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Epilepsy
Encouraging results for new epilepsy drug
Post hoc analyses from an open-label study showed that seizure frequency was significantly reduced and the seizure-freedom rate was significantly improved among 240 adult participants who received cenobamate. The patients’ use of concomitant antiseizure medications was also reduced, with no effect on efficacy.
These results are “fascinating” and “very, very exciting,” said lead author William E. Rosenfeld, MD, director, Comprehensive Epilepsy Care Center for Children and Adults, St. Louis, Mo. Although responder rates were impressive, at 50% or greater and 75% or greater, “what patients really want is to have seizure freedom, or at least a 90% reduction in seizures,” Dr. Rosenfeld said.
The findings were presented at the annual meeting of the American Epilepsy Society, held online this year.
Adverse events
Cenobamate reduces seizures by inhibiting sodium current or affecting the GABAA channel, or potentially through a combination of these two mechanisms, said Dr. Rosenfeld. The drug was approved by the U.S. Food and Drug Administration in November 2019 for the treatment of uncontrolled partial-onset seizures in adults, which represent about 60% of all epileptic seizures. It has been on the market since May 2020.
During the drug’s development, three cases of drug reaction with eosinophilia and systemic symptoms (DRESS) occurred. This condition typically involves a skin rash, fever, swollen lymph nodes, and characteristic blood abnormalities, including a high level of eosinophils. However, an open-label study, published earlier this year in Epilepsia, that assessed safety and pharmacokinetics in 1,347 patients aged 18-70 years who received stable doses of one to three antiseizure medications showed that, with “slow and low titration” of cenobamate, there were no cases of DRESS, Dr. Rosenfeld said.
In that safety study, investigators administered increasing daily doses of cenobamate at 12.5, 25, 50, 100, 150, and 200 mg/day at 2-week intervals. If necessary, the dose could be increased to 400 mg/day via 50-mg/day increments every other week.
The researchers presented post hoc analyses regarding 240 patients from 10 U.S. sites who participated in the safety study. Dr. Rosenfeld noted, “These are all good epilepsy centers, and they all kept seizure records.” Of these participants, 177 continued taking the drug as they had at their last visit for a mean of more than 30 months; for some, it was up to 44 months.
“So we had a 73.8% retention rate over the course of the open label, which is the maintenance phase of the study,” Dr. Rosenfeld said.
Among the entire group of 240 patients, 25.8% had been seizure free for more than 12 months at their last visit. Of the 177 who continued to take cenobamate, 33.9% were seizure free for an average of 23.5 months.
“We have never seen those kinds of numbers in the past,” said Dr. Rosenfeld, adding, “it’s so important for patients to get seizure freedom.” These promising results may be related to the fact that the drug works on more than one mechanism of seizure, he speculated.
For some patients, the drug will “make a big difference” by providing them with the best quality of life and allow them to resume normal activities, Dr. Rosenfeld noted. In addition, the drug was well tolerated. The most common adverse events were dizziness/diplopia and sleepiness/drowsiness.
Concomitant drug reductions
Another post hoc analysis of the 240 patients showed that many patients were able to reduce use of other antiseizure medications. At study outset, about 41% were taking lacosamide, 35.7% were taking levetiracetam, and 27.7% were taking lamotrigine. Among patients who continued to take cenobamate, 22.7% of concomitant baseline antiseizure medications were discontinued. Carbamazepine was discontinued by 31.3%, oxcarbazepine by 26.7%, lacosamide by 23.4%, eslicarbazepine by 23.1%, clobazam by 26.7%, lamotrigine by 14.6%, and levetiracetam by 20.3%.
“We found that the patients who stayed in the study the longest had greater reductions in their concomitant antiepileptic mediation,” said Dr. Rosenfeld. Lowering concomitant medications did not reduce efficacy at a target dose of 200 mg/day.
The investigators hope to test the drug in children and in patients with different seizure types.
Promising, with caveats
Commenting on the research, Jong Woo Lee, MD, PhD, associate professor of neurology, the Edward B. Bromfield Epilepsy Program, Brigham and Women’s Hospital, Boston, said cenobamate “has certainly given new hope” to some of his patients. He noted that a few of these patients had been experiencing daily or nearly daily seizures and had been taking three or more medications for many years.
“The chances of another medication being effective for these patients is very low,” said Dr. Lee, who was not involved with the research. “But several of these patients responded to cenobamate, and some of them achieved complete seizure freedom.”
However, as with all new promising medications, there are some caveats. “The concern is for long-term efficacy for more than 5 years and, of course, unforeseen side effects,” Dr. Lee said.
The studies were funded by SK Life Science. Dr. Rosenfeld has been a consultant for SK Life Science. Dr. Lee has disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Post hoc analyses from an open-label study showed that seizure frequency was significantly reduced and the seizure-freedom rate was significantly improved among 240 adult participants who received cenobamate. The patients’ use of concomitant antiseizure medications was also reduced, with no effect on efficacy.
These results are “fascinating” and “very, very exciting,” said lead author William E. Rosenfeld, MD, director, Comprehensive Epilepsy Care Center for Children and Adults, St. Louis, Mo. Although responder rates were impressive, at 50% or greater and 75% or greater, “what patients really want is to have seizure freedom, or at least a 90% reduction in seizures,” Dr. Rosenfeld said.
The findings were presented at the annual meeting of the American Epilepsy Society, held online this year.
Adverse events
Cenobamate reduces seizures by inhibiting sodium current or affecting the GABAA channel, or potentially through a combination of these two mechanisms, said Dr. Rosenfeld. The drug was approved by the U.S. Food and Drug Administration in November 2019 for the treatment of uncontrolled partial-onset seizures in adults, which represent about 60% of all epileptic seizures. It has been on the market since May 2020.
During the drug’s development, three cases of drug reaction with eosinophilia and systemic symptoms (DRESS) occurred. This condition typically involves a skin rash, fever, swollen lymph nodes, and characteristic blood abnormalities, including a high level of eosinophils. However, an open-label study, published earlier this year in Epilepsia, that assessed safety and pharmacokinetics in 1,347 patients aged 18-70 years who received stable doses of one to three antiseizure medications showed that, with “slow and low titration” of cenobamate, there were no cases of DRESS, Dr. Rosenfeld said.
In that safety study, investigators administered increasing daily doses of cenobamate at 12.5, 25, 50, 100, 150, and 200 mg/day at 2-week intervals. If necessary, the dose could be increased to 400 mg/day via 50-mg/day increments every other week.
The researchers presented post hoc analyses regarding 240 patients from 10 U.S. sites who participated in the safety study. Dr. Rosenfeld noted, “These are all good epilepsy centers, and they all kept seizure records.” Of these participants, 177 continued taking the drug as they had at their last visit for a mean of more than 30 months; for some, it was up to 44 months.
“So we had a 73.8% retention rate over the course of the open label, which is the maintenance phase of the study,” Dr. Rosenfeld said.
Among the entire group of 240 patients, 25.8% had been seizure free for more than 12 months at their last visit. Of the 177 who continued to take cenobamate, 33.9% were seizure free for an average of 23.5 months.
“We have never seen those kinds of numbers in the past,” said Dr. Rosenfeld, adding, “it’s so important for patients to get seizure freedom.” These promising results may be related to the fact that the drug works on more than one mechanism of seizure, he speculated.
For some patients, the drug will “make a big difference” by providing them with the best quality of life and allow them to resume normal activities, Dr. Rosenfeld noted. In addition, the drug was well tolerated. The most common adverse events were dizziness/diplopia and sleepiness/drowsiness.
Concomitant drug reductions
Another post hoc analysis of the 240 patients showed that many patients were able to reduce use of other antiseizure medications. At study outset, about 41% were taking lacosamide, 35.7% were taking levetiracetam, and 27.7% were taking lamotrigine. Among patients who continued to take cenobamate, 22.7% of concomitant baseline antiseizure medications were discontinued. Carbamazepine was discontinued by 31.3%, oxcarbazepine by 26.7%, lacosamide by 23.4%, eslicarbazepine by 23.1%, clobazam by 26.7%, lamotrigine by 14.6%, and levetiracetam by 20.3%.
“We found that the patients who stayed in the study the longest had greater reductions in their concomitant antiepileptic mediation,” said Dr. Rosenfeld. Lowering concomitant medications did not reduce efficacy at a target dose of 200 mg/day.
The investigators hope to test the drug in children and in patients with different seizure types.
Promising, with caveats
Commenting on the research, Jong Woo Lee, MD, PhD, associate professor of neurology, the Edward B. Bromfield Epilepsy Program, Brigham and Women’s Hospital, Boston, said cenobamate “has certainly given new hope” to some of his patients. He noted that a few of these patients had been experiencing daily or nearly daily seizures and had been taking three or more medications for many years.
“The chances of another medication being effective for these patients is very low,” said Dr. Lee, who was not involved with the research. “But several of these patients responded to cenobamate, and some of them achieved complete seizure freedom.”
However, as with all new promising medications, there are some caveats. “The concern is for long-term efficacy for more than 5 years and, of course, unforeseen side effects,” Dr. Lee said.
The studies were funded by SK Life Science. Dr. Rosenfeld has been a consultant for SK Life Science. Dr. Lee has disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Post hoc analyses from an open-label study showed that seizure frequency was significantly reduced and the seizure-freedom rate was significantly improved among 240 adult participants who received cenobamate. The patients’ use of concomitant antiseizure medications was also reduced, with no effect on efficacy.
These results are “fascinating” and “very, very exciting,” said lead author William E. Rosenfeld, MD, director, Comprehensive Epilepsy Care Center for Children and Adults, St. Louis, Mo. Although responder rates were impressive, at 50% or greater and 75% or greater, “what patients really want is to have seizure freedom, or at least a 90% reduction in seizures,” Dr. Rosenfeld said.
The findings were presented at the annual meeting of the American Epilepsy Society, held online this year.
Adverse events
Cenobamate reduces seizures by inhibiting sodium current or affecting the GABAA channel, or potentially through a combination of these two mechanisms, said Dr. Rosenfeld. The drug was approved by the U.S. Food and Drug Administration in November 2019 for the treatment of uncontrolled partial-onset seizures in adults, which represent about 60% of all epileptic seizures. It has been on the market since May 2020.
During the drug’s development, three cases of drug reaction with eosinophilia and systemic symptoms (DRESS) occurred. This condition typically involves a skin rash, fever, swollen lymph nodes, and characteristic blood abnormalities, including a high level of eosinophils. However, an open-label study, published earlier this year in Epilepsia, that assessed safety and pharmacokinetics in 1,347 patients aged 18-70 years who received stable doses of one to three antiseizure medications showed that, with “slow and low titration” of cenobamate, there were no cases of DRESS, Dr. Rosenfeld said.
In that safety study, investigators administered increasing daily doses of cenobamate at 12.5, 25, 50, 100, 150, and 200 mg/day at 2-week intervals. If necessary, the dose could be increased to 400 mg/day via 50-mg/day increments every other week.
The researchers presented post hoc analyses regarding 240 patients from 10 U.S. sites who participated in the safety study. Dr. Rosenfeld noted, “These are all good epilepsy centers, and they all kept seizure records.” Of these participants, 177 continued taking the drug as they had at their last visit for a mean of more than 30 months; for some, it was up to 44 months.
“So we had a 73.8% retention rate over the course of the open label, which is the maintenance phase of the study,” Dr. Rosenfeld said.
Among the entire group of 240 patients, 25.8% had been seizure free for more than 12 months at their last visit. Of the 177 who continued to take cenobamate, 33.9% were seizure free for an average of 23.5 months.
“We have never seen those kinds of numbers in the past,” said Dr. Rosenfeld, adding, “it’s so important for patients to get seizure freedom.” These promising results may be related to the fact that the drug works on more than one mechanism of seizure, he speculated.
For some patients, the drug will “make a big difference” by providing them with the best quality of life and allow them to resume normal activities, Dr. Rosenfeld noted. In addition, the drug was well tolerated. The most common adverse events were dizziness/diplopia and sleepiness/drowsiness.
Concomitant drug reductions
Another post hoc analysis of the 240 patients showed that many patients were able to reduce use of other antiseizure medications. At study outset, about 41% were taking lacosamide, 35.7% were taking levetiracetam, and 27.7% were taking lamotrigine. Among patients who continued to take cenobamate, 22.7% of concomitant baseline antiseizure medications were discontinued. Carbamazepine was discontinued by 31.3%, oxcarbazepine by 26.7%, lacosamide by 23.4%, eslicarbazepine by 23.1%, clobazam by 26.7%, lamotrigine by 14.6%, and levetiracetam by 20.3%.
“We found that the patients who stayed in the study the longest had greater reductions in their concomitant antiepileptic mediation,” said Dr. Rosenfeld. Lowering concomitant medications did not reduce efficacy at a target dose of 200 mg/day.
The investigators hope to test the drug in children and in patients with different seizure types.
Promising, with caveats
Commenting on the research, Jong Woo Lee, MD, PhD, associate professor of neurology, the Edward B. Bromfield Epilepsy Program, Brigham and Women’s Hospital, Boston, said cenobamate “has certainly given new hope” to some of his patients. He noted that a few of these patients had been experiencing daily or nearly daily seizures and had been taking three or more medications for many years.
“The chances of another medication being effective for these patients is very low,” said Dr. Lee, who was not involved with the research. “But several of these patients responded to cenobamate, and some of them achieved complete seizure freedom.”
However, as with all new promising medications, there are some caveats. “The concern is for long-term efficacy for more than 5 years and, of course, unforeseen side effects,” Dr. Lee said.
The studies were funded by SK Life Science. Dr. Rosenfeld has been a consultant for SK Life Science. Dr. Lee has disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
FROM AES 2020
Wearable device clears a first ‘milestone’ in seizure detection
The new findings have the potential to revolutionize the management of patients with epilepsy, according to the researchers. “We have set a first benchmark for automatic detection of a variety of epileptic seizures using wearable sensors and deep-learning algorithms. In other words, we have shown for the first time that it’s possible to do this,” said study investigator Jianbin Tang, MA, data science project lead, IBM Research Australia, Victoria.
The findings were presented at the American Epilepsy Society’s annual meeting, held online this year because of the COVID-19 pandemic.
Accurate monitoring of seizures is important for assessing risk, injury prevention, and treatment response evaluation. Currently, video EEG is the gold standard for seizure detection, but it requires a hospital stay, is often costly, and can be stigmatizing, said Mr. Tang.
An advance in detecting seizure types
Recent advances in non-EEG wearable devices show promise in detecting generalized onset tonic-clonic and focal to bilateral tonic-clonic seizures, but it’s not clear if they have the ability to detect other seizure types. “We hope to fill this gap by expanding wearable seizure detection to additional seizure types,” said Mr. Tang.
Seizure tracking outside the hospital setting largely “relies on manually annotated family and patient reports, which often can be unreliable due to missed seizures and problems recalling seizures,” he said.
The study included 75 children (44% were female; mean age was 11.1 years) admitted to a long-term EEG monitoring unit at a single center for a 24-hour stay. Patients wore the detector on the ankle or wrist. The device continuously collected data on functions such as sweating, heart rate, movement, and temperature.
With part of the dataset, researchers trained deep-learning algorithms to automatically detect seizure segments. They then validated the performance of the detection algorithms on the remainder of the dataset.
The analysis was based on data from 722 epileptic seizures of all types including focal and generalized, motor and nonmotor. Seizures occurred throughout the day and during the night while patients were awake or asleep.
When a seizure is detected, the system triggers a real-time alert and will store the information about the detected seizure in a repository, said Mr. Tang.
The signals were initially stored in the wristband and then securely uploaded to the Cloud. From there, the signal files were downloaded by the investigators for analysis and interpretation. All data were entirely anonymized and de-identified. Researchers used Area Under Curve–Receiver Operating Characteristic (AUC-ROC) to assess performance.
“Our best performing detection models reach an AUC-ROC of 67.59%, which represents a decent performance level,” said Mr. Tang. “There certainly is room for performance improvement and we are already working on this,” he added.
The device performed “better than chance,” which is a “standard technical term” in the field of machine learning and is “the first hurdle any machine-learning model needs to take to be considered useful.” The investigators noted that such automatic seizure detection “is feasible across a broad spectrum of epileptic seizure types,” said Mr. Tang. “This is a first and has not been shown before.”
The study suggests that the noninvasive wearable device could be used at home, at school, and in other everyday settings outside the clinic. “This could one day provide patients, caregivers, and clinicians with reliable seizure reports,” said Mr. Tang.
He said he believes the device might be especially useful in detecting frequent or subtle seizures, which are easy to miss. Patients requiring medication evaluation and rescue medication and those at risk of status epilepticus may be good candidates.
The researchers don’t expect wearable technology to totally replace EEG but see it as “a useful complementary tool to track seizures continuously at times or in settings where EEG monitoring is not available,” said Mr. Tang.
‘Important milestone’
Commenting on the research, Benjamin H. Brinkmann, PhD, associate professor of neurology at the Mayo Clinic in Rochester, Minn., said the investigators “have done very good work applying state of the art machine learning techniques” to the “important problem” of accurately detecting seizures.
Dr. Brinkmann is part of the Epilepsy Foundation–sponsored “My Seizure Gauge” project that’s evaluating various wearable devices, including the Empatica E4 wristband and the Fitbit Charge 3, to determine what measurements are needed for reliable seizure forecasting.
“Previously, no one knew whether seizure prediction was possible with these devices, and the fact that this group was able to achieve ‘better-than-chance’ prediction accuracy is an important milestone.”
However, he emphasized that there is still a great deal of work to be done to determine, for example, if seizure prediction with these devices can be accurate enough to be clinically useful. “For example, if the system generates too many false-positive predictions, patients won’t use it.”
In addition, the findings need to be replicated and recordings extended to 6 months or more to determine whether they are helpful to patients long term and in the home environment, said Dr. Brinkmann.
The investigators and Dr. Brinkmann have disclosed having no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
The new findings have the potential to revolutionize the management of patients with epilepsy, according to the researchers. “We have set a first benchmark for automatic detection of a variety of epileptic seizures using wearable sensors and deep-learning algorithms. In other words, we have shown for the first time that it’s possible to do this,” said study investigator Jianbin Tang, MA, data science project lead, IBM Research Australia, Victoria.
