subject to whatever the manufacturer chooses to put in the product,” said Dr. Sirven.

The study received no outside funding. Drs. Cohen and Sirven reported no relevant financial relationships.

This article first appeared on Medscape.com.

Children with refractory epilepsy who took pharmaceutical cannabidiol (CBD) had higher serum CBD levels and better seizure control than those who took artisanal CBD, but they had more adverse side effects, preliminary results of a small study indicate.

Given the widespread use of artisanal CBD products, Nathan T. Cohen, MD, pediatric epilepsy fellow, Children’s National Hospital, Washington, DC, and his colleagues wanted to know how these products differ from pharmaceutical grade CBD with respect to seizure control.

“One of the challenges or questions we have is whether there is any information that would guide us and suggest patients transition from artisanal to pharmaceutical grade CBD,” Dr. Cohen, who is lead author of the study, told Medscape Medical News.

The findings were released February 27 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage. The study received no outside funding.

In addition to helping relieve anxiety and stress, CBD, one of many constituents of Cannabis sativa, has antiseizure properties. The US Food and Drug Administration (FDA) has approved a pharmaceutical CBD (Epidiolex, GW Pharmaceuticals) for the management of seizures associated with Lennox-Gastaut syndrome (LGS) and Dravet syndrome.

This purified oral CBD prescription product does not contain tetrahydrocannabinol (THC), the component of marijuana that produces a “high.”
 

Popular products

Artisanal CBD, which has been around since the late 1970s, is manufactured using variable amounts of CBD and THC. Artisanal products, which typically come in the form of oils that are swallowed, are available in dispensaries and elsewhere, depending on the legal status in individual states.

These artisanal formulations are popular among patients with epilepsy and their families. On the basis of the advertising he sees, Dr. Cohen estimates there are at least 100 artisanal CBD products, but he was quick to stress he’s not an expert on artisanal CBD.

He noted that some families are “searching for an alternative treatment” to help control their child’s seizures, and if the seizure syndrome isn’t LGS or Dravet, “then technically, they don’t qualify for prescription-strength CBD,” said Dr. Cohen.

The current study was a retrospective chart review and included patients with epilepsy who underwent treatment with artisanal or pharmaceutical CBD for whom serum CBD levels were available.

In addition to CBD levels, the researchers had information on patients’ date of birth, gender, epilepsy diagnosis, artisanal or pharmaceutical CBD dose, seizure history, and side effects, among other things.

The analysis included 31 patients (48% female; mean age, about 10 years). Of these, 32% had LGS, 6% had Dravet, and the rest had other epilepsy syndromes.

Of the total, 22 patients participated in a pharmaceutical CBD expanded-access program. The remaining nine patients received artisanal CBD.

The mean serum CBD level was 30.1 ng/mL in the artisanal group and 124 ng/mL in the pharmaceutical group.

Dr. Cohen noted that artisanal products contain lower amounts of CBD because they’re not purified, and they may contain other compounds derived from marijuana.

At the last follow-up, which was a median of 11.8 months, patients who took artisanal CBD had a 70% increase in overall seizures. Dr. Cohen pointed out that some of the hundreds of compounds in marijuana could be “pro-convulsant.”
 

Some seizure free

The prescription CBD group experienced a 39% reduction in seizures. “Some of these kids had up to hundreds of seizures a day and went down to tens, and some kids became seizure free,” said Dr. Cohen.

Because the study was “looking back in time,” the investigators couldn’t determine whether age, type of epilepsy, or other factors affected seizure control in the two groups, said Dr. Cohen. “One of the limitations of a retrospective study is that we’re not able to control for those factors,” he said.

Eleven patients—all in the prescription CBD group—reported adverse effects, including somnolence, emesis, diarrhea, and diminished appetite; six discontinued CBD because of side effects.

Dr. Cohen said he’s not aware of any study that has compared artisanal products “head to head” with pharmaceutical grade CBD. “The whole point of this study was to ask the question, Is there a difference between the groups?, and these new data would suggest that there may be.”

The results appear to support giving encouragement to patients to transition from artisanal to pharmaceutical CBD if appropriate. “Anytime you’re giving your child a medication that has not been produced under the stringent guidelines that all pharmaceutical FDA-approved medications undergo, you don’t know exactly what’s in the product, and not knowing is a potential issue,” said Dr. Cohen.

The findings need to be studied in a more controlled setting “to make sure they’re valid,” said Dr. Cohen. Because this is “a very hot topic,” he’s keen to see what further research his colleagues would be interested in pursuing.

Commenting on the research, Joseph Sirven, MD, a neurologist in Scottsdale, Arizona, said this is an important study.

“It highlights one of the most common questions that I receive almost on a daily basis in my neurology practice,” he said.

Most people think that dispensary-based CBD is the same as prescription-based CBD, said Dr. Sirven. “Technically and theoretically, they certainly could be; however, what this study highlights is that in practice, they are not the same.”

He stressed that prescription CBD has to meet certain quality standards. “That means that whatever the ingredient list states about the concentration of CBD in the product has to be within the product, which is why the FDA approved it. It is, in essence, a quality control issue.”

A dispensary-based product does not need to meet such stringent standards and so “is subject to whatever the manufacturer chooses to put in the product,” said Dr. Sirven.

The study received no outside funding. Drs. Cohen and Sirven reported no relevant financial relationships.

This article first appeared on Medscape.com.

Children with refractory epilepsy who took pharmaceutical cannabidiol (CBD) had higher serum CBD levels and better seizure control than those who took artisanal CBD, but they had more adverse side effects, preliminary results of a small study indicate.

Given the widespread use of artisanal CBD products, Nathan T. Cohen, MD, pediatric epilepsy fellow, Children’s National Hospital, Washington, DC, and his colleagues wanted to know how these products differ from pharmaceutical grade CBD with respect to seizure control.

“One of the challenges or questions we have is whether there is any information that would guide us and suggest patients transition from artisanal to pharmaceutical grade CBD,” Dr. Cohen, who is lead author of the study, told Medscape Medical News.

The findings were released February 27 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage. The study received no outside funding.

In addition to helping relieve anxiety and stress, CBD, one of many constituents of Cannabis sativa, has antiseizure properties. The US Food and Drug Administration (FDA) has approved a pharmaceutical CBD (Epidiolex, GW Pharmaceuticals) for the management of seizures associated with Lennox-Gastaut syndrome (LGS) and Dravet syndrome.

This purified oral CBD prescription product does not contain tetrahydrocannabinol (THC), the component of marijuana that produces a “high.”
 

Popular products

Artisanal CBD, which has been around since the late 1970s, is manufactured using variable amounts of CBD and THC. Artisanal products, which typically come in the form of oils that are swallowed, are available in dispensaries and elsewhere, depending on the legal status in individual states.

These artisanal formulations are popular among patients with epilepsy and their families. On the basis of the advertising he sees, Dr. Cohen estimates there are at least 100 artisanal CBD products, but he was quick to stress he’s not an expert on artisanal CBD.

He noted that some families are “searching for an alternative treatment” to help control their child’s seizures, and if the seizure syndrome isn’t LGS or Dravet, “then technically, they don’t qualify for prescription-strength CBD,” said Dr. Cohen.

The current study was a retrospective chart review and included patients with epilepsy who underwent treatment with artisanal or pharmaceutical CBD for whom serum CBD levels were available.

In addition to CBD levels, the researchers had information on patients’ date of birth, gender, epilepsy diagnosis, artisanal or pharmaceutical CBD dose, seizure history, and side effects, among other things.

The analysis included 31 patients (48% female; mean age, about 10 years). Of these, 32% had LGS, 6% had Dravet, and the rest had other epilepsy syndromes.

Of the total, 22 patients participated in a pharmaceutical CBD expanded-access program. The remaining nine patients received artisanal CBD.

The mean serum CBD level was 30.1 ng/mL in the artisanal group and 124 ng/mL in the pharmaceutical group.

Dr. Cohen noted that artisanal products contain lower amounts of CBD because they’re not purified, and they may contain other compounds derived from marijuana.

At the last follow-up, which was a median of 11.8 months, patients who took artisanal CBD had a 70% increase in overall seizures. Dr. Cohen pointed out that some of the hundreds of compounds in marijuana could be “pro-convulsant.”
 

Some seizure free

The prescription CBD group experienced a 39% reduction in seizures. “Some of these kids had up to hundreds of seizures a day and went down to tens, and some kids became seizure free,” said Dr. Cohen.

Because the study was “looking back in time,” the investigators couldn’t determine whether age, type of epilepsy, or other factors affected seizure control in the two groups, said Dr. Cohen. “One of the limitations of a retrospective study is that we’re not able to control for those factors,” he said.

Eleven patients—all in the prescription CBD group—reported adverse effects, including somnolence, emesis, diarrhea, and diminished appetite; six discontinued CBD because of side effects.

Dr. Cohen said he’s not aware of any study that has compared artisanal products “head to head” with pharmaceutical grade CBD. “The whole point of this study was to ask the question, Is there a difference between the groups?, and these new data would suggest that there may be.”

The results appear to support giving encouragement to patients to transition from artisanal to pharmaceutical CBD if appropriate. “Anytime you’re giving your child a medication that has not been produced under the stringent guidelines that all pharmaceutical FDA-approved medications undergo, you don’t know exactly what’s in the product, and not knowing is a potential issue,” said Dr. Cohen.

The findings need to be studied in a more controlled setting “to make sure they’re valid,” said Dr. Cohen. Because this is “a very hot topic,” he’s keen to see what further research his colleagues would be interested in pursuing.

Commenting on the research, Joseph Sirven, MD, a neurologist in Scottsdale, Arizona, said this is an important study.

“It highlights one of the most common questions that I receive almost on a daily basis in my neurology practice,” he said.

Most people think that dispensary-based CBD is the same as prescription-based CBD, said Dr. Sirven. “Technically and theoretically, they certainly could be; however, what this study highlights is that in practice, they are not the same.”

He stressed that prescription CBD has to meet certain quality standards. “That means that whatever the ingredient list states about the concentration of CBD in the product has to be within the product, which is why the FDA approved it. It is, in essence, a quality control issue.”

A dispensary-based product does not need to meet such stringent standards and so “is subject to whatever the manufacturer chooses to put in the product,” said Dr. Sirven.

The study received no outside funding. Drs. Cohen and Sirven reported no relevant financial relationships.

This article first appeared on Medscape.com.

Boxing may help improve common nonmotor symptoms of Parkinson’s disease, new research suggests. In the study, patients with Parkinson’s disease who participated in a noncontact boxing program experienced improvement in nonmotor symptoms such as fatigue, depression, and anxiety, and had significantly better quality of life compared with their counterparts who did not engage in this type of exercise.

“We know we should be prescribing exercise for our Parkinson’s disease patients because more and more research shows it can delay the progression of the disease, but it can be overwhelming to know what type of exercise to prescribe to patients,” study investigator Danielle Larson, MD, a neurologist and movement disorders fellow at Northwestern University, Chicago, Illinois, told Medscape Medical News.

On a daily basis, patients at Dr. Larson’s clinic who have taken Rock Steady Boxing (RSB) classes “really endorse” this exercise, she said.

The findings were released March 4 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage.
 

Global program

A form of noncontact boxing, RSB was created in 2006 for patients with Parkinson’s disease. A typical 90-minute class starts with stretching and cardiovascular exercises, then foot movements and stepping over obstacles.

“Parkinson’s disease patients are slowed down and have difficulty navigating around obstacles,” Dr. Larson noted.

The class also includes “speed training,” such as fast walking or running. In the boxing part of the class, participants use suspended punching bags.

Dr. Larson said the RSB program caters to all patients with Parkinson’s disease, “even those who need a walker for assistance.” Most RSB sites require a release from a physician to ensure patient safety, she said.

There are now about 43,500 participants at 871 RSB sites around the world.

Adults with Parkinson’s disease who were aware of RSB completed a 20-minute anonymous survey, distributed via email and social media by RSB Inc and the Parkinson Foundation.

Of 2,054 survey respondents, 1,709 were eligible for analysis. Of these, 1,333 were currently participating in RSB, 166 had previously participated, and 210 had never participated in the program.

For all three groups, researchers gathered demographic information, such as age, gender, and income, and asked respondents how long they had the condition, who takes care of their illness, etc.

Current and previous RSB participants were asked about the exercise. For example, they were asked how many classes on average they would take per week and whether specific symptoms had improved or not changed with their participation.

