New research could help predict seizures
These molecules are fragments of transfer RNAs (tRNAs), a chemical closely related to DNA that performs an important role in building proteins within the cell. When cells are stressed, tRNAs are cut into fragments. Higher levels of the fragments in the blood could reflect that brain cells are under stress in the build up to a seizure event.
Using blood samples from people with epilepsy at the Epilepsy Monitoring Unit in Beaumont Hospital, Dublin and in a similar specialist centre in Marburg, Germany, the group found that fragment levels of three tRNAs "spike" in the blood many hours before a seizure.
Researchers at FutureNeuro, the SFI Research Centre for Chronic and Rare Neurological Diseases, hosted at RCSI (Royal College of Surgeons in Ireland) led the study, which is published in the current [[https://www.jci.org/articles/view/126346 edition of the Journal of Clinical Investigation (JCI).
“People with epilepsy often report that one of the most difficult aspects of living with the disease is never knowing when a seizure will occur,” said Dr Marion Hogg, FutureNeuro investigator, honorary lecturer at RCSI, and the study’s lead author.
“The results of this study are very promising. We hope that our tRNA research will be a key first step toward developing an early warning system.”
Approximately 40,000 people in Ireland have epilepsy and one third of those do not respond to current treatments, meaning they continue to experience seizures. The World Health Organisation estimates that more than 50-million people worldwide have epilepsy.
Predictability
“New technologies to remove the unpredictability of uncontrolled seizures for people with epilepsy are a very real possibility,” said Professor David Henshall, director of FutureNeuro and professor of molecular physiology and neuroscience at RCSI who was a co-author on the paper.
“Building on this research we in FutureNeuro hope to develop a test prototype, similar to a blood sugar monitor that can potentially predict when a seizure might occur.”
Funders of the research included Science Foundation Ireland (SFI), the European Regional Development Fund, FutureNeuro industry partners and the European Union’s ‘Seventh Framework’ Programme FP7 (EpimiRNA).