American Academy of Neurology (AAN): Annual Meeting

BOSTON – Generalized tonic-clonic seizures (GTCS) are a major risk factor for sudden unexpected death in epilepsy (SUDEP), which underscores the importance of advising people with epilepsy about controlling such seizures, according to a new practice guideline from the American Academy of Neurology and the American Epilepsy Society.

Though SUDEP is rare, with an incidence rate of 0.22/1,000 patient-years in children with epilepsy and 1.2/1,000 patient-years in adults with epilepsy, the guideline committee found that people with three or more GTCS per year are 15 times more likely to die suddenly than are those without this seizure type. The risk increases with increasing GTCS frequency. This translates to an absolute risk of up to 18 deaths per 1,000 patient-years for people with epilepsy who have frequent GTCS.

Sharon Worcester/Frontline Medical News

Sharon Worcester/Frontline Medical News

sworcester@frontlinemedcom.com

BOSTON – Generalized tonic-clonic seizures (GTCS) are a major risk factor for sudden unexpected death in epilepsy (SUDEP), which underscores the importance of advising people with epilepsy about controlling such seizures, according to a new practice guideline from the American Academy of Neurology and the American Epilepsy Society.

Though SUDEP is rare, with an incidence rate of 0.22/1,000 patient-years in children with epilepsy and 1.2/1,000 patient-years in adults with epilepsy, the guideline committee found that people with three or more GTCS per year are 15 times more likely to die suddenly than are those without this seizure type. The risk increases with increasing GTCS frequency. This translates to an absolute risk of up to 18 deaths per 1,000 patient-years for people with epilepsy who have frequent GTCS.

Sharon Worcester/Frontline Medical News

Sharon Worcester/Frontline Medical News

sworcester@frontlinemedcom.com

BOSTON – Generalized tonic-clonic seizures (GTCS) are a major risk factor for sudden unexpected death in epilepsy (SUDEP), which underscores the importance of advising people with epilepsy about controlling such seizures, according to a new practice guideline from the American Academy of Neurology and the American Epilepsy Society.

Though SUDEP is rare, with an incidence rate of 0.22/1,000 patient-years in children with epilepsy and 1.2/1,000 patient-years in adults with epilepsy, the guideline committee found that people with three or more GTCS per year are 15 times more likely to die suddenly than are those without this seizure type. The risk increases with increasing GTCS frequency. This translates to an absolute risk of up to 18 deaths per 1,000 patient-years for people with epilepsy who have frequent GTCS.

Sharon Worcester/Frontline Medical News

Sharon Worcester/Frontline Medical News

sworcester@frontlinemedcom.com

BOSTON—Apomorphine may provide relief from off time for people with advanced Parkinson’s disease, according to a study presented at the 69th Annual Meeting of the American Academy of Neurology.

“If a person with Parkinson’s disease can reduce their off times, that can have a great impact on their everyday life,” said study author Regina Katzenschlager, MD, of Danube Hospital, which is affiliated with the Medical University of Vienna. “In some patients in the trial, the insecurity of unpredictable periods of incapacity was completely alleviated.”

Open-Label Data Suggest Efficacy

Levodopa has long been the gold standard in the treatment of Parkinson’s disease, but the effects of the medication can partially wear off more quickly as the disease progresses. Patients consequently experience off time that includes symptoms such as slowness and muscle rigidity.

The drug apomorphine, which first was produced in 1865, began to be used to treat advanced Parkinson’s disease in the United States in 1950. Its use grew in the 1990s when European doctors started administering subcutaneous infusions of the drug to treat fluctuations in mobility that could not be controlled by levodopa.

Extensive data from open-label studies of apomorphine have demonstrated its efficacy in reducing off time, dyskinesias, and oral levodopa dose in patients with severe motor fluctuations that are poorly controlled by conventional therapy. Evidence from randomized, blinded studies of the drug has been lacking, however.

Comparing Apomorphine With Placebo

In a double-blind phase III study, researchers recruited 107 people with advanced Parkinson’s disease from 23 centers in seven countries.

Participants were randomized to either apomorphine subcutaneous infusion (≤ 8 mg/h) or a placebo saline infusion. The infusion was administered over a period of 14 to 18 hours each day through a small portable pump similar to the type used in the treatment of type 1 diabetes. The hourly flow rate of the infusion and dose of concomitant antiparkinsonian medication were adjusted during the first four weeks, based on efficacy and tolerability. The study’s primary end point was the absolute change in off time from baseline to Week 12 based on patient diaries.

Patients who received apomorphine had a significantly greater reduction of off time than those who received the placebo infusion. Active patients had, on average, 2.5 hours less off time per day, while participants who received the placebo infusion had an average of 35 minutes less off time per day. This improvement was apparent within the first week of treatment and was sustained over 12 weeks. At the same time, patients who received apomorphine had a significantly greater increase of on time without the dyskinesias that often are observed with levodopa, compared with placebo.

Participants were also asked to evaluate how well they thought the treatment worked. Those who received apomorphine gave their treatment higher scores at week 12 than those who received the placebo infusion. In the apomorphine group, 71% of patients felt improved, compared with 18% of patients who received placebo. Furthermore, 19% of patients worsened on apomorphine, compared with 45% on placebo. Apomorphine was generally well tolerated, and the researchers observed no serious side effects.

“It is our hope that these findings confirming the efficacy of apomorphine infusion will encourage doctors in the United States to offer this treatment to their patients and assess its efficacy in their own clinical practice,” Dr. Katzenschlager
concluded.

The study was supported by Britannia Pharmaceuticals, the maker of apomorphine.

BOSTON—Apomorphine may provide relief from off time for people with advanced Parkinson’s disease, according to a study presented at the 69th Annual Meeting of the American Academy of Neurology.

“If a person with Parkinson’s disease can reduce their off times, that can have a great impact on their everyday life,” said study author Regina Katzenschlager, MD, of Danube Hospital, which is affiliated with the Medical University of Vienna. “In some patients in the trial, the insecurity of unpredictable periods of incapacity was completely alleviated.”

Open-Label Data Suggest Efficacy

Levodopa has long been the gold standard in the treatment of Parkinson’s disease, but the effects of the medication can partially wear off more quickly as the disease progresses. Patients consequently experience off time that includes symptoms such as slowness and muscle rigidity.

The drug apomorphine, which first was produced in 1865, began to be used to treat advanced Parkinson’s disease in the United States in 1950. Its use grew in the 1990s when European doctors started administering subcutaneous infusions of the drug to treat fluctuations in mobility that could not be controlled by levodopa.

Extensive data from open-label studies of apomorphine have demonstrated its efficacy in reducing off time, dyskinesias, and oral levodopa dose in patients with severe motor fluctuations that are poorly controlled by conventional therapy. Evidence from randomized, blinded studies of the drug has been lacking, however.

Comparing Apomorphine With Placebo

In a double-blind phase III study, researchers recruited 107 people with advanced Parkinson’s disease from 23 centers in seven countries.

Participants were randomized to either apomorphine subcutaneous infusion (≤ 8 mg/h) or a placebo saline infusion. The infusion was administered over a period of 14 to 18 hours each day through a small portable pump similar to the type used in the treatment of type 1 diabetes. The hourly flow rate of the infusion and dose of concomitant antiparkinsonian medication were adjusted during the first four weeks, based on efficacy and tolerability. The study’s primary end point was the absolute change in off time from baseline to Week 12 based on patient diaries.

Patients who received apomorphine had a significantly greater reduction of off time than those who received the placebo infusion. Active patients had, on average, 2.5 hours less off time per day, while participants who received the placebo infusion had an average of 35 minutes less off time per day. This improvement was apparent within the first week of treatment and was sustained over 12 weeks. At the same time, patients who received apomorphine had a significantly greater increase of on time without the dyskinesias that often are observed with levodopa, compared with placebo.

Participants were also asked to evaluate how well they thought the treatment worked. Those who received apomorphine gave their treatment higher scores at week 12 than those who received the placebo infusion. In the apomorphine group, 71% of patients felt improved, compared with 18% of patients who received placebo. Furthermore, 19% of patients worsened on apomorphine, compared with 45% on placebo. Apomorphine was generally well tolerated, and the researchers observed no serious side effects.

“It is our hope that these findings confirming the efficacy of apomorphine infusion will encourage doctors in the United States to offer this treatment to their patients and assess its efficacy in their own clinical practice,” Dr. Katzenschlager
concluded.

The study was supported by Britannia Pharmaceuticals, the maker of apomorphine.

BOSTON—Apomorphine may provide relief from off time for people with advanced Parkinson’s disease, according to a study presented at the 69th Annual Meeting of the American Academy of Neurology.

“If a person with Parkinson’s disease can reduce their off times, that can have a great impact on their everyday life,” said study author Regina Katzenschlager, MD, of Danube Hospital, which is affiliated with the Medical University of Vienna. “In some patients in the trial, the insecurity of unpredictable periods of incapacity was completely alleviated.”

Open-Label Data Suggest Efficacy

Levodopa has long been the gold standard in the treatment of Parkinson’s disease, but the effects of the medication can partially wear off more quickly as the disease progresses. Patients consequently experience off time that includes symptoms such as slowness and muscle rigidity.

The drug apomorphine, which first was produced in 1865, began to be used to treat advanced Parkinson’s disease in the United States in 1950. Its use grew in the 1990s when European doctors started administering subcutaneous infusions of the drug to treat fluctuations in mobility that could not be controlled by levodopa.

Extensive data from open-label studies of apomorphine have demonstrated its efficacy in reducing off time, dyskinesias, and oral levodopa dose in patients with severe motor fluctuations that are poorly controlled by conventional therapy. Evidence from randomized, blinded studies of the drug has been lacking, however.

Comparing Apomorphine With Placebo

In a double-blind phase III study, researchers recruited 107 people with advanced Parkinson’s disease from 23 centers in seven countries.

Participants were randomized to either apomorphine subcutaneous infusion (≤ 8 mg/h) or a placebo saline infusion. The infusion was administered over a period of 14 to 18 hours each day through a small portable pump similar to the type used in the treatment of type 1 diabetes. The hourly flow rate of the infusion and dose of concomitant antiparkinsonian medication were adjusted during the first four weeks, based on efficacy and tolerability. The study’s primary end point was the absolute change in off time from baseline to Week 12 based on patient diaries.

Patients who received apomorphine had a significantly greater reduction of off time than those who received the placebo infusion. Active patients had, on average, 2.5 hours less off time per day, while participants who received the placebo infusion had an average of 35 minutes less off time per day. This improvement was apparent within the first week of treatment and was sustained over 12 weeks. At the same time, patients who received apomorphine had a significantly greater increase of on time without the dyskinesias that often are observed with levodopa, compared with placebo.

Participants were also asked to evaluate how well they thought the treatment worked. Those who received apomorphine gave their treatment higher scores at week 12 than those who received the placebo infusion. In the apomorphine group, 71% of patients felt improved, compared with 18% of patients who received placebo. Furthermore, 19% of patients worsened on apomorphine, compared with 45% on placebo. Apomorphine was generally well tolerated, and the researchers observed no serious side effects.

“It is our hope that these findings confirming the efficacy of apomorphine infusion will encourage doctors in the United States to offer this treatment to their patients and assess its efficacy in their own clinical practice,” Dr. Katzenschlager
concluded.

The study was supported by Britannia Pharmaceuticals, the maker of apomorphine.

BOSTON– Early results from an industry-funded registry of Parkinson’s disease patients who underwent deep brain stimulation (DBS) reveal that their quality-of-life scores grew by 22% at 6 months.

Patients, their caregivers, and their clinicians all overwhelmingly reported improvement.

The study, which examined two types of technology that are not approved in the United States, aims to fill a gap in DBS research: How do patients fare in normal conditions – “real life” – outside of clinical trials?

KUO CHUN HUNG/Thinkstock

cnnews@frontlinemedcom.com

BOSTON– Early results from an industry-funded registry of Parkinson’s disease patients who underwent deep brain stimulation (DBS) reveal that their quality-of-life scores grew by 22% at 6 months.

Patients, their caregivers, and their clinicians all overwhelmingly reported improvement.

The study, which examined two types of technology that are not approved in the United States, aims to fill a gap in DBS research: How do patients fare in normal conditions – “real life” – outside of clinical trials?

KUO CHUN HUNG/Thinkstock

cnnews@frontlinemedcom.com

BOSTON– Early results from an industry-funded registry of Parkinson’s disease patients who underwent deep brain stimulation (DBS) reveal that their quality-of-life scores grew by 22% at 6 months.

Patients, their caregivers, and their clinicians all overwhelmingly reported improvement.

The study, which examined two types of technology that are not approved in the United States, aims to fill a gap in DBS research: How do patients fare in normal conditions – “real life” – outside of clinical trials?

KUO CHUN HUNG/Thinkstock

cnnews@frontlinemedcom.com

BOSTON – Ultra-fast door-to-needle times of 10 minutes or less for intravenous acute ischemic stroke thrombolysis can be safely achieved in carefully selected cases, according to a review of cases at an Austrian teaching hospital.

Raffi Topakian, MD, and his colleagues at the Academic Teaching Hospital Wels-Grieskirchen in Wels, Austria, followed a multidisciplinary intervention to reinforce key components of the well-known Helsinki model of acute stroke care to improve the intravenous thrombolysis rate and the median door-to-needle time (DNT) at the teaching hospital and analyzed data from 361 patients who underwent intravenous thrombolysis (IVT) for stroke there between July 2014 and September 2016. The IVT rate increased from 19% to about 27% after intervention, and the DNT during the study period was 60 minutes or less in 316 patients (87.5%), 30 minutes or less in 181 patients (50.1%), and 10 minutes or less in 63 patients (17.5%).

“Over the study period, we reduced the DNT time from 49 minutes to 25 minutes. This was significant, and the door-to-needle times were astonishingly similar for the in-hours service and the out-of-hour service,” he said at the annual meeting of the American Academy of Neurology.

Further, the rate of prenotifications from emergency medical services rose from about 30% to 63% during the study period.

Patients with ultra-fast DNT vs. those with slower DNT were older, had more chronic heart failure, had more severe stroke (National Institutes of Health Stroke Scale score of 10 vs. 5), had more anterior circulation stroke and cardioembolic stroke, and had clear onset of stroke. Independent predictors of ultra-fast DNT included prenotification by EMS, anterior circulation syndrome, chronic heart failure, and having a stroke neurologist on duty, Dr. Topakian said.

“Ultra short DNTs can be achieved safely. The key is that we are prenotified by the EMS, that we can get all the relevant history details during transport, that there is a dedicated multidisciplinary stroke team and EMS staff, and that we have a seemingly unequivocal clinical scenario,” he said. “Out-of-hours DNT matched in-hours DNT, but the caveat is we’re talking about highly selected candidates; safety must not be sacrificed for the sake of speed, in all of our patients.”

