Thalamic deep brain stimulation modulates cycles of seizure risk in epilepsy

Nicholas M. Gregg; Vladimir Sladky; Petr Nejedly; Filip Mivalt; Inyong Kim; Irena Balzekas; Beverly K. Sturges; Chelsea Crowe; Edward E. Patterson; Jamie J. Van Gompel; Brian N. Lundstrom; Kent Leyde; Timothy J. Denison; Benjamin H. Brinkmann; Vaclav Kremen; Gregory A. Worrell

doi:10.1038/s41598-021-03555-7

Scientific Reports (Dec 2021)

Thalamic deep brain stimulation modulates cycles of seizure risk in epilepsy

Nicholas M. Gregg,
Vladimir Sladky,
Petr Nejedly,
Filip Mivalt,
Inyong Kim,
Irena Balzekas,
Beverly K. Sturges,
Chelsea Crowe,
Edward E. Patterson,
Jamie J. Van Gompel,
Brian N. Lundstrom,
Kent Leyde,
Timothy J. Denison,
Benjamin H. Brinkmann,
Vaclav Kremen,
Gregory A. Worrell

Affiliations

Nicholas M. Gregg: Department of Neurology, Bioelectronics Neurophysiology and Engineering Laboratory, Mayo Clinic
Vladimir Sladky: Department of Neurology, Bioelectronics Neurophysiology and Engineering Laboratory, Mayo Clinic
Petr Nejedly: Department of Neurology, Bioelectronics Neurophysiology and Engineering Laboratory, Mayo Clinic
Filip Mivalt: Department of Neurology, Bioelectronics Neurophysiology and Engineering Laboratory, Mayo Clinic
Inyong Kim: Department of Neurology, Bioelectronics Neurophysiology and Engineering Laboratory, Mayo Clinic
Irena Balzekas: Department of Neurology, Bioelectronics Neurophysiology and Engineering Laboratory, Mayo Clinic
Beverly K. Sturges: Department of Veterinary Clinical Sciences, University of California
Chelsea Crowe: Department of Veterinary Clinical Sciences, University of California
Edward E. Patterson: Department of Veterinary Clinical Sciences, University of Minnesota College of Veterinary Medicine
Jamie J. Van Gompel: Department of Neurosurgery, Mayo Clinic
Brian N. Lundstrom: Department of Neurology, Bioelectronics Neurophysiology and Engineering Laboratory, Mayo Clinic
Kent Leyde: Cadence Neuroscience
Timothy J. Denison: Institute for Biomedical Engineering, Oxford University
Benjamin H. Brinkmann: Department of Neurology, Bioelectronics Neurophysiology and Engineering Laboratory, Mayo Clinic
Vaclav Kremen: Department of Neurology, Bioelectronics Neurophysiology and Engineering Laboratory, Mayo Clinic
Gregory A. Worrell: Department of Neurology, Bioelectronics Neurophysiology and Engineering Laboratory, Mayo Clinic

DOI: https://doi.org/10.1038/s41598-021-03555-7
Journal volume & issue: Vol. 11, no. 1
pp. 1 – 12

Abstract

Read online

Abstract Chronic brain recordings suggest that seizure risk is not uniform, but rather varies systematically relative to daily (circadian) and multiday (multidien) cycles. Here, one human and seven dogs with naturally occurring epilepsy had continuous intracranial EEG (median 298 days) using novel implantable sensing and stimulation devices. Two pet dogs and the human subject received concurrent thalamic deep brain stimulation (DBS) over multiple months. All subjects had circadian and multiday cycles in the rate of interictal epileptiform spikes (IES). There was seizure phase locking to circadian and multiday IES cycles in five and seven out of eight subjects, respectively. Thalamic DBS modified circadian (all 3 subjects) and multiday (analysis limited to the human participant) IES cycles. DBS modified seizure clustering and circadian phase locking in the human subject. Multiscale cycles in brain excitability and seizure risk are features of human and canine epilepsy and are modifiable by thalamic DBS.

Published in Scientific Reports

ISSN: 2045-2322 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Medicine; Science
Website: https://www.nature.com/srep/

About the journal