The findings were presented at the American Epilepsy Society’s annual meeting, held online this year because of the COVID-19 pandemic.
Accurate monitoring of seizures is important for assessing risk, injury prevention, and treatment response evaluation. Currently, video EEG is the gold standard for seizure detection, but it requires a hospital stay, is often costly, and can be stigmatizing, said Mr. Tang.
An advance in detecting seizure types
Recent advances in non-EEG wearable devices show promise in detecting generalized onset tonic-clonic and focal to bilateral tonic-clonic seizures, but it’s not clear if they have the ability to detect other seizure types. “We hope to fill this gap by expanding wearable seizure detection to additional seizure types,” said Mr. Tang.
Seizure tracking outside the hospital setting largely “relies on manually annotated family and patient reports, which often can be unreliable due to missed seizures and problems recalling seizures,” he said.
The study included 75 children (44% were female; mean age was 11.1 years) admitted to a long-term EEG monitoring unit at a single center for a 24-hour stay. Patients wore the detector on the ankle or wrist. The device continuously collected data on functions such as sweating, heart rate, movement, and temperature.
With part of the dataset, researchers trained deep-learning algorithms to automatically detect seizure segments. They then validated the performance of the detection algorithms on the remainder of the dataset.
The analysis was based on data from 722 epileptic seizures of all types including focal and generalized, motor and nonmotor. Seizures occurred throughout the day and during the night while patients were awake or asleep.
When a seizure is detected, the system triggers a real-time alert and will store the information about the detected seizure in a repository, said Mr. Tang.
The signals were initially stored in the wristband and then securely uploaded to the Cloud. From there, the signal files were downloaded by the investigators for analysis and interpretation. All data were entirely anonymized and de-identified. Researchers used Area Under Curve–Receiver Operating Characteristic (AUC-ROC) to assess performance.
“Our best performing detection models reach an AUC-ROC of 67.59%, which represents a decent performance level,” said Mr. Tang. “There certainly is room for performance improvement and we are already working on this,” he added.
The device performed “better than chance,” which is a “standard technical term” in the field of machine learning and is “the first hurdle any machine-learning model needs to take to be considered useful.” The investigators noted that such automatic seizure detection “is feasible across a broad spectrum of epileptic seizure types,” said Mr. Tang. “This is a first and has not been shown before.”
The study suggests that the noninvasive wearable device could be used at home, at school, and in other everyday settings outside the clinic. “This could one day provide patients, caregivers, and clinicians with reliable seizure reports,” said Mr. Tang.
He said he believes the device might be especially useful in detecting frequent or subtle seizures, which are easy to miss. Patients requiring medication evaluation and rescue medication and those at risk of status epilepticus may be good candidates.
The researchers don’t expect wearable technology to totally replace EEG but see it as “a useful complementary tool to track seizures continuously at times or in settings where EEG monitoring is not available,” said Mr. Tang.
‘Important milestone’
Commenting on the research, Benjamin H. Brinkmann, PhD, associate professor of neurology at the Mayo Clinic in Rochester, Minn., said the investigators “have done very good work applying state of the art machine learning techniques” to the “important problem” of accurately detecting seizures.
Dr. Brinkmann is part of the Epilepsy Foundation–sponsored “My Seizure Gauge” project that’s evaluating various wearable devices, including the Empatica E4 wristband and the Fitbit Charge 3, to determine what measurements are needed for reliable seizure forecasting.
“Previously, no one knew whether seizure prediction was possible with these devices, and the fact that this group was able to achieve ‘better-than-chance’ prediction accuracy is an important milestone.”
However, he emphasized that there is still a great deal of work to be done to determine, for example, if seizure prediction with these devices can be accurate enough to be clinically useful. “For example, if the system generates too many false-positive predictions, patients won’t use it.”
In addition, the findings need to be replicated and recordings extended to 6 months or more to determine whether they are helpful to patients long term and in the home environment, said Dr. Brinkmann.
The investigators and Dr. Brinkmann have disclosed having no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
The new findings have the potential to revolutionize the management of patients with epilepsy, according to the researchers. “We have set a first benchmark for automatic detection of a variety of epileptic seizures using wearable sensors and deep-learning algorithms. In other words, we have shown for the first time that it’s possible to do this,” said study investigator Jianbin Tang, MA, data science project lead, IBM Research Australia, Victoria.
The findings were presented at the American Epilepsy Society’s annual meeting, held online this year because of the COVID-19 pandemic.
Accurate monitoring of seizures is important for assessing risk, injury prevention, and treatment response evaluation. Currently, video EEG is the gold standard for seizure detection, but it requires a hospital stay, is often costly, and can be stigmatizing, said Mr. Tang.
An advance in detecting seizure types
Recent advances in non-EEG wearable devices show promise in detecting generalized onset tonic-clonic and focal to bilateral tonic-clonic seizures, but it’s not clear if they have the ability to detect other seizure types. “We hope to fill this gap by expanding wearable seizure detection to additional seizure types,” said Mr. Tang.
Seizure tracking outside the hospital setting largely “relies on manually annotated family and patient reports, which often can be unreliable due to missed seizures and problems recalling seizures,” he said.
The study included 75 children (44% were female; mean age was 11.1 years) admitted to a long-term EEG monitoring unit at a single center for a 24-hour stay. Patients wore the detector on the ankle or wrist. The device continuously collected data on functions such as sweating, heart rate, movement, and temperature.
With part of the dataset, researchers trained deep-learning algorithms to automatically detect seizure segments. They then validated the performance of the detection algorithms on the remainder of the dataset.
The analysis was based on data from 722 epileptic seizures of all types including focal and generalized, motor and nonmotor. Seizures occurred throughout the day and during the night while patients were awake or asleep.
When a seizure is detected, the system triggers a real-time alert and will store the information about the detected seizure in a repository, said Mr. Tang.
The signals were initially stored in the wristband and then securely uploaded to the Cloud. From there, the signal files were downloaded by the investigators for analysis and interpretation. All data were entirely anonymized and de-identified. Researchers used Area Under Curve–Receiver Operating Characteristic (AUC-ROC) to assess performance.
“Our best performing detection models reach an AUC-ROC of 67.59%, which represents a decent performance level,” said Mr. Tang. “There certainly is room for performance improvement and we are already working on this,” he added.
The device performed “better than chance,” which is a “standard technical term” in the field of machine learning and is “the first hurdle any machine-learning model needs to take to be considered useful.” The investigators noted that such automatic seizure detection “is feasible across a broad spectrum of epileptic seizure types,” said Mr. Tang. “This is a first and has not been shown before.”
The study suggests that the noninvasive wearable device could be used at home, at school, and in other everyday settings outside the clinic. “This could one day provide patients, caregivers, and clinicians with reliable seizure reports,” said Mr. Tang.
He said he believes the device might be especially useful in detecting frequent or subtle seizures, which are easy to miss. Patients requiring medication evaluation and rescue medication and those at risk of status epilepticus may be good candidates.
The researchers don’t expect wearable technology to totally replace EEG but see it as “a useful complementary tool to track seizures continuously at times or in settings where EEG monitoring is not available,” said Mr. Tang.
‘Important milestone’
Commenting on the research, Benjamin H. Brinkmann, PhD, associate professor of neurology at the Mayo Clinic in Rochester, Minn., said the investigators “have done very good work applying state of the art machine learning techniques” to the “important problem” of accurately detecting seizures.
Dr. Brinkmann is part of the Epilepsy Foundation–sponsored “My Seizure Gauge” project that’s evaluating various wearable devices, including the Empatica E4 wristband and the Fitbit Charge 3, to determine what measurements are needed for reliable seizure forecasting.
“Previously, no one knew whether seizure prediction was possible with these devices, and the fact that this group was able to achieve ‘better-than-chance’ prediction accuracy is an important milestone.”
However, he emphasized that there is still a great deal of work to be done to determine, for example, if seizure prediction with these devices can be accurate enough to be clinically useful. “For example, if the system generates too many false-positive predictions, patients won’t use it.”
In addition, the findings need to be replicated and recordings extended to 6 months or more to determine whether they are helpful to patients long term and in the home environment, said Dr. Brinkmann.
The investigators and Dr. Brinkmann have disclosed having no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
FROM AES 2020
New laser therapy shows promise in children with treatment-resistant epilepsy
A new type of laser therapy is safe and effective for children with drug-resistant epilepsy, new research suggests.
Results show that this “is a new and promising therapy” for children for whom drug therapy has failed, said study investigator Elysa Widjaja, MD, a pediatric neuroradiologist at the Hospital for Sick Children and professor in the department of medical imaging, University of Toronto.
In addition, the procedure is less invasive and requires a shorter hospital stay than does open epilepsy surgery, Dr. Widjaja said.
The findings were presented at the annual meeting of the American Epilepsy Society, which was held online this year because of the COVID-19 pandemic.
Registry study
To date, most published studies on the laser procedure have had a small number of participants from only a few centers, Dr. Widjaja noted. “The aim of our registry is to collect data from multiple centers in both Canada and the U.S. to try to get a better understanding of the outcomes following laser therapy and the complications associated with this treatment,” she said.
In the procedure, a surgeon drills a tiny hole through the skull and, guided by MRI, inserts a very thin laser fiber into the center of the lesion. Heat then ablates the affected brain region.
From the dedicated registry, researchers recruited 182 children who were treated with MRgLITT at seven pediatric centers in the United States and two centers in Canada. The youngest patient was aged 14 months, and the oldest was aged 21 years (mean age, 11.2 years). Some pediatric hospitals treat patients up to age 21, Dr. Widjaja noted.
All of the study participants had focal epilepsy, “so the seizures are coming from a defined area of the brain,” she added. In addition, study participants’ conditions were drug-resistant, defined as conditions in which two antiseizure medications had previously failed.
The mean age at seizure onset was 5.4 years, and the mean number of antiepileptic drugs that were taken was 2.3.
Before receiving the therapy, children typically undergo extensive analyses, including MRI and video electroencephalography, to pinpoint where in the brain the seizures originate. Dr. Widjaja noted that the specific area of the brain that is affected varies widely from child to child.
The investigators collected baseline clinical characteristic and procedural data, including ablation site, type of lesion, length of stay, complications, number of MRgLITT procedures, and seizure outcome. To gather this information, they used a secure electronic platform designed to collect and store research data.
Seizure freedom
Among 137 patients for whom 1-year seizure outcomes were available, seizure freedom was reported for 74 patients (54%). In a recent meta-analysis conducted by the investigators, the rate of seizure-free outcomes following epilepsy surgery was about 65%. Although this rate is higher than with the laser therapy, Dr. Widjaja pointed out that the laser intervention is less invasive and the hospital stay of a mean of 3.3 days is shorter than the week or so needed after surgery. This, she said, makes the procedure cost-effective.
Unlike surgery, laser therapy is also “particularly good” at reaching lesions deep in the brain without damaging surrounding tissue, Dr. Widjaja said.
Although the researchers have not evaluated seizure outcomes with respect to age, Dr. Widjaja believes age is not a major factor in outcomes. “I suspect it’s the type of lesion and how big the lesion is that mainly influences the outcome, rather than actual age,” she said.
Complications related to the laser therapy, including infections and bleeding, occurred in 15% of patients. Neurologic deficits affected about 8% of patients; however, these tended to be transient, Dr. Widjaja noted. There were two cases (1%) of permanent neurologic deficits, both of which involved weakness of arms or legs. This, said Dr. Widjaja, is less than the 5% rate of permanent neurologic deficits that occur following surgery, as reported in the literature.
There were no cases of major intracranial hemorrhage among the participants. At 30 days, there was one reported death.
Laser therapy is limited to relatively small lesions of no more than about 2 cm on average, Dr. Widjaja said. “We normally can’t treat huge lesions using laser therapy; they would need surgery.” However, it is possible to treat the same area twice. In the current study, 20 patients (11%) underwent laser therapy on one region on two occasions. Of these participants, 12 (60%) achieved freedom from seizures.
Dr. Widjaja noted that two additional epilepsy centers will soon be providing laser therapy and will expand the registry. In addition, the investigators are building a surgery registry that will enable them to compare outcomes of laser treatment with surgery.
Currently, laser therapy is available only at specialized epilepsy centers that perform surgery.
‘Very important’ research
Commenting on the study, Daniel Goldenholz, MD, PhD, division of epilepsy, department of neurology, Beth Israel Deaconess Medical Center, Boston, called this is “a very important study.”
Laser therapy “offers the opportunity for very rapid recovery from a minimally invasive, targeted technique while simultaneously offering promising outcomes,” said Dr. Goldenholz, who was not involved with the research.
He noted the importance of the investigators’ choosing freedom from seizures as the outcome of interest. In addition, the 54% seizure-freedom rate in the study is “substantially better” than rates from other interventions, he said.
“To put the results into perspective, other work has found that these same patients would have a less than 10% chance of seizure freedom if many different drug combinations were tried,” said Dr. Goldenholz.
He noted that the 1-year outcomes “are a good first time point” but that it is very important to assess longer-term outcomes. “Often, postsurgical outcomes are worse when looking at 2 or 5 years postoperatively,” he added. These longer-term data will be important “to fully inform our patients about long-term prognosis,” Dr. Goldenholz said.
Still, given the overall favorable results so far, “I think more centers will be likely to explore this newer technology,” he said.
The study was funded by the Pediatric Epilepsy Research Foundation. The study authors and Dr. Goldenholz report no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
A new type of laser therapy is safe and effective for children with drug-resistant epilepsy, new research suggests.
Results show that this “is a new and promising therapy” for children for whom drug therapy has failed, said study investigator Elysa Widjaja, MD, a pediatric neuroradiologist at the Hospital for Sick Children and professor in the department of medical imaging, University of Toronto.
In addition, the procedure is less invasive and requires a shorter hospital stay than does open epilepsy surgery, Dr. Widjaja said.
The findings were presented at the annual meeting of the American Epilepsy Society, which was held online this year because of the COVID-19 pandemic.
Registry study
To date, most published studies on the laser procedure have had a small number of participants from only a few centers, Dr. Widjaja noted. “The aim of our registry is to collect data from multiple centers in both Canada and the U.S. to try to get a better understanding of the outcomes following laser therapy and the complications associated with this treatment,” she said.
In the procedure, a surgeon drills a tiny hole through the skull and, guided by MRI, inserts a very thin laser fiber into the center of the lesion. Heat then ablates the affected brain region.
From the dedicated registry, researchers recruited 182 children who were treated with MRgLITT at seven pediatric centers in the United States and two centers in Canada. The youngest patient was aged 14 months, and the oldest was aged 21 years (mean age, 11.2 years). Some pediatric hospitals treat patients up to age 21, Dr. Widjaja noted.
All of the study participants had focal epilepsy, “so the seizures are coming from a defined area of the brain,” she added. In addition, study participants’ conditions were drug-resistant, defined as conditions in which two antiseizure medications had previously failed.
The mean age at seizure onset was 5.4 years, and the mean number of antiepileptic drugs that were taken was 2.3.
Before receiving the therapy, children typically undergo extensive analyses, including MRI and video electroencephalography, to pinpoint where in the brain the seizures originate. Dr. Widjaja noted that the specific area of the brain that is affected varies widely from child to child.
The investigators collected baseline clinical characteristic and procedural data, including ablation site, type of lesion, length of stay, complications, number of MRgLITT procedures, and seizure outcome. To gather this information, they used a secure electronic platform designed to collect and store research data.
Seizure freedom
Among 137 patients for whom 1-year seizure outcomes were available, seizure freedom was reported for 74 patients (54%). In a recent meta-analysis conducted by the investigators, the rate of seizure-free outcomes following epilepsy surgery was about 65%. Although this rate is higher than with the laser therapy, Dr. Widjaja pointed out that the laser intervention is less invasive and the hospital stay of a mean of 3.3 days is shorter than the week or so needed after surgery. This, she said, makes the procedure cost-effective.
Unlike surgery, laser therapy is also “particularly good” at reaching lesions deep in the brain without damaging surrounding tissue, Dr. Widjaja said.
Although the researchers have not evaluated seizure outcomes with respect to age, Dr. Widjaja believes age is not a major factor in outcomes. “I suspect it’s the type of lesion and how big the lesion is that mainly influences the outcome, rather than actual age,” she said.
Complications related to the laser therapy, including infections and bleeding, occurred in 15% of patients. Neurologic deficits affected about 8% of patients; however, these tended to be transient, Dr. Widjaja noted. There were two cases (1%) of permanent neurologic deficits, both of which involved weakness of arms or legs. This, said Dr. Widjaja, is less than the 5% rate of permanent neurologic deficits that occur following surgery, as reported in the literature.
There were no cases of major intracranial hemorrhage among the participants. At 30 days, there was one reported death.
Laser therapy is limited to relatively small lesions of no more than about 2 cm on average, Dr. Widjaja said. “We normally can’t treat huge lesions using laser therapy; they would need surgery.” However, it is possible to treat the same area twice. In the current study, 20 patients (11%) underwent laser therapy on one region on two occasions. Of these participants, 12 (60%) achieved freedom from seizures.
Dr. Widjaja noted that two additional epilepsy centers will soon be providing laser therapy and will expand the registry. In addition, the investigators are building a surgery registry that will enable them to compare outcomes of laser treatment with surgery.
Currently, laser therapy is available only at specialized epilepsy centers that perform surgery.
‘Very important’ research
Commenting on the study, Daniel Goldenholz, MD, PhD, division of epilepsy, department of neurology, Beth Israel Deaconess Medical Center, Boston, called this is “a very important study.”
Laser therapy “offers the opportunity for very rapid recovery from a minimally invasive, targeted technique while simultaneously offering promising outcomes,” said Dr. Goldenholz, who was not involved with the research.
He noted the importance of the investigators’ choosing freedom from seizures as the outcome of interest. In addition, the 54% seizure-freedom rate in the study is “substantially better” than rates from other interventions, he said.
“To put the results into perspective, other work has found that these same patients would have a less than 10% chance of seizure freedom if many different drug combinations were tried,” said Dr. Goldenholz.
He noted that the 1-year outcomes “are a good first time point” but that it is very important to assess longer-term outcomes. “Often, postsurgical outcomes are worse when looking at 2 or 5 years postoperatively,” he added. These longer-term data will be important “to fully inform our patients about long-term prognosis,” Dr. Goldenholz said.
Still, given the overall favorable results so far, “I think more centers will be likely to explore this newer technology,” he said.
The study was funded by the Pediatric Epilepsy Research Foundation. The study authors and Dr. Goldenholz report no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
A new type of laser therapy is safe and effective for children with drug-resistant epilepsy, new research suggests.
Results show that this “is a new and promising therapy” for children for whom drug therapy has failed, said study investigator Elysa Widjaja, MD, a pediatric neuroradiologist at the Hospital for Sick Children and professor in the department of medical imaging, University of Toronto.
In addition, the procedure is less invasive and requires a shorter hospital stay than does open epilepsy surgery, Dr. Widjaja said.
The findings were presented at the annual meeting of the American Epilepsy Society, which was held online this year because of the COVID-19 pandemic.
Registry study
To date, most published studies on the laser procedure have had a small number of participants from only a few centers, Dr. Widjaja noted. “The aim of our registry is to collect data from multiple centers in both Canada and the U.S. to try to get a better understanding of the outcomes following laser therapy and the complications associated with this treatment,” she said.
In the procedure, a surgeon drills a tiny hole through the skull and, guided by MRI, inserts a very thin laser fiber into the center of the lesion. Heat then ablates the affected brain region.
From the dedicated registry, researchers recruited 182 children who were treated with MRgLITT at seven pediatric centers in the United States and two centers in Canada. The youngest patient was aged 14 months, and the oldest was aged 21 years (mean age, 11.2 years). Some pediatric hospitals treat patients up to age 21, Dr. Widjaja noted.
All of the study participants had focal epilepsy, “so the seizures are coming from a defined area of the brain,” she added. In addition, study participants’ conditions were drug-resistant, defined as conditions in which two antiseizure medications had previously failed.
The mean age at seizure onset was 5.4 years, and the mean number of antiepileptic drugs that were taken was 2.3.
Before receiving the therapy, children typically undergo extensive analyses, including MRI and video electroencephalography, to pinpoint where in the brain the seizures originate. Dr. Widjaja noted that the specific area of the brain that is affected varies widely from child to child.
The investigators collected baseline clinical characteristic and procedural data, including ablation site, type of lesion, length of stay, complications, number of MRgLITT procedures, and seizure outcome. To gather this information, they used a secure electronic platform designed to collect and store research data.
Seizure freedom
Among 137 patients for whom 1-year seizure outcomes were available, seizure freedom was reported for 74 patients (54%). In a recent meta-analysis conducted by the investigators, the rate of seizure-free outcomes following epilepsy surgery was about 65%. Although this rate is higher than with the laser therapy, Dr. Widjaja pointed out that the laser intervention is less invasive and the hospital stay of a mean of 3.3 days is shorter than the week or so needed after surgery. This, she said, makes the procedure cost-effective.
Unlike surgery, laser therapy is also “particularly good” at reaching lesions deep in the brain without damaging surrounding tissue, Dr. Widjaja said.
Although the researchers have not evaluated seizure outcomes with respect to age, Dr. Widjaja believes age is not a major factor in outcomes. “I suspect it’s the type of lesion and how big the lesion is that mainly influences the outcome, rather than actual age,” she said.
Complications related to the laser therapy, including infections and bleeding, occurred in 15% of patients. Neurologic deficits affected about 8% of patients; however, these tended to be transient, Dr. Widjaja noted. There were two cases (1%) of permanent neurologic deficits, both of which involved weakness of arms or legs. This, said Dr. Widjaja, is less than the 5% rate of permanent neurologic deficits that occur following surgery, as reported in the literature.
There were no cases of major intracranial hemorrhage among the participants. At 30 days, there was one reported death.
Laser therapy is limited to relatively small lesions of no more than about 2 cm on average, Dr. Widjaja said. “We normally can’t treat huge lesions using laser therapy; they would need surgery.” However, it is possible to treat the same area twice. In the current study, 20 patients (11%) underwent laser therapy on one region on two occasions. Of these participants, 12 (60%) achieved freedom from seizures.
Dr. Widjaja noted that two additional epilepsy centers will soon be providing laser therapy and will expand the registry. In addition, the investigators are building a surgery registry that will enable them to compare outcomes of laser treatment with surgery.
Currently, laser therapy is available only at specialized epilepsy centers that perform surgery.
‘Very important’ research
Commenting on the study, Daniel Goldenholz, MD, PhD, division of epilepsy, department of neurology, Beth Israel Deaconess Medical Center, Boston, called this is “a very important study.”
Laser therapy “offers the opportunity for very rapid recovery from a minimally invasive, targeted technique while simultaneously offering promising outcomes,” said Dr. Goldenholz, who was not involved with the research.
He noted the importance of the investigators’ choosing freedom from seizures as the outcome of interest. In addition, the 54% seizure-freedom rate in the study is “substantially better” than rates from other interventions, he said.
“To put the results into perspective, other work has found that these same patients would have a less than 10% chance of seizure freedom if many different drug combinations were tried,” said Dr. Goldenholz.
He noted that the 1-year outcomes “are a good first time point” but that it is very important to assess longer-term outcomes. “Often, postsurgical outcomes are worse when looking at 2 or 5 years postoperatively,” he added. These longer-term data will be important “to fully inform our patients about long-term prognosis,” Dr. Goldenholz said.
Still, given the overall favorable results so far, “I think more centers will be likely to explore this newer technology,” he said.
The study was funded by the Pediatric Epilepsy Research Foundation. The study authors and Dr. Goldenholz report no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
From AES 2020
SUDEP may explain 3% of all sudden deaths in children
– new research shows.
Just a few years ago, the message regarding SUDEP was that “it’s very rare in children so you don’t need to worry about it,” said study investigator Vicky Whittemore, PhD, program director at the National Institute of Neurological Disorders and Stroke.
These new study results should refocus the message that “the condition is rare, but not as rare as we thought it was,” she said.
The findings were presented at the American Epilepsy Society’s 74th Annual Meeting, which was held online this year because of the COVID-19 pandemic.
Population-based study
Most of the research examining the pediatric SUDEP rate in the United States is based on convenience samples, with few population-based studies.
The investigators used data from the National Institutes of Health/Centers for Disease Control and Prevention Sudden Death in the Young Case Registry. The CDC set up the registry several years ago to record cases of sudden infant death syndrome and sudden deaths in children resulting from violence, trauma, and abuse. Its mandate has since expanded, and the registry now includes data on sudden cardiac death and SUDEP in children.
The current study included children with SUDEP or cardiac/SUDEP who were aged 0-17 years from several states or jurisdictions from 2015 to 2017. Cases were deemed to be SUDEP if the patient had a history of epilepsy, with or without evidence of seizure at the time of death, but excluding status epilepticus.
Criteria for cardiac/SUDEP cases included having a family history of a heritable cardiac condition or sudden death before age 50 years, a personal history of cardiac disease, or a clinical history suggestive of a cardiac disorder, such as death during exertion.
This second category, said Dr. Whittemore, might capture children with Dravet syndrome, a type of epilepsy caused by a genetic mutation that affects both the heart and the brain. “In these cases, it’s sometimes difficult to tell if the child died due to a heart complication or due to epilepsy,” she said.
The analysis included 1,776 cases. Of these, 3% were categorized as SUDEP, and 1% were categorized as cardiac/SUDEP.
The relatively high prevalence of SUDEP was somewhat unexpected, inasmuch as previous reports estimated the rate to be 0.5%-1%, said Dr. Whittemore.
She noted that the current study is population based and included all cases of child death, whereas past reports relied on death certificates. “That probably missed a lot of deaths because they weren’t recorded accurately on the death certificate or weren’t reported in a way that anyone could ascertain that it was a death in someone that had epilepsy.”
Racial differences
Autopsy rates were lower for SUDEP (70%), compared with other categories of death in the registry (81%-100%).
In most jurisdictions, parents must give consent for an autopsy to be performed for a child, and many parents who have suffered such a sudden loss don’t want further investigation, said Dr. Whittemore. “If you know your child had epilepsy, doing an autopsy really isn’t going to tell you very much. You already know they had epilepsy; you may not know the cause of the epilepsy, but an autopsy isn’t going to reveal as much as it would in children with sudden cardiac death.”
SUDEP was equally common in boys and girls. However, the SUDEP mortality rate was higher in Black children (0.32/100,000) than in White children (0.22/100,000). It’s unclear from this study why this is so, but another study that examined SUDEP rates by ZIP code suggested that the higher rate may be caused by socioeconomic factors, said Dr. Whittemore. “Black children from a lower-income family who don’t have access to care may not be getting as good treatment and so have more uncontrolled seizures, which may lead to higher incidence of SUDEP.”
SUDEP occurred at all ages, but mortality rates were highest among patients aged 0-1 year (0.53/100,000) and in those aged 14-17 years (0.31/100,000). Dr. Whittemore speculated that SUDEP rates were higher among the youngest patients because their seizures have just started, and it may be more difficult to bring them under control. In the past, some of these cases may have been classified as sudden infant death syndrome but are now recognized as SUDEP.
As for the older group, research shows that puberty can result in poorer seizure control, which may put teens at elevated risk for SUDEP, said Dr. Whittemore. She added that, as teens continue to age, SUDEP risk may continue to increase. Dr. Whittemore suggested that young adults who head off to college may stop taking their antiseizure medications or consume alcohol while taking these drugs.
Failure of arousal
The study results revealed that most SUDEP cases occurred during sleep without a witness. Dr. Whittemore believes that sleeping with one’s face in a pillow may prevent the reflex required to turn the head to breathe. “It’s sort of a failure of arousal that is potentially the underlying mechanism.”
In some cases, there are signs children had a seizure just prior to death, said Dr. Whittemore.
The researchers have now collected information for 2018 and 2019 and plan to add these data to the current 3-year results. “We will now expand our analysis to include these new numbers to make sure the trends we saw in those 3 years are continuing,” said Dr. Whittemore. The new results should help raise awareness that SUDEP is not as rare as previously believed.
Parents of children with epilepsy can take steps to help reduce the risk for SUDEP, she added. For example, they can use night monitors, and for the children at highest risk (e.g., those with Dravet syndrome), they can use an “alarm blanket” that alerts them when the child moves.
Much is still unknown
Commenting on the study, Daniel Goldenholz, MD, PhD, division of epilepsy, department of neurology, Beth Israel Deaconess Medical Center, New York, who has participated in SUDEP research, said it “raises important questions about SUDEP in children and about racial disparities in SUDEP.”
The understanding of SUDEP so far “leaves much to be desired,” said Dr. Goldenholz. “We don’t yet know why it happens, and we don’t yet know how to prevent it.” The current study “brings a couple of new data points to the table which need further validation, confirmation, and explanation.”
The Sudden Death in Young Case Registry is supported by the National Heart, Lung, and Blood Institute; the National Institute of Neurological Disorders and Stroke; and the CDC. The investigators and Dr. Goldenholz disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
– new research shows.
Just a few years ago, the message regarding SUDEP was that “it’s very rare in children so you don’t need to worry about it,” said study investigator Vicky Whittemore, PhD, program director at the National Institute of Neurological Disorders and Stroke.
These new study results should refocus the message that “the condition is rare, but not as rare as we thought it was,” she said.
The findings were presented at the American Epilepsy Society’s 74th Annual Meeting, which was held online this year because of the COVID-19 pandemic.
Population-based study
Most of the research examining the pediatric SUDEP rate in the United States is based on convenience samples, with few population-based studies.
The investigators used data from the National Institutes of Health/Centers for Disease Control and Prevention Sudden Death in the Young Case Registry. The CDC set up the registry several years ago to record cases of sudden infant death syndrome and sudden deaths in children resulting from violence, trauma, and abuse. Its mandate has since expanded, and the registry now includes data on sudden cardiac death and SUDEP in children.
The current study included children with SUDEP or cardiac/SUDEP who were aged 0-17 years from several states or jurisdictions from 2015 to 2017. Cases were deemed to be SUDEP if the patient had a history of epilepsy, with or without evidence of seizure at the time of death, but excluding status epilepticus.
Criteria for cardiac/SUDEP cases included having a family history of a heritable cardiac condition or sudden death before age 50 years, a personal history of cardiac disease, or a clinical history suggestive of a cardiac disorder, such as death during exertion.
This second category, said Dr. Whittemore, might capture children with Dravet syndrome, a type of epilepsy caused by a genetic mutation that affects both the heart and the brain. “In these cases, it’s sometimes difficult to tell if the child died due to a heart complication or due to epilepsy,” she said.
The analysis included 1,776 cases. Of these, 3% were categorized as SUDEP, and 1% were categorized as cardiac/SUDEP.
The relatively high prevalence of SUDEP was somewhat unexpected, inasmuch as previous reports estimated the rate to be 0.5%-1%, said Dr. Whittemore.
She noted that the current study is population based and included all cases of child death, whereas past reports relied on death certificates. “That probably missed a lot of deaths because they weren’t recorded accurately on the death certificate or weren’t reported in a way that anyone could ascertain that it was a death in someone that had epilepsy.”
Racial differences
Autopsy rates were lower for SUDEP (70%), compared with other categories of death in the registry (81%-100%).
In most jurisdictions, parents must give consent for an autopsy to be performed for a child, and many parents who have suffered such a sudden loss don’t want further investigation, said Dr. Whittemore. “If you know your child had epilepsy, doing an autopsy really isn’t going to tell you very much. You already know they had epilepsy; you may not know the cause of the epilepsy, but an autopsy isn’t going to reveal as much as it would in children with sudden cardiac death.”
SUDEP was equally common in boys and girls. However, the SUDEP mortality rate was higher in Black children (0.32/100,000) than in White children (0.22/100,000). It’s unclear from this study why this is so, but another study that examined SUDEP rates by ZIP code suggested that the higher rate may be caused by socioeconomic factors, said Dr. Whittemore. “Black children from a lower-income family who don’t have access to care may not be getting as good treatment and so have more uncontrolled seizures, which may lead to higher incidence of SUDEP.”
SUDEP occurred at all ages, but mortality rates were highest among patients aged 0-1 year (0.53/100,000) and in those aged 14-17 years (0.31/100,000). Dr. Whittemore speculated that SUDEP rates were higher among the youngest patients because their seizures have just started, and it may be more difficult to bring them under control. In the past, some of these cases may have been classified as sudden infant death syndrome but are now recognized as SUDEP.
As for the older group, research shows that puberty can result in poorer seizure control, which may put teens at elevated risk for SUDEP, said Dr. Whittemore. She added that, as teens continue to age, SUDEP risk may continue to increase. Dr. Whittemore suggested that young adults who head off to college may stop taking their antiseizure medications or consume alcohol while taking these drugs.
Failure of arousal
The study results revealed that most SUDEP cases occurred during sleep without a witness. Dr. Whittemore believes that sleeping with one’s face in a pillow may prevent the reflex required to turn the head to breathe. “It’s sort of a failure of arousal that is potentially the underlying mechanism.”
In some cases, there are signs children had a seizure just prior to death, said Dr. Whittemore.
The researchers have now collected information for 2018 and 2019 and plan to add these data to the current 3-year results. “We will now expand our analysis to include these new numbers to make sure the trends we saw in those 3 years are continuing,” said Dr. Whittemore. The new results should help raise awareness that SUDEP is not as rare as previously believed.
Parents of children with epilepsy can take steps to help reduce the risk for SUDEP, she added. For example, they can use night monitors, and for the children at highest risk (e.g., those with Dravet syndrome), they can use an “alarm blanket” that alerts them when the child moves.
Much is still unknown
Commenting on the study, Daniel Goldenholz, MD, PhD, division of epilepsy, department of neurology, Beth Israel Deaconess Medical Center, New York, who has participated in SUDEP research, said it “raises important questions about SUDEP in children and about racial disparities in SUDEP.”
The understanding of SUDEP so far “leaves much to be desired,” said Dr. Goldenholz. “We don’t yet know why it happens, and we don’t yet know how to prevent it.” The current study “brings a couple of new data points to the table which need further validation, confirmation, and explanation.”
The Sudden Death in Young Case Registry is supported by the National Heart, Lung, and Blood Institute; the National Institute of Neurological Disorders and Stroke; and the CDC. The investigators and Dr. Goldenholz disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
– new research shows.
Just a few years ago, the message regarding SUDEP was that “it’s very rare in children so you don’t need to worry about it,” said study investigator Vicky Whittemore, PhD, program director at the National Institute of Neurological Disorders and Stroke.
These new study results should refocus the message that “the condition is rare, but not as rare as we thought it was,” she said.
The findings were presented at the American Epilepsy Society’s 74th Annual Meeting, which was held online this year because of the COVID-19 pandemic.
Population-based study
Most of the research examining the pediatric SUDEP rate in the United States is based on convenience samples, with few population-based studies.
The investigators used data from the National Institutes of Health/Centers for Disease Control and Prevention Sudden Death in the Young Case Registry. The CDC set up the registry several years ago to record cases of sudden infant death syndrome and sudden deaths in children resulting from violence, trauma, and abuse. Its mandate has since expanded, and the registry now includes data on sudden cardiac death and SUDEP in children.
The current study included children with SUDEP or cardiac/SUDEP who were aged 0-17 years from several states or jurisdictions from 2015 to 2017. Cases were deemed to be SUDEP if the patient had a history of epilepsy, with or without evidence of seizure at the time of death, but excluding status epilepticus.
Criteria for cardiac/SUDEP cases included having a family history of a heritable cardiac condition or sudden death before age 50 years, a personal history of cardiac disease, or a clinical history suggestive of a cardiac disorder, such as death during exertion.
This second category, said Dr. Whittemore, might capture children with Dravet syndrome, a type of epilepsy caused by a genetic mutation that affects both the heart and the brain. “In these cases, it’s sometimes difficult to tell if the child died due to a heart complication or due to epilepsy,” she said.
The analysis included 1,776 cases. Of these, 3% were categorized as SUDEP, and 1% were categorized as cardiac/SUDEP.
The relatively high prevalence of SUDEP was somewhat unexpected, inasmuch as previous reports estimated the rate to be 0.5%-1%, said Dr. Whittemore.
She noted that the current study is population based and included all cases of child death, whereas past reports relied on death certificates. “That probably missed a lot of deaths because they weren’t recorded accurately on the death certificate or weren’t reported in a way that anyone could ascertain that it was a death in someone that had epilepsy.”
Racial differences
Autopsy rates were lower for SUDEP (70%), compared with other categories of death in the registry (81%-100%).
In most jurisdictions, parents must give consent for an autopsy to be performed for a child, and many parents who have suffered such a sudden loss don’t want further investigation, said Dr. Whittemore. “If you know your child had epilepsy, doing an autopsy really isn’t going to tell you very much. You already know they had epilepsy; you may not know the cause of the epilepsy, but an autopsy isn’t going to reveal as much as it would in children with sudden cardiac death.”
SUDEP was equally common in boys and girls. However, the SUDEP mortality rate was higher in Black children (0.32/100,000) than in White children (0.22/100,000). It’s unclear from this study why this is so, but another study that examined SUDEP rates by ZIP code suggested that the higher rate may be caused by socioeconomic factors, said Dr. Whittemore. “Black children from a lower-income family who don’t have access to care may not be getting as good treatment and so have more uncontrolled seizures, which may lead to higher incidence of SUDEP.”
SUDEP occurred at all ages, but mortality rates were highest among patients aged 0-1 year (0.53/100,000) and in those aged 14-17 years (0.31/100,000). Dr. Whittemore speculated that SUDEP rates were higher among the youngest patients because their seizures have just started, and it may be more difficult to bring them under control. In the past, some of these cases may have been classified as sudden infant death syndrome but are now recognized as SUDEP.
As for the older group, research shows that puberty can result in poorer seizure control, which may put teens at elevated risk for SUDEP, said Dr. Whittemore. She added that, as teens continue to age, SUDEP risk may continue to increase. Dr. Whittemore suggested that young adults who head off to college may stop taking their antiseizure medications or consume alcohol while taking these drugs.
Failure of arousal
The study results revealed that most SUDEP cases occurred during sleep without a witness. Dr. Whittemore believes that sleeping with one’s face in a pillow may prevent the reflex required to turn the head to breathe. “It’s sort of a failure of arousal that is potentially the underlying mechanism.”
In some cases, there are signs children had a seizure just prior to death, said Dr. Whittemore.
The researchers have now collected information for 2018 and 2019 and plan to add these data to the current 3-year results. “We will now expand our analysis to include these new numbers to make sure the trends we saw in those 3 years are continuing,” said Dr. Whittemore. The new results should help raise awareness that SUDEP is not as rare as previously believed.
Parents of children with epilepsy can take steps to help reduce the risk for SUDEP, she added. For example, they can use night monitors, and for the children at highest risk (e.g., those with Dravet syndrome), they can use an “alarm blanket” that alerts them when the child moves.
Much is still unknown
Commenting on the study, Daniel Goldenholz, MD, PhD, division of epilepsy, department of neurology, Beth Israel Deaconess Medical Center, New York, who has participated in SUDEP research, said it “raises important questions about SUDEP in children and about racial disparities in SUDEP.”
The understanding of SUDEP so far “leaves much to be desired,” said Dr. Goldenholz. “We don’t yet know why it happens, and we don’t yet know how to prevent it.” The current study “brings a couple of new data points to the table which need further validation, confirmation, and explanation.”
The Sudden Death in Young Case Registry is supported by the National Heart, Lung, and Blood Institute; the National Institute of Neurological Disorders and Stroke; and the CDC. The investigators and Dr. Goldenholz disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
FROM AES 2020
‘Worrisome’ rates of suicidal thoughts and behaviors in children with epilepsy
new research suggests. In a study of more than 100 youth with the disorder, more than 40% had depression, 30% had anxiety, and about 1 in 10 exhibited signs of suicidal thoughts and behaviors.
These rates “are really worrisome” and highlight the need to screen all children and young adults with epilepsy for psychiatric disorders, said study author Tatiana Falcone, MD, assistant professor of neurology and child and adolescent psychiatry at the Cleveland Clinic.
“It’s very important to screen for suicidality and for depression and anxiety, even when patients aren’t reporting symptoms,” said Dr. Falcone.
Previous research shows children with epilepsy will attend the emergency room with symptoms such as headache or stomachache “when the main reason for the visit was the kid was suicidal,” Dr. Falcone said. “Unless you ask the specific question: ‘Are you having thoughts about hurting yourself?’ this will go unreported,” she added.
The findings were presented at the American Epilepsy Society’s 74th Annual Meeting, which was held online this year because of the COVID-19 pandemic.
Red flag
Not much is known about suicidality in children and youth with epilepsy except that depression and anxiety – the most common psychiatric comorbidities in this population – appear to contribute to suicidal thoughts.
Dr. Falcone said that she and her colleagues often see children and adolescents with epilepsy in their clinic who have attempted suicide. In recent years, the clinicians have increased efforts to try to identify them before they carry out a successful suicide attempt, said lead investigator Anjali Dagar, MD, clinical research psychiatry fellow at Cleveland Clinic.
The study included 119 patients aged 10-24 years (mean age, 15.8 years; 54.6% female). All attended an epilepsy clinic or underwent testing in the pediatric epilepsy monitoring unit at the Cleveland Clinic and did not have a psychiatric diagnosis.
Epilepsy severity ranged among study participants. About half were drug resistant and were at the center for surgical evaluation and the others were newly diagnosed.
Participants filled out questionnaires to self-report psychiatric conditions. The validated screening tools included the Center for Epidemiological Studies Depression Scale for Children (CES-DC), the Screen for Child Anxiety Related Emotional Disorders (SCARED), and the Ask Suicide–Screening Questions (ASQ).
A score of 15 or higher on the CES-DC indicates a risk for depression. On the SCARED test, a score higher than 32 indicates anxiety. Recent research has shown that anxiety is a main risk factor “in moving people from contemplating suicide to actually carrying it out,” Dr. Falcone said.
The ASQ includes four questions about suicidal thoughts and whether respondents have tried to hurt themselves. Dr. Dagar noted that a positive response to any of these questions should raise a red flag.
Very high rates
Results showed that almost one-third (30.2%) of the participants scored positive for anxiety on SCARED and 41.2% scored positive for depression on the CSE-DC. These are “very high” rates, Dr. Falcone said. For comparison, the rate of reported anxiety is less than 10% in school surveys.
In addition, the Centers for Disease Control and Prevention reports about 3% of 2- to 17-year-olds in the general population have depression. Even compared with other chronic illnesses (including diabetes, heart disease, and cancer), children with epilepsy have a higher rate of depression, said Dr. Falcone.
More than 1 in 10 (10.9%) participants in the study exhibited signs of suicidality, as shown by having at least one positive response on the ASQ. “That’s a lot,” and much higher than the estimated rate in the general teen population, Dr. Falcone noted.
She noted that “these are just general kids with epilepsy” who had not been previously diagnosed with a psychiatric disorder.
“Depression, anxiety, and suicidality are very frequent comorbidities in patients with epilepsy; and even if a patient is not reporting any symptoms, we should be asking these questions to help them,” she said.
Study participants who had at least one positive response on the ASQ had a mean score of 32.1 on the SCARED, compared with a mean score of 18.3 for those who did not have a positive response on the ASQ (P = .003).
“We wanted to see if there was a direct association in our sample between anxiety and suicidal thoughts, and we found [that] yes there was,” Dr. Falcone said. There was also an association with depression. More than 26% of participants who scored 16 or higher on the CES-DC indicated at least one positive response on the ASQ. This is significantly higher than those who scored 15 or below on the CES-DC (P < .0001).
Bidirectional relationship
The findings suggest that either depression or anxiety may contribute to suicidal thoughts or behaviors, Dr. Dagar said. “It’s like two hands. It could be anxiety leading to suicidality, or it could be depression, or it could be both.”
Dr. Falcone noted that children with epilepsy who aren’t sure when they’ll get their next seizure, or who are bullied at school for being different, may be especially prone to anxiety or depression.
There’s a bit of a “chicken-and-egg” relationship between depression and epilepsy, a disorder affecting electrical signals in the brain, she said. Previous research has shown that a “bidirectional relationship” is involved.
“Even in patients with depression who are not diagnosed with epilepsy, the incidence of epilepsy is 3% higher just because you have depression,” Dr. Falcone said.
Suicidal youth tend to attempt suicide more than once. Dr. Falcone and colleagues are trying to intervene “at different levels,” be that in the hospital or as an outpatient, to prevent this from happening. “We want to find out what different things we can do to engage them and improve the probability they don’t reattempt,” she said.
All children and youth with epilepsy should be screened for anxiety, depression, and suicidal thoughts and behaviors. From age 10 years, children with epilepsy should be screened at least once a year, but those with a psychiatric disorder should be screened more often, Dr. Falcone added. The investigators note their findings need to be confirmed in larger, more diverse studies.
Importance of screening
Michael Privitera, MD, director of the Epilepsy Center and professor of neurology at the University of Cincinnati Gardner Neuroscience Institute, said the findings reinforce that, as with adults, depression and anxiety are common in children with epilepsy.
“Neurologists should take advantage of the many psychiatric screening tools available to identify these problems in their pediatric and adult patients,” Dr. Privitera said. Even more importantly, screening may help identify those who may be at highest risk of suicide.
The study was funded by the Health Resources Services Administration. The investigators and Dr. Privitera have disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
new research suggests. In a study of more than 100 youth with the disorder, more than 40% had depression, 30% had anxiety, and about 1 in 10 exhibited signs of suicidal thoughts and behaviors.
These rates “are really worrisome” and highlight the need to screen all children and young adults with epilepsy for psychiatric disorders, said study author Tatiana Falcone, MD, assistant professor of neurology and child and adolescent psychiatry at the Cleveland Clinic.
“It’s very important to screen for suicidality and for depression and anxiety, even when patients aren’t reporting symptoms,” said Dr. Falcone.
Previous research shows children with epilepsy will attend the emergency room with symptoms such as headache or stomachache “when the main reason for the visit was the kid was suicidal,” Dr. Falcone said. “Unless you ask the specific question: ‘Are you having thoughts about hurting yourself?’ this will go unreported,” she added.
The findings were presented at the American Epilepsy Society’s 74th Annual Meeting, which was held online this year because of the COVID-19 pandemic.
Red flag
Not much is known about suicidality in children and youth with epilepsy except that depression and anxiety – the most common psychiatric comorbidities in this population – appear to contribute to suicidal thoughts.
Dr. Falcone said that she and her colleagues often see children and adolescents with epilepsy in their clinic who have attempted suicide. In recent years, the clinicians have increased efforts to try to identify them before they carry out a successful suicide attempt, said lead investigator Anjali Dagar, MD, clinical research psychiatry fellow at Cleveland Clinic.
The study included 119 patients aged 10-24 years (mean age, 15.8 years; 54.6% female). All attended an epilepsy clinic or underwent testing in the pediatric epilepsy monitoring unit at the Cleveland Clinic and did not have a psychiatric diagnosis.
Epilepsy severity ranged among study participants. About half were drug resistant and were at the center for surgical evaluation and the others were newly diagnosed.
Participants filled out questionnaires to self-report psychiatric conditions. The validated screening tools included the Center for Epidemiological Studies Depression Scale for Children (CES-DC), the Screen for Child Anxiety Related Emotional Disorders (SCARED), and the Ask Suicide–Screening Questions (ASQ).
A score of 15 or higher on the CES-DC indicates a risk for depression. On the SCARED test, a score higher than 32 indicates anxiety. Recent research has shown that anxiety is a main risk factor “in moving people from contemplating suicide to actually carrying it out,” Dr. Falcone said.
The ASQ includes four questions about suicidal thoughts and whether respondents have tried to hurt themselves. Dr. Dagar noted that a positive response to any of these questions should raise a red flag.
Very high rates
Results showed that almost one-third (30.2%) of the participants scored positive for anxiety on SCARED and 41.2% scored positive for depression on the CSE-DC. These are “very high” rates, Dr. Falcone said. For comparison, the rate of reported anxiety is less than 10% in school surveys.
In addition, the Centers for Disease Control and Prevention reports about 3% of 2- to 17-year-olds in the general population have depression. Even compared with other chronic illnesses (including diabetes, heart disease, and cancer), children with epilepsy have a higher rate of depression, said Dr. Falcone.
More than 1 in 10 (10.9%) participants in the study exhibited signs of suicidality, as shown by having at least one positive response on the ASQ. “That’s a lot,” and much higher than the estimated rate in the general teen population, Dr. Falcone noted.
She noted that “these are just general kids with epilepsy” who had not been previously diagnosed with a psychiatric disorder.
“Depression, anxiety, and suicidality are very frequent comorbidities in patients with epilepsy; and even if a patient is not reporting any symptoms, we should be asking these questions to help them,” she said.
Study participants who had at least one positive response on the ASQ had a mean score of 32.1 on the SCARED, compared with a mean score of 18.3 for those who did not have a positive response on the ASQ (P = .003).
“We wanted to see if there was a direct association in our sample between anxiety and suicidal thoughts, and we found [that] yes there was,” Dr. Falcone said. There was also an association with depression. More than 26% of participants who scored 16 or higher on the CES-DC indicated at least one positive response on the ASQ. This is significantly higher than those who scored 15 or below on the CES-DC (P < .0001).
Bidirectional relationship
The findings suggest that either depression or anxiety may contribute to suicidal thoughts or behaviors, Dr. Dagar said. “It’s like two hands. It could be anxiety leading to suicidality, or it could be depression, or it could be both.”
Dr. Falcone noted that children with epilepsy who aren’t sure when they’ll get their next seizure, or who are bullied at school for being different, may be especially prone to anxiety or depression.
There’s a bit of a “chicken-and-egg” relationship between depression and epilepsy, a disorder affecting electrical signals in the brain, she said. Previous research has shown that a “bidirectional relationship” is involved.
“Even in patients with depression who are not diagnosed with epilepsy, the incidence of epilepsy is 3% higher just because you have depression,” Dr. Falcone said.
Suicidal youth tend to attempt suicide more than once. Dr. Falcone and colleagues are trying to intervene “at different levels,” be that in the hospital or as an outpatient, to prevent this from happening. “We want to find out what different things we can do to engage them and improve the probability they don’t reattempt,” she said.
All children and youth with epilepsy should be screened for anxiety, depression, and suicidal thoughts and behaviors. From age 10 years, children with epilepsy should be screened at least once a year, but those with a psychiatric disorder should be screened more often, Dr. Falcone added. The investigators note their findings need to be confirmed in larger, more diverse studies.
Importance of screening
Michael Privitera, MD, director of the Epilepsy Center and professor of neurology at the University of Cincinnati Gardner Neuroscience Institute, said the findings reinforce that, as with adults, depression and anxiety are common in children with epilepsy.
“Neurologists should take advantage of the many psychiatric screening tools available to identify these problems in their pediatric and adult patients,” Dr. Privitera said. Even more importantly, screening may help identify those who may be at highest risk of suicide.
The study was funded by the Health Resources Services Administration. The investigators and Dr. Privitera have disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
new research suggests. In a study of more than 100 youth with the disorder, more than 40% had depression, 30% had anxiety, and about 1 in 10 exhibited signs of suicidal thoughts and behaviors.
These rates “are really worrisome” and highlight the need to screen all children and young adults with epilepsy for psychiatric disorders, said study author Tatiana Falcone, MD, assistant professor of neurology and child and adolescent psychiatry at the Cleveland Clinic.
“It’s very important to screen for suicidality and for depression and anxiety, even when patients aren’t reporting symptoms,” said Dr. Falcone.
Previous research shows children with epilepsy will attend the emergency room with symptoms such as headache or stomachache “when the main reason for the visit was the kid was suicidal,” Dr. Falcone said. “Unless you ask the specific question: ‘Are you having thoughts about hurting yourself?’ this will go unreported,” she added.
The findings were presented at the American Epilepsy Society’s 74th Annual Meeting, which was held online this year because of the COVID-19 pandemic.
Red flag
Not much is known about suicidality in children and youth with epilepsy except that depression and anxiety – the most common psychiatric comorbidities in this population – appear to contribute to suicidal thoughts.
Dr. Falcone said that she and her colleagues often see children and adolescents with epilepsy in their clinic who have attempted suicide. In recent years, the clinicians have increased efforts to try to identify them before they carry out a successful suicide attempt, said lead investigator Anjali Dagar, MD, clinical research psychiatry fellow at Cleveland Clinic.
The study included 119 patients aged 10-24 years (mean age, 15.8 years; 54.6% female). All attended an epilepsy clinic or underwent testing in the pediatric epilepsy monitoring unit at the Cleveland Clinic and did not have a psychiatric diagnosis.
Epilepsy severity ranged among study participants. About half were drug resistant and were at the center for surgical evaluation and the others were newly diagnosed.
Participants filled out questionnaires to self-report psychiatric conditions. The validated screening tools included the Center for Epidemiological Studies Depression Scale for Children (CES-DC), the Screen for Child Anxiety Related Emotional Disorders (SCARED), and the Ask Suicide–Screening Questions (ASQ).
A score of 15 or higher on the CES-DC indicates a risk for depression. On the SCARED test, a score higher than 32 indicates anxiety. Recent research has shown that anxiety is a main risk factor “in moving people from contemplating suicide to actually carrying it out,” Dr. Falcone said.
The ASQ includes four questions about suicidal thoughts and whether respondents have tried to hurt themselves. Dr. Dagar noted that a positive response to any of these questions should raise a red flag.
Very high rates
Results showed that almost one-third (30.2%) of the participants scored positive for anxiety on SCARED and 41.2% scored positive for depression on the CSE-DC. These are “very high” rates, Dr. Falcone said. For comparison, the rate of reported anxiety is less than 10% in school surveys.
In addition, the Centers for Disease Control and Prevention reports about 3% of 2- to 17-year-olds in the general population have depression. Even compared with other chronic illnesses (including diabetes, heart disease, and cancer), children with epilepsy have a higher rate of depression, said Dr. Falcone.
More than 1 in 10 (10.9%) participants in the study exhibited signs of suicidality, as shown by having at least one positive response on the ASQ. “That’s a lot,” and much higher than the estimated rate in the general teen population, Dr. Falcone noted.
She noted that “these are just general kids with epilepsy” who had not been previously diagnosed with a psychiatric disorder.
“Depression, anxiety, and suicidality are very frequent comorbidities in patients with epilepsy; and even if a patient is not reporting any symptoms, we should be asking these questions to help them,” she said.
Study participants who had at least one positive response on the ASQ had a mean score of 32.1 on the SCARED, compared with a mean score of 18.3 for those who did not have a positive response on the ASQ (P = .003).
“We wanted to see if there was a direct association in our sample between anxiety and suicidal thoughts, and we found [that] yes there was,” Dr. Falcone said. There was also an association with depression. More than 26% of participants who scored 16 or higher on the CES-DC indicated at least one positive response on the ASQ. This is significantly higher than those who scored 15 or below on the CES-DC (P < .0001).
Bidirectional relationship
The findings suggest that either depression or anxiety may contribute to suicidal thoughts or behaviors, Dr. Dagar said. “It’s like two hands. It could be anxiety leading to suicidality, or it could be depression, or it could be both.”
Dr. Falcone noted that children with epilepsy who aren’t sure when they’ll get their next seizure, or who are bullied at school for being different, may be especially prone to anxiety or depression.
There’s a bit of a “chicken-and-egg” relationship between depression and epilepsy, a disorder affecting electrical signals in the brain, she said. Previous research has shown that a “bidirectional relationship” is involved.
“Even in patients with depression who are not diagnosed with epilepsy, the incidence of epilepsy is 3% higher just because you have depression,” Dr. Falcone said.
Suicidal youth tend to attempt suicide more than once. Dr. Falcone and colleagues are trying to intervene “at different levels,” be that in the hospital or as an outpatient, to prevent this from happening. “We want to find out what different things we can do to engage them and improve the probability they don’t reattempt,” she said.
All children and youth with epilepsy should be screened for anxiety, depression, and suicidal thoughts and behaviors. From age 10 years, children with epilepsy should be screened at least once a year, but those with a psychiatric disorder should be screened more often, Dr. Falcone added. The investigators note their findings need to be confirmed in larger, more diverse studies.
Importance of screening
Michael Privitera, MD, director of the Epilepsy Center and professor of neurology at the University of Cincinnati Gardner Neuroscience Institute, said the findings reinforce that, as with adults, depression and anxiety are common in children with epilepsy.
“Neurologists should take advantage of the many psychiatric screening tools available to identify these problems in their pediatric and adult patients,” Dr. Privitera said. Even more importantly, screening may help identify those who may be at highest risk of suicide.
The study was funded by the Health Resources Services Administration. The investigators and Dr. Privitera have disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
FROM AES 2020
First guidelines for keto diets in adults with epilepsy released
Just as in children with epilepsy, ketogenic diet therapies can be safe and effective in adults with epilepsy but should only be undertaken with the support of medical professionals trained in their use, the group said.
“Motivation is the key to successful ketogenic diet therapy adherence,” first author Mackenzie Cervenka, MD, director of the Adult Epilepsy Diet Center and associate professor of neurology at Johns Hopkins University, Baltimore, said in an interview.
“Patients who are autonomous require self-motivation and having a strong support structure is important as well. For those patients who are dependents, their caregivers need to be motivated to manage their diet,” said Dr. Cervenka.
The guidelines were published online Oct. 30 in Neurology Clinical Practice.
Novel in adult neurology
Ketogenic diet therapies are high-fat, low-carbohydrate, and adequate-protein diets that induce fat metabolism and ketone production. Despite its use as an effective antiseizure therapy since the 1920s, ketogenic diet therapies remain novel in adult neurology.
Furthermore, while there are established guidelines for ketogenic diet therapies to reduce seizures in children, there were no formal recommendations for adults, until now.
Drawing on the experience of experts at 20 centers using ketogenic diet therapies in more than 2,100 adults with epilepsy in 10 countries, Dr. Cervenka and an international team developed recommendations on use of ketogenic diet therapies in adults.
The panel noted, “with a relatively mild side effect profile and the potential to reduce seizures in nearly 60% of adults with drug-resistant epilepsy, ketogenic diet therapies should be part of the repertoire of available options.”
Ketogenic diet therapies are appropriate to offer to adults with seizure types and epilepsy syndromes for which these treatments are known to be effective in children, they said. These include tuberous sclerosis complex, Rett syndrome, Lennox-Gastaut syndrome, glucose transporter type 1 deficiency syndrome, genetic generalized epilepsies, and focal epilepsies caused by underlying migrational disorders and resistant to antiseizure medication.
However, adults with drug-resistant focal epilepsy should be offered surgical evaluation first, given the higher anticipated rate of seizure freedom via this route, the panel said.
A focus on compliance
Experts at nearly all of the centers report using two or more ketogenic diet therapies. Ninety percent use the modified Atkins diet, 84% use the classic ketogenic diet, and 63% use the modified ketogenic diet and/or low glycemic index treatment. More than half of the centers (58%) use medium-chain triglyceride oil in combination with another ketogenic diet therapy to boost ketone body production.
The most important factors influencing the choice of ketogenic diet therapy are ease of diet application for the patient (100%) and patient and/or caregiver preference, home setting, and mode of feeding (90% each).
The panel recommended that ketogenic diet therapies be tailored to fit the needs of the individual, taking into account his or her physical and mental characteristics, underlying medical conditions, food preferences, type and amount of support from family and others, level of self-sufficiency, feeding habits, and ease of following the diet.
“Most of the differences between the child and adult recommendations have to do with compliance. Often, it’s more of a challenge for adults than for children,” said Dr. Cervenka.
The panel recommended providing adult patients with recipe ideas, individualized training on the ketogenic diet lifestyle from a dietitian or nutritionist, and guidance for meal planning and preparation before starting the diet. This will provide the greatest likelihood of success, as patients often report difficulties coping with carbohydrate restriction.
“In pediatric practice, positive responders typically remain on a ketogenic diet therapy for 2 years before considering weaning. Ketogenic diet therapy in adults is not time-limited. However, a minimum of 3 months of ketogenic diet therapy is recommended before any judgment of response is made,” the panel advised.
The panel pointed out the absolute metabolic contraindications and cautions related to feeding difficulties, gastrointestinal dysfunction, and digestion remain the same for both children and adults. However, they added that a range of common adult conditions such as hyperlipidemia, heart disease, diabetes, low bone density, and pregnancy “bring additional consideration, caution, and monitoring to ketogenic diet therapy use.”
Beyond epilepsy
The guidelines also call for pre–ketogenic diet therapy biochemical studies to screen adults for preexisting abnormalities and establish a reference for comparing follow-up results after 3, 6, and 12 months, and then annually or as needed.
They also noted that metabolic studies such as urine organic acid and serum amino acid levels are generally not needed in adults unless there is a strong clinical suspicion for an underlying metabolic disorder.
Updated genetic evaluation may also be considered in adults with intellectual disability and epilepsy of unknown etiology. Serial bone mineral density scans may be obtained every 5 years.
The guidelines also call for ketone monitoring (blood beta-hydroxybutyrate or urine amino acids) during the early months of ketogenic diet therapy as an objective indication of compliance and biochemical response.
Dietary adjustments should focus on optimizing the treatment response, minimizing side effects, and maximizing sustainability.
Adults on a ketogenic diet therapy should also be advised to take multivitamin and mineral supplements and drink plenty of fluids.
The panel said emerging evidence also supports the use of ketogenic diet therapies in other adult neurologic disorders such as migraine, Parkinson’s disease, dementia, and multiple sclerosis.
However, the panel said further evidence is needed to guide recommendations on use of ketogenic diet therapies in other neurologic conditions.
The research had no targeted funding. Dr. Cervenka has reported receiving grants from Nutricia, Vitaflo, BrightFocus Foundation, and Army Research Laboratory; honoraria from the American Epilepsy Society, the Neurology Center, Epigenix, LivaNova, and Nutricia; royalties from Demos; and consulting for Nutricia, Glut1 Deficiency Foundation, and Sage Therapeutics. Disclosures for the other authors are listed in the article.
A version of this article originally appeared on Medscape.com.
Just as in children with epilepsy, ketogenic diet therapies can be safe and effective in adults with epilepsy but should only be undertaken with the support of medical professionals trained in their use, the group said.
“Motivation is the key to successful ketogenic diet therapy adherence,” first author Mackenzie Cervenka, MD, director of the Adult Epilepsy Diet Center and associate professor of neurology at Johns Hopkins University, Baltimore, said in an interview.
“Patients who are autonomous require self-motivation and having a strong support structure is important as well. For those patients who are dependents, their caregivers need to be motivated to manage their diet,” said Dr. Cervenka.
The guidelines were published online Oct. 30 in Neurology Clinical Practice.
Novel in adult neurology
Ketogenic diet therapies are high-fat, low-carbohydrate, and adequate-protein diets that induce fat metabolism and ketone production. Despite its use as an effective antiseizure therapy since the 1920s, ketogenic diet therapies remain novel in adult neurology.
Furthermore, while there are established guidelines for ketogenic diet therapies to reduce seizures in children, there were no formal recommendations for adults, until now.
Drawing on the experience of experts at 20 centers using ketogenic diet therapies in more than 2,100 adults with epilepsy in 10 countries, Dr. Cervenka and an international team developed recommendations on use of ketogenic diet therapies in adults.
The panel noted, “with a relatively mild side effect profile and the potential to reduce seizures in nearly 60% of adults with drug-resistant epilepsy, ketogenic diet therapies should be part of the repertoire of available options.”
Ketogenic diet therapies are appropriate to offer to adults with seizure types and epilepsy syndromes for which these treatments are known to be effective in children, they said. These include tuberous sclerosis complex, Rett syndrome, Lennox-Gastaut syndrome, glucose transporter type 1 deficiency syndrome, genetic generalized epilepsies, and focal epilepsies caused by underlying migrational disorders and resistant to antiseizure medication.
However, adults with drug-resistant focal epilepsy should be offered surgical evaluation first, given the higher anticipated rate of seizure freedom via this route, the panel said.
A focus on compliance
Experts at nearly all of the centers report using two or more ketogenic diet therapies. Ninety percent use the modified Atkins diet, 84% use the classic ketogenic diet, and 63% use the modified ketogenic diet and/or low glycemic index treatment. More than half of the centers (58%) use medium-chain triglyceride oil in combination with another ketogenic diet therapy to boost ketone body production.
The most important factors influencing the choice of ketogenic diet therapy are ease of diet application for the patient (100%) and patient and/or caregiver preference, home setting, and mode of feeding (90% each).
The panel recommended that ketogenic diet therapies be tailored to fit the needs of the individual, taking into account his or her physical and mental characteristics, underlying medical conditions, food preferences, type and amount of support from family and others, level of self-sufficiency, feeding habits, and ease of following the diet.
“Most of the differences between the child and adult recommendations have to do with compliance. Often, it’s more of a challenge for adults than for children,” said Dr. Cervenka.
The panel recommended providing adult patients with recipe ideas, individualized training on the ketogenic diet lifestyle from a dietitian or nutritionist, and guidance for meal planning and preparation before starting the diet. This will provide the greatest likelihood of success, as patients often report difficulties coping with carbohydrate restriction.
“In pediatric practice, positive responders typically remain on a ketogenic diet therapy for 2 years before considering weaning. Ketogenic diet therapy in adults is not time-limited. However, a minimum of 3 months of ketogenic diet therapy is recommended before any judgment of response is made,” the panel advised.
The panel pointed out the absolute metabolic contraindications and cautions related to feeding difficulties, gastrointestinal dysfunction, and digestion remain the same for both children and adults. However, they added that a range of common adult conditions such as hyperlipidemia, heart disease, diabetes, low bone density, and pregnancy “bring additional consideration, caution, and monitoring to ketogenic diet therapy use.”
Beyond epilepsy
The guidelines also call for pre–ketogenic diet therapy biochemical studies to screen adults for preexisting abnormalities and establish a reference for comparing follow-up results after 3, 6, and 12 months, and then annually or as needed.
They also noted that metabolic studies such as urine organic acid and serum amino acid levels are generally not needed in adults unless there is a strong clinical suspicion for an underlying metabolic disorder.
Updated genetic evaluation may also be considered in adults with intellectual disability and epilepsy of unknown etiology. Serial bone mineral density scans may be obtained every 5 years.
The guidelines also call for ketone monitoring (blood beta-hydroxybutyrate or urine amino acids) during the early months of ketogenic diet therapy as an objective indication of compliance and biochemical response.
Dietary adjustments should focus on optimizing the treatment response, minimizing side effects, and maximizing sustainability.
Adults on a ketogenic diet therapy should also be advised to take multivitamin and mineral supplements and drink plenty of fluids.
The panel said emerging evidence also supports the use of ketogenic diet therapies in other adult neurologic disorders such as migraine, Parkinson’s disease, dementia, and multiple sclerosis.
However, the panel said further evidence is needed to guide recommendations on use of ketogenic diet therapies in other neurologic conditions.
The research had no targeted funding. Dr. Cervenka has reported receiving grants from Nutricia, Vitaflo, BrightFocus Foundation, and Army Research Laboratory; honoraria from the American Epilepsy Society, the Neurology Center, Epigenix, LivaNova, and Nutricia; royalties from Demos; and consulting for Nutricia, Glut1 Deficiency Foundation, and Sage Therapeutics. Disclosures for the other authors are listed in the article.
A version of this article originally appeared on Medscape.com.
Just as in children with epilepsy, ketogenic diet therapies can be safe and effective in adults with epilepsy but should only be undertaken with the support of medical professionals trained in their use, the group said.
“Motivation is the key to successful ketogenic diet therapy adherence,” first author Mackenzie Cervenka, MD, director of the Adult Epilepsy Diet Center and associate professor of neurology at Johns Hopkins University, Baltimore, said in an interview.
“Patients who are autonomous require self-motivation and having a strong support structure is important as well. For those patients who are dependents, their caregivers need to be motivated to manage their diet,” said Dr. Cervenka.
The guidelines were published online Oct. 30 in Neurology Clinical Practice.
Novel in adult neurology
Ketogenic diet therapies are high-fat, low-carbohydrate, and adequate-protein diets that induce fat metabolism and ketone production. Despite its use as an effective antiseizure therapy since the 1920s, ketogenic diet therapies remain novel in adult neurology.
Furthermore, while there are established guidelines for ketogenic diet therapies to reduce seizures in children, there were no formal recommendations for adults, until now.
Drawing on the experience of experts at 20 centers using ketogenic diet therapies in more than 2,100 adults with epilepsy in 10 countries, Dr. Cervenka and an international team developed recommendations on use of ketogenic diet therapies in adults.
The panel noted, “with a relatively mild side effect profile and the potential to reduce seizures in nearly 60% of adults with drug-resistant epilepsy, ketogenic diet therapies should be part of the repertoire of available options.”
Ketogenic diet therapies are appropriate to offer to adults with seizure types and epilepsy syndromes for which these treatments are known to be effective in children, they said. These include tuberous sclerosis complex, Rett syndrome, Lennox-Gastaut syndrome, glucose transporter type 1 deficiency syndrome, genetic generalized epilepsies, and focal epilepsies caused by underlying migrational disorders and resistant to antiseizure medication.
However, adults with drug-resistant focal epilepsy should be offered surgical evaluation first, given the higher anticipated rate of seizure freedom via this route, the panel said.
A focus on compliance
Experts at nearly all of the centers report using two or more ketogenic diet therapies. Ninety percent use the modified Atkins diet, 84% use the classic ketogenic diet, and 63% use the modified ketogenic diet and/or low glycemic index treatment. More than half of the centers (58%) use medium-chain triglyceride oil in combination with another ketogenic diet therapy to boost ketone body production.
The most important factors influencing the choice of ketogenic diet therapy are ease of diet application for the patient (100%) and patient and/or caregiver preference, home setting, and mode of feeding (90% each).
The panel recommended that ketogenic diet therapies be tailored to fit the needs of the individual, taking into account his or her physical and mental characteristics, underlying medical conditions, food preferences, type and amount of support from family and others, level of self-sufficiency, feeding habits, and ease of following the diet.
“Most of the differences between the child and adult recommendations have to do with compliance. Often, it’s more of a challenge for adults than for children,” said Dr. Cervenka.
The panel recommended providing adult patients with recipe ideas, individualized training on the ketogenic diet lifestyle from a dietitian or nutritionist, and guidance for meal planning and preparation before starting the diet. This will provide the greatest likelihood of success, as patients often report difficulties coping with carbohydrate restriction.
“In pediatric practice, positive responders typically remain on a ketogenic diet therapy for 2 years before considering weaning. Ketogenic diet therapy in adults is not time-limited. However, a minimum of 3 months of ketogenic diet therapy is recommended before any judgment of response is made,” the panel advised.
The panel pointed out the absolute metabolic contraindications and cautions related to feeding difficulties, gastrointestinal dysfunction, and digestion remain the same for both children and adults. However, they added that a range of common adult conditions such as hyperlipidemia, heart disease, diabetes, low bone density, and pregnancy “bring additional consideration, caution, and monitoring to ketogenic diet therapy use.”
Beyond epilepsy
The guidelines also call for pre–ketogenic diet therapy biochemical studies to screen adults for preexisting abnormalities and establish a reference for comparing follow-up results after 3, 6, and 12 months, and then annually or as needed.
They also noted that metabolic studies such as urine organic acid and serum amino acid levels are generally not needed in adults unless there is a strong clinical suspicion for an underlying metabolic disorder.
Updated genetic evaluation may also be considered in adults with intellectual disability and epilepsy of unknown etiology. Serial bone mineral density scans may be obtained every 5 years.
The guidelines also call for ketone monitoring (blood beta-hydroxybutyrate or urine amino acids) during the early months of ketogenic diet therapy as an objective indication of compliance and biochemical response.
Dietary adjustments should focus on optimizing the treatment response, minimizing side effects, and maximizing sustainability.
Adults on a ketogenic diet therapy should also be advised to take multivitamin and mineral supplements and drink plenty of fluids.
