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Fidelity of frequency and phase entrainment of circuit-level spike activity during DBS.

Fidelity of frequency and phase entrainment of circuit-level spike activity during DBS.

Authors :
Agnesi F
Muralidharan A
Baker KB
Vitek JL
Johnson MD
Source :
Journal of neurophysiology [J Neurophysiol] 2015 Aug; Vol. 114 (2), pp. 825-34. Date of Electronic Publication: 2015 Jun 17.
Publication Year :
2015

Abstract

High-frequency stimulation is known to entrain spike activity downstream and upstream of several clinical deep brain stimulation (DBS) targets, including the cerebellar-receiving area of thalamus (VPLo), subthalamic nucleus (STN), and globus pallidus (GP). Less understood are the fidelity of entrainment to each stimulus pulse, whether entrainment patterns are stationary over time, and how responses differ among DBS targets. In this study, three rhesus macaques were implanted with a single DBS lead in VPLo, STN, or GP. Single-unit spike activity was recorded in the resting state in motor cortex during VPLo DBS, in GP during STN DBS, and in STN and pallidal-receiving area of motor thalamus (VLo) during GP DBS. VPLo DBS induced time-locked spike activity in 25% (n = 15/61) of motor cortex cells, with entrained cells following 7.5 ± 7.4% of delivered pulses. STN DBS entrained spike activity in 26% (n = 8/27) of GP cells, which yielded time-locked spike activity for 8.7 ± 8.4% of stimulus pulses. GP DBS entrained 67% (n = 14/21) of STN cells and 32% (n = 19/59) of VLo cells, which showed a higher fraction of pulses effectively inhibiting spike activity (82.0 ± 9.6% and 86.1 ± 16.6%, respectively). Latency of phase-locked spike activity increased over time in motor cortex (58%, VPLo DBS) and to a lesser extent in GP (25%, STN DBS). In contrast, the initial inhibitory phase observed in VLo and STN during GP DBS remained stable following stimulation onset. Together, these data suggest that circuit-level entrainment is low-pass filtered during high-frequency stimulation, most notably for glutamatergic pathways. Moreover, phase entrainment is not stationary or consistent at the circuit level for all DBS targets.<br /> (Copyright © 2015 the American Physiological Society.)

Details

Language :
English
ISSN :
1522-1598
Volume :
114
Issue :
2
Database :
MEDLINE
Journal :
Journal of neurophysiology
Publication Type :
Academic Journal
Accession number :
26084905
Full Text :
https://doi.org/10.1152/jn.00259.2015