Pathological and physiological high-frequency oscillations in focal human epilepsy

Author:

Matsumoto Andrew1,Brinkmann Benjamin H.1,Matthew Stead S.1,Matsumoto Joseph1,Kucewicz Michal T.1,Marsh W. Richard2,Meyer Frederic2,Worrell Gregory1

Affiliation:

1. Department of Neurology, Mayo Systems Electrophysiology Laboratory, Mayo Clinic, Rochester, Minnesota; and

2. Department of Neurosurgery, Mayo Systems Electrophysiology Laboratory, Mayo Clinic, Rochester, Minnesota

Abstract

High-frequency oscillations (HFO; gamma: 40–100 Hz, ripples: 100–200 Hz, and fast ripples: 250–500 Hz) have been widely studied in health and disease. These phenomena may serve as biomarkers for epileptic brain; however, a means of differentiating between pathological and normal physiological HFO is essential. We categorized task-induced physiological HFO during periods of HFO induced by a visual or motor task by measuring frequency, duration, and spectral amplitude of each event in single trial time-frequency spectra and compared them to pathological HFO similarly measured. Pathological HFO had higher mean spectral amplitude, longer mean duration, and lower mean frequency than physiological-induced HFO. In individual patients, support vector machine analysis correctly classified pathological HFO with sensitivities ranging from 70–98% and specificities >90% in all but one patient. In this patient, infrequent high-amplitude HFO were observed in the motor cortex just before movement onset in the motor task. This finding raises the possibility that in epileptic brain physiological-induced gamma can assume higher spectral amplitudes similar to those seen in pathologic HFO. This method if automated and validated could provide a step towards differentiating physiological HFO from pathological HFO and improving localization of epileptogenic brain.

Publisher

American Physiological Society

Subject

Physiology,General Neuroscience

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