The panel said emerging evidence also supports the use of ketogenic diet therapies in other adult neurologic disorders such as migraine, Parkinson’s disease, dementia, and multiple sclerosis.
However, the panel said further evidence is needed to guide recommendations on use of ketogenic diet therapies in other neurologic conditions.
The research had no targeted funding. Dr. Cervenka has reported receiving grants from Nutricia, Vitaflo, BrightFocus Foundation, and Army Research Laboratory; honoraria from the American Epilepsy Society, the Neurology Center, Epigenix, LivaNova, and Nutricia; royalties from Demos; and consulting for Nutricia, Glut1 Deficiency Foundation, and Sage Therapeutics. Disclosures for the other authors are listed in the article.
A version of this article originally appeared on Medscape.com.
Late-onset epilepsy tied to a threefold increased dementia risk
Results of a retrospective analysis show that patients who develop epilepsy at age 67 or older have a threefold increased risk of subsequent dementia versus their counterparts without epilepsy.
“This is an exciting area, as we are finding that just as the risk of seizures is increased in neurodegenerative diseases, the risk of dementia is increased after late-onset epilepsy and seizures,” study investigator Emily L. Johnson, MD, assistant professor of neurology at Johns Hopkins University, Baltimore, said in an interview. “Several other cohort studies are finding similar results, including the Veterans’ Health Study and the Framingham Study,” she added.
The study was published online Oct. 23 in Neurology
Bidirectional relationship?
Previous research has established that dementia is a risk factor for epilepsy, but recent studies also suggest an increased risk of incident dementia among patients with adult-onset epilepsy. Several risk factors for late-onset epilepsy, including diabetes and hypertension, also are risk factors for dementia. However, the effect of late-onset epilepsy on dementia risk in patients with these comorbidities has not been clarified.
To investigate, the researchers examined data from the Atherosclerosis Risk in Communities (ARIC) study. Participants include Black and White men and women from four U.S. communities. Baseline visits in this longitudinal cohort study began between 1987 and 1989, and follow-up included seven additional visits and regular phone calls.
The investigators identified participants with late-onset epilepsy by searching for Medicare claims related to seizures or epilepsy filed between 1991 and 2015. Those with two or more such claims and age of onset of 67 years or greater were considered to have late-onset epilepsy. Participants with preexisting conditions such as brain tumors or multiple sclerosis were excluded.
ARIC participants who presented in person for visits 2, 4, 5, and 6 underwent cognitive testing with the Delayed Word Recall Test, the Digit Symbol Substitution Test, and the Word Fluency Test.
Testing at visits 5 and 6 also included other tests, such as the Mini-Mental State Examination, the Boston Naming test, and the Wechsler Memory Scale-III. Dr. Johnson and colleagues excluded data for visit 7 from the analysis because dementia adjudication was not yet complete.
The researchers identified participants with dementia using data from visits 5 and 6 and ascertained time of dementia onset through participant and informant interviews, phone calls, and hospital discharge data. Participants also were screened for mild cognitive impairment (MCI) at visits 5 and 6.
Data were analyzed using a Cox proportional hazards model and multinomial logistic regression. In subsequent analyses, researchers adjusted the data for age, sex, race, smoking status, alcohol use, hypertension, diabetes, body mass index (BMI), APOE4 status, and prevalent stroke.
The researchers found that of 9,033 study participants, 671 had late-onset epilepsy. The late-onset epilepsy group was older at baseline (56.5 vs. 55.1 years) and more likely to have hypertension (38.9% vs. 33.3%), diabetes (16.1% vs. 9.6%), and two alleles of APOE4 genotype (3.9% vs. 2.5%), compared with those without the disorder.
In all, 1,687 participants developed dementia during follow-up. The rate of incident dementia was 41.6% in participants with late-onset epilepsy and 16.8% in participants without late-onset epilepsy. The adjusted hazard ratio of subsequent dementia in participants with late-onset epilepsy versus those without the disorder was 3.05 (95% confidence interval, 2.65-3.51).
The median time to dementia ascertainment after late-onset epilepsy was 3.66 years.
Counterintuitive finding
The relationship between late-onset epilepsy and subsequent dementia was stronger in patients without stroke. The investigators offered a possible explanation for this counterintuitive finding. “We observed an interaction between [late-onset epilepsy] and stroke, with a lower (but still substantial) association between [late-onset epilepsy] and dementia in those with a history of stroke. This may be due to the known strong association between stroke and dementia, which may wash out the contributions of [late-onset epilepsy] to cognitive impairment,” the researchers wrote.
“There may also be under-capturing of dementia diagnoses among participants with stroke in the ascertainment from [Centers for Medicare & Medicaid Services] codes, as physicians may be reluctant to make a separate code for ‘dementia’ in those with cognitive impairment after stroke,” they added.
When the researchers restricted the analysis only to participants who attended visits 5 and 6 and had late-onset epilepsy ascertainment available, they found that the relative risk ratio for dementia at visit 6 was 2.90 (95% CI, 1.22-6.92; P = .009). The RRR for MCI was 0.97 (95% CI, 0.39-2.38; P = .803). The greater functional impairment in patients with late-onset epilepsy may explain the lack of a relationship between late-onset epilepsy and MCI.
“It will be important for neurologists to be aware of the possibility of cognitive impairment following late-onset epilepsy and to check in with patients and family members to see if there are concerns,” said Dr. Johnson.
“We should also be talking about the importance of lowering other risk factors for dementia by making sure cardiovascular risk factors are controlled and encouraging physical and cognitive activity,” she added.
The results require confirmation in a clinical population, the investigators noted. In addition, future research is necessary to clarify whether seizures directly increase the risk of dementia or whether shared neuropathology between epilepsy and dementia explains the risk.
“In the near future, I plan to enroll participants with late-onset epilepsy in an observational study to better understand factors that may contribute to cognitive change. Collaborations will be key as we seek to further understand what causes these changes and what could be done to prevent them,” Dr. Johnson added.
Strengths and weaknesses
In an accompanying editorial, W. Allen Hauser, MD, professor emeritus of neurology and epidemiology at Columbia University in New York, and colleagues noted that the findings support a bidirectional relationship between dementia and epilepsy, adding that accumulation of amyloid beta peptide is a plausible underlying pathophysiology that may explain this relationship.
Future research should clarify the effect of factors such as seizure type, seizure frequency, and age of onset on the risk of dementia among patients with epilepsy, the editorialists wrote. Such investigations could help elucidate the underlying mechanisms of these conditions and help to improve treatment, they added.
Commenting on the findings, Ilo Leppik, MD, professor of neurology and pharmacy at the University of Minnesota in Minneapolis described the research as “a very well-done study by qualified researchers in the field. … For the last century, medicine has unfortunately become compartmentalized by specialty and then subspecialty. The brain and disorders of the brain do not recognize these silos. … It is not a stretch of the known science to begin to understand that epilepsy and dementia have common anatomical and physiological underpinnings.”
The long period of prospectively gathering data and the measurement of cognitive function through various modalities are among the study’s great strengths, said Dr. Leppik. However, the study’s weakness is its reliance on Medicare claims data, which mainly would reflect convulsive seizures.
“What is missing is how many persons had subtle focal-unaware seizures that may not be identified unless a careful history is taken,” said Dr. Leppik. “Thus, this study likely underestimates the frequency of epilepsy.”
Neurologists who evaluate a person with early dementia should be on the lookout for a history of subtle seizures, said Dr. Leppik. Animal studies suggest treatment with levetiracetam or brivaracetam may slow the course of dementia, and a clinical study in participants with early dementia is underway.
“Treatment with an antiseizure drug may prove to be beneficial, especially if evidence for the presence of subtle epilepsy can be found,” Dr. Leppik added.
Greater collaboration between epileptologists and dementia specialists and larger studies of antiseizure drugs are necessary, he noted. “These studies can incorporate sophisticated structural and biochemical [analyses] to better identify the relationships between brain mechanisms that likely underlie both seizures and dementia. The ultimate promise is that early treatment of seizures may alter the course of dementia,” Dr. Leppik said.
The study by Dr. Johnson and colleagues was supported by a contract from the National Institute on Aging; ARIC from the National Heart, Lung, and Blood Institute; the National Institutes of Health; and the Department of Health & Human Services. The authors and Dr. Leppik have disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
Results of a retrospective analysis show that patients who develop epilepsy at age 67 or older have a threefold increased risk of subsequent dementia versus their counterparts without epilepsy.
“This is an exciting area, as we are finding that just as the risk of seizures is increased in neurodegenerative diseases, the risk of dementia is increased after late-onset epilepsy and seizures,” study investigator Emily L. Johnson, MD, assistant professor of neurology at Johns Hopkins University, Baltimore, said in an interview. “Several other cohort studies are finding similar results, including the Veterans’ Health Study and the Framingham Study,” she added.
The study was published online Oct. 23 in Neurology
Bidirectional relationship?
Previous research has established that dementia is a risk factor for epilepsy, but recent studies also suggest an increased risk of incident dementia among patients with adult-onset epilepsy. Several risk factors for late-onset epilepsy, including diabetes and hypertension, also are risk factors for dementia. However, the effect of late-onset epilepsy on dementia risk in patients with these comorbidities has not been clarified.
To investigate, the researchers examined data from the Atherosclerosis Risk in Communities (ARIC) study. Participants include Black and White men and women from four U.S. communities. Baseline visits in this longitudinal cohort study began between 1987 and 1989, and follow-up included seven additional visits and regular phone calls.
The investigators identified participants with late-onset epilepsy by searching for Medicare claims related to seizures or epilepsy filed between 1991 and 2015. Those with two or more such claims and age of onset of 67 years or greater were considered to have late-onset epilepsy. Participants with preexisting conditions such as brain tumors or multiple sclerosis were excluded.
ARIC participants who presented in person for visits 2, 4, 5, and 6 underwent cognitive testing with the Delayed Word Recall Test, the Digit Symbol Substitution Test, and the Word Fluency Test.
Testing at visits 5 and 6 also included other tests, such as the Mini-Mental State Examination, the Boston Naming test, and the Wechsler Memory Scale-III. Dr. Johnson and colleagues excluded data for visit 7 from the analysis because dementia adjudication was not yet complete.
The researchers identified participants with dementia using data from visits 5 and 6 and ascertained time of dementia onset through participant and informant interviews, phone calls, and hospital discharge data. Participants also were screened for mild cognitive impairment (MCI) at visits 5 and 6.
Data were analyzed using a Cox proportional hazards model and multinomial logistic regression. In subsequent analyses, researchers adjusted the data for age, sex, race, smoking status, alcohol use, hypertension, diabetes, body mass index (BMI), APOE4 status, and prevalent stroke.
The researchers found that of 9,033 study participants, 671 had late-onset epilepsy. The late-onset epilepsy group was older at baseline (56.5 vs. 55.1 years) and more likely to have hypertension (38.9% vs. 33.3%), diabetes (16.1% vs. 9.6%), and two alleles of APOE4 genotype (3.9% vs. 2.5%), compared with those without the disorder.
In all, 1,687 participants developed dementia during follow-up. The rate of incident dementia was 41.6% in participants with late-onset epilepsy and 16.8% in participants without late-onset epilepsy. The adjusted hazard ratio of subsequent dementia in participants with late-onset epilepsy versus those without the disorder was 3.05 (95% confidence interval, 2.65-3.51).
The median time to dementia ascertainment after late-onset epilepsy was 3.66 years.
Counterintuitive finding
The relationship between late-onset epilepsy and subsequent dementia was stronger in patients without stroke. The investigators offered a possible explanation for this counterintuitive finding. “We observed an interaction between [late-onset epilepsy] and stroke, with a lower (but still substantial) association between [late-onset epilepsy] and dementia in those with a history of stroke. This may be due to the known strong association between stroke and dementia, which may wash out the contributions of [late-onset epilepsy] to cognitive impairment,” the researchers wrote.
“There may also be under-capturing of dementia diagnoses among participants with stroke in the ascertainment from [Centers for Medicare & Medicaid Services] codes, as physicians may be reluctant to make a separate code for ‘dementia’ in those with cognitive impairment after stroke,” they added.
When the researchers restricted the analysis only to participants who attended visits 5 and 6 and had late-onset epilepsy ascertainment available, they found that the relative risk ratio for dementia at visit 6 was 2.90 (95% CI, 1.22-6.92; P = .009). The RRR for MCI was 0.97 (95% CI, 0.39-2.38; P = .803). The greater functional impairment in patients with late-onset epilepsy may explain the lack of a relationship between late-onset epilepsy and MCI.
“It will be important for neurologists to be aware of the possibility of cognitive impairment following late-onset epilepsy and to check in with patients and family members to see if there are concerns,” said Dr. Johnson.
“We should also be talking about the importance of lowering other risk factors for dementia by making sure cardiovascular risk factors are controlled and encouraging physical and cognitive activity,” she added.
The results require confirmation in a clinical population, the investigators noted. In addition, future research is necessary to clarify whether seizures directly increase the risk of dementia or whether shared neuropathology between epilepsy and dementia explains the risk.
“In the near future, I plan to enroll participants with late-onset epilepsy in an observational study to better understand factors that may contribute to cognitive change. Collaborations will be key as we seek to further understand what causes these changes and what could be done to prevent them,” Dr. Johnson added.
Strengths and weaknesses
In an accompanying editorial, W. Allen Hauser, MD, professor emeritus of neurology and epidemiology at Columbia University in New York, and colleagues noted that the findings support a bidirectional relationship between dementia and epilepsy, adding that accumulation of amyloid beta peptide is a plausible underlying pathophysiology that may explain this relationship.
Future research should clarify the effect of factors such as seizure type, seizure frequency, and age of onset on the risk of dementia among patients with epilepsy, the editorialists wrote. Such investigations could help elucidate the underlying mechanisms of these conditions and help to improve treatment, they added.
Commenting on the findings, Ilo Leppik, MD, professor of neurology and pharmacy at the University of Minnesota in Minneapolis described the research as “a very well-done study by qualified researchers in the field. … For the last century, medicine has unfortunately become compartmentalized by specialty and then subspecialty. The brain and disorders of the brain do not recognize these silos. … It is not a stretch of the known science to begin to understand that epilepsy and dementia have common anatomical and physiological underpinnings.”
The long period of prospectively gathering data and the measurement of cognitive function through various modalities are among the study’s great strengths, said Dr. Leppik. However, the study’s weakness is its reliance on Medicare claims data, which mainly would reflect convulsive seizures.
“What is missing is how many persons had subtle focal-unaware seizures that may not be identified unless a careful history is taken,” said Dr. Leppik. “Thus, this study likely underestimates the frequency of epilepsy.”
Neurologists who evaluate a person with early dementia should be on the lookout for a history of subtle seizures, said Dr. Leppik. Animal studies suggest treatment with levetiracetam or brivaracetam may slow the course of dementia, and a clinical study in participants with early dementia is underway.
“Treatment with an antiseizure drug may prove to be beneficial, especially if evidence for the presence of subtle epilepsy can be found,” Dr. Leppik added.
Greater collaboration between epileptologists and dementia specialists and larger studies of antiseizure drugs are necessary, he noted. “These studies can incorporate sophisticated structural and biochemical [analyses] to better identify the relationships between brain mechanisms that likely underlie both seizures and dementia. The ultimate promise is that early treatment of seizures may alter the course of dementia,” Dr. Leppik said.
The study by Dr. Johnson and colleagues was supported by a contract from the National Institute on Aging; ARIC from the National Heart, Lung, and Blood Institute; the National Institutes of Health; and the Department of Health & Human Services. The authors and Dr. Leppik have disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
Results of a retrospective analysis show that patients who develop epilepsy at age 67 or older have a threefold increased risk of subsequent dementia versus their counterparts without epilepsy.
“This is an exciting area, as we are finding that just as the risk of seizures is increased in neurodegenerative diseases, the risk of dementia is increased after late-onset epilepsy and seizures,” study investigator Emily L. Johnson, MD, assistant professor of neurology at Johns Hopkins University, Baltimore, said in an interview. “Several other cohort studies are finding similar results, including the Veterans’ Health Study and the Framingham Study,” she added.
The study was published online Oct. 23 in Neurology
Bidirectional relationship?
Previous research has established that dementia is a risk factor for epilepsy, but recent studies also suggest an increased risk of incident dementia among patients with adult-onset epilepsy. Several risk factors for late-onset epilepsy, including diabetes and hypertension, also are risk factors for dementia. However, the effect of late-onset epilepsy on dementia risk in patients with these comorbidities has not been clarified.
To investigate, the researchers examined data from the Atherosclerosis Risk in Communities (ARIC) study. Participants include Black and White men and women from four U.S. communities. Baseline visits in this longitudinal cohort study began between 1987 and 1989, and follow-up included seven additional visits and regular phone calls.
The investigators identified participants with late-onset epilepsy by searching for Medicare claims related to seizures or epilepsy filed between 1991 and 2015. Those with two or more such claims and age of onset of 67 years or greater were considered to have late-onset epilepsy. Participants with preexisting conditions such as brain tumors or multiple sclerosis were excluded.
ARIC participants who presented in person for visits 2, 4, 5, and 6 underwent cognitive testing with the Delayed Word Recall Test, the Digit Symbol Substitution Test, and the Word Fluency Test.
Testing at visits 5 and 6 also included other tests, such as the Mini-Mental State Examination, the Boston Naming test, and the Wechsler Memory Scale-III. Dr. Johnson and colleagues excluded data for visit 7 from the analysis because dementia adjudication was not yet complete.
The researchers identified participants with dementia using data from visits 5 and 6 and ascertained time of dementia onset through participant and informant interviews, phone calls, and hospital discharge data. Participants also were screened for mild cognitive impairment (MCI) at visits 5 and 6.
Data were analyzed using a Cox proportional hazards model and multinomial logistic regression. In subsequent analyses, researchers adjusted the data for age, sex, race, smoking status, alcohol use, hypertension, diabetes, body mass index (BMI), APOE4 status, and prevalent stroke.
The researchers found that of 9,033 study participants, 671 had late-onset epilepsy. The late-onset epilepsy group was older at baseline (56.5 vs. 55.1 years) and more likely to have hypertension (38.9% vs. 33.3%), diabetes (16.1% vs. 9.6%), and two alleles of APOE4 genotype (3.9% vs. 2.5%), compared with those without the disorder.
