BACKGROUND: The clinical and molecular effects of antiepileptic drugs (AEDs) have been extensively investigated. Much less is known about their effects on human electrophysiology. METHODS: Topographic analysis in the frequency domain has been used to analyze 104 electroencephalogram (EEG) epochs of 52 patients presenting with first-ever generalized seizure, with normal MRI and EEG. Patients were treated with valproate, arbamazepine, or lamotrigine in monotherapy (each group n = 13). Thirteen patients without medication served as a control group. RESULTS: Carbamazepine and lamotrigine, both sodium-channel modulators, altered brain topography in the gamma range in the same frequency bands (50-60 Hz). Valproate, which has multiple actions on sodium and calcium channels as well as GABA turnover, modified brain topography in the low gamma range (30-40 Hz). No such changes were found in the control group. For all AEDs, the neural generators were shifted more anteriorly in medial temporal through to inferior frontal regions. CONCLUSION: Decreased gamma-power and anterior shift of neural generators after AED introduction reflect AED influence on human electrophysiology.
BACKGROUND: The clinical and molecular effects of antiepileptic drugs (AEDs) have been extensively investigated. Much less is known about their effects on human electrophysiology. METHODS: Topographic analysis in the frequency domain has been used to analyze 104 electroencephalogram (EEG) epochs of 52 patients presenting with first-ever generalized seizure, with normal MRI and EEG. Patients were treated with valproate, arbamazepine, or lamotrigine in monotherapy (each group n = 13). Thirteen patients without medication served as a control group. RESULTS:Carbamazepine and lamotrigine, both sodium-channel modulators, altered brain topography in the gamma range in the same frequency bands (50-60 Hz). Valproate, which has multiple actions on sodium and calcium channels as well as GABA turnover, modified brain topography in the low gamma range (30-40 Hz). No such changes were found in the control group. For all AEDs, the neural generators were shifted more anteriorly in medial temporal through to inferior frontal regions. CONCLUSION: Decreased gamma-power and anterior shift of neural generators after AED introduction reflect AED influence on human electrophysiology.
Authors: Stephan Vogel; Martin Kaltenhäuser; Cora Kim; Nadia Müller-Voggel; Karl Rössler; Arnd Dörfler; Stefan Schwab; Hajo Hamer; Michael Buchfelder; Stefan Rampp Journal: Brain Sci Date: 2021-11-30
Authors: Mariella Panagiotopoulou; Christoforos A Papasavvas; Gabrielle M Schroeder; Rhys H Thomas; Peter N Taylor; Yujiang Wang Journal: Hum Brain Mapp Date: 2022-02-04 Impact factor: 5.399