Mihai Dragos Mălîia1, Pirgit Meritam2, Michael Scherg3, Martin Fabricius4, Guido Rubboli5, Ioana Mîndruţă6, Sándor Beniczky7. 1. Department of Clinical Neurophysiology, Danish Epilepsy Centre, Dianalund, Denmark; Department of Neurology, Carol Davila University of Medicine and Pharmacy, Bucharest, Romania. 2. Department of Clinical Neurophysiology, Danish Epilepsy Centre, Dianalund, Denmark. 3. Research Department, BESA GmbH, Graefelfing, Germany. 4. Department of Clinical Neurophysiology, Copenhagen University Hospital Rigshospitalet, Copenhagen, Denmark. 5. Department of Neurology, Danish Epilepsy Centre, Dianalund, Denmark. 6. Department of Neurology, Carol Davila University of Medicine and Pharmacy, Bucharest, Romania. 7. Department of Clinical Neurophysiology, Danish Epilepsy Centre, Dianalund, Denmark; Department of Neurology, Aarhus University Hospital, Aarhus, Denmark. Electronic address: sbz@filadelfia.dk.
Abstract
OBJECTIVE: To investigate how often discharge propagation occurs within the spikes recorded in patients evaluated for epilepsy surgery, and to assess its impact on the accuracy of source imaging. METHODS: Data were analyzed from 50 consecutive patients who had presurgical workup. Discharge propagation was analyzed using sequential voltage-maps of the averaged spikes, and principal components analysis. When propagation was detected, sources were modeled both at onset and peak. RESULTS: Propagation occurred in half of the patients. The median time of propagation between onset and peak was 17 ms. In 60% of the cases with propagation (15/25 patients) this remained in the same sub-lobar area where onset occurred. The accuracy of source imaging in cases of propagating spikes was 67% when only analyzing onset or peak. This was lower as compared to cases without propagation (79%). Combining source imaging at onset and at peak increased the accuracy to 83% for the propagating spikes. CONCLUSIONS: Propagation occurs often in patients with focal epilepsy, evaluated for surgery. In 40% of the propagating cases, the source of onset and peak were in different sub-lobar regions. SIGNIFICANCE: For optimal clinical utility, sources should be modeled both at onset and at peak epochs of the spikes.
OBJECTIVE: To investigate how often discharge propagation occurs within the spikes recorded in patients evaluated for epilepsy surgery, and to assess its impact on the accuracy of source imaging. METHODS: Data were analyzed from 50 consecutive patients who had presurgical workup. Discharge propagation was analyzed using sequential voltage-maps of the averaged spikes, and principal components analysis. When propagation was detected, sources were modeled both at onset and peak. RESULTS: Propagation occurred in half of the patients. The median time of propagation between onset and peak was 17 ms. In 60% of the cases with propagation (15/25 patients) this remained in the same sub-lobar area where onset occurred. The accuracy of source imaging in cases of propagating spikes was 67% when only analyzing onset or peak. This was lower as compared to cases without propagation (79%). Combining source imaging at onset and at peak increased the accuracy to 83% for the propagating spikes. CONCLUSIONS: Propagation occurs often in patients with focal epilepsy, evaluated for surgery. In 40% of the propagating cases, the source of onset and peak were in different sub-lobar regions. SIGNIFICANCE: For optimal clinical utility, sources should be modeled both at onset and at peak epochs of the spikes.
Authors: Margherita A G Matarrese; Alessandro Loppini; Saeed Jahromi; Eleonora Tamilia; Lorenzo Fabbri; Joseph R Madsen; Phillip L Pearl; Simonetta Filippi; Christos Papadelis Journal: Annu Int Conf IEEE Eng Med Biol Soc Date: 2021-11