Drug-resistant epilepsy diet: Therapeutic mechanism uncovered
News Nov 25, 2015
Scientists from Royal Holloway, University of London and University College London (UCL) have identified how a specific diet can be used to help treat patients with uncontrolled epilepsy.
The findings, which reveal how the ketogenic diet acts to block seizures in patients with drug-resistant epilepsy, are published in the journal Brain.
Epilepsy affects over 50 million people worldwide and approximately a third of people diagnosed with epilepsy do not have seizures adequately controlled by current treatments.
The research team have identified a specific fatty acid, decanoic acid, provided in the MCT (medium chain triglyceride, a chemical containing three fatty acids) ketogenic diet that has potent anti-epileptic effects. The diet comprises of high levels of fat and low levels of carbohydrate-containing foods.
"By examining the fats provided in the diet, we have identified a specific fatty acid that outperforms drugs currently used for controlling seizures, and that may have fewer side effects," said Professor Robin Williams from the Centre for Biomedical Sciences at the School of Biological Sciences at Royal Holloway.
"This discovery will enable us to develop improved formulations that are now likely to significantly improve the treatment of epilepsy. It will offer a whole new approach to the management of epilepsies in children and adults," added Professor Matthew Walker from UCL's Institute of Neurology.
"Finding that the therapeutic mechanism of the diet is likely to be through the fat, rather than widely accepted by generation of ketones, may enable us to develop improved diets, and suggests we should re-name the diet simply 'the MCT diet'" said Professor Williams.
Note: Material may have been edited for length and content. For further information, please contact the cited source.
Chang P et al. Seizure control by decanoic acid through direct AMPA receptor inhibition. Brain, Published Online November 25 2015. doi: 10.1093/brain/awv325
Computer bits are binary, with a value of 0 or 1. By contrast, neurons in the brain can have all kinds of different internal states, depending on the input that they received. This allows the brain to process information in a more energy-efficient manner than a computer. A new study hopes to bring the two closer together.