Dr. Topakian has received personal compensation for activities with Novartis and Shire-Baxalta as an advisory board member; from Novartis, Pfizer, AbbVie, and Bayer for conference support; and from Pfizer as a speaker.

sworcester@frontlinemedcom.com

BOSTON – Ultra-fast door-to-needle times of 10 minutes or less for intravenous acute ischemic stroke thrombolysis can be safely achieved in carefully selected cases, according to a review of cases at an Austrian teaching hospital.

Raffi Topakian, MD, and his colleagues at the Academic Teaching Hospital Wels-Grieskirchen in Wels, Austria, followed a multidisciplinary intervention to reinforce key components of the well-known Helsinki model of acute stroke care to improve the intravenous thrombolysis rate and the median door-to-needle time (DNT) at the teaching hospital and analyzed data from 361 patients who underwent intravenous thrombolysis (IVT) for stroke there between July 2014 and September 2016. The IVT rate increased from 19% to about 27% after intervention, and the DNT during the study period was 60 minutes or less in 316 patients (87.5%), 30 minutes or less in 181 patients (50.1%), and 10 minutes or less in 63 patients (17.5%).

“Over the study period, we reduced the DNT time from 49 minutes to 25 minutes. This was significant, and the door-to-needle times were astonishingly similar for the in-hours service and the out-of-hour service,” he said at the annual meeting of the American Academy of Neurology.

Further, the rate of prenotifications from emergency medical services rose from about 30% to 63% during the study period.

Patients with ultra-fast DNT vs. those with slower DNT were older, had more chronic heart failure, had more severe stroke (National Institutes of Health Stroke Scale score of 10 vs. 5), had more anterior circulation stroke and cardioembolic stroke, and had clear onset of stroke. Independent predictors of ultra-fast DNT included prenotification by EMS, anterior circulation syndrome, chronic heart failure, and having a stroke neurologist on duty, Dr. Topakian said.

“Ultra short DNTs can be achieved safely. The key is that we are prenotified by the EMS, that we can get all the relevant history details during transport, that there is a dedicated multidisciplinary stroke team and EMS staff, and that we have a seemingly unequivocal clinical scenario,” he said. “Out-of-hours DNT matched in-hours DNT, but the caveat is we’re talking about highly selected candidates; safety must not be sacrificed for the sake of speed, in all of our patients.”

Dr. Topakian has received personal compensation for activities with Novartis and Shire-Baxalta as an advisory board member; from Novartis, Pfizer, AbbVie, and Bayer for conference support; and from Pfizer as a speaker.

sworcester@frontlinemedcom.com

BOSTON – Ultra-fast door-to-needle times of 10 minutes or less for intravenous acute ischemic stroke thrombolysis can be safely achieved in carefully selected cases, according to a review of cases at an Austrian teaching hospital.

Raffi Topakian, MD, and his colleagues at the Academic Teaching Hospital Wels-Grieskirchen in Wels, Austria, followed a multidisciplinary intervention to reinforce key components of the well-known Helsinki model of acute stroke care to improve the intravenous thrombolysis rate and the median door-to-needle time (DNT) at the teaching hospital and analyzed data from 361 patients who underwent intravenous thrombolysis (IVT) for stroke there between July 2014 and September 2016. The IVT rate increased from 19% to about 27% after intervention, and the DNT during the study period was 60 minutes or less in 316 patients (87.5%), 30 minutes or less in 181 patients (50.1%), and 10 minutes or less in 63 patients (17.5%).

“Over the study period, we reduced the DNT time from 49 minutes to 25 minutes. This was significant, and the door-to-needle times were astonishingly similar for the in-hours service and the out-of-hour service,” he said at the annual meeting of the American Academy of Neurology.

Further, the rate of prenotifications from emergency medical services rose from about 30% to 63% during the study period.

Patients with ultra-fast DNT vs. those with slower DNT were older, had more chronic heart failure, had more severe stroke (National Institutes of Health Stroke Scale score of 10 vs. 5), had more anterior circulation stroke and cardioembolic stroke, and had clear onset of stroke. Independent predictors of ultra-fast DNT included prenotification by EMS, anterior circulation syndrome, chronic heart failure, and having a stroke neurologist on duty, Dr. Topakian said.

“Ultra short DNTs can be achieved safely. The key is that we are prenotified by the EMS, that we can get all the relevant history details during transport, that there is a dedicated multidisciplinary stroke team and EMS staff, and that we have a seemingly unequivocal clinical scenario,” he said. “Out-of-hours DNT matched in-hours DNT, but the caveat is we’re talking about highly selected candidates; safety must not be sacrificed for the sake of speed, in all of our patients.”

Dr. Topakian has received personal compensation for activities with Novartis and Shire-Baxalta as an advisory board member; from Novartis, Pfizer, AbbVie, and Bayer for conference support; and from Pfizer as a speaker.

sworcester@frontlinemedcom.com

BOSTON – Survivors of sepsis face a significantly increased risk of seizures following an index hospitalization, regardless of any previous history of seizures or seizures occurring during hospitalization, according to findings from a retrospective, population-based cohort study.

The risk for having subsequent seizures was highest for patients younger than 65 years but was still elevated above the general population for those aged 65 years or older, Michael Reznik, MD, reported at the annual meeting of the American Academy of Neurology.

jevans@frontlinemedcom.com

BOSTON – Survivors of sepsis face a significantly increased risk of seizures following an index hospitalization, regardless of any previous history of seizures or seizures occurring during hospitalization, according to findings from a retrospective, population-based cohort study.

The risk for having subsequent seizures was highest for patients younger than 65 years but was still elevated above the general population for those aged 65 years or older, Michael Reznik, MD, reported at the annual meeting of the American Academy of Neurology.

jevans@frontlinemedcom.com

BOSTON – Survivors of sepsis face a significantly increased risk of seizures following an index hospitalization, regardless of any previous history of seizures or seizures occurring during hospitalization, according to findings from a retrospective, population-based cohort study.

The risk for having subsequent seizures was highest for patients younger than 65 years but was still elevated above the general population for those aged 65 years or older, Michael Reznik, MD, reported at the annual meeting of the American Academy of Neurology.

jevans@frontlinemedcom.com

Neurologists will tackle the issues surrounding rising prices for neurological drug treatments in a set of presentations during the annual meeting of the American Academy of Neurology in Boston.

During the Contemporary Clinical Issues Plenary Session on April 24, Dennis N. Bourdette, MD, of Oregon Health and Science University, Portland, will give his presentation, “High Drug Prices: The Elephant in the Clinic.”

Dr. Bourdette will also address the problem on April 26 in a session called “Section Topic Controversies,” in which he and Dennis W. Choi, MD, PhD, of the State University of New York at Stony Brook will offer their opinions on how “Neurologists Should Take a Position Regarding the Cost of Neurological Treatments.” Dr. Bourdette is set to illustrate how “Neurologists Should More Vocally Protest Some of the Marked Price Increases Involving Neurological Treatments,” while Dr. Choi will provide rationale for his argument on why “Neurologists Should Influence Policies that Allow Companies to Commit More Resources to R&D for Neurological Diseases While Not Allowing for Rapacious Pricing Practices.” Following the discussion, Dr. Bourdette, Dr. Choi, and session moderators will have a panel discussion on the ways in which AAN members can work most productively for the benefit of their patients.

Sure to be discussed in the series of talks is a recent AAN position paper on prescription drug prices released in March that identified three distinct drug pricing challenges:

• Massive increase in the pricing of previously low-cost generic drugs used to treat common disorders without obvious increases in cost of production or distribution.
• Massive increase in the pricing for high-priced generic and brand name drugs used to treat serious disorders that are not protected by the Orphan Drug Act.
• The high cost of new medications used to treat rare disorders as defined by the Orphan Drug Act.

Neurologists will tackle the issues surrounding rising prices for neurological drug treatments in a set of presentations during the annual meeting of the American Academy of Neurology in Boston.

During the Contemporary Clinical Issues Plenary Session on April 24, Dennis N. Bourdette, MD, of Oregon Health and Science University, Portland, will give his presentation, “High Drug Prices: The Elephant in the Clinic.”

Dr. Bourdette will also address the problem on April 26 in a session called “Section Topic Controversies,” in which he and Dennis W. Choi, MD, PhD, of the State University of New York at Stony Brook will offer their opinions on how “Neurologists Should Take a Position Regarding the Cost of Neurological Treatments.” Dr. Bourdette is set to illustrate how “Neurologists Should More Vocally Protest Some of the Marked Price Increases Involving Neurological Treatments,” while Dr. Choi will provide rationale for his argument on why “Neurologists Should Influence Policies that Allow Companies to Commit More Resources to R&D for Neurological Diseases While Not Allowing for Rapacious Pricing Practices.” Following the discussion, Dr. Bourdette, Dr. Choi, and session moderators will have a panel discussion on the ways in which AAN members can work most productively for the benefit of their patients.

Sure to be discussed in the series of talks is a recent AAN position paper on prescription drug prices released in March that identified three distinct drug pricing challenges:

• Massive increase in the pricing of previously low-cost generic drugs used to treat common disorders without obvious increases in cost of production or distribution.
• Massive increase in the pricing for high-priced generic and brand name drugs used to treat serious disorders that are not protected by the Orphan Drug Act.
• The high cost of new medications used to treat rare disorders as defined by the Orphan Drug Act.

Neurologists will tackle the issues surrounding rising prices for neurological drug treatments in a set of presentations during the annual meeting of the American Academy of Neurology in Boston.

During the Contemporary Clinical Issues Plenary Session on April 24, Dennis N. Bourdette, MD, of Oregon Health and Science University, Portland, will give his presentation, “High Drug Prices: The Elephant in the Clinic.”

Dr. Bourdette will also address the problem on April 26 in a session called “Section Topic Controversies,” in which he and Dennis W. Choi, MD, PhD, of the State University of New York at Stony Brook will offer their opinions on how “Neurologists Should Take a Position Regarding the Cost of Neurological Treatments.” Dr. Bourdette is set to illustrate how “Neurologists Should More Vocally Protest Some of the Marked Price Increases Involving Neurological Treatments,” while Dr. Choi will provide rationale for his argument on why “Neurologists Should Influence Policies that Allow Companies to Commit More Resources to R&D for Neurological Diseases While Not Allowing for Rapacious Pricing Practices.” Following the discussion, Dr. Bourdette, Dr. Choi, and session moderators will have a panel discussion on the ways in which AAN members can work most productively for the benefit of their patients.

Sure to be discussed in the series of talks is a recent AAN position paper on prescription drug prices released in March that identified three distinct drug pricing challenges:

• Massive increase in the pricing of previously low-cost generic drugs used to treat common disorders without obvious increases in cost of production or distribution.
• Massive increase in the pricing for high-priced generic and brand name drugs used to treat serious disorders that are not protected by the Orphan Drug Act.
• The high cost of new medications used to treat rare disorders as defined by the Orphan Drug Act.

Calcitonin gene–related peptide (CGRP) monoclonal antibodies for migraine prevention will take center stage at the upcoming annual meeting of the American Academy of Neurology in Boston in a variety of talks aimed at describing the latest clinical trial findings.

Amaal J. Starling, MD, of the Mayo Clinic, Phoenix, Ariz., will lead off on the topic in the Contemporary Clinical Issues Plenary Session on April 24 by discussing in her presentation, “The Era of Targeted Preventive Treatment for Migraine: CGRP Monoclonal Antibodies,” the impact that CGRP monoclonal antibodies may have on migraine treatment

In the first of two presentations on the primary results of two phase III migraine prevention trials for the CGRP monoclonal antibody erenumab, also known as AMG 334, Peter Goadsby, MD, PhD, of the University of California, San Francisco, will report on the STRIVE trial in the Clinical Trials Plenary Session on April 25.

STRIVE is investigating two doses of erenumab against placebo in a 24-week trial examining the primary outcome of a change from baseline in mean monthly migraine days among 955 patients with a 1-year history of episodic migraine who are currently, have previously, or have never received migraine prophylactic medication. Patients will then be randomized after this initial double-blind treatment phase to 28 weeks of open-label active treatment with either dose of erenumab.

Later on April 25 in the Emerging Science Platform Session, David W. Dodick, MD, of the Mayo Clinic in Phoenix is set to describe the results of the phase III ARISE trial. Investigators in ARISE tested 12 weeks of one dosing regimen of erenumab versus placebo on the change from baseline in mean monthly migraine days in 577 patients with episodic migraine, followed by a 28-week open-label treatment phase.

Phase II study results of erenumab in the prevention of chronic migraine can be viewed April 28 in the “Headache: Clinical Trials and Disease Burden” platform session. The trial tested two doses of erenumab against placebo to detect differences in the change in monthly migraine days from baseline in the last 4 weeks of the trial’s 12-week double-blind treatment phase. The phase II trial results of a different CGRP monoclonal antibody known as eptinezumab or ALD403 in the prevention of chronic migraine will also be reported in the same platform session. The study evaluated a variety of doses of the drug for superiority against placebo in reducing the number of migraine days by 75% over 12 weeks.

Calcitonin gene–related peptide (CGRP) monoclonal antibodies for migraine prevention will take center stage at the upcoming annual meeting of the American Academy of Neurology in Boston in a variety of talks aimed at describing the latest clinical trial findings.

Amaal J. Starling, MD, of the Mayo Clinic, Phoenix, Ariz., will lead off on the topic in the Contemporary Clinical Issues Plenary Session on April 24 by discussing in her presentation, “The Era of Targeted Preventive Treatment for Migraine: CGRP Monoclonal Antibodies,” the impact that CGRP monoclonal antibodies may have on migraine treatment

In the first of two presentations on the primary results of two phase III migraine prevention trials for the CGRP monoclonal antibody erenumab, also known as AMG 334, Peter Goadsby, MD, PhD, of the University of California, San Francisco, will report on the STRIVE trial in the Clinical Trials Plenary Session on April 25.

STRIVE is investigating two doses of erenumab against placebo in a 24-week trial examining the primary outcome of a change from baseline in mean monthly migraine days among 955 patients with a 1-year history of episodic migraine who are currently, have previously, or have never received migraine prophylactic medication. Patients will then be randomized after this initial double-blind treatment phase to 28 weeks of open-label active treatment with either dose of erenumab.

Later on April 25 in the Emerging Science Platform Session, David W. Dodick, MD, of the Mayo Clinic in Phoenix is set to describe the results of the phase III ARISE trial. Investigators in ARISE tested 12 weeks of one dosing regimen of erenumab versus placebo on the change from baseline in mean monthly migraine days in 577 patients with episodic migraine, followed by a 28-week open-label treatment phase.

Phase II study results of erenumab in the prevention of chronic migraine can be viewed April 28 in the “Headache: Clinical Trials and Disease Burden” platform session. The trial tested two doses of erenumab against placebo to detect differences in the change in monthly migraine days from baseline in the last 4 weeks of the trial’s 12-week double-blind treatment phase. The phase II trial results of a different CGRP monoclonal antibody known as eptinezumab or ALD403 in the prevention of chronic migraine will also be reported in the same platform session. The study evaluated a variety of doses of the drug for superiority against placebo in reducing the number of migraine days by 75% over 12 weeks.

