Behavioural responses to a photovoltaic subretinal prosthesis implanted in non-human primates

Prévot, Paul-Henri; Gehere, Kevin; Arcