The effects of direct brain stimulation in humans depend on frequency, amplitude, and white-matter proximity

刺激 神经科学 脑刺激 人脑 脑深部刺激 大脑活动与冥想 白质 运动前神经元活动 电生理学 癫痫 抑制性突触后电位 心理学 医学 脑电图 内科学 磁共振成像 疾病 帕金森病 放射科
作者
Uma R. Mohan,Andrew J. Watrous,Jonathan Miller,Bradley Lega,Michael R. Sperling,Gregory A. Worrell,Robert E. Gross,Kareem A. Zaghloul,Barbara C. Jobst,Kathryn A. Davis,Sameer A. Sheth,Joel M. Stein,Sandhitsu R. Das,Richard Gorniak,Paul A. Wanda,Daniel S. Rizzuto,Michael J. Kahana,Joshua Jacobs
出处
期刊:Brain Stimulation [Elsevier BV]
卷期号:13 (5): 1183-1195 被引量:131
标识
DOI:10.1016/j.brs.2020.05.009
摘要

BACKGROUND: Researchers have used direct electrical brain stimulation to treat a range of neurological and psychiatric disorders. However, for brain stimulation to be maximally effective, clinicians and researchers should optimize stimulation parameters according to desired outcomes. OBJECTIVE: The goal of our large-scale study was to comprehensively evaluate the effects of stimulation at different parameters and locations on neuronal activity across the human brain. METHODS: To examine how different kinds of stimulation affect human brain activity, we compared the changes in neuronal activity that resulted from stimulation at a range of frequencies, amplitudes, and locations with direct human brain recordings. We recorded human brain activity directly with electrodes that were implanted in widespread regions across 106 neurosurgical epilepsy patients while systematically stimulating across a range of parameters and locations. RESULTS: Overall, stimulation most often had an inhibitory effect on neuronal activity, consistent with earlier work. When stimulation excited neuronal activity, it most often occurred from high-frequency stimulation. These effects were modulated by the location of the stimulating electrode, with stimulation sites near white matter more likely to cause excitation and sites near gray matter more likely to inhibit neuronal activity. CONCLUSION: By characterizing how different stimulation parameters produced specific neuronal activity patterns on a large scale, our results provide an electrophysiological framework that clinicians and researchers may consider when designing stimulation protocols to cause precisely targeted changes in human brain activity.
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