RSB participants had a mean age of 69 years, 59% were male, and 96% were white. Demographics were similar for the other groups, although Dr. Larson noted that the group that had never participated was relatively small.

There was no difference between the groups in terms of years since Parkinson’ disease diagnosis or use of a movement disorders specialist.

Less fatigue

Compared with nonparticipants, a higher percentage of participants were retired (76% vs. 65%, P < .01) and married/had a partner (85% vs. 80%, P = .03).

The symptoms for which participants reported at least a 50% improvement were mostly nonmotor symptoms. For example, participants had improvements in social life (70%), fatigue (63%), fear of falling (62%), depression (60%), and anxiety (59%).

More than 50% of respondents in the previous participant group also reported improvement in these symptoms, “just not to the same degree as the current participants,” Dr. Larson said.

“Those symptoms are difficult to treat in Parkinson’s disease,” she noted. “We really don’t have any good medications for those symptoms; so to report, for example, a 63% improvement in fatigue is pretty substantial.”

The survey included the Parkinson’s Disease Questionnaire–39 (PDQ-39). The questionnaire assesses factors associated with daily living, including relationships and the impact of Parkinson’s disease on functioning and well-being.

Compared with nonparticipants, current participants had better mean scores on the PDQ-39 (25 vs. 32, P < .01), which indicates better quality of life, Dr. Larson said. Previous participants had a higher (or worse) score than current participants, she added.

Largest study to date

Researchers also examined likelihood of exercising even with certain barriers, such as distance to the gym, bad weather, or fatigue using the Self Efficacy for Exercise (SEE) Scale. Current participants had better SEE scores compared with nonparticipants (54 vs. 48, P < .01).

“We can’t prove causality. We can’t say it was the RSB that improved their quality of life or their exercise self-efficacy, but at least there’s a correlation,” Dr. Larson said.

For the SEE, again, the previous participants had lower scores than current participants, she noted.

“An interpretation of this is that individuals who previously participated but stopped did so because they had lower exercise self-efficacy – which is the ability to self-motivate and stick with an exercise – to begin with,” she said.

As for Parkinson’s disease–related motor symptoms, the survey found some improvements. “People did report between 20% and 40% improvement on various motor symptoms,” but not more than 50% of respondents.

Dr. Larson noted that some motor symptoms such as tremor would not be expected to improve with exercise.

This study, the largest to date of RSB in patients with Parkinson’s disease, illustrates the benefits of this type of exercise intervention for these patients, she said.

“It’s a step in the right direction in showing that RSB, or noncontact boxing classes, can be a really good option for patients who have previously not been motivated to exercise, or maybe haven’t stuck with an exercise class, or maybe fatigue or anxiety or depression is a barrier for them to exercise.”

Patients who have experienced RSB praise its unique approach, in addition to generating friendships and promoting a sense of camaraderie and team spirit, Dr. Larson said.

“It’s almost like a support group inside an exercise class,” she noted. “We also see that people are really committed to the classes, whereas with other exercises it can be hard to get people to be motivated.”

Some 99% of current and 94% of previous participants indicated they would recommend RSB to others with Parkinson’s disease.

Interpret with caution

Commenting on the research, Michael S. Okun, MD, professor and chair of neurology, University of Florida Health, Gainesville, and medical director at the Parkinson’s Foundation, said many patients with Parkinson’s disease attend RSB classes and report that the regimen has a beneficial effect on symptoms and quality of life.

“The data from this study support these types of observations,” he said.

But Dr. Okun noted that caution is in order. “We should be careful not to overinterpret the results given that the methodology was survey-based,” he said.

To some extent, the results aren’t surprising, as multiple studies have already shown that exercise improves Parkinson’s disease symptoms and quality of life, Dr. Okun said. “We have no reason to believe that Rock Steady Boxing would not result in similar improvements.”

He stressed that a follow-up study will be necessary to better understand the potential benefits, both nonmotor and motor.

Also commenting, movement disorders specialist Anna DePold Hohler, MD, professor of neurology at Tufts University School of Medicine, Boston, and chair of neurology at St. Elizabeth’s Medical Center in Brighton, Massachusetts, said the new results “provide an added incentive” for patients to participate in RSB programs.

Such programs “should be started early and maintained,” Dr. Hohler added.

The study received no outside funding. The study authors have disclosed no relevant financial relationships. Drs. Okun and Hohler have disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

Boxing may help improve common nonmotor symptoms of Parkinson’s disease, new research suggests. In the study, patients with Parkinson’s disease who participated in a noncontact boxing program experienced improvement in nonmotor symptoms such as fatigue, depression, and anxiety, and had significantly better quality of life compared with their counterparts who did not engage in this type of exercise.

“We know we should be prescribing exercise for our Parkinson’s disease patients because more and more research shows it can delay the progression of the disease, but it can be overwhelming to know what type of exercise to prescribe to patients,” study investigator Danielle Larson, MD, a neurologist and movement disorders fellow at Northwestern University, Chicago, Illinois, told Medscape Medical News.

On a daily basis, patients at Dr. Larson’s clinic who have taken Rock Steady Boxing (RSB) classes “really endorse” this exercise, she said.

The findings were released March 4 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage.
 

Global program

A form of noncontact boxing, RSB was created in 2006 for patients with Parkinson’s disease. A typical 90-minute class starts with stretching and cardiovascular exercises, then foot movements and stepping over obstacles.

“Parkinson’s disease patients are slowed down and have difficulty navigating around obstacles,” Dr. Larson noted.

The class also includes “speed training,” such as fast walking or running. In the boxing part of the class, participants use suspended punching bags.

Dr. Larson said the RSB program caters to all patients with Parkinson’s disease, “even those who need a walker for assistance.” Most RSB sites require a release from a physician to ensure patient safety, she said.

There are now about 43,500 participants at 871 RSB sites around the world.

Adults with Parkinson’s disease who were aware of RSB completed a 20-minute anonymous survey, distributed via email and social media by RSB Inc and the Parkinson Foundation.

Of 2,054 survey respondents, 1,709 were eligible for analysis. Of these, 1,333 were currently participating in RSB, 166 had previously participated, and 210 had never participated in the program.

For all three groups, researchers gathered demographic information, such as age, gender, and income, and asked respondents how long they had the condition, who takes care of their illness, etc.

Current and previous RSB participants were asked about the exercise. For example, they were asked how many classes on average they would take per week and whether specific symptoms had improved or not changed with their participation.

RSB participants had a mean age of 69 years, 59% were male, and 96% were white. Demographics were similar for the other groups, although Dr. Larson noted that the group that had never participated was relatively small.

There was no difference between the groups in terms of years since Parkinson’ disease diagnosis or use of a movement disorders specialist.

Less fatigue

Compared with nonparticipants, a higher percentage of participants were retired (76% vs. 65%, P < .01) and married/had a partner (85% vs. 80%, P = .03).

The symptoms for which participants reported at least a 50% improvement were mostly nonmotor symptoms. For example, participants had improvements in social life (70%), fatigue (63%), fear of falling (62%), depression (60%), and anxiety (59%).

More than 50% of respondents in the previous participant group also reported improvement in these symptoms, “just not to the same degree as the current participants,” Dr. Larson said.

“Those symptoms are difficult to treat in Parkinson’s disease,” she noted. “We really don’t have any good medications for those symptoms; so to report, for example, a 63% improvement in fatigue is pretty substantial.”

The survey included the Parkinson’s Disease Questionnaire–39 (PDQ-39). The questionnaire assesses factors associated with daily living, including relationships and the impact of Parkinson’s disease on functioning and well-being.

Compared with nonparticipants, current participants had better mean scores on the PDQ-39 (25 vs. 32, P < .01), which indicates better quality of life, Dr. Larson said. Previous participants had a higher (or worse) score than current participants, she added.

Largest study to date

Researchers also examined likelihood of exercising even with certain barriers, such as distance to the gym, bad weather, or fatigue using the Self Efficacy for Exercise (SEE) Scale. Current participants had better SEE scores compared with nonparticipants (54 vs. 48, P < .01).

“We can’t prove causality. We can’t say it was the RSB that improved their quality of life or their exercise self-efficacy, but at least there’s a correlation,” Dr. Larson said.

For the SEE, again, the previous participants had lower scores than current participants, she noted.

“An interpretation of this is that individuals who previously participated but stopped did so because they had lower exercise self-efficacy – which is the ability to self-motivate and stick with an exercise – to begin with,” she said.

As for Parkinson’s disease–related motor symptoms, the survey found some improvements. “People did report between 20% and 40% improvement on various motor symptoms,” but not more than 50% of respondents.

Dr. Larson noted that some motor symptoms such as tremor would not be expected to improve with exercise.

This study, the largest to date of RSB in patients with Parkinson’s disease, illustrates the benefits of this type of exercise intervention for these patients, she said.

“It’s a step in the right direction in showing that RSB, or noncontact boxing classes, can be a really good option for patients who have previously not been motivated to exercise, or maybe haven’t stuck with an exercise class, or maybe fatigue or anxiety or depression is a barrier for them to exercise.”

Patients who have experienced RSB praise its unique approach, in addition to generating friendships and promoting a sense of camaraderie and team spirit, Dr. Larson said.

“It’s almost like a support group inside an exercise class,” she noted. “We also see that people are really committed to the classes, whereas with other exercises it can be hard to get people to be motivated.”

Some 99% of current and 94% of previous participants indicated they would recommend RSB to others with Parkinson’s disease.

Interpret with caution

Commenting on the research, Michael S. Okun, MD, professor and chair of neurology, University of Florida Health, Gainesville, and medical director at the Parkinson’s Foundation, said many patients with Parkinson’s disease attend RSB classes and report that the regimen has a beneficial effect on symptoms and quality of life.

“The data from this study support these types of observations,” he said.

But Dr. Okun noted that caution is in order. “We should be careful not to overinterpret the results given that the methodology was survey-based,” he said.

To some extent, the results aren’t surprising, as multiple studies have already shown that exercise improves Parkinson’s disease symptoms and quality of life, Dr. Okun said. “We have no reason to believe that Rock Steady Boxing would not result in similar improvements.”

He stressed that a follow-up study will be necessary to better understand the potential benefits, both nonmotor and motor.

Also commenting, movement disorders specialist Anna DePold Hohler, MD, professor of neurology at Tufts University School of Medicine, Boston, and chair of neurology at St. Elizabeth’s Medical Center in Brighton, Massachusetts, said the new results “provide an added incentive” for patients to participate in RSB programs.

Such programs “should be started early and maintained,” Dr. Hohler added.

The study received no outside funding. The study authors have disclosed no relevant financial relationships. Drs. Okun and Hohler have disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

Boxing may help improve common nonmotor symptoms of Parkinson’s disease, new research suggests. In the study, patients with Parkinson’s disease who participated in a noncontact boxing program experienced improvement in nonmotor symptoms such as fatigue, depression, and anxiety, and had significantly better quality of life compared with their counterparts who did not engage in this type of exercise.

“We know we should be prescribing exercise for our Parkinson’s disease patients because more and more research shows it can delay the progression of the disease, but it can be overwhelming to know what type of exercise to prescribe to patients,” study investigator Danielle Larson, MD, a neurologist and movement disorders fellow at Northwestern University, Chicago, Illinois, told Medscape Medical News.

On a daily basis, patients at Dr. Larson’s clinic who have taken Rock Steady Boxing (RSB) classes “really endorse” this exercise, she said.

The findings were released March 4 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage.
 

Global program

A form of noncontact boxing, RSB was created in 2006 for patients with Parkinson’s disease. A typical 90-minute class starts with stretching and cardiovascular exercises, then foot movements and stepping over obstacles.

“Parkinson’s disease patients are slowed down and have difficulty navigating around obstacles,” Dr. Larson noted.

The class also includes “speed training,” such as fast walking or running. In the boxing part of the class, participants use suspended punching bags.

Dr. Larson said the RSB program caters to all patients with Parkinson’s disease, “even those who need a walker for assistance.” Most RSB sites require a release from a physician to ensure patient safety, she said.

There are now about 43,500 participants at 871 RSB sites around the world.

Adults with Parkinson’s disease who were aware of RSB completed a 20-minute anonymous survey, distributed via email and social media by RSB Inc and the Parkinson Foundation.

Of 2,054 survey respondents, 1,709 were eligible for analysis. Of these, 1,333 were currently participating in RSB, 166 had previously participated, and 210 had never participated in the program.