In all, 1,687 participants developed dementia during follow-up. The rate of incident dementia was 41.6% in participants with late-onset epilepsy and 16.8% in participants without late-onset epilepsy. The adjusted hazard ratio of subsequent dementia in participants with late-onset epilepsy versus those without the disorder was 3.05 (95% confidence interval, 2.65-3.51).
The median time to dementia ascertainment after late-onset epilepsy was 3.66 years.
Counterintuitive finding
The relationship between late-onset epilepsy and subsequent dementia was stronger in patients without stroke. The investigators offered a possible explanation for this counterintuitive finding. “We observed an interaction between [late-onset epilepsy] and stroke, with a lower (but still substantial) association between [late-onset epilepsy] and dementia in those with a history of stroke. This may be due to the known strong association between stroke and dementia, which may wash out the contributions of [late-onset epilepsy] to cognitive impairment,” the researchers wrote.
“There may also be under-capturing of dementia diagnoses among participants with stroke in the ascertainment from [Centers for Medicare & Medicaid Services] codes, as physicians may be reluctant to make a separate code for ‘dementia’ in those with cognitive impairment after stroke,” they added.
When the researchers restricted the analysis only to participants who attended visits 5 and 6 and had late-onset epilepsy ascertainment available, they found that the relative risk ratio for dementia at visit 6 was 2.90 (95% CI, 1.22-6.92; P = .009). The RRR for MCI was 0.97 (95% CI, 0.39-2.38; P = .803). The greater functional impairment in patients with late-onset epilepsy may explain the lack of a relationship between late-onset epilepsy and MCI.
“It will be important for neurologists to be aware of the possibility of cognitive impairment following late-onset epilepsy and to check in with patients and family members to see if there are concerns,” said Dr. Johnson.
“We should also be talking about the importance of lowering other risk factors for dementia by making sure cardiovascular risk factors are controlled and encouraging physical and cognitive activity,” she added.
The results require confirmation in a clinical population, the investigators noted. In addition, future research is necessary to clarify whether seizures directly increase the risk of dementia or whether shared neuropathology between epilepsy and dementia explains the risk.
“In the near future, I plan to enroll participants with late-onset epilepsy in an observational study to better understand factors that may contribute to cognitive change. Collaborations will be key as we seek to further understand what causes these changes and what could be done to prevent them,” Dr. Johnson added.
Strengths and weaknesses
In an accompanying editorial, W. Allen Hauser, MD, professor emeritus of neurology and epidemiology at Columbia University in New York, and colleagues noted that the findings support a bidirectional relationship between dementia and epilepsy, adding that accumulation of amyloid beta peptide is a plausible underlying pathophysiology that may explain this relationship.
Future research should clarify the effect of factors such as seizure type, seizure frequency, and age of onset on the risk of dementia among patients with epilepsy, the editorialists wrote. Such investigations could help elucidate the underlying mechanisms of these conditions and help to improve treatment, they added.
Commenting on the findings, Ilo Leppik, MD, professor of neurology and pharmacy at the University of Minnesota in Minneapolis described the research as “a very well-done study by qualified researchers in the field. … For the last century, medicine has unfortunately become compartmentalized by specialty and then subspecialty. The brain and disorders of the brain do not recognize these silos. … It is not a stretch of the known science to begin to understand that epilepsy and dementia have common anatomical and physiological underpinnings.”
The long period of prospectively gathering data and the measurement of cognitive function through various modalities are among the study’s great strengths, said Dr. Leppik. However, the study’s weakness is its reliance on Medicare claims data, which mainly would reflect convulsive seizures.
“What is missing is how many persons had subtle focal-unaware seizures that may not be identified unless a careful history is taken,” said Dr. Leppik. “Thus, this study likely underestimates the frequency of epilepsy.”
Neurologists who evaluate a person with early dementia should be on the lookout for a history of subtle seizures, said Dr. Leppik. Animal studies suggest treatment with levetiracetam or brivaracetam may slow the course of dementia, and a clinical study in participants with early dementia is underway.
“Treatment with an antiseizure drug may prove to be beneficial, especially if evidence for the presence of subtle epilepsy can be found,” Dr. Leppik added.
Greater collaboration between epileptologists and dementia specialists and larger studies of antiseizure drugs are necessary, he noted. “These studies can incorporate sophisticated structural and biochemical [analyses] to better identify the relationships between brain mechanisms that likely underlie both seizures and dementia. The ultimate promise is that early treatment of seizures may alter the course of dementia,” Dr. Leppik said.
The study by Dr. Johnson and colleagues was supported by a contract from the National Institute on Aging; ARIC from the National Heart, Lung, and Blood Institute; the National Institutes of Health; and the Department of Health & Human Services. The authors and Dr. Leppik have disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
FROM NEUROLOGY
Study supports halting antiseizure medications after neonatal seizures
Maintaining antiseizure medication in infants who have had acute symptomatic neonatal seizures has been standard practice, but a prospective, observational, comparative effectiveness study calls that practice into question, providing evidence that discontinuing therapy at discharge poses no harm to children and has no effect on the development of epilepsies.
“,” said Hannah C. Glass, MDCM, MAS, of the University of California, San Francisco, Benioff Children’s Hospital, co-principal investigator, who presented results of the study at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year. Renee Shellhaas, MD, MS, clinical associate professor of pediatrics at C.S. Mott Children’s Hospital, University of Michigan, was the other co-principal investigator.
“Although other, smaller studies have suggested it is safe to discontinue antiseizure medication after resolution of acute symptomatic seizures, the practice of early discontinuation has been very variable and depends largely on individual provider preference,” Dr. Glass said in an interview. “In our study, two-thirds of newborns with acute symptomatic seizures were maintained on antiseizure medication at the time of hospital discharge. Thus, a change to early medication discontinuation represents a major shift.”
The study evaluated 270 infants at nine centers enrolled in the Neonatal Seizure Registry and born from July 2015 through March 2018. Inclusion criteria were acute symptomatic seizures that occurred at up to 44 weeks postmenstrual age. In this cohort, 36% of patients had antiseizure medication discontinued after a median of 6 days; the remainder stayed on antiseizure medication after discharge at a median of 4 months.
The patients were followed for 2 years. The primary outcome was functional development measured by the Warner Initial Development Evaluation of Adaptive and Functional Skills (WIDEA-FS) assessment. The secondary outcome was epilepsy defined by International League Against Epilepsy (ILAE) criteria. Follow-up consisted of phone calls and chart reviews at 12, 18, and 24 months.
“The primary outcome, functional development, was not significantly different between those children who were maintained on antiseizure medication as compared with those who were discontinued,” Dr. Glass said.
After propensity adjustment, the discontinued ASM group had an estimated WIDEA-FS score 4 points higher on average, she said. “The confidence intervals met our a priori noninferiority limit, indicating no harm to neurodevelopment for discontinuing antiseizure medication before discharge home from the neonatal seizure admission,” Dr. Glass noted.
The study also found that 13% of all participants developed epilepsy at a median of 8 months. “There was no significant difference in the frequency or timing of epilepsy between the two groups,” she said.
“We conclude there is no clear rationale for antiseizure medication maintenance,” Dr. Glass said. “There is no benefit to neurodevelopment, it prolongs the exposure to potentially harmful antiseizure medications, it does not significantly delay the onset of epilepsy, and the earliest-onset epilepsies occur in spite of antiseizure medication.”
The Patient-Centered Outcomes Research Institute (PCORI) and Pediatric Epilepsy Research Foundation funded the study. Dr. Glass has no other financial relationships to disclose.
SOURCE: Glass HC et al. CNS-ICNA 2020. Presentation PL58.
Maintaining antiseizure medication in infants who have had acute symptomatic neonatal seizures has been standard practice, but a prospective, observational, comparative effectiveness study calls that practice into question, providing evidence that discontinuing therapy at discharge poses no harm to children and has no effect on the development of epilepsies.
“,” said Hannah C. Glass, MDCM, MAS, of the University of California, San Francisco, Benioff Children’s Hospital, co-principal investigator, who presented results of the study at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year. Renee Shellhaas, MD, MS, clinical associate professor of pediatrics at C.S. Mott Children’s Hospital, University of Michigan, was the other co-principal investigator.
“Although other, smaller studies have suggested it is safe to discontinue antiseizure medication after resolution of acute symptomatic seizures, the practice of early discontinuation has been very variable and depends largely on individual provider preference,” Dr. Glass said in an interview. “In our study, two-thirds of newborns with acute symptomatic seizures were maintained on antiseizure medication at the time of hospital discharge. Thus, a change to early medication discontinuation represents a major shift.”
The study evaluated 270 infants at nine centers enrolled in the Neonatal Seizure Registry and born from July 2015 through March 2018. Inclusion criteria were acute symptomatic seizures that occurred at up to 44 weeks postmenstrual age. In this cohort, 36% of patients had antiseizure medication discontinued after a median of 6 days; the remainder stayed on antiseizure medication after discharge at a median of 4 months.
The patients were followed for 2 years. The primary outcome was functional development measured by the Warner Initial Development Evaluation of Adaptive and Functional Skills (WIDEA-FS) assessment. The secondary outcome was epilepsy defined by International League Against Epilepsy (ILAE) criteria. Follow-up consisted of phone calls and chart reviews at 12, 18, and 24 months.
“The primary outcome, functional development, was not significantly different between those children who were maintained on antiseizure medication as compared with those who were discontinued,” Dr. Glass said.
After propensity adjustment, the discontinued ASM group had an estimated WIDEA-FS score 4 points higher on average, she said. “The confidence intervals met our a priori noninferiority limit, indicating no harm to neurodevelopment for discontinuing antiseizure medication before discharge home from the neonatal seizure admission,” Dr. Glass noted.
The study also found that 13% of all participants developed epilepsy at a median of 8 months. “There was no significant difference in the frequency or timing of epilepsy between the two groups,” she said.
“We conclude there is no clear rationale for antiseizure medication maintenance,” Dr. Glass said. “There is no benefit to neurodevelopment, it prolongs the exposure to potentially harmful antiseizure medications, it does not significantly delay the onset of epilepsy, and the earliest-onset epilepsies occur in spite of antiseizure medication.”
The Patient-Centered Outcomes Research Institute (PCORI) and Pediatric Epilepsy Research Foundation funded the study. Dr. Glass has no other financial relationships to disclose.
SOURCE: Glass HC et al. CNS-ICNA 2020. Presentation PL58.
Maintaining antiseizure medication in infants who have had acute symptomatic neonatal seizures has been standard practice, but a prospective, observational, comparative effectiveness study calls that practice into question, providing evidence that discontinuing therapy at discharge poses no harm to children and has no effect on the development of epilepsies.
“,” said Hannah C. Glass, MDCM, MAS, of the University of California, San Francisco, Benioff Children’s Hospital, co-principal investigator, who presented results of the study at the 2020 CNS-ICNA Conjoint Meeting, held virtually this year. Renee Shellhaas, MD, MS, clinical associate professor of pediatrics at C.S. Mott Children’s Hospital, University of Michigan, was the other co-principal investigator.
“Although other, smaller studies have suggested it is safe to discontinue antiseizure medication after resolution of acute symptomatic seizures, the practice of early discontinuation has been very variable and depends largely on individual provider preference,” Dr. Glass said in an interview. “In our study, two-thirds of newborns with acute symptomatic seizures were maintained on antiseizure medication at the time of hospital discharge. Thus, a change to early medication discontinuation represents a major shift.”
The study evaluated 270 infants at nine centers enrolled in the Neonatal Seizure Registry and born from July 2015 through March 2018. Inclusion criteria were acute symptomatic seizures that occurred at up to 44 weeks postmenstrual age. In this cohort, 36% of patients had antiseizure medication discontinued after a median of 6 days; the remainder stayed on antiseizure medication after discharge at a median of 4 months.
The patients were followed for 2 years. The primary outcome was functional development measured by the Warner Initial Development Evaluation of Adaptive and Functional Skills (WIDEA-FS) assessment. The secondary outcome was epilepsy defined by International League Against Epilepsy (ILAE) criteria. Follow-up consisted of phone calls and chart reviews at 12, 18, and 24 months.
“The primary outcome, functional development, was not significantly different between those children who were maintained on antiseizure medication as compared with those who were discontinued,” Dr. Glass said.
After propensity adjustment, the discontinued ASM group had an estimated WIDEA-FS score 4 points higher on average, she said. “The confidence intervals met our a priori noninferiority limit, indicating no harm to neurodevelopment for discontinuing antiseizure medication before discharge home from the neonatal seizure admission,” Dr. Glass noted.
The study also found that 13% of all participants developed epilepsy at a median of 8 months. “There was no significant difference in the frequency or timing of epilepsy between the two groups,” she said.
“We conclude there is no clear rationale for antiseizure medication maintenance,” Dr. Glass said. “There is no benefit to neurodevelopment, it prolongs the exposure to potentially harmful antiseizure medications, it does not significantly delay the onset of epilepsy, and the earliest-onset epilepsies occur in spite of antiseizure medication.”
The Patient-Centered Outcomes Research Institute (PCORI) and Pediatric Epilepsy Research Foundation funded the study. Dr. Glass has no other financial relationships to disclose.
SOURCE: Glass HC et al. CNS-ICNA 2020. Presentation PL58.
FROM CNS-ICNA 2020
CBD for LGS: Fewer seizures, but thrombocytopenia risk
At the 2020 CNS-ICNA Conjoint Meeting, held virtually this year, Anul Patel, MD, section chief of Pediatric neurology at Nationwide Children’s and associate professor of clinical pediatrics and neurology at the Ohio State University, both in Columbus, Ohio, reported 156-week results of an open-label extension trial called GWPCARE5 that showed patients with LGS taking Epidiolex had a 60% or greater average reduction in seizures, compared with baseline. Epidiolex, a highly purified form of CBD, was approved by the Food and Drug Administration in 2018 for LGS and Dravet syndrome.
In a separate presentation, Nancy A. McNamara, MD, an assistant professor at the C.S. Mott Children’s Hospital at the University of Michigan, Ann Arbor, said that more than one-third of patients taking both Epidiolex and valproic acid (VPA) developed thrombocytopenia after starting CBD therapy. The single-center chart review she reported on included 83 patients.
Daniel Friedman, MD, an epilepsy specialist at New York University who’s researched CBD in children with autism spectrum disorder, said, “These studies show that, while purified CBD has durable effects on the most disabling seizures in children and adults with LGS, like all treatments, it is not without risks that warrant attention and monitoring.”
Open-label extension study
The open-label extension study included 366 patients who participated in the two previous clinical trials. They were given varying doses of CBD titrated over 2 weeks with 20 mg/kg as the target dose, Dr. Patel said. The most common concurrent therapies they were taking were clobazam, valproate or VPA, lamotrigine, levetiracetam, and rufinamide. At weeks 145-156, 67% of patients had a 50% or greater reduction in seizures, 44% had a 75% or greater reduction, and 9% stopped having seizures altogether, Dr. Patel said.
“CBD treatment had a similar safety profile to what was observed in the completed parent randomized clinical trials,” Dr. Patel said. “Sustained reductions in drop and total seizures were observed up to the 156-week follow-up point. So these results demonstrate the potential long-term benefits of CBD treatment for patients with LGS as it relates to reduction of their seizures.”
Adverse event profiles in this analysis were similar to previous clinical trials, he noted. The three most common adverse events were diarrhea (38%), convulsion (38%) and pyrexia (34%), but high percentages of those adverse events resolved during follow-up: 78%, 80%, and 96%, respectively.
Dr. Patel also noted that 31% of patients had elevated liver enzymes (alanine aminotransferase or aspartate aminotransferase), but most of these patients – 78 of 113, or 69% – were on concomitant VPA. “Importantly, no patient met the standard criteria for severe drug-induced liver injury, known as Hy’s law,” he said.
Retention rates for patients were 81% at 1 year, 69% at 2 years and 65% at 3 years, Dr. Patel said.
“An urgent systemic review”
Dr. McNamara’s research drilled down into the interaction of CBD and VPA. “Over the past several months we have made observations that several patients that had been started on CBD, also known as Epidiolex, had developed thrombocytopenia, some of which were symptomatic,” she said. Symptoms included hematuria, easy bruising, and gingival bleeding.
That prompted what Dr. McNamara called “an urgent systemic review” of all patients on CBD. Of 83 patients started on CBD for LGS from January to August 2019, 9 (11%) developed thrombocytopenia. “All of these patients were on concurrent VPA and no patients started on CBD without VPA developed thrombocytopenia,” she said. In all, 23 patients were taking CBD concurrently with VPA. Four of nine cases were symptomatic.
“The thrombocytopenia was reversible in all patients with reduction of medication and one patient recovered spontaneously without intervention,” Dr. McNamara noted.
“This was an important finding because this was not something that had come out of the clinical trials prior to FDA approval,” Dr. McNamara said. “This requires closer monitoring for patients who are started on CBD who are already on VPA.”
Of the 23 patients taking concurrent VPA, 10 had low platelet counts after starting CBD. In six patients, platelet counts dropped from normal before CBD therapy to low afterward.
The study used a McNemar test to determine if an observed adverse event occurred by chance or was related to starting a drug, which yielded a P value of .125, Dr. McNamara said. “While this did not achieve statistical significance, we suggest that prescribers closely monitor platelet levels after starting CBD, particularly when a patient is also on concurrent VPA,” she said.
Her group obtained a complete blood count at baseline and then at 1, 3, and 6 months after starting the patient on CBD, along with evaluation of alanine aminotransferase and aspartate aminotransferase. “We believe that this is helpful because most of the patients that develop low platelets did so within 3 months of starting cannabidiol,” Dr. McNamara said.
She acknowledged the limits of the single-center study. “Future research will need to be done with larger cohorts with standardized surveillance labs,” she said in an interview.
Dr. Patel disclosed financial relationships with GW Research and Greenwich Biosciences. Dr. McNamara has no relevant disclosures.
