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Panagiotis Kerezoudis, Sanjeet S. Grewal, Matthew Stead, Brian Nils Lundstrom, Jeffrey W. Britton, Cheolsu Shin, Gregory D. Cascino, Benjamin H. Brinkmann, Gregory A. Worrell, and Jamie J. Van Gompel

cortical and subcortical brain regions, including the thalamus, the cerebellum, and the hippocampus, have been selected as neurostimulation targets utilizing either duty cycle 14 or responsive stimulation paradigms. 3 Despite their demonstrated efficacy in randomized controlled trials, currently approved stimulation approaches do not often result in seizure-free outcomes. 3 , 14 Chronic subthreshold cortical stimulation (CSCS) might represent a more effective option. Currently available responsive neurostimulation device detection algorithms 3 use a low spectral

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Sanjeet S. Grewal, Mohammed Ali Alvi, William J. Perkins, Gregory D. Cascino, Jeffrey W. Britton, David B. Burkholder, Elson So, Cheolsu Shin, Richard W. Marsh, Fredric B. Meyer, Gregory A. Worrell, and Jamie J. Van Gompel

be extended based on ECoG findings; however, eloquent areas (speech) are spared ( Fig. 1 ). In the future, adjunctive therapies such as responsive neurostimulation 11 or chronic subthreshold cortical stimulation 14 , 16 could be applied to eloquent areas and could potentially prevent recurrence. Study Limitations Although we have provided the largest review to date on the use of preoperative EEG and intraoperative ECoG and on the outcomes of epilepsy surgery for TLE, our study has limitations. The biggest limitation is the retrospective nature of the study. Scalp