For all three groups, researchers gathered demographic information, such as age, gender, and income, and asked respondents how long they had the condition, who takes care of their illness, etc.

Current and previous RSB participants were asked about the exercise. For example, they were asked how many classes on average they would take per week and whether specific symptoms had improved or not changed with their participation.

RSB participants had a mean age of 69 years, 59% were male, and 96% were white. Demographics were similar for the other groups, although Dr. Larson noted that the group that had never participated was relatively small.

There was no difference between the groups in terms of years since Parkinson’ disease diagnosis or use of a movement disorders specialist.

Less fatigue

Compared with nonparticipants, a higher percentage of participants were retired (76% vs. 65%, P < .01) and married/had a partner (85% vs. 80%, P = .03).

The symptoms for which participants reported at least a 50% improvement were mostly nonmotor symptoms. For example, participants had improvements in social life (70%), fatigue (63%), fear of falling (62%), depression (60%), and anxiety (59%).

More than 50% of respondents in the previous participant group also reported improvement in these symptoms, “just not to the same degree as the current participants,” Dr. Larson said.

“Those symptoms are difficult to treat in Parkinson’s disease,” she noted. “We really don’t have any good medications for those symptoms; so to report, for example, a 63% improvement in fatigue is pretty substantial.”

The survey included the Parkinson’s Disease Questionnaire–39 (PDQ-39). The questionnaire assesses factors associated with daily living, including relationships and the impact of Parkinson’s disease on functioning and well-being.

Compared with nonparticipants, current participants had better mean scores on the PDQ-39 (25 vs. 32, P < .01), which indicates better quality of life, Dr. Larson said. Previous participants had a higher (or worse) score than current participants, she added.

Largest study to date

Researchers also examined likelihood of exercising even with certain barriers, such as distance to the gym, bad weather, or fatigue using the Self Efficacy for Exercise (SEE) Scale. Current participants had better SEE scores compared with nonparticipants (54 vs. 48, P < .01).

“We can’t prove causality. We can’t say it was the RSB that improved their quality of life or their exercise self-efficacy, but at least there’s a correlation,” Dr. Larson said.

For the SEE, again, the previous participants had lower scores than current participants, she noted.

“An interpretation of this is that individuals who previously participated but stopped did so because they had lower exercise self-efficacy – which is the ability to self-motivate and stick with an exercise – to begin with,” she said.

As for Parkinson’s disease–related motor symptoms, the survey found some improvements. “People did report between 20% and 40% improvement on various motor symptoms,” but not more than 50% of respondents.

Dr. Larson noted that some motor symptoms such as tremor would not be expected to improve with exercise.

This study, the largest to date of RSB in patients with Parkinson’s disease, illustrates the benefits of this type of exercise intervention for these patients, she said.

“It’s a step in the right direction in showing that RSB, or noncontact boxing classes, can be a really good option for patients who have previously not been motivated to exercise, or maybe haven’t stuck with an exercise class, or maybe fatigue or anxiety or depression is a barrier for them to exercise.”

Patients who have experienced RSB praise its unique approach, in addition to generating friendships and promoting a sense of camaraderie and team spirit, Dr. Larson said.

“It’s almost like a support group inside an exercise class,” she noted. “We also see that people are really committed to the classes, whereas with other exercises it can be hard to get people to be motivated.”

Some 99% of current and 94% of previous participants indicated they would recommend RSB to others with Parkinson’s disease.

Interpret with caution

Commenting on the research, Michael S. Okun, MD, professor and chair of neurology, University of Florida Health, Gainesville, and medical director at the Parkinson’s Foundation, said many patients with Parkinson’s disease attend RSB classes and report that the regimen has a beneficial effect on symptoms and quality of life.

“The data from this study support these types of observations,” he said.

But Dr. Okun noted that caution is in order. “We should be careful not to overinterpret the results given that the methodology was survey-based,” he said.

To some extent, the results aren’t surprising, as multiple studies have already shown that exercise improves Parkinson’s disease symptoms and quality of life, Dr. Okun said. “We have no reason to believe that Rock Steady Boxing would not result in similar improvements.”

He stressed that a follow-up study will be necessary to better understand the potential benefits, both nonmotor and motor.

Also commenting, movement disorders specialist Anna DePold Hohler, MD, professor of neurology at Tufts University School of Medicine, Boston, and chair of neurology at St. Elizabeth’s Medical Center in Brighton, Massachusetts, said the new results “provide an added incentive” for patients to participate in RSB programs.

Such programs “should be started early and maintained,” Dr. Hohler added.

The study received no outside funding. The study authors have disclosed no relevant financial relationships. Drs. Okun and Hohler have disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

Playing table tennis, also known as ping-pong, appears to improve motor symptoms in patients with Parkinson’s disease, new research suggests. The results of a small pilot study show that table ping-pong is a safe and effective rehabilitative intervention for patients with Parkinson’s disease that can be easily introduced, study investigator Shinsuke Fujioka, MD, Department of Neurology, Fukuoka University, Japan, told Medscape Medical News.

He emphasized that any rehabilitation for patients with Parkinson’s disease could be beneficial, especially during the early stages of their illness. “The most important thing is that patients have fun when doing rehabilitation.”

The findings were released February 25 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage.
 

All exercise beneficial

The idea of studying ping-pong as a therapy for patients with Parkinson’s disease originated when Dr. Fujioka heard about a patient who used a cane but no longer needed it after taking up the exercise as a weekly rehabilitation therapy.

“It’s apparent that the exercise can improve motor function of Parkinson’s disease. However, to date, the effects of the sport have not been well investigated for this patient population, so our study aimed to disclose the effects that table tennis can bring to patients with Parkinson’s disease,” said Dr. Fujioka.

The study included 12 patients with Parkinson’s disease – 10 women and two men. Mean age at disease onset was 67 years, and mean disease duration was 7 years. Mean stage on the Hoehn & Yahr scale, which assesses severity of Parkinson’s disease symptoms, was three, so most patients had balance problems.

Study participants played ping-pong at once-weekly 5-hour sessions that included rest breaks whenever they felt it was necessary.

Researchers assessed participants using the Unified Parkinson’s Disease Rating Scale (UPDRS) part I-IV. Parts II and III assess motor function whereas parts I and IV evaluate nonmotor function and motor complications, respectively.

The main motor symptoms of Parkinson’s disease include bradykinesia and muscle rigidity, tremor, and postural instability.

Researchers also assessed participants using the Montreal Cognitive Assessment (MoCA), Frontal Assessment Battery (FAB), Self-Rating Depression Scale (SDS), and Apathy scale.

Results showed that UPDRS part II significantly improved at 3 and 6 months (both P < 0.001), as did UPDRS part III (P = 0.002 at 3 months; P < 0.001 at 6 months).

Dr. Fujioka speculated, “twisting axial muscles when hitting a ping-pong ball may be the most efficacious for patients, especially for bradykinesia and balance problems.”
 

Significant improvement

Such findings may not be that surprising. Dr. Fujioka pointed to other rehabilitation therapies such as tai chi or tango that may also improve Parkinson’s disease motor symptoms.

For UPDRS part II, subscores of speech, saliva and drooling, dressing, handwriting, doing hobbies and other activities, getting out of bed, a car, or a deep chair, and walking and balance, significantly improved.

In addition, for UPDRS part III, subscores of facial expression, rigidity, postural stability, posture, bradykinesia, and kinetic tremor of the hands also significantly improved.

As for nonmotor symptoms such as mood, anxiety, depression, and apathy assessed in UPDRS part I, scores did not significantly change, which was also the case for part IV.

However, Dr. Fujioka pointed out that patient scores didn’t worsen. “Given the nature of disease, not worsening of nonmotor features can potentially be a good effect of the sport.” MoCA, FAB, SDS, and Apathy scale scores also did not change.

Dr. Fujioka noted that all participants enjoyed the table tennis rehabilitation, and “gradually smiled more during the study period.” All study participants continued the table tennis rehabilitation after the 6-month program.

Dr. Fujioka noted that although patients with Parkinson’s disease often have difficulty moving in a front-to-back direction, they can move relatively easily in a lateral direction.

“In that sense, table tennis is suitable for them,” he said. However, he added, court tennis, handball, and badminton may not be suitable for most patients with Parkinson’s disease.

One patient suffered a fall and another backache. Dr. Fujioka cautioned that more frequent ping-pong playing might increase the risk of adverse events.

He also suggests patients with Parkinson’s disease have their bone density checked before starting regular rehabilitation exercise as they are at increased risk for osteoporosis.

The investigators are currently organizing a prospective, multicenter randomized study to compare the effectiveness of table tennis with conventional rehabilitation and the Lee Silverman Voice Treatment, which is designed to increase vocal intensity in patients with Parkinson’s disease.
 

Fun, engaging

Commenting on the findings, Cynthia Comella, MD, professor emeritus, Neurological Sciences, Rush University Medical Center, New Philadelphia, Ohio, said ping-pong is a “fun and engaging” exercise for patients with Parkinson’s disease. Dr. Comella noted prior studies have shown many types of exercise are beneficial for patients with Parkinson’s disease “provided that they continue” with it.

In that regard, these new results are “promising,” she said. “It may be that this type of community generating, fun exercise would lead to a continuation of the exercise after a study is completed.”

A controlled trial that includes a post-study follow-up to evaluate compliance and continued benefit is needed, she said.

Purchase of equipment, including tables, rackets, and balls, was possible through funds donated by Hisako Kobayashi-Levin, which provides Murakami Karindoh Hospital with an annual fund to improve the quality of their rehabilitation program. The authors reported no relevant financial relationships.

This article first appeared on Medscape.com.

Playing table tennis, also known as ping-pong, appears to improve motor symptoms in patients with Parkinson’s disease, new research suggests. The results of a small pilot study show that table ping-pong is a safe and effective rehabilitative intervention for patients with Parkinson’s disease that can be easily introduced, study investigator Shinsuke Fujioka, MD, Department of Neurology, Fukuoka University, Japan, told Medscape Medical News.

He emphasized that any rehabilitation for patients with Parkinson’s disease could be beneficial, especially during the early stages of their illness. “The most important thing is that patients have fun when doing rehabilitation.”

The findings were released February 25 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage.
 

All exercise beneficial

The idea of studying ping-pong as a therapy for patients with Parkinson’s disease originated when Dr. Fujioka heard about a patient who used a cane but no longer needed it after taking up the exercise as a weekly rehabilitation therapy.

“It’s apparent that the exercise can improve motor function of Parkinson’s disease. However, to date, the effects of the sport have not been well investigated for this patient population, so our study aimed to disclose the effects that table tennis can bring to patients with Parkinson’s disease,” said Dr. Fujioka.

The study included 12 patients with Parkinson’s disease – 10 women and two men. Mean age at disease onset was 67 years, and mean disease duration was 7 years. Mean stage on the Hoehn & Yahr scale, which assesses severity of Parkinson’s disease symptoms, was three, so most patients had balance problems.

Study participants played ping-pong at once-weekly 5-hour sessions that included rest breaks whenever they felt it was necessary.

Researchers assessed participants using the Unified Parkinson’s Disease Rating Scale (UPDRS) part I-IV. Parts II and III assess motor function whereas parts I and IV evaluate nonmotor function and motor complications, respectively.

The main motor symptoms of Parkinson’s disease include bradykinesia and muscle rigidity, tremor, and postural instability.

Researchers also assessed participants using the Montreal Cognitive Assessment (MoCA), Frontal Assessment Battery (FAB), Self-Rating Depression Scale (SDS), and Apathy scale.

Results showed that UPDRS part II significantly improved at 3 and 6 months (both P < 0.001), as did UPDRS part III (P = 0.002 at 3 months; P < 0.001 at 6 months).

Dr. Fujioka speculated, “twisting axial muscles when hitting a ping-pong ball may be the most efficacious for patients, especially for bradykinesia and balance problems.”
 

Significant improvement

Such findings may not be that surprising. Dr. Fujioka pointed to other rehabilitation therapies such as tai chi or tango that may also improve Parkinson’s disease motor symptoms.

For UPDRS part II, subscores of speech, saliva and drooling, dressing, handwriting, doing hobbies and other activities, getting out of bed, a car, or a deep chair, and walking and balance, significantly improved.

In addition, for UPDRS part III, subscores of facial expression, rigidity, postural stability, posture, bradykinesia, and kinetic tremor of the hands also significantly improved.

As for nonmotor symptoms such as mood, anxiety, depression, and apathy assessed in UPDRS part I, scores did not significantly change, which was also the case for part IV.

However, Dr. Fujioka pointed out that patient scores didn’t worsen. “Given the nature of disease, not worsening of nonmotor features can potentially be a good effect of the sport.” MoCA, FAB, SDS, and Apathy scale scores also did not change.

Dr. Fujioka noted that all participants enjoyed the table tennis rehabilitation, and “gradually smiled more during the study period.” All study participants continued the table tennis rehabilitation after the 6-month program.

Dr. Fujioka noted that although patients with Parkinson’s disease often have difficulty moving in a front-to-back direction, they can move relatively easily in a lateral direction.

“In that sense, table tennis is suitable for them,” he said. However, he added, court tennis, handball, and badminton may not be suitable for most patients with Parkinson’s disease.

One patient suffered a fall and another backache. Dr. Fujioka cautioned that more frequent ping-pong playing might increase the risk of adverse events.

He also suggests patients with Parkinson’s disease have their bone density checked before starting regular rehabilitation exercise as they are at increased risk for osteoporosis.

The investigators are currently organizing a prospective, multicenter randomized study to compare the effectiveness of table tennis with conventional rehabilitation and the Lee Silverman Voice Treatment, which is designed to increase vocal intensity in patients with Parkinson’s disease.
 

Fun, engaging

Commenting on the findings, Cynthia Comella, MD, professor emeritus, Neurological Sciences, Rush University Medical Center, New Philadelphia, Ohio, said ping-pong is a “fun and engaging” exercise for patients with Parkinson’s disease. Dr. Comella noted prior studies have shown many types of exercise are beneficial for patients with Parkinson’s disease “provided that they continue” with it.

In that regard, these new results are “promising,” she said. “It may be that this type of community generating, fun exercise would lead to a continuation of the exercise after a study is completed.”

A controlled trial that includes a post-study follow-up to evaluate compliance and continued benefit is needed, she said.

Purchase of equipment, including tables, rackets, and balls, was possible through funds donated by Hisako Kobayashi-Levin, which provides Murakami Karindoh Hospital with an annual fund to improve the quality of their rehabilitation program. The authors reported no relevant financial relationships.

This article first appeared on Medscape.com.

Playing table tennis, also known as ping-pong, appears to improve motor symptoms in patients with Parkinson’s disease, new research suggests. The results of a small pilot study show that table ping-pong is a safe and effective rehabilitative intervention for patients with Parkinson’s disease that can be easily introduced, study investigator Shinsuke Fujioka, MD, Department of Neurology, Fukuoka University, Japan, told Medscape Medical News.

He emphasized that any rehabilitation for patients with Parkinson’s disease could be beneficial, especially during the early stages of their illness. “The most important thing is that patients have fun when doing rehabilitation.”

The findings were released February 25 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage.
 

All exercise beneficial

The idea of studying ping-pong as a therapy for patients with Parkinson’s disease originated when Dr. Fujioka heard about a patient who used a cane but no longer needed it after taking up the exercise as a weekly rehabilitation therapy.

“It’s apparent that the exercise can improve motor function of Parkinson’s disease. However, to date, the effects of the sport have not been well investigated for this patient population, so our study aimed to disclose the effects that table tennis can bring to patients with Parkinson’s disease,” said Dr. Fujioka.

The study included 12 patients with Parkinson’s disease – 10 women and two men. Mean age at disease onset was 67 years, and mean disease duration was 7 years. Mean stage on the Hoehn & Yahr scale, which assesses severity of Parkinson’s disease symptoms, was three, so most patients had balance problems.

Study participants played ping-pong at once-weekly 5-hour sessions that included rest breaks whenever they felt it was necessary.

Researchers assessed participants using the Unified Parkinson’s Disease Rating Scale (UPDRS) part I-IV. Parts II and III assess motor function whereas parts I and IV evaluate nonmotor function and motor complications, respectively.

The main motor symptoms of Parkinson’s disease include bradykinesia and muscle rigidity, tremor, and postural instability.

Researchers also assessed participants using the Montreal Cognitive Assessment (MoCA), Frontal Assessment Battery (FAB), Self-Rating Depression Scale (SDS), and Apathy scale.

Results showed that UPDRS part II significantly improved at 3 and 6 months (both P < 0.001), as did UPDRS part III (P = 0.002 at 3 months; P < 0.001 at 6 months).

Dr. Fujioka speculated, “twisting axial muscles when hitting a ping-pong ball may be the most efficacious for patients, especially for bradykinesia and balance problems.”
 

Significant improvement

Such findings may not be that surprising. Dr. Fujioka pointed to other rehabilitation therapies such as tai chi or tango that may also improve Parkinson’s disease motor symptoms.

For UPDRS part II, subscores of speech, saliva and drooling, dressing, handwriting, doing hobbies and other activities, getting out of bed, a car, or a deep chair, and walking and balance, significantly improved.

In addition, for UPDRS part III, subscores of facial expression, rigidity, postural stability, posture, bradykinesia, and kinetic tremor of the hands also significantly improved.

As for nonmotor symptoms such as mood, anxiety, depression, and apathy assessed in UPDRS part I, scores did not significantly change, which was also the case for part IV.

However, Dr. Fujioka pointed out that patient scores didn’t worsen. “Given the nature of disease, not worsening of nonmotor features can potentially be a good effect of the sport.” MoCA, FAB, SDS, and Apathy scale scores also did not change.

Dr. Fujioka noted that all participants enjoyed the table tennis rehabilitation, and “gradually smiled more during the study period.” All study participants continued the table tennis rehabilitation after the 6-month program.

Dr. Fujioka noted that although patients with Parkinson’s disease often have difficulty moving in a front-to-back direction, they can move relatively easily in a lateral direction.

“In that sense, table tennis is suitable for them,” he said. However, he added, court tennis, handball, and badminton may not be suitable for most patients with Parkinson’s disease.

One patient suffered a fall and another backache. Dr. Fujioka cautioned that more frequent ping-pong playing might increase the risk of adverse events.

He also suggests patients with Parkinson’s disease have their bone density checked before starting regular rehabilitation exercise as they are at increased risk for osteoporosis.

The investigators are currently organizing a prospective, multicenter randomized study to compare the effectiveness of table tennis with conventional rehabilitation and the Lee Silverman Voice Treatment, which is designed to increase vocal intensity in patients with Parkinson’s disease.
 

Fun, engaging

Commenting on the findings, Cynthia Comella, MD, professor emeritus, Neurological Sciences, Rush University Medical Center, New Philadelphia, Ohio, said ping-pong is a “fun and engaging” exercise for patients with Parkinson’s disease. Dr. Comella noted prior studies have shown many types of exercise are beneficial for patients with Parkinson’s disease “provided that they continue” with it.

In that regard, these new results are “promising,” she said. “It may be that this type of community generating, fun exercise would lead to a continuation of the exercise after a study is completed.”

A controlled trial that includes a post-study follow-up to evaluate compliance and continued benefit is needed, she said.

Purchase of equipment, including tables, rackets, and balls, was possible through funds donated by Hisako Kobayashi-Levin, which provides Murakami Karindoh Hospital with an annual fund to improve the quality of their rehabilitation program. The authors reported no relevant financial relationships.

This article first appeared on Medscape.com.

Hypersomnolence, or excessive daytime sleepiness, in older adults is a risk factor for developing several serious medical conditions, including hypertension, heart disease, cancer, and diabetes, new research suggests. A study of almost 11,000 participants shows those who reported excessive sleepiness were twice as likely as their nonsleepy counterparts to develop these conditions. Hypersomnolence was also linked to development of musculoskeletal and connective tissue conditions.

“Paying attention to sleepiness in older adults could help doctors predict and prevent future medical conditions,” study investigator Maurice M. Ohayon, MD, PhD, Stanford University, California, said in a news release.

The findings were released March 1 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage.
 

Early warning sign

Prior research has suggested an association between hypersomnolence and several psychiatric disorders, as well as cognitive decline and Alzheimer’s disease. However, its role in the development of other medical conditions is not as well studied.

The current investigation included 10,930 adults who were interviewed by phone on two separate occasions 3 years apart. At the second interview, 3,701 participants were at least 65 years old and 59% were women.

About 23% of the elderly participants reported hypersomnolence in the first interview and 24% reported it in the second interview. Of these individuals, 41% said during the first and second interviews that excessive daytime sleepiness was a chronic problem.

After adjusting for gender and obstructive sleep apnea status, participants who reported hypersomnolence in the first interview had more than a twofold greater risk of developing diabetes (relative risk [RR], 2.3; 95% CI, 1.5 - 3.4) or hypertension (RR, 2.3; 95% CI, 1.5 - 3.4) 3 years later than those who did not report this problem. They were also twice as likely to develop cancer (RR, 2.0; 95% CI, 1.1 - 3.8).

Of the 840 participants who reported hypersomnolence at the first interview, 52 (6.2%) developed diabetes compared with 74 (2.9%) who did not have excessive daytime sleepiness. Twenty (2.4%) individuals who reported hypersomnolence developed cancer compared with 21 (0.8%) who did not have it. Chronic hypersomnolence was associated with a greater than twofold increased risk of developing heart disease (RR, 2.5; 95% CI, 1.8 - 3.4).

Those who reported hypersomnolence at the second interview also were 50% more likely to have diseases of the musculoskeletal system and connective tissue, such as arthritis, tendinitis, and lupus, than their peers who did not have excessive daytime sleepiness.

The findings suggest that hypersomnolence in the elderly “can be an early sign of a developing medical condition,” the investigators wrote.

A limitation of the study is that it relied on participants’ memories rather than monitoring their sleep length and quality and daytime sleepiness in a sleep clinic, they noted.

Sleep as a vital sign?

Commenting on the findings, Harly Greenberg, MD, medical director at the Northwell Health Sleep Disorders Center, New York City, called the study “informative.”

However, because the findings were associations, “the study does not necessarily indicate that hypersomnolence itself is causal for these conditions. Rather excessive sleepiness may be a marker of sleep disorders that can cause sleepiness as well as contribute to the risk of these medical conditions,” said Dr. Greenberg, who was not involved with the research.

“The takeaway point from this study is that excessive sleepiness should not be ignored. Not only does it impair quality of life, daytime function, and vigilance and increase risk of sleepiness-related accidents, it may also be a marker for serious sleep disorders that can increase risk for medical disorders,” he said.

Also commenting on the study, Nathaniel Watson, MD, professor of neurology at the University of Washington (UW) and director of the UW Medicine Sleep Clinic, said it is “not surprising” that excessive daytime sleepiness might contribute to diabetes, hypertension, and other diseases.

“Sleep is something we spend a third of our lives doing. It impacts nearly every aspect of human physiology and we have a lot of basic science and epidemiologic research that shows when sleep is either inadequate or of poor quality or not timed correctly it can be associated with some of these untoward health outcomes,” said Watson, who is a past president of the American Academy of Sleep Medicine.

“This research just provides further evidence in support of the importance of sleep for overall health and well-being,” he added.

Asking patients about sleepiness, sleep, or sleep quality should be a “vital sign just like temperature, blood pressure, weight, and these other measures,” Dr. Watson said.

The study was supported by the Arrillaga Foundation. Drs. Ohayon, Greenberg, and Watson have reported no relevant financial relationships.

This article first appeared on Medscape.com.

Hypersomnolence, or excessive daytime sleepiness, in older adults is a risk factor for developing several serious medical conditions, including hypertension, heart disease, cancer, and diabetes, new research suggests. A study of almost 11,000 participants shows those who reported excessive sleepiness were twice as likely as their nonsleepy counterparts to develop these conditions. Hypersomnolence was also linked to development of musculoskeletal and connective tissue conditions.

“Paying attention to sleepiness in older adults could help doctors predict and prevent future medical conditions,” study investigator Maurice M. Ohayon, MD, PhD, Stanford University, California, said in a news release.

The findings were released March 1 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage.
 

Early warning sign

Prior research has suggested an association between hypersomnolence and several psychiatric disorders, as well as cognitive decline and Alzheimer’s disease. However, its role in the development of other medical conditions is not as well studied.

The current investigation included 10,930 adults who were interviewed by phone on two separate occasions 3 years apart. At the second interview, 3,701 participants were at least 65 years old and 59% were women.

About 23% of the elderly participants reported hypersomnolence in the first interview and 24% reported it in the second interview. Of these individuals, 41% said during the first and second interviews that excessive daytime sleepiness was a chronic problem.

After adjusting for gender and obstructive sleep apnea status, participants who reported hypersomnolence in the first interview had more than a twofold greater risk of developing diabetes (relative risk [RR], 2.3; 95% CI, 1.5 - 3.4) or hypertension (RR, 2.3; 95% CI, 1.5 - 3.4) 3 years later than those who did not report this problem. They were also twice as likely to develop cancer (RR, 2.0; 95% CI, 1.1 - 3.8).

Of the 840 participants who reported hypersomnolence at the first interview, 52 (6.2%) developed diabetes compared with 74 (2.9%) who did not have excessive daytime sleepiness. Twenty (2.4%) individuals who reported hypersomnolence developed cancer compared with 21 (0.8%) who did not have it. Chronic hypersomnolence was associated with a greater than twofold increased risk of developing heart disease (RR, 2.5; 95% CI, 1.8 - 3.4).

Those who reported hypersomnolence at the second interview also were 50% more likely to have diseases of the musculoskeletal system and connective tissue, such as arthritis, tendinitis, and lupus, than their peers who did not have excessive daytime sleepiness.

The findings suggest that hypersomnolence in the elderly “can be an early sign of a developing medical condition,” the investigators wrote.

A limitation of the study is that it relied on participants’ memories rather than monitoring their sleep length and quality and daytime sleepiness in a sleep clinic, they noted.

Sleep as a vital sign?

Commenting on the findings, Harly Greenberg, MD, medical director at the Northwell Health Sleep Disorders Center, New York City, called the study “informative.”

However, because the findings were associations, “the study does not necessarily indicate that hypersomnolence itself is causal for these conditions. Rather excessive sleepiness may be a marker of sleep disorders that can cause sleepiness as well as contribute to the risk of these medical conditions,” said Dr. Greenberg, who was not involved with the research.

“The takeaway point from this study is that excessive sleepiness should not be ignored. Not only does it impair quality of life, daytime function, and vigilance and increase risk of sleepiness-related accidents, it may also be a marker for serious sleep disorders that can increase risk for medical disorders,” he said.

Also commenting on the study, Nathaniel Watson, MD, professor of neurology at the University of Washington (UW) and director of the UW Medicine Sleep Clinic, said it is “not surprising” that excessive daytime sleepiness might contribute to diabetes, hypertension, and other diseases.

“Sleep is something we spend a third of our lives doing. It impacts nearly every aspect of human physiology and we have a lot of basic science and epidemiologic research that shows when sleep is either inadequate or of poor quality or not timed correctly it can be associated with some of these untoward health outcomes,” said Watson, who is a past president of the American Academy of Sleep Medicine.

“This research just provides further evidence in support of the importance of sleep for overall health and well-being,” he added.

Asking patients about sleepiness, sleep, or sleep quality should be a “vital sign just like temperature, blood pressure, weight, and these other measures,” Dr. Watson said.

The study was supported by the Arrillaga Foundation. Drs. Ohayon, Greenberg, and Watson have reported no relevant financial relationships.

This article first appeared on Medscape.com.

Hypersomnolence, or excessive daytime sleepiness, in older adults is a risk factor for developing several serious medical conditions, including hypertension, heart disease, cancer, and diabetes, new research suggests. A study of almost 11,000 participants shows those who reported excessive sleepiness were twice as likely as their nonsleepy counterparts to develop these conditions. Hypersomnolence was also linked to development of musculoskeletal and connective tissue conditions.

“Paying attention to sleepiness in older adults could help doctors predict and prevent future medical conditions,” study investigator Maurice M. Ohayon, MD, PhD, Stanford University, California, said in a news release.

The findings were released March 1 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage.
 

Early warning sign

Prior research has suggested an association between hypersomnolence and several psychiatric disorders, as well as cognitive decline and Alzheimer’s disease. However, its role in the development of other medical conditions is not as well studied.

The current investigation included 10,930 adults who were interviewed by phone on two separate occasions 3 years apart. At the second interview, 3,701 participants were at least 65 years old and 59% were women.

About 23% of the elderly participants reported hypersomnolence in the first interview and 24% reported it in the second interview. Of these individuals, 41% said during the first and second interviews that excessive daytime sleepiness was a chronic problem.

After adjusting for gender and obstructive sleep apnea status, participants who reported hypersomnolence in the first interview had more than a twofold greater risk of developing diabetes (relative risk [RR], 2.3; 95% CI, 1.5 - 3.4) or hypertension (RR, 2.3; 95% CI, 1.5 - 3.4) 3 years later than those who did not report this problem. They were also twice as likely to develop cancer (RR, 2.0; 95% CI, 1.1 - 3.8).

Of the 840 participants who reported hypersomnolence at the first interview, 52 (6.2%) developed diabetes compared with 74 (2.9%) who did not have excessive daytime sleepiness. Twenty (2.4%) individuals who reported hypersomnolence developed cancer compared with 21 (0.8%) who did not have it. Chronic hypersomnolence was associated with a greater than twofold increased risk of developing heart disease (RR, 2.5; 95% CI, 1.8 - 3.4).

Those who reported hypersomnolence at the second interview also were 50% more likely to have diseases of the musculoskeletal system and connective tissue, such as arthritis, tendinitis, and lupus, than their peers who did not have excessive daytime sleepiness.

The findings suggest that hypersomnolence in the elderly “can be an early sign of a developing medical condition,” the investigators wrote.

A limitation of the study is that it relied on participants’ memories rather than monitoring their sleep length and quality and daytime sleepiness in a sleep clinic, they noted.

Sleep as a vital sign?

Commenting on the findings, Harly Greenberg, MD, medical director at the Northwell Health Sleep Disorders Center, New York City, called the study “informative.”

However, because the findings were associations, “the study does not necessarily indicate that hypersomnolence itself is causal for these conditions. Rather excessive sleepiness may be a marker of sleep disorders that can cause sleepiness as well as contribute to the risk of these medical conditions,” said Dr. Greenberg, who was not involved with the research.

“The takeaway point from this study is that excessive sleepiness should not be ignored. Not only does it impair quality of life, daytime function, and vigilance and increase risk of sleepiness-related accidents, it may also be a marker for serious sleep disorders that can increase risk for medical disorders,” he said.

Also commenting on the study, Nathaniel Watson, MD, professor of neurology at the University of Washington (UW) and director of the UW Medicine Sleep Clinic, said it is “not surprising” that excessive daytime sleepiness might contribute to diabetes, hypertension, and other diseases.

“Sleep is something we spend a third of our lives doing. It impacts nearly every aspect of human physiology and we have a lot of basic science and epidemiologic research that shows when sleep is either inadequate or of poor quality or not timed correctly it can be associated with some of these untoward health outcomes,” said Watson, who is a past president of the American Academy of Sleep Medicine.

“This research just provides further evidence in support of the importance of sleep for overall health and well-being,” he added.

Asking patients about sleepiness, sleep, or sleep quality should be a “vital sign just like temperature, blood pressure, weight, and these other measures,” Dr. Watson said.

The study was supported by the Arrillaga Foundation. Drs. Ohayon, Greenberg, and Watson have reported no relevant financial relationships.

This article first appeared on Medscape.com.

A healthier heart in young adulthood could mean fewer cognitive problems later in life, new research suggests. New findings from the Coronary Artery Risk Development in Young Adults (CARDIA) study show that individuals who had better cardiovascular health in their 20s scored higher on tests of thinking and memory 30 years later than their peers who had poorer cardiovascular health as young adults.

“We have learned that midlife vascular risk factors, rather than risk factors in older age, are particularly associated with cognition in older age,” study author Farzaneh Sorond, MD, PhD, Northwestern University Feinberg School of Medicine, Chicago, Illinois, told Medscape Medical News

“Our findings from the CARDIA study expand this knowledge and show that vascular health during young adulthood, rather than midlife, is also specifically associated with brain vascular health and cognitive function” in later life, Dr. Sorond said.

“These results indicate that people need to pay close attention to their health even in their early 20s,” she added in a statement.

The findings were released February 26 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage.
 

Early prevention key

The analysis examined data from 189 participants (45% women, 45% black) in the CARDIA study who were followed for 30 years. The mean age at baseline was 24 years.

Vascular risk factors were assessed eight times during the 30-year study period. A cardiovascular health score (range, 0 – 10) was calculated on the basis of smoking status, body mass index, blood pressure, total cholesterol level, and fasting glucose level.

At the final assessment, which was conducted 30 years after baseline, dynamic cerebral autoregulation was calculated as the transfer function phase of the spontaneous oscillations in blood pressure and flow velocity in the middle cerebral artery using transcranial Doppler ultrasound.

Good for the heart, good for the brain

Commenting on the findings, Rebecca Edelmayer, PhD, director of scientific engagement for the Alzheimer’s Association, said that the longitudinal study adds to the growing body of research showing that “what is good for the heart is also good for the brain.”

“This is still a relatively small study, and larger studies have been published that show similar results,” said Dr. Edelmayer, who was not involved with the research.

She noted that results of the large SPRINT-MIND trial, published last year in JAMA and reported by Medscape Medical News, “provided the strongest evidence to date about reducing risk of mild cognitive impairment through the management of high blood pressure.”

The Alzheimer’s Association has provided seed funding for SPRINT-MIND 2.0, a 2-year extension of the study to evaluate whether intensive blood pressure management reduces risk for all-cause dementia.

Support for the current study was provided by the National Institutes of Health, the National Heart, Lung, and Blood Institute, the University of Alabama at Birmingham, Northwestern University, the University of Minnesota, and the Kaiser Foundation Research Institute. Drs. Sorond and Edelmayer have reported no relevant financial relationships.

This article first appeared on Medscape.com.

A healthier heart in young adulthood could mean fewer cognitive problems later in life, new research suggests. New findings from the Coronary Artery Risk Development in Young Adults (CARDIA) study show that individuals who had better cardiovascular health in their 20s scored higher on tests of thinking and memory 30 years later than their peers who had poorer cardiovascular health as young adults.

“We have learned that midlife vascular risk factors, rather than risk factors in older age, are particularly associated with cognition in older age,” study author Farzaneh Sorond, MD, PhD, Northwestern University Feinberg School of Medicine, Chicago, Illinois, told Medscape Medical News

“Our findings from the CARDIA study expand this knowledge and show that vascular health during young adulthood, rather than midlife, is also specifically associated with brain vascular health and cognitive function” in later life, Dr. Sorond said.

“These results indicate that people need to pay close attention to their health even in their early 20s,” she added in a statement.

The findings were released February 26 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage.
 

Early prevention key

The analysis examined data from 189 participants (45% women, 45% black) in the CARDIA study who were followed for 30 years. The mean age at baseline was 24 years.

Vascular risk factors were assessed eight times during the 30-year study period. A cardiovascular health score (range, 0 – 10) was calculated on the basis of smoking status, body mass index, blood pressure, total cholesterol level, and fasting glucose level.

At the final assessment, which was conducted 30 years after baseline, dynamic cerebral autoregulation was calculated as the transfer function phase of the spontaneous oscillations in blood pressure and flow velocity in the middle cerebral artery using transcranial Doppler ultrasound.

Good for the heart, good for the brain

Commenting on the findings, Rebecca Edelmayer, PhD, director of scientific engagement for the Alzheimer’s Association, said that the longitudinal study adds to the growing body of research showing that “what is good for the heart is also good for the brain.”

“This is still a relatively small study, and larger studies have been published that show similar results,” said Dr. Edelmayer, who was not involved with the research.

She noted that results of the large SPRINT-MIND trial, published last year in JAMA and reported by Medscape Medical News, “provided the strongest evidence to date about reducing risk of mild cognitive impairment through the management of high blood pressure.”

The Alzheimer’s Association has provided seed funding for SPRINT-MIND 2.0, a 2-year extension of the study to evaluate whether intensive blood pressure management reduces risk for all-cause dementia.

Support for the current study was provided by the National Institutes of Health, the National Heart, Lung, and Blood Institute, the University of Alabama at Birmingham, Northwestern University, the University of Minnesota, and the Kaiser Foundation Research Institute. Drs. Sorond and Edelmayer have reported no relevant financial relationships.

This article first appeared on Medscape.com.

A healthier heart in young adulthood could mean fewer cognitive problems later in life, new research suggests. New findings from the Coronary Artery Risk Development in Young Adults (CARDIA) study show that individuals who had better cardiovascular health in their 20s scored higher on tests of thinking and memory 30 years later than their peers who had poorer cardiovascular health as young adults.