Calcitonin gene–related peptide (CGRP) monoclonal antibodies for migraine prevention will take center stage at the upcoming annual meeting of the American Academy of Neurology in Boston in a variety of talks aimed at describing the latest clinical trial findings.

Amaal J. Starling, MD, of the Mayo Clinic, Phoenix, Ariz., will lead off on the topic in the Contemporary Clinical Issues Plenary Session on April 24 by discussing in her presentation, “The Era of Targeted Preventive Treatment for Migraine: CGRP Monoclonal Antibodies,” the impact that CGRP monoclonal antibodies may have on migraine treatment

In the first of two presentations on the primary results of two phase III migraine prevention trials for the CGRP monoclonal antibody erenumab, also known as AMG 334, Peter Goadsby, MD, PhD, of the University of California, San Francisco, will report on the STRIVE trial in the Clinical Trials Plenary Session on April 25.

STRIVE is investigating two doses of erenumab against placebo in a 24-week trial examining the primary outcome of a change from baseline in mean monthly migraine days among 955 patients with a 1-year history of episodic migraine who are currently, have previously, or have never received migraine prophylactic medication. Patients will then be randomized after this initial double-blind treatment phase to 28 weeks of open-label active treatment with either dose of erenumab.

Later on April 25 in the Emerging Science Platform Session, David W. Dodick, MD, of the Mayo Clinic in Phoenix is set to describe the results of the phase III ARISE trial. Investigators in ARISE tested 12 weeks of one dosing regimen of erenumab versus placebo on the change from baseline in mean monthly migraine days in 577 patients with episodic migraine, followed by a 28-week open-label treatment phase.

Phase II study results of erenumab in the prevention of chronic migraine can be viewed April 28 in the “Headache: Clinical Trials and Disease Burden” platform session. The trial tested two doses of erenumab against placebo to detect differences in the change in monthly migraine days from baseline in the last 4 weeks of the trial’s 12-week double-blind treatment phase. The phase II trial results of a different CGRP monoclonal antibody known as eptinezumab or ALD403 in the prevention of chronic migraine will also be reported in the same platform session. The study evaluated a variety of doses of the drug for superiority against placebo in reducing the number of migraine days by 75% over 12 weeks.

A variety of plenary and emerging science sessions at this year’s annual meeting of the American Academy of Neurology in Boston will highlight clinical research efforts to treat children with spinal muscular atrophy.

At the Hot Topics Plenary Session on April 22, Claudia A. Chiriboga, MD, of Columbia University, New York, will discuss the results of clinical trials involving antisense oligonucleotide treatments for spinal muscular atrophy (SMA), including the recently approved nusinersen (Spinraza), which promotes transcription of the full-length survival motor neuron (SMN) protein from the SMN2 gene.

In the first of two reports on new clinical research about nusinersen, Nancy L. Kuntz, MD, of Ann & Robert H. Lurie Children’s Hospital of Chicago will present the initial interim efficacy and safety findings from the phase III international ENDEAR study on April 24 at the Contemporary Clinical Issues Plenary Session. The study of 122 infants with SMA is comparing intrathecal administration of nusinersen against a sham procedure of a small needle prick on the lower back to look for differences at day 402 in the primary outcome of the percentage of patients who attain motor milestones as assessed by section 2 of the Hammersmith Infant Neurological Examination or the time to death or need for respiratory intervention. Charlotte J. Sumner, MD, of Johns Hopkins University, Baltimore, will discuss the study following Dr. Kuntz’s presentation.

The second nusinersen trial to be reported at the meeting will describe interim results of the drug’s efficacy and safety in children with later-onset SMA in the phase III CHERISH study. At the Emerging Science Platform Session on April 25, Richard S. Finkel, MD, of Nemours Children’s Hospital in Orlando, Fla., will discuss how the primary outcome of the Hammersmith Functional Motor Scale–Expanded score changed from baseline to 15 months following intrathecal injection or a sham procedure in children aged 2-12 years.

An investigational SMA type 1 treatment just beginning testing in clinical trials will also receive attention in a plenary session and a platform session. In the Clinical Trials Plenary Session on April 25, Jerry R. Mendell, MD, of Nationwide Children’s Hospital, Columbus, Ohio, will report on the first gene therapy trial for SMA type 1, a phase I trial of AVXS-101, which delivers the SMN gene in a AAV9 viral vector that is able to cross the blood-brain barrier. The primary objective of the trial is to assess safety of a single intravenous dose. The secondary objectives include survival (avoidance of death/permanent-ventilation) and the ability to sit unassisted. Other analyses of data from the phase I trial will be reported during the “Motor Neuron Diseases: Biomarkers, Outcome Measures, and Therapeutics,” platform session on April 24, including the evaluation of preexisting anti-AAV9 antibodies and the proportion of patients who achieve CHOP-INTEND scores of 50 and above and sit unassisted.

A variety of plenary and emerging science sessions at this year’s annual meeting of the American Academy of Neurology in Boston will highlight clinical research efforts to treat children with spinal muscular atrophy.

