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Nat Biomed Eng
Published

Closed-loop optogenetic control of the dynamics of neural activity in non-human primates.

Authors

B Zaaimi, M Turnbull, A Hazra, Y Wang, C Gandara, F McLeod, E E McDermott, E Escobedo-Cousin, A Shah Idil, R G Bailey, S Tardio, A Patel, N Ponon, J Gausden, D Walsh, F Hutchings, M Kaiser, M O Cunningham, G J Clowry, F E N LeBeau, T G Constandinou, S N Baker, N Donaldson, P Degenaar, A O'Neill, A J Trevelyan, A Jackson

Abstract

Electrical neurostimulation is effective in the treatment of neurological disorders, but associated recording artefacts generally limit its applications to open-loop stimuli. Real-time and continuous closed-loop control of brain activity can, however, be achieved by pairing concurrent electrical recordings and optogenetics. Here we show that closed-loop optogenetic stimulation with excitatory opsins enables the precise manipulation of neural dynamics in brain slices from transgenic mice and in anaesthetized non-human primates. The approach generates oscillations in quiescent tissue, enhances or suppresses endogenous patterns in active tissue and modulates seizure-like bursts elicited by the convulsant 4-aminopyridine. A nonlinear model of the phase-dependent effects of optical stimulation reproduced the modulation of cycles of local-field potentials associated with seizure oscillations, as evidenced by the systematic changes in the variability and entropy of the phase-space trajectories of seizures, which correlated with changes in their duration and intensity. We also show that closed-loop optogenetic neurostimulation could be delivered using intracortical optrodes incorporating light-emitting diodes. Closed-loop optogenetic approaches may be translatable to therapeutic applications in humans.

PMID:36266536 | DOI:

UK DRI Authors

Mahendra Patel

Prof Mahendra Patel

UK DRI Affiliate Member

Director, Centre for Research Equity, Nuffield Department of Primary Care Health Sciences, University of Oxford

Prof Mahendra Patel