“We have learned that midlife vascular risk factors, rather than risk factors in older age, are particularly associated with cognition in older age,” study author Farzaneh Sorond, MD, PhD, Northwestern University Feinberg School of Medicine, Chicago, Illinois, told Medscape Medical News

“Our findings from the CARDIA study expand this knowledge and show that vascular health during young adulthood, rather than midlife, is also specifically associated with brain vascular health and cognitive function” in later life, Dr. Sorond said.

“These results indicate that people need to pay close attention to their health even in their early 20s,” she added in a statement.

The findings were released February 26 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage.
 

Early prevention key

The analysis examined data from 189 participants (45% women, 45% black) in the CARDIA study who were followed for 30 years. The mean age at baseline was 24 years.

Vascular risk factors were assessed eight times during the 30-year study period. A cardiovascular health score (range, 0 – 10) was calculated on the basis of smoking status, body mass index, blood pressure, total cholesterol level, and fasting glucose level.

At the final assessment, which was conducted 30 years after baseline, dynamic cerebral autoregulation was calculated as the transfer function phase of the spontaneous oscillations in blood pressure and flow velocity in the middle cerebral artery using transcranial Doppler ultrasound.

Good for the heart, good for the brain

Commenting on the findings, Rebecca Edelmayer, PhD, director of scientific engagement for the Alzheimer’s Association, said that the longitudinal study adds to the growing body of research showing that “what is good for the heart is also good for the brain.”

“This is still a relatively small study, and larger studies have been published that show similar results,” said Dr. Edelmayer, who was not involved with the research.

She noted that results of the large SPRINT-MIND trial, published last year in JAMA and reported by Medscape Medical News, “provided the strongest evidence to date about reducing risk of mild cognitive impairment through the management of high blood pressure.”

The Alzheimer’s Association has provided seed funding for SPRINT-MIND 2.0, a 2-year extension of the study to evaluate whether intensive blood pressure management reduces risk for all-cause dementia.

Support for the current study was provided by the National Institutes of Health, the National Heart, Lung, and Blood Institute, the University of Alabama at Birmingham, Northwestern University, the University of Minnesota, and the Kaiser Foundation Research Institute. Drs. Sorond and Edelmayer have reported no relevant financial relationships.

This article first appeared on Medscape.com.

Novel gene variants associated with the development of tau deposits in the brain, a key biological feature of Alzheimer’s disease, have been identified. Investigator Vijay Ramanan, MD, PhD, behavioral neurology fellow, Mayo Clinic, Rochester, Minnesota, noted that this is the first genome-wide study of tau positron-emission tomography (PET) and that it identifies variations in DNA profiles associated with tau load in the brain.

“These early results represent an important step to better understanding why some individuals have a greater susceptibility to tau accumulation while others are more resistant,” Dr. Ramanan told Medscape Medical News.

“As we learn more about that process, the longer-term hope would be to use that information to better predict who may become symptomatic from the disease and to develop targets for treatment based on those individualized profiles,” he added.

The findings were released March 9 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage.

Genome-wide associations

The researchers assessed genetic profile and regional tau-PET data for 754 participants (mean age, 72.4 years; 54.6% men; 87% cognitively unimpaired) in the Mayo Clinic Study of Aging.

They found that individuals with novel genetic variants on chromosomes 1 and 5 had a higher amount of tau in their brains, compared with their counterparts who had more typical gene sequences in those regions.

The genetic variants were found in 2% to 3% of the group, and those individuals had about 10% higher tau levels than patients who did not have the variants.

Specifically, investigators identified genome-wide significant associations with higher tau for rs76752255 in protein phosphatase 2 regulatory subunit B (PPP2R2B), an enzyme of the PPP2R2B gene on chromosome 5, and for rs115862481 in an intergenic region on chromosome 1. Each minor allele had a stronger association in amyloid-positive than in amyloid-negative individuals.

In addition, three single-nucleotide polymorphisms (SNPs) within microtubule-associated protein tau (MAPT) genes displayed nominal associations to tau burden. These included rs3785883, which previously was found to be associated with higher levels of cerebrospinal fluid tau in an independent cohort.

However, no associations with tau burden were identified for the SNPs defining apolipoprotein E (APOE) e4 or for genotyped SNPs previously associated with Alzheimer’s disease in large case-control studies.

“The fact that these variants are new, coupled with the lack of strong signal for tau in APOE, reinforces the concept that Alzheimer’s disease is complex and that across patients, different sets of genes may be involved in entering into the Alzheimer’s disease pathway versus modifying its course or symptomatic expression,” Dr. Ramanan said.

“Lots of exciting work is ongoing to try to disentangle those issues, and this study is a valuable step on that path,” he added.

Dr. Ramanan said there is a great need for a better understanding of the factors that influence tau deposition, particularly since the burden and location of tau buildup in the brain are closely related to cognitive symptoms of Alzheimer’s disease.

He noted that the approach of “imaging genetics”—using brain scans that capture disease biomarkers and connecting those with data on the genome to improve knowledge about risk and treatment targeting—has been growing. However, only recently has it become possible to apply that framework to tau.

Dr, Ramanan emphasized that replication studies and functional characterization of these novel genetic findings are needed.

“Distant” clinical implications

Commenting on the study, Howard Fillit, MD, founding executive director and chief science officer of the Alzheimer’s Drug Discovery Foundation, said that there is currently “a fair amount of this kind of work going on” in assessing polygenetic risk in Alzheimer’s disease. This includes examining APOE as well as “a whole bunch of other genes” associated with the disease.

“Far and away, the APOE genetic association with Alzheimer’s disease risk is the most powerful one. In and of themselves, none of these other risk genes cause Alzheimer’s disease, they only contribute to risk,” Dr. Fillit noted.

“This study found some new genes that were associated with susceptibility to tau deposition, but at the end of the day, they are just associations. They don’t prove causality,” he added.

“It’s interesting, but really hard to know what to conclude from it; and the clinical implications, I think, are rather distant,” Dr. Fillit concluded.

The study was supported by the National Institutes of Health; the Gerald and Henrietta Rauenhorst Foundation; the Alexander Family Alzheimer’s Disease Research Professorship of Mayo Clinic; the Mayo Foundation for Medical Education and Research; a Liston Award; the Elsie and Marvin Dekelboum Family Foundation; the Schuler Foundation; and Avid Radiopharmaceuticals, which supplied the imaging agent used by researchers to detect tau in the brain. Ramanan and Fillit have reported no relevant financial relationships.

This article first appeared on Medscape.com.

Novel gene variants associated with the development of tau deposits in the brain, a key biological feature of Alzheimer’s disease, have been identified. Investigator Vijay Ramanan, MD, PhD, behavioral neurology fellow, Mayo Clinic, Rochester, Minnesota, noted that this is the first genome-wide study of tau positron-emission tomography (PET) and that it identifies variations in DNA profiles associated with tau load in the brain.

“These early results represent an important step to better understanding why some individuals have a greater susceptibility to tau accumulation while others are more resistant,” Dr. Ramanan told Medscape Medical News.

“As we learn more about that process, the longer-term hope would be to use that information to better predict who may become symptomatic from the disease and to develop targets for treatment based on those individualized profiles,” he added.

The findings were released March 9 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage.

Genome-wide associations

The researchers assessed genetic profile and regional tau-PET data for 754 participants (mean age, 72.4 years; 54.6% men; 87% cognitively unimpaired) in the Mayo Clinic Study of Aging.

They found that individuals with novel genetic variants on chromosomes 1 and 5 had a higher amount of tau in their brains, compared with their counterparts who had more typical gene sequences in those regions.

The genetic variants were found in 2% to 3% of the group, and those individuals had about 10% higher tau levels than patients who did not have the variants.

Specifically, investigators identified genome-wide significant associations with higher tau for rs76752255 in protein phosphatase 2 regulatory subunit B (PPP2R2B), an enzyme of the PPP2R2B gene on chromosome 5, and for rs115862481 in an intergenic region on chromosome 1. Each minor allele had a stronger association in amyloid-positive than in amyloid-negative individuals.

In addition, three single-nucleotide polymorphisms (SNPs) within microtubule-associated protein tau (MAPT) genes displayed nominal associations to tau burden. These included rs3785883, which previously was found to be associated with higher levels of cerebrospinal fluid tau in an independent cohort.

However, no associations with tau burden were identified for the SNPs defining apolipoprotein E (APOE) e4 or for genotyped SNPs previously associated with Alzheimer’s disease in large case-control studies.

“The fact that these variants are new, coupled with the lack of strong signal for tau in APOE, reinforces the concept that Alzheimer’s disease is complex and that across patients, different sets of genes may be involved in entering into the Alzheimer’s disease pathway versus modifying its course or symptomatic expression,” Dr. Ramanan said.

“Lots of exciting work is ongoing to try to disentangle those issues, and this study is a valuable step on that path,” he added.

Dr. Ramanan said there is a great need for a better understanding of the factors that influence tau deposition, particularly since the burden and location of tau buildup in the brain are closely related to cognitive symptoms of Alzheimer’s disease.

He noted that the approach of “imaging genetics”—using brain scans that capture disease biomarkers and connecting those with data on the genome to improve knowledge about risk and treatment targeting—has been growing. However, only recently has it become possible to apply that framework to tau.

Dr, Ramanan emphasized that replication studies and functional characterization of these novel genetic findings are needed.

“Distant” clinical implications

Commenting on the study, Howard Fillit, MD, founding executive director and chief science officer of the Alzheimer’s Drug Discovery Foundation, said that there is currently “a fair amount of this kind of work going on” in assessing polygenetic risk in Alzheimer’s disease. This includes examining APOE as well as “a whole bunch of other genes” associated with the disease.

“Far and away, the APOE genetic association with Alzheimer’s disease risk is the most powerful one. In and of themselves, none of these other risk genes cause Alzheimer’s disease, they only contribute to risk,” Dr. Fillit noted.

“This study found some new genes that were associated with susceptibility to tau deposition, but at the end of the day, they are just associations. They don’t prove causality,” he added.

“It’s interesting, but really hard to know what to conclude from it; and the clinical implications, I think, are rather distant,” Dr. Fillit concluded.

The study was supported by the National Institutes of Health; the Gerald and Henrietta Rauenhorst Foundation; the Alexander Family Alzheimer’s Disease Research Professorship of Mayo Clinic; the Mayo Foundation for Medical Education and Research; a Liston Award; the Elsie and Marvin Dekelboum Family Foundation; the Schuler Foundation; and Avid Radiopharmaceuticals, which supplied the imaging agent used by researchers to detect tau in the brain. Ramanan and Fillit have reported no relevant financial relationships.

This article first appeared on Medscape.com.

Novel gene variants associated with the development of tau deposits in the brain, a key biological feature of Alzheimer’s disease, have been identified. Investigator Vijay Ramanan, MD, PhD, behavioral neurology fellow, Mayo Clinic, Rochester, Minnesota, noted that this is the first genome-wide study of tau positron-emission tomography (PET) and that it identifies variations in DNA profiles associated with tau load in the brain.

“These early results represent an important step to better understanding why some individuals have a greater susceptibility to tau accumulation while others are more resistant,” Dr. Ramanan told Medscape Medical News.

“As we learn more about that process, the longer-term hope would be to use that information to better predict who may become symptomatic from the disease and to develop targets for treatment based on those individualized profiles,” he added.

The findings were released March 9 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage.

Genome-wide associations

The researchers assessed genetic profile and regional tau-PET data for 754 participants (mean age, 72.4 years; 54.6% men; 87% cognitively unimpaired) in the Mayo Clinic Study of Aging.

They found that individuals with novel genetic variants on chromosomes 1 and 5 had a higher amount of tau in their brains, compared with their counterparts who had more typical gene sequences in those regions.

The genetic variants were found in 2% to 3% of the group, and those individuals had about 10% higher tau levels than patients who did not have the variants.

Specifically, investigators identified genome-wide significant associations with higher tau for rs76752255 in protein phosphatase 2 regulatory subunit B (PPP2R2B), an enzyme of the PPP2R2B gene on chromosome 5, and for rs115862481 in an intergenic region on chromosome 1. Each minor allele had a stronger association in amyloid-positive than in amyloid-negative individuals.

In addition, three single-nucleotide polymorphisms (SNPs) within microtubule-associated protein tau (MAPT) genes displayed nominal associations to tau burden. These included rs3785883, which previously was found to be associated with higher levels of cerebrospinal fluid tau in an independent cohort.

However, no associations with tau burden were identified for the SNPs defining apolipoprotein E (APOE) e4 or for genotyped SNPs previously associated with Alzheimer’s disease in large case-control studies.

“The fact that these variants are new, coupled with the lack of strong signal for tau in APOE, reinforces the concept that Alzheimer’s disease is complex and that across patients, different sets of genes may be involved in entering into the Alzheimer’s disease pathway versus modifying its course or symptomatic expression,” Dr. Ramanan said.

“Lots of exciting work is ongoing to try to disentangle those issues, and this study is a valuable step on that path,” he added.

Dr. Ramanan said there is a great need for a better understanding of the factors that influence tau deposition, particularly since the burden and location of tau buildup in the brain are closely related to cognitive symptoms of Alzheimer’s disease.

He noted that the approach of “imaging genetics”—using brain scans that capture disease biomarkers and connecting those with data on the genome to improve knowledge about risk and treatment targeting—has been growing. However, only recently has it become possible to apply that framework to tau.

Dr, Ramanan emphasized that replication studies and functional characterization of these novel genetic findings are needed.

“Distant” clinical implications

Commenting on the study, Howard Fillit, MD, founding executive director and chief science officer of the Alzheimer’s Drug Discovery Foundation, said that there is currently “a fair amount of this kind of work going on” in assessing polygenetic risk in Alzheimer’s disease. This includes examining APOE as well as “a whole bunch of other genes” associated with the disease.

“Far and away, the APOE genetic association with Alzheimer’s disease risk is the most powerful one. In and of themselves, none of these other risk genes cause Alzheimer’s disease, they only contribute to risk,” Dr. Fillit noted.

“This study found some new genes that were associated with susceptibility to tau deposition, but at the end of the day, they are just associations. They don’t prove causality,” he added.

“It’s interesting, but really hard to know what to conclude from it; and the clinical implications, I think, are rather distant,” Dr. Fillit concluded.

The study was supported by the National Institutes of Health; the Gerald and Henrietta Rauenhorst Foundation; the Alexander Family Alzheimer’s Disease Research Professorship of Mayo Clinic; the Mayo Foundation for Medical Education and Research; a Liston Award; the Elsie and Marvin Dekelboum Family Foundation; the Schuler Foundation; and Avid Radiopharmaceuticals, which supplied the imaging agent used by researchers to detect tau in the brain. Ramanan and Fillit have reported no relevant financial relationships.

This article first appeared on Medscape.com.

Patients with a mild traumatic brain injury (mTBI) who are exposed to blue light experience less depression and fewer cognitive and other concussion-related symptoms than those exposed to a placebo light, a new study has found. Exposure to blue light in the morning through a special device may be a “critical factor” in resetting the circadian rhythm and helping people who have suffered a concussion, author William D. “Scott” Killgore, MD, professor of psychiatry, psychology, and medical imaging, the University of Arizona College of Medicine, Tucson, told Medscape Medical News.

“This is very new, so I wouldn’t say it’s the treatment of choice, but we should start looking at using this system as a nonpharmacologic way to perhaps help patients recover faster from a concussion,” he said.

The findings were released March 2 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage.

About half of patients with a concussion experience sleep problems, including problems falling asleep, staying asleep, and waking up in the middle of the night, said Dr. Killgore.

Poor sleep interrupts the brain’s repair mechanism. “Sleep is important for cleaning out the neurotoxins that build up in your brain during the day. Sleep also helps build oligodendrocyte precursor cells that provide insulation around nerve cells,” he said.
 

Master clock

Blue light stimulates receptors in the back of the retina that respond only to this wavelength of light, said Dr. Killgore. “It specifically projects to an area in the hypothalamus – essentially the brain’s master clock – that regulates your sleep-wake schedules. So exposure to that bright light essentially resets your circadian rhythm.”

That master clock involves regulating the brain’s production of melatonin. Morning exposure to blue light shifts that production to facilitate sleep at the appropriate time.

The ideal time to be exposed to blue light is from about 8:00 to 11:00 AM. “Timing is critical,” said Dr. Killgore. “If you get light at the wrong time, it will reset your circadian rhythm in the wrong direction.”

Previous research has shown that exposure to blue light leads to improved sleep, which is widely believed to lead to improved mood.

A separate study conducted by Dr. Killgore and colleagues that involved another group of mTBI patients was recently published in Neurobiology of Disease. That study showed that the participants who received blue light experienced a shift in circadian timing of about an hour. “They were going to sleep an hour earlier and waking up an hour earlier,” said Dr. Killgore.

The blue light also appeared to change brain structure and brain function, among other things, he said.

The current study included 35 patients who had suffered an mTBI within the previous 18 months. Most injuries were sports related and occurred while playing football or soccer or riding a bike.

Participants were randomly assigned to use a device fitted with a blue LED light (peak wavelength, 469 nm) or one fitted with an amber-colored LED light. They were instructed to use the device every morning for 30 minutes within 2 hours of waking.

The blue-light group comprised five men and 12 women (mean age, 25.5 years). The amber-light group comprised eight men and 10 women (mean age, 26.3 years).

Researchers told participants only that the study was exploring various aspects of light. “Subjects didn’t know if they were getting a control or active device,” said Dr. Killgore.

Researchers used the Beck Depression Inventory (BDI) to evaluate depression symptoms and the Rivermead Post-Concussion Symptom Questionnaire (RPCSQ). This 16-item questionnaire assesses symptoms in the acute stage as well as those that are more chronic.

After 6 weeks, the blue-light group had lower scores on the BDI compared to the amber-light group (P = .005).

“We found that in the amber-light group, there was essentially no change in terms of depression,” said Dr. Killgore. “But those who got the blue light showed a significant reduction in depressive symptoms, about a 22% decline overall relative to baseline, so a nice drop in overall depression.”

Changes in BDI scores were significantly positively associated with changes in the total chronic symptom score (P = .002) in the blue-light group but not the amber-light group. “Those who got blue light showed a significant reduction in the number of symptoms associated with concussion whereas those who got the amber light stayed the same,” said Dr. Killgore.

There were similar findings for somatic symptoms, such as headache and pain (P = .031), and for cognitive symptoms (P = .014) in the blue-light group.

“These subjects were having fewer problems remembering and paying attention, so their concentration seemed to be improving, at least subjectively,” commented Dr. Killgore.

There was no significant benefit from the blue light for emotional symptoms. “There was a decline, but it wasn’t statistically significant, even though there was a decline in depression,” said Dr. Killgore.

This, he explained, could be due to the small sample size and the greater sensitivity of the BDI for emotional symptoms relative to the RPCSQ. “The BDI has 21 items that are all focused on aspects of depression, whereas the RPCSQ only asks one item for depression and one item for irritability/anger.”

Less daytime sleepiness

The researchers also found a significant improvement in daytime sleepiness. “Subjects were much less sleepy by the end of the study if they got blue light than if they got amber light,” said Dr. Killgore.

Participants wore an actigraphy device that took sleep measurements. Early results indicate that blue-light recipients were getting more sleep by the end of the study.

Researchers are now analyzing additional data to see whether the improvements in depression and post-concussion symptoms are linked to improved sleep. They also gathered data from brain imaging that will be analyzed at a later date.

Dr. Killgore and his colleagues aim to determine what distinguishes people who respond to blue-light therapy from those who don’t. “We want to know what it is that would allow some people to be more responsive than others, so we’re going to be exploring skin color, eye color, genetic factors, and other factors,” he said.

They’re also conducting a study of blue-light therapy in patients with posttraumatic stress disorder, 90% of whom have sleep problems.

“This is quite fascinating,” said Dr. Killgore. “It looks like if you get blue light after your treatment, the treatment sticks better than if you didn’t get the blue light. We think that sleep is probably playing an important role in that.”

Several light devices are available, ranging in price from about $100 to $200.

Commenting on the research, concussion expert Frank Conidi, MD, director of the Florida Center for Headache and Sports Neurology, Port St. Lucie, said the study is interesting from a number of perspectives.

For one thing, it shows that blue-light therapy “provides an inexpensive and minimally invasive way to treat concussion,” he said.

Dr. Conidi said he would recommend blue-light therapy for concussion patients. “I could see neurology practices offering the device to patients as an in-office treatment or to take home for a small fee. I think athletes would be quite receptive to this, as they’re always looking for nonpharmacological ways to treat concussion.”

Dr. Conidi noted that the new results are consistent with other studies that show that decreased depression and improved sleep help with somatic symptoms.

From a research perspective, the study provides a “stepping stone” for larger trials, said Dr. Conidi. He would like to see more studies of acute concussion, such as studies as to whether the therapy shortens the duration of symptoms.

“I would also like to see controlled studies on headache and vestibular symptoms, which are the two most common,” he said.

The study was funded by the US Department of Defense. Killgore and Conidi have disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

Patients with a mild traumatic brain injury (mTBI) who are exposed to blue light experience less depression and fewer cognitive and other concussion-related symptoms than those exposed to a placebo light, a new study has found. Exposure to blue light in the morning through a special device may be a “critical factor” in resetting the circadian rhythm and helping people who have suffered a concussion, author William D. “Scott” Killgore, MD, professor of psychiatry, psychology, and medical imaging, the University of Arizona College of Medicine, Tucson, told Medscape Medical News.

“This is very new, so I wouldn’t say it’s the treatment of choice, but we should start looking at using this system as a nonpharmacologic way to perhaps help patients recover faster from a concussion,” he said.

The findings were released March 2 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage.

About half of patients with a concussion experience sleep problems, including problems falling asleep, staying asleep, and waking up in the middle of the night, said Dr. Killgore.

Poor sleep interrupts the brain’s repair mechanism. “Sleep is important for cleaning out the neurotoxins that build up in your brain during the day. Sleep also helps build oligodendrocyte precursor cells that provide insulation around nerve cells,” he said.
 

Master clock

Blue light stimulates receptors in the back of the retina that respond only to this wavelength of light, said Dr. Killgore. “It specifically projects to an area in the hypothalamus – essentially the brain’s master clock – that regulates your sleep-wake schedules. So exposure to that bright light essentially resets your circadian rhythm.”

That master clock involves regulating the brain’s production of melatonin. Morning exposure to blue light shifts that production to facilitate sleep at the appropriate time.

The ideal time to be exposed to blue light is from about 8:00 to 11:00 AM. “Timing is critical,” said Dr. Killgore. “If you get light at the wrong time, it will reset your circadian rhythm in the wrong direction.”

Previous research has shown that exposure to blue light leads to improved sleep, which is widely believed to lead to improved mood.

A separate study conducted by Dr. Killgore and colleagues that involved another group of mTBI patients was recently published in Neurobiology of Disease. That study showed that the participants who received blue light experienced a shift in circadian timing of about an hour. “They were going to sleep an hour earlier and waking up an hour earlier,” said Dr. Killgore.

The blue light also appeared to change brain structure and brain function, among other things, he said.

The current study included 35 patients who had suffered an mTBI within the previous 18 months. Most injuries were sports related and occurred while playing football or soccer or riding a bike.

Participants were randomly assigned to use a device fitted with a blue LED light (peak wavelength, 469 nm) or one fitted with an amber-colored LED light. They were instructed to use the device every morning for 30 minutes within 2 hours of waking.

The blue-light group comprised five men and 12 women (mean age, 25.5 years). The amber-light group comprised eight men and 10 women (mean age, 26.3 years).

Researchers told participants only that the study was exploring various aspects of light. “Subjects didn’t know if they were getting a control or active device,” said Dr. Killgore.

Researchers used the Beck Depression Inventory (BDI) to evaluate depression symptoms and the Rivermead Post-Concussion Symptom Questionnaire (RPCSQ). This 16-item questionnaire assesses symptoms in the acute stage as well as those that are more chronic.

After 6 weeks, the blue-light group had lower scores on the BDI compared to the amber-light group (P = .005).

“We found that in the amber-light group, there was essentially no change in terms of depression,” said Dr. Killgore. “But those who got the blue light showed a significant reduction in depressive symptoms, about a 22% decline overall relative to baseline, so a nice drop in overall depression.”

Changes in BDI scores were significantly positively associated with changes in the total chronic symptom score (P = .002) in the blue-light group but not the amber-light group. “Those who got blue light showed a significant reduction in the number of symptoms associated with concussion whereas those who got the amber light stayed the same,” said Dr. Killgore.