At the 2020 CNS-ICNA Conjoint Meeting, held virtually this year, Anul Patel, MD, section chief of Pediatric neurology at Nationwide Children’s and associate professor of clinical pediatrics and neurology at the Ohio State University, both in Columbus, Ohio, reported 156-week results of an open-label extension trial called GWPCARE5 that showed patients with LGS taking Epidiolex had a 60% or greater average reduction in seizures, compared with baseline. Epidiolex, a highly purified form of CBD, was approved by the Food and Drug Administration in 2018 for LGS and Dravet syndrome.
In a separate presentation, Nancy A. McNamara, MD, an assistant professor at the C.S. Mott Children’s Hospital at the University of Michigan, Ann Arbor, said that more than one-third of patients taking both Epidiolex and valproic acid (VPA) developed thrombocytopenia after starting CBD therapy. The single-center chart review she reported on included 83 patients.
Daniel Friedman, MD, an epilepsy specialist at New York University who’s researched CBD in children with autism spectrum disorder, said, “These studies show that, while purified CBD has durable effects on the most disabling seizures in children and adults with LGS, like all treatments, it is not without risks that warrant attention and monitoring.”
Open-label extension study
The open-label extension study included 366 patients who participated in the two previous clinical trials. They were given varying doses of CBD titrated over 2 weeks with 20 mg/kg as the target dose, Dr. Patel said. The most common concurrent therapies they were taking were clobazam, valproate or VPA, lamotrigine, levetiracetam, and rufinamide. At weeks 145-156, 67% of patients had a 50% or greater reduction in seizures, 44% had a 75% or greater reduction, and 9% stopped having seizures altogether, Dr. Patel said.
“CBD treatment had a similar safety profile to what was observed in the completed parent randomized clinical trials,” Dr. Patel said. “Sustained reductions in drop and total seizures were observed up to the 156-week follow-up point. So these results demonstrate the potential long-term benefits of CBD treatment for patients with LGS as it relates to reduction of their seizures.”
Adverse event profiles in this analysis were similar to previous clinical trials, he noted. The three most common adverse events were diarrhea (38%), convulsion (38%) and pyrexia (34%), but high percentages of those adverse events resolved during follow-up: 78%, 80%, and 96%, respectively.
Dr. Patel also noted that 31% of patients had elevated liver enzymes (alanine aminotransferase or aspartate aminotransferase), but most of these patients – 78 of 113, or 69% – were on concomitant VPA. “Importantly, no patient met the standard criteria for severe drug-induced liver injury, known as Hy’s law,” he said.
Retention rates for patients were 81% at 1 year, 69% at 2 years and 65% at 3 years, Dr. Patel said.
“An urgent systemic review”
Dr. McNamara’s research drilled down into the interaction of CBD and VPA. “Over the past several months we have made observations that several patients that had been started on CBD, also known as Epidiolex, had developed thrombocytopenia, some of which were symptomatic,” she said. Symptoms included hematuria, easy bruising, and gingival bleeding.
That prompted what Dr. McNamara called “an urgent systemic review” of all patients on CBD. Of 83 patients started on CBD for LGS from January to August 2019, 9 (11%) developed thrombocytopenia. “All of these patients were on concurrent VPA and no patients started on CBD without VPA developed thrombocytopenia,” she said. In all, 23 patients were taking CBD concurrently with VPA. Four of nine cases were symptomatic.
“The thrombocytopenia was reversible in all patients with reduction of medication and one patient recovered spontaneously without intervention,” Dr. McNamara noted.
“This was an important finding because this was not something that had come out of the clinical trials prior to FDA approval,” Dr. McNamara said. “This requires closer monitoring for patients who are started on CBD who are already on VPA.”
Of the 23 patients taking concurrent VPA, 10 had low platelet counts after starting CBD. In six patients, platelet counts dropped from normal before CBD therapy to low afterward.
The study used a McNemar test to determine if an observed adverse event occurred by chance or was related to starting a drug, which yielded a P value of .125, Dr. McNamara said. “While this did not achieve statistical significance, we suggest that prescribers closely monitor platelet levels after starting CBD, particularly when a patient is also on concurrent VPA,” she said.
Her group obtained a complete blood count at baseline and then at 1, 3, and 6 months after starting the patient on CBD, along with evaluation of alanine aminotransferase and aspartate aminotransferase. “We believe that this is helpful because most of the patients that develop low platelets did so within 3 months of starting cannabidiol,” Dr. McNamara said.
She acknowledged the limits of the single-center study. “Future research will need to be done with larger cohorts with standardized surveillance labs,” she said in an interview.
Dr. Patel disclosed financial relationships with GW Research and Greenwich Biosciences. Dr. McNamara has no relevant disclosures.
At the 2020 CNS-ICNA Conjoint Meeting, held virtually this year, Anul Patel, MD, section chief of Pediatric neurology at Nationwide Children’s and associate professor of clinical pediatrics and neurology at the Ohio State University, both in Columbus, Ohio, reported 156-week results of an open-label extension trial called GWPCARE5 that showed patients with LGS taking Epidiolex had a 60% or greater average reduction in seizures, compared with baseline. Epidiolex, a highly purified form of CBD, was approved by the Food and Drug Administration in 2018 for LGS and Dravet syndrome.
In a separate presentation, Nancy A. McNamara, MD, an assistant professor at the C.S. Mott Children’s Hospital at the University of Michigan, Ann Arbor, said that more than one-third of patients taking both Epidiolex and valproic acid (VPA) developed thrombocytopenia after starting CBD therapy. The single-center chart review she reported on included 83 patients.
Daniel Friedman, MD, an epilepsy specialist at New York University who’s researched CBD in children with autism spectrum disorder, said, “These studies show that, while purified CBD has durable effects on the most disabling seizures in children and adults with LGS, like all treatments, it is not without risks that warrant attention and monitoring.”
Open-label extension study
The open-label extension study included 366 patients who participated in the two previous clinical trials. They were given varying doses of CBD titrated over 2 weeks with 20 mg/kg as the target dose, Dr. Patel said. The most common concurrent therapies they were taking were clobazam, valproate or VPA, lamotrigine, levetiracetam, and rufinamide. At weeks 145-156, 67% of patients had a 50% or greater reduction in seizures, 44% had a 75% or greater reduction, and 9% stopped having seizures altogether, Dr. Patel said.
“CBD treatment had a similar safety profile to what was observed in the completed parent randomized clinical trials,” Dr. Patel said. “Sustained reductions in drop and total seizures were observed up to the 156-week follow-up point. So these results demonstrate the potential long-term benefits of CBD treatment for patients with LGS as it relates to reduction of their seizures.”
Adverse event profiles in this analysis were similar to previous clinical trials, he noted. The three most common adverse events were diarrhea (38%), convulsion (38%) and pyrexia (34%), but high percentages of those adverse events resolved during follow-up: 78%, 80%, and 96%, respectively.
Dr. Patel also noted that 31% of patients had elevated liver enzymes (alanine aminotransferase or aspartate aminotransferase), but most of these patients – 78 of 113, or 69% – were on concomitant VPA. “Importantly, no patient met the standard criteria for severe drug-induced liver injury, known as Hy’s law,” he said.
Retention rates for patients were 81% at 1 year, 69% at 2 years and 65% at 3 years, Dr. Patel said.
“An urgent systemic review”
Dr. McNamara’s research drilled down into the interaction of CBD and VPA. “Over the past several months we have made observations that several patients that had been started on CBD, also known as Epidiolex, had developed thrombocytopenia, some of which were symptomatic,” she said. Symptoms included hematuria, easy bruising, and gingival bleeding.
That prompted what Dr. McNamara called “an urgent systemic review” of all patients on CBD. Of 83 patients started on CBD for LGS from January to August 2019, 9 (11%) developed thrombocytopenia. “All of these patients were on concurrent VPA and no patients started on CBD without VPA developed thrombocytopenia,” she said. In all, 23 patients were taking CBD concurrently with VPA. Four of nine cases were symptomatic.
“The thrombocytopenia was reversible in all patients with reduction of medication and one patient recovered spontaneously without intervention,” Dr. McNamara noted.
“This was an important finding because this was not something that had come out of the clinical trials prior to FDA approval,” Dr. McNamara said. “This requires closer monitoring for patients who are started on CBD who are already on VPA.”
Of the 23 patients taking concurrent VPA, 10 had low platelet counts after starting CBD. In six patients, platelet counts dropped from normal before CBD therapy to low afterward.
The study used a McNemar test to determine if an observed adverse event occurred by chance or was related to starting a drug, which yielded a P value of .125, Dr. McNamara said. “While this did not achieve statistical significance, we suggest that prescribers closely monitor platelet levels after starting CBD, particularly when a patient is also on concurrent VPA,” she said.
Her group obtained a complete blood count at baseline and then at 1, 3, and 6 months after starting the patient on CBD, along with evaluation of alanine aminotransferase and aspartate aminotransferase. “We believe that this is helpful because most of the patients that develop low platelets did so within 3 months of starting cannabidiol,” Dr. McNamara said.
She acknowledged the limits of the single-center study. “Future research will need to be done with larger cohorts with standardized surveillance labs,” she said in an interview.
Dr. Patel disclosed financial relationships with GW Research and Greenwich Biosciences. Dr. McNamara has no relevant disclosures.
FROM CNS-ICNA 2020
FDA approves cannabidiol for tuberous sclerosis complex
The cannabidiol (CBD) oral solution Epidiolex has been approved by the Food and Drug Administration for the new indication of treatment of seizures associated with tuberous sclerosis complex in patients 1 year of age and older.
The drug was approved by the FDA in 2018 for the treatment of seizures associated with two rare and severe forms of epilepsy, Lennox-Gastaut syndrome and Dravet syndrome, as reported by Medscape Medical News.
This is the only FDA-approved drug that contains a purified drug substance derived from cannabis. It is also the second FDA approval of a drug for the treatment of seizures associated with tuberous sclerosis complex.
CBD is a chemical component of the cannabis sativa plant, but it does not cause intoxication or euphoria (the “high”) that comes from tetrahydrocannabinol (THC), which is the primary psychoactive component of cannabis.
“The FDA continues to believe the drug approval process represents the best way to make new medicines, including any drugs derived from cannabis, available to patients in need of appropriate medical therapy such as the treatment of seizures associated with these rare conditions,” Douglas Throckmorton, MD, deputy center director for regulatory programs in the FDA’s Center for Drug Evaluation and Research, said in an agency press release.
“This paradigm ensures new therapies are safe, effective, and manufactured to a high quality that provides uniform and reliable dosing for patients,” Dr. Throckmorton said.
He added that the FDA is committed to supporting research on the potential medical uses of cannabis-derived products.
Rare genetic disease
Tuberous sclerosis complex is a rare genetic disease that causes benign tumors to grow in the brain and other parts of the body, such as the eyes, heart, kidneys, lungs, and skin.
It usually affects the central nervous system and can result in a combination of symptoms, including seizures, developmental delay, and behavioral problems. The signs and symptoms of the condition, as well as the severity of symptoms, vary widely. The disease affects about 1 in 6,000 individuals.
The effectiveness of Epidiolex in the treatment of seizures associated with tuberous sclerosis complex was established in a randomized, double-blind, placebo-controlled trial in which 148 patients of a total of 224 in the study received the active drug, the FDA noted.
Results showed that for patients treated with CBD, there was a significantly greater reduction in seizure frequency during the treatment period than for patients who received placebo.
This effect was seen within 8 weeks and remained consistent throughout the 16-week treatment period.
The most common side effects that occurred in CBD-treated participants were diarrhea, elevated liver enzyme levels, decreased appetite, sleepiness, fever, and vomiting. Additional side effects that have been reported with the product include liver injury, decreased weight, anemia, and increased creatinine level.
As is true for all drugs that currently treat epilepsy, including Epidiolex, the most serious risks may include an increase in suicidal thoughts and behavior or thoughts of self-harm, the FDA reports.
Patients, their caregivers, and their families should be advised to monitor for any unusual changes in mood or behavior, such as worsening depression or suicidal thoughts or behavior. They should report behaviors of concern immediately to health care providers, the agency notes.
It also points out that Epidiolex can cause liver injury, of which most cases are generally mild. However, there is a risk for rare but more severe liver injury. More severe liver injury can cause nausea, vomiting, abdominal pain, fatigue, anorexia, jaundice, and/or dark urine.
A version of this story originally appeared on Medscape.com.
The cannabidiol (CBD) oral solution Epidiolex has been approved by the Food and Drug Administration for the new indication of treatment of seizures associated with tuberous sclerosis complex in patients 1 year of age and older.
The drug was approved by the FDA in 2018 for the treatment of seizures associated with two rare and severe forms of epilepsy, Lennox-Gastaut syndrome and Dravet syndrome, as reported by Medscape Medical News.
This is the only FDA-approved drug that contains a purified drug substance derived from cannabis. It is also the second FDA approval of a drug for the treatment of seizures associated with tuberous sclerosis complex.
CBD is a chemical component of the cannabis sativa plant, but it does not cause intoxication or euphoria (the “high”) that comes from tetrahydrocannabinol (THC), which is the primary psychoactive component of cannabis.
“The FDA continues to believe the drug approval process represents the best way to make new medicines, including any drugs derived from cannabis, available to patients in need of appropriate medical therapy such as the treatment of seizures associated with these rare conditions,” Douglas Throckmorton, MD, deputy center director for regulatory programs in the FDA’s Center for Drug Evaluation and Research, said in an agency press release.
“This paradigm ensures new therapies are safe, effective, and manufactured to a high quality that provides uniform and reliable dosing for patients,” Dr. Throckmorton said.
He added that the FDA is committed to supporting research on the potential medical uses of cannabis-derived products.
Rare genetic disease
Tuberous sclerosis complex is a rare genetic disease that causes benign tumors to grow in the brain and other parts of the body, such as the eyes, heart, kidneys, lungs, and skin.
It usually affects the central nervous system and can result in a combination of symptoms, including seizures, developmental delay, and behavioral problems. The signs and symptoms of the condition, as well as the severity of symptoms, vary widely. The disease affects about 1 in 6,000 individuals.
The effectiveness of Epidiolex in the treatment of seizures associated with tuberous sclerosis complex was established in a randomized, double-blind, placebo-controlled trial in which 148 patients of a total of 224 in the study received the active drug, the FDA noted.
Results showed that for patients treated with CBD, there was a significantly greater reduction in seizure frequency during the treatment period than for patients who received placebo.
This effect was seen within 8 weeks and remained consistent throughout the 16-week treatment period.
The most common side effects that occurred in CBD-treated participants were diarrhea, elevated liver enzyme levels, decreased appetite, sleepiness, fever, and vomiting. Additional side effects that have been reported with the product include liver injury, decreased weight, anemia, and increased creatinine level.
As is true for all drugs that currently treat epilepsy, including Epidiolex, the most serious risks may include an increase in suicidal thoughts and behavior or thoughts of self-harm, the FDA reports.
Patients, their caregivers, and their families should be advised to monitor for any unusual changes in mood or behavior, such as worsening depression or suicidal thoughts or behavior. They should report behaviors of concern immediately to health care providers, the agency notes.
It also points out that Epidiolex can cause liver injury, of which most cases are generally mild. However, there is a risk for rare but more severe liver injury. More severe liver injury can cause nausea, vomiting, abdominal pain, fatigue, anorexia, jaundice, and/or dark urine.
A version of this story originally appeared on Medscape.com.
The cannabidiol (CBD) oral solution Epidiolex has been approved by the Food and Drug Administration for the new indication of treatment of seizures associated with tuberous sclerosis complex in patients 1 year of age and older.
The drug was approved by the FDA in 2018 for the treatment of seizures associated with two rare and severe forms of epilepsy, Lennox-Gastaut syndrome and Dravet syndrome, as reported by Medscape Medical News.
This is the only FDA-approved drug that contains a purified drug substance derived from cannabis. It is also the second FDA approval of a drug for the treatment of seizures associated with tuberous sclerosis complex.
CBD is a chemical component of the cannabis sativa plant, but it does not cause intoxication or euphoria (the “high”) that comes from tetrahydrocannabinol (THC), which is the primary psychoactive component of cannabis.
“The FDA continues to believe the drug approval process represents the best way to make new medicines, including any drugs derived from cannabis, available to patients in need of appropriate medical therapy such as the treatment of seizures associated with these rare conditions,” Douglas Throckmorton, MD, deputy center director for regulatory programs in the FDA’s Center for Drug Evaluation and Research, said in an agency press release.
“This paradigm ensures new therapies are safe, effective, and manufactured to a high quality that provides uniform and reliable dosing for patients,” Dr. Throckmorton said.
He added that the FDA is committed to supporting research on the potential medical uses of cannabis-derived products.
Rare genetic disease
Tuberous sclerosis complex is a rare genetic disease that causes benign tumors to grow in the brain and other parts of the body, such as the eyes, heart, kidneys, lungs, and skin.
It usually affects the central nervous system and can result in a combination of symptoms, including seizures, developmental delay, and behavioral problems. The signs and symptoms of the condition, as well as the severity of symptoms, vary widely. The disease affects about 1 in 6,000 individuals.
The effectiveness of Epidiolex in the treatment of seizures associated with tuberous sclerosis complex was established in a randomized, double-blind, placebo-controlled trial in which 148 patients of a total of 224 in the study received the active drug, the FDA noted.
Results showed that for patients treated with CBD, there was a significantly greater reduction in seizure frequency during the treatment period than for patients who received placebo.
This effect was seen within 8 weeks and remained consistent throughout the 16-week treatment period.
The most common side effects that occurred in CBD-treated participants were diarrhea, elevated liver enzyme levels, decreased appetite, sleepiness, fever, and vomiting. Additional side effects that have been reported with the product include liver injury, decreased weight, anemia, and increased creatinine level.
As is true for all drugs that currently treat epilepsy, including Epidiolex, the most serious risks may include an increase in suicidal thoughts and behavior or thoughts of self-harm, the FDA reports.
Patients, their caregivers, and their families should be advised to monitor for any unusual changes in mood or behavior, such as worsening depression or suicidal thoughts or behavior. They should report behaviors of concern immediately to health care providers, the agency notes.
It also points out that Epidiolex can cause liver injury, of which most cases are generally mild. However, there is a risk for rare but more severe liver injury. More severe liver injury can cause nausea, vomiting, abdominal pain, fatigue, anorexia, jaundice, and/or dark urine.
A version of this story originally appeared on Medscape.com.