At the Hot Topics Plenary Session on April 22, Claudia A. Chiriboga, MD, of Columbia University, New York, will discuss the results of clinical trials involving antisense oligonucleotide treatments for spinal muscular atrophy (SMA), including the recently approved nusinersen (Spinraza), which promotes transcription of the full-length survival motor neuron (SMN) protein from the SMN2 gene.

In the first of two reports on new clinical research about nusinersen, Nancy L. Kuntz, MD, of Ann & Robert H. Lurie Children’s Hospital of Chicago will present the initial interim efficacy and safety findings from the phase III international ENDEAR study on April 24 at the Contemporary Clinical Issues Plenary Session. The study of 122 infants with SMA is comparing intrathecal administration of nusinersen against a sham procedure of a small needle prick on the lower back to look for differences at day 402 in the primary outcome of the percentage of patients who attain motor milestones as assessed by section 2 of the Hammersmith Infant Neurological Examination or the time to death or need for respiratory intervention. Charlotte J. Sumner, MD, of Johns Hopkins University, Baltimore, will discuss the study following Dr. Kuntz’s presentation.

The second nusinersen trial to be reported at the meeting will describe interim results of the drug’s efficacy and safety in children with later-onset SMA in the phase III CHERISH study. At the Emerging Science Platform Session on April 25, Richard S. Finkel, MD, of Nemours Children’s Hospital in Orlando, Fla., will discuss how the primary outcome of the Hammersmith Functional Motor Scale–Expanded score changed from baseline to 15 months following intrathecal injection or a sham procedure in children aged 2-12 years.

An investigational SMA type 1 treatment just beginning testing in clinical trials will also receive attention in a plenary session and a platform session. In the Clinical Trials Plenary Session on April 25, Jerry R. Mendell, MD, of Nationwide Children’s Hospital, Columbus, Ohio, will report on the first gene therapy trial for SMA type 1, a phase I trial of AVXS-101, which delivers the SMN gene in a AAV9 viral vector that is able to cross the blood-brain barrier. The primary objective of the trial is to assess safety of a single intravenous dose. The secondary objectives include survival (avoidance of death/permanent-ventilation) and the ability to sit unassisted. Other analyses of data from the phase I trial will be reported during the “Motor Neuron Diseases: Biomarkers, Outcome Measures, and Therapeutics,” platform session on April 24, including the evaluation of preexisting anti-AAV9 antibodies and the proportion of patients who achieve CHOP-INTEND scores of 50 and above and sit unassisted.

A variety of plenary and emerging science sessions at this year’s annual meeting of the American Academy of Neurology in Boston will highlight clinical research efforts to treat children with spinal muscular atrophy.

At the Hot Topics Plenary Session on April 22, Claudia A. Chiriboga, MD, of Columbia University, New York, will discuss the results of clinical trials involving antisense oligonucleotide treatments for spinal muscular atrophy (SMA), including the recently approved nusinersen (Spinraza), which promotes transcription of the full-length survival motor neuron (SMN) protein from the SMN2 gene.

In the first of two reports on new clinical research about nusinersen, Nancy L. Kuntz, MD, of Ann & Robert H. Lurie Children’s Hospital of Chicago will present the initial interim efficacy and safety findings from the phase III international ENDEAR study on April 24 at the Contemporary Clinical Issues Plenary Session. The study of 122 infants with SMA is comparing intrathecal administration of nusinersen against a sham procedure of a small needle prick on the lower back to look for differences at day 402 in the primary outcome of the percentage of patients who attain motor milestones as assessed by section 2 of the Hammersmith Infant Neurological Examination or the time to death or need for respiratory intervention. Charlotte J. Sumner, MD, of Johns Hopkins University, Baltimore, will discuss the study following Dr. Kuntz’s presentation.

The second nusinersen trial to be reported at the meeting will describe interim results of the drug’s efficacy and safety in children with later-onset SMA in the phase III CHERISH study. At the Emerging Science Platform Session on April 25, Richard S. Finkel, MD, of Nemours Children’s Hospital in Orlando, Fla., will discuss how the primary outcome of the Hammersmith Functional Motor Scale–Expanded score changed from baseline to 15 months following intrathecal injection or a sham procedure in children aged 2-12 years.

An investigational SMA type 1 treatment just beginning testing in clinical trials will also receive attention in a plenary session and a platform session. In the Clinical Trials Plenary Session on April 25, Jerry R. Mendell, MD, of Nationwide Children’s Hospital, Columbus, Ohio, will report on the first gene therapy trial for SMA type 1, a phase I trial of AVXS-101, which delivers the SMN gene in a AAV9 viral vector that is able to cross the blood-brain barrier. The primary objective of the trial is to assess safety of a single intravenous dose. The secondary objectives include survival (avoidance of death/permanent-ventilation) and the ability to sit unassisted. Other analyses of data from the phase I trial will be reported during the “Motor Neuron Diseases: Biomarkers, Outcome Measures, and Therapeutics,” platform session on April 24, including the evaluation of preexisting anti-AAV9 antibodies and the proportion of patients who achieve CHOP-INTEND scores of 50 and above and sit unassisted.