Prediction of epileptic seizures by analyzing brain waves
The scientists work on possibilities to detect pre-seizure changes in the brain. “In recent years, several methods were developed to calculate predictive features from the electroencephalogram, which measures brain waves”, says Professor Jens Timmer, physicist at the Freiburg Institute for Advanced Studies (FRIAS). Yet, for individual prediction methods no satisfactory performances could be observed up to now. Within the framework of the European Union funded project “EPILEPSIAE”, the research team studied whether a combination of different prediction methods could help to improve prediction performances. To this aim, a warning is given only if two methods trigger alarms during a short interval of time.
The study was based on the registrations of the electroencephalogram from eight patients, measured directly at the cortex. On average for all patients, the combination of methods yielded an increase in prediction performance by more then 50 %, proving the approach to be auspicious. “In our study, about every other seizure could be predicted correctly”, says Hinnerk Feldwisch-Drentrup from the Bernstein Center Freiburg. “While it is better than a random prediction, in the current state it seems not just yet to be sufficient for real clinical applications.” In order to investigate further possible improvements, the scientists compiled an extensive database of EEG recordings from currently 200 patients, together with partners in France and Portugal. Additionally, real-time applications of their methods are planned to be studied in the near future.
H. Feldwisch-Drentrup, B. Schelter, M. Jachan, J. Nawrath, J. Timmer, A. Schulze-Bonhage. Joining the benefits: Combining epileptic seizures prediction methods. Epilepsia 51, 2010, 1598-1606.
Press release of the University of Freiburg (German)
Contact:
Hinnerk Feldwisch-Drentrup
Bernstein Center Freiburg
Telefon: 0761-203/7710
Fax: 0761-203/7700
E-Mail: feldwisch@bcf.uni-freiburg.de
Internet: epilepsy.uni-freiburg.de