期刊
JOURNAL OF NEUROPHYSIOLOGY
卷 119, 期 2, 页码 389-400出版社
AMER PHYSIOLOGICAL SOC
DOI: 10.1152/jn.00872.2016
关键词
brain-machine interface; electrical stimulation; electrophysiology; neural prosthesis; retinal ganglion cells; retinal prosthesis
资金
- National Eye Institute [R01 EY-018608]
- Department of Defense Grant [W81XWH-15-1-0009]
- Stanford Spectrum fund
- Stanford Neurosciences Institute Interdisciplinary Award
- Pew Charitable Trusts Scholarships in the Biomedical Sciences
- SU2 Program
Subretinal prostheses aim at restoring sight to patients blinded by photoreceptor degeneration using electrical activation of the surviving inner retinal neurons. Today, such implants deliver visual information with low-frequency stimulation, resulting in discontinuous visual percepts. We measured retinal responses to complex visual stimuli delivered at video rate via a photovoltaic subretinal implant and by visible light. Using a multi-electrode array to record from retinal ganglion cells (RGCs) in the healthy and degenerated rat retina ex vivo, we estimated their spatio-temporal properties from the spike-triggered average responses to photovoltaic binary white noise stimulus with 70-mu m pixel size at 20-Hz frame rate. The average photovoltaic receptive field size was 194 +/- 3 mu m (mean +/- SE), similar to that of visual responses (221 +/- 4 mu m), but response latency was significantly shorter with photovoltaic stimulation. Both visual and photovoltaic receptive fields had an opposing center-surround structure. In the healthy retina, ON RGCs had photovoltaic OFF responses, and vice versa. This reversal is consistent with depolarization of photoreceptors by electrical pulses, as opposed to their hyperpolarization under increasing light, although alternative mechanisms cannot be excluded. In degenerate retina, both ON and OFF photovoltaic responses were observed, but in the absence of visual responses, it is not clear what functional RGC types they correspond to. Degenerate retina maintained the antagonistic center-surround organization of receptive fields. These fast and spatially localized network-mediated ON and OFF responses to subretinal stimulation via photovoltaic pixels with local return electrodes raise confidence in the possibility of providing more functional prosthetic vision. NEW & NOTEWORTHY Retinal prostheses currently in clinical use have struggled to deliver visual information at naturalistic frequencies, resulting in discontinuous percepts. We demonstrate modulation of the retinal ganglion cells (RGC) activity using complex spatiotemporal stimuli delivered via subretinal photovoltaic implant at 20 Hz in healthy and in degenerate retina. RGCs exhibit fast and localized ON and OFF network-mediated responses, with antagonistic center-surround organization of their receptive fields.
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