There were similar findings for somatic symptoms, such as headache and pain (P = .031), and for cognitive symptoms (P = .014) in the blue-light group.

“These subjects were having fewer problems remembering and paying attention, so their concentration seemed to be improving, at least subjectively,” commented Dr. Killgore.

There was no significant benefit from the blue light for emotional symptoms. “There was a decline, but it wasn’t statistically significant, even though there was a decline in depression,” said Dr. Killgore.

This, he explained, could be due to the small sample size and the greater sensitivity of the BDI for emotional symptoms relative to the RPCSQ. “The BDI has 21 items that are all focused on aspects of depression, whereas the RPCSQ only asks one item for depression and one item for irritability/anger.”

Less daytime sleepiness

The researchers also found a significant improvement in daytime sleepiness. “Subjects were much less sleepy by the end of the study if they got blue light than if they got amber light,” said Dr. Killgore.

Participants wore an actigraphy device that took sleep measurements. Early results indicate that blue-light recipients were getting more sleep by the end of the study.

Researchers are now analyzing additional data to see whether the improvements in depression and post-concussion symptoms are linked to improved sleep. They also gathered data from brain imaging that will be analyzed at a later date.

Dr. Killgore and his colleagues aim to determine what distinguishes people who respond to blue-light therapy from those who don’t. “We want to know what it is that would allow some people to be more responsive than others, so we’re going to be exploring skin color, eye color, genetic factors, and other factors,” he said.

They’re also conducting a study of blue-light therapy in patients with posttraumatic stress disorder, 90% of whom have sleep problems.

“This is quite fascinating,” said Dr. Killgore. “It looks like if you get blue light after your treatment, the treatment sticks better than if you didn’t get the blue light. We think that sleep is probably playing an important role in that.”

Several light devices are available, ranging in price from about $100 to $200.

Commenting on the research, concussion expert Frank Conidi, MD, director of the Florida Center for Headache and Sports Neurology, Port St. Lucie, said the study is interesting from a number of perspectives.

For one thing, it shows that blue-light therapy “provides an inexpensive and minimally invasive way to treat concussion,” he said.

Dr. Conidi said he would recommend blue-light therapy for concussion patients. “I could see neurology practices offering the device to patients as an in-office treatment or to take home for a small fee. I think athletes would be quite receptive to this, as they’re always looking for nonpharmacological ways to treat concussion.”

Dr. Conidi noted that the new results are consistent with other studies that show that decreased depression and improved sleep help with somatic symptoms.

From a research perspective, the study provides a “stepping stone” for larger trials, said Dr. Conidi. He would like to see more studies of acute concussion, such as studies as to whether the therapy shortens the duration of symptoms.

“I would also like to see controlled studies on headache and vestibular symptoms, which are the two most common,” he said.

The study was funded by the US Department of Defense. Killgore and Conidi have disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

Patients with a mild traumatic brain injury (mTBI) who are exposed to blue light experience less depression and fewer cognitive and other concussion-related symptoms than those exposed to a placebo light, a new study has found. Exposure to blue light in the morning through a special device may be a “critical factor” in resetting the circadian rhythm and helping people who have suffered a concussion, author William D. “Scott” Killgore, MD, professor of psychiatry, psychology, and medical imaging, the University of Arizona College of Medicine, Tucson, told Medscape Medical News.

“This is very new, so I wouldn’t say it’s the treatment of choice, but we should start looking at using this system as a nonpharmacologic way to perhaps help patients recover faster from a concussion,” he said.

The findings were released March 2 ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology. The AAN canceled the meeting and released abstracts and access to presenters for press coverage.

About half of patients with a concussion experience sleep problems, including problems falling asleep, staying asleep, and waking up in the middle of the night, said Dr. Killgore.

Poor sleep interrupts the brain’s repair mechanism. “Sleep is important for cleaning out the neurotoxins that build up in your brain during the day. Sleep also helps build oligodendrocyte precursor cells that provide insulation around nerve cells,” he said.
 

Master clock

Blue light stimulates receptors in the back of the retina that respond only to this wavelength of light, said Dr. Killgore. “It specifically projects to an area in the hypothalamus – essentially the brain’s master clock – that regulates your sleep-wake schedules. So exposure to that bright light essentially resets your circadian rhythm.”

That master clock involves regulating the brain’s production of melatonin. Morning exposure to blue light shifts that production to facilitate sleep at the appropriate time.

The ideal time to be exposed to blue light is from about 8:00 to 11:00 AM. “Timing is critical,” said Dr. Killgore. “If you get light at the wrong time, it will reset your circadian rhythm in the wrong direction.”

Previous research has shown that exposure to blue light leads to improved sleep, which is widely believed to lead to improved mood.

A separate study conducted by Dr. Killgore and colleagues that involved another group of mTBI patients was recently published in Neurobiology of Disease. That study showed that the participants who received blue light experienced a shift in circadian timing of about an hour. “They were going to sleep an hour earlier and waking up an hour earlier,” said Dr. Killgore.

The blue light also appeared to change brain structure and brain function, among other things, he said.

The current study included 35 patients who had suffered an mTBI within the previous 18 months. Most injuries were sports related and occurred while playing football or soccer or riding a bike.

Participants were randomly assigned to use a device fitted with a blue LED light (peak wavelength, 469 nm) or one fitted with an amber-colored LED light. They were instructed to use the device every morning for 30 minutes within 2 hours of waking.

The blue-light group comprised five men and 12 women (mean age, 25.5 years). The amber-light group comprised eight men and 10 women (mean age, 26.3 years).

Researchers told participants only that the study was exploring various aspects of light. “Subjects didn’t know if they were getting a control or active device,” said Dr. Killgore.

Researchers used the Beck Depression Inventory (BDI) to evaluate depression symptoms and the Rivermead Post-Concussion Symptom Questionnaire (RPCSQ). This 16-item questionnaire assesses symptoms in the acute stage as well as those that are more chronic.

After 6 weeks, the blue-light group had lower scores on the BDI compared to the amber-light group (P = .005).

“We found that in the amber-light group, there was essentially no change in terms of depression,” said Dr. Killgore. “But those who got the blue light showed a significant reduction in depressive symptoms, about a 22% decline overall relative to baseline, so a nice drop in overall depression.”

Changes in BDI scores were significantly positively associated with changes in the total chronic symptom score (P = .002) in the blue-light group but not the amber-light group. “Those who got blue light showed a significant reduction in the number of symptoms associated with concussion whereas those who got the amber light stayed the same,” said Dr. Killgore.

There were similar findings for somatic symptoms, such as headache and pain (P = .031), and for cognitive symptoms (P = .014) in the blue-light group.

“These subjects were having fewer problems remembering and paying attention, so their concentration seemed to be improving, at least subjectively,” commented Dr. Killgore.

There was no significant benefit from the blue light for emotional symptoms. “There was a decline, but it wasn’t statistically significant, even though there was a decline in depression,” said Dr. Killgore.

This, he explained, could be due to the small sample size and the greater sensitivity of the BDI for emotional symptoms relative to the RPCSQ. “The BDI has 21 items that are all focused on aspects of depression, whereas the RPCSQ only asks one item for depression and one item for irritability/anger.”

Less daytime sleepiness

The researchers also found a significant improvement in daytime sleepiness. “Subjects were much less sleepy by the end of the study if they got blue light than if they got amber light,” said Dr. Killgore.

Participants wore an actigraphy device that took sleep measurements. Early results indicate that blue-light recipients were getting more sleep by the end of the study.

Researchers are now analyzing additional data to see whether the improvements in depression and post-concussion symptoms are linked to improved sleep. They also gathered data from brain imaging that will be analyzed at a later date.

Dr. Killgore and his colleagues aim to determine what distinguishes people who respond to blue-light therapy from those who don’t. “We want to know what it is that would allow some people to be more responsive than others, so we’re going to be exploring skin color, eye color, genetic factors, and other factors,” he said.

They’re also conducting a study of blue-light therapy in patients with posttraumatic stress disorder, 90% of whom have sleep problems.

“This is quite fascinating,” said Dr. Killgore. “It looks like if you get blue light after your treatment, the treatment sticks better than if you didn’t get the blue light. We think that sleep is probably playing an important role in that.”

Several light devices are available, ranging in price from about $100 to $200.

Commenting on the research, concussion expert Frank Conidi, MD, director of the Florida Center for Headache and Sports Neurology, Port St. Lucie, said the study is interesting from a number of perspectives.

For one thing, it shows that blue-light therapy “provides an inexpensive and minimally invasive way to treat concussion,” he said.

Dr. Conidi said he would recommend blue-light therapy for concussion patients. “I could see neurology practices offering the device to patients as an in-office treatment or to take home for a small fee. I think athletes would be quite receptive to this, as they’re always looking for nonpharmacological ways to treat concussion.”

Dr. Conidi noted that the new results are consistent with other studies that show that decreased depression and improved sleep help with somatic symptoms.

From a research perspective, the study provides a “stepping stone” for larger trials, said Dr. Conidi. He would like to see more studies of acute concussion, such as studies as to whether the therapy shortens the duration of symptoms.

“I would also like to see controlled studies on headache and vestibular symptoms, which are the two most common,” he said.

The study was funded by the US Department of Defense. Killgore and Conidi have disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

The American Academy of Neurology’s annual meeting, scheduled for April 25-May 1, 2020, in Toronto has become the latest medical conference casualty of the COVID-19 pandemic.

“Protecting the health, safety, and well-being of our members, attendees, and ultimately our neurology patients is paramount, and serves as the reason for our decision to cancel the AAN annual meeting for the first time in our 72-year history,” AAN President James Stevens, MD, said in a statement. “Put simply, canceling the AAN annual meeting is the right thing to do during this historic time.”

Dr. Stevens added that it is “important to keep our members in their communities – where you stand by to help patients during this time of uncertainty. We also have a professional responsibility to model social distancing and not contribute to the spread of the virus through a large public gathering.”

AAN said it is currently processing full registration fee refunds for those who had registered to attend. Information for exhibitors and sponsors will be forthcoming.

As for missed CME opportunities related to attending the annual meeting, AAN will provide different educational opportunities throughout the remainder of 2020.

Further questions should be directed via email to memberservices@aan.com. Additional information related to the cancellation will be posted to the AAN website and via social media.

gtwachtman@mdedge.com

The American Academy of Neurology’s annual meeting, scheduled for April 25-May 1, 2020, in Toronto has become the latest medical conference casualty of the COVID-19 pandemic.

“Protecting the health, safety, and well-being of our members, attendees, and ultimately our neurology patients is paramount, and serves as the reason for our decision to cancel the AAN annual meeting for the first time in our 72-year history,” AAN President James Stevens, MD, said in a statement. “Put simply, canceling the AAN annual meeting is the right thing to do during this historic time.”

Dr. Stevens added that it is “important to keep our members in their communities – where you stand by to help patients during this time of uncertainty. We also have a professional responsibility to model social distancing and not contribute to the spread of the virus through a large public gathering.”

AAN said it is currently processing full registration fee refunds for those who had registered to attend. Information for exhibitors and sponsors will be forthcoming.

As for missed CME opportunities related to attending the annual meeting, AAN will provide different educational opportunities throughout the remainder of 2020.

Further questions should be directed via email to memberservices@aan.com. Additional information related to the cancellation will be posted to the AAN website and via social media.

gtwachtman@mdedge.com

The American Academy of Neurology’s annual meeting, scheduled for April 25-May 1, 2020, in Toronto has become the latest medical conference casualty of the COVID-19 pandemic.

“Protecting the health, safety, and well-being of our members, attendees, and ultimately our neurology patients is paramount, and serves as the reason for our decision to cancel the AAN annual meeting for the first time in our 72-year history,” AAN President James Stevens, MD, said in a statement. “Put simply, canceling the AAN annual meeting is the right thing to do during this historic time.”

Dr. Stevens added that it is “important to keep our members in their communities – where you stand by to help patients during this time of uncertainty. We also have a professional responsibility to model social distancing and not contribute to the spread of the virus through a large public gathering.”

AAN said it is currently processing full registration fee refunds for those who had registered to attend. Information for exhibitors and sponsors will be forthcoming.

As for missed CME opportunities related to attending the annual meeting, AAN will provide different educational opportunities throughout the remainder of 2020.

Further questions should be directed via email to memberservices@aan.com. Additional information related to the cancellation will be posted to the AAN website and via social media.

gtwachtman@mdedge.com