Dysmorphic neurons as cellular source for phase-amplitude coupling in Focal Cortical Dysplasia Type II
Rampp S, Rössler K, Hamer H, Illek M, Buchfelder M, Dörfler A, Pieper T, Hartlieb T, Kudernatsch M, Kölble K, Peixoto-Santos JE, Blümcke I, Coras R (2021)
Publication Type: Journal article
Publication year: 2021
Journal
Book Volume: 132
Pages Range: 782-792
Journal Issue: 3
DOI: 10.1016/j.clinph.2021.01.004
Abstract
Objective: Reliable localization of the epileptogenic zone is necessary for successful epilepsy surgery. Neurophysiological biomarkers include ictal onsets and interictal spikes. Furthermore, the epileptic network shows oscillations with potential localization value and pathomechanistic implications. The cellular origin of such markers in invasive EEG in vivo remains to be clarified. Methods: In the presented pilot study, surgical brain samples and invasive EEG recordings of seven patients with surgically treated Focal Cortical Dysplasia (FCD) type II were coregistered using a novel protocol. Dysmorphic neurons and balloon cells were immunohistochemically quantified. Evaluated markers included seizure onset, spikes, and oscillatory activity in delta, theta, gamma and ripple frequency bands, as well as sample entropy and phase-amplitude coupling between delta, theta, alpha and beta phase and gamma amplitude. Results: Correlations between histopathology and neurophysiology provided evidence for a contribution of dysmorphic neurons to interictal spikes, fast gamma activity and ripples. Furthermore, seizure onset and phase-amplitude coupling in areas with dysmorphic neurons suggests preserved connectivity is related to seizure initiation. Balloon cells showed no association. Conclusions: Phase-amplitude coupling, spikes, fast gamma and ripples are related to the density of dysmorphic neurons and localize the seizure onset zone. Significance: The results of our pilot study provide a new powerful tool to address the cellular source of abnormal neurophysiology signals to leverage current and novel biomarkers for the localization of epileptic activity in the human brain.
Authors with CRIS profile
Stefan Rampp
Department of Neurosurgery
Hajo Hamer
Professur für Epileptologie
Michael Buchfelder
Lehrstuhl für Neurochirurgie
Arnd Dörfler
Department of Neuroradiology
Konrad Kölble
Institute of Neuropathology
Ingmar Blümcke
Lehrstuhl für Neuropathologie
Roland Coras
Institute of Neuropathology
Involved external institutions
Germany (DE)How to cite
APA:
Rampp, S., Rössler, K., Hamer, H., Illek, M., Buchfelder, M., Dörfler, A.,... Coras, R. (2021). Dysmorphic neurons as cellular source for phase-amplitude coupling in Focal Cortical Dysplasia Type II. Clinical Neurophysiology, 132(3), 782-792. https://dx.doi.org/10.1016/j.clinph.2021.01.004
MLA:
Rampp, Stefan, et al. "Dysmorphic neurons as cellular source for phase-amplitude coupling in Focal Cortical Dysplasia Type II." Clinical Neurophysiology 132.3 (2021): 782-792.
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