Conference Coverage

Study implicates myelin plasticity in absence seizures


 

AT AES 2022

Researchers have reported for the first time a process that may explain the progression of absence seizures that seems to provoke dysregulation of the insulating layer surrounding nerve fibers, perpetuating a cycle of increasing nerve damage and more frequent seizures later on.

“This study was the first to demonstrate that, at least in some forms of epilepsy, myelin plasticity is part of the maladaptive plasticity response that underlines epilepsy progression,” Juliet Knowles, MD, PhD, assistant professor at Stanford (Calif.) University, said in an interview. She reported the findings at the 2022 annual meeting of the American Epilepsy Society.

Juliet Knowles, MD, PhD, assistant professor at Stanford University School of Medicine in Palo Alto, Calif.

Dr. Juliet Knowles

Dr. Knowles and colleagues made their discovery using laboratory mice. They used an imaging technique known as qMTI – quantitative magnetization transfer in conjunction with diffusion MRI – to map changes in myelin sheath thickness, or myelin plasticity, in major white matter tracks of the brain.

“Over the last decade we’ve come to understand that myelin, which is the insulating substance that coats the projections of brain cells or neurons, is more dynamic than we used to think,” she said. “In fact, throughout life, myelin’s structure in some regions of the brain can be changed in response to neuro activity. It’s a newly appreciated form of brain plasticity.”

However, she said, myelin plasticity has mostly been studied in healthy brains; “We don’t know very much about what role myelin plasticity might play in disease states like epilepsy,” Dr. Knowles said. The study’s goal was to investigate myelin plasticity specifically in absence seizures.

“We hypothesized that maybe absence seizures prompt activity-dependent myelin plasticity, but that maybe seizure-induced myelin plasticity alters the way that brain networks act in a way that contributes to the disease process,” she said.

Maladaptive myelin plasticity

The researchers found that absence seizures were infrequent when they first started, but then they rapidly progressed. “Over a couple of weeks, they’ll go from having very few seizures to having many seizures per hour,” Dr. Knowles said.

Using qMTI, the researchers found increased myelin sheath thickness across the longitudinal extent of the anterior corpus callosum, but they found myelin sheath thickness unchanged in brain regions where absence seizures weren’t prominent.

They also found that genetically blocking activity-dependent myelination markedly decreased seizure progression and decreased ictal somatosensory electroencephalography (EEG) coherence. Conversely, blocking myelin plasticity had no effect on ictal EEG coherence between visual cortices connected by the posterior corpus callosum.

The next step for the researchers is to develop MRI methods to use in human studies, Dr. Knowles said.

“We are working on developing an imaging approach in these same animal models that we hope we can use also to study in a detailed way white matter plasticity in humans with epilepsy and we’re also continuing our studies in animal models to try to identify ways to target maladaptive myelin plasticity, which ultimately we hope will inform treatment of people with epilepsy,” Dr. Knowles said.

Pages

Recommended Reading

High-dose folic acid during pregnancy tied to cancer risk in children
MDedge Neurology
Bariatric surgery may up risk for epilepsy
MDedge Neurology
In epilepsy, heart issues linked to longer disease duration
MDedge Neurology
Diazepam nasal spray effective in Lennox-Gastaut syndrome
MDedge Neurology
A plane crash interrupts a doctor’s vacation
MDedge Neurology
AAP issues clinical update to cerebral palsy guidelines
MDedge Neurology
High drug costs exclude most neurology patients from cutting-edge treatment
MDedge Neurology
Strong two-way link between epilepsy and depression
MDedge Neurology
More evidence in utero exposure to antiseizure meds safe for children’s cognition
MDedge Neurology
Newer brand-name drugs fuel spending on antiseizure medications
MDedge Neurology