Development of optically controlled “living electrodes” with long-projecting axon tracts for a synaptic brain-machine interface | Zendy

Dayo O. Adewole | Zendy; Laura A. Struzyna | Zendy; Justin C. Burrell | Zendy; James P. Harris | Zendy; Ashley D. Nemes | Zendy; Dmitriy Petrov | Zendy; Reuben H. Kraft | Zendy; H. Isaac Chen | Zendy; Mijail D. Serruya | Zendy; John A. Wolf | Zendy; D. Kacy Cullen | Zendy

Open Access

Development of optically controlled “living electrodes” with long-projecting axon tracts for a synaptic brain-machine interface

Author(s) -

Dayo O. Adewole,

Laura A. Struzyna,

Justin C. Burrell,

James P. Harris,

Ashley D. Nemes,

Dmitriy Petrov,

Reuben H. Kraft,

H. Isaac Chen,

Mijail D. Serruya,

John A. Wolf,

D. Kacy Cullen

Publication year - 2021

Publication title -

science advances

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 5.928

H-Index - 146

ISSN - 2375-2548

DOI - 10.1126/sciadv.aay5347

Subject(s) - optogenetics , neuroscience , interfacing , brain–computer interface , microelectrode , neuroprosthetics , channelrhodopsin , biological neural network , materials science , computer science , biomedical engineering , biology , electrode , chemistry , medicine , electroencephalography , computer hardware

Engineered neuronal microtissue with bundled axons was grown, controlled using light, and implanted as a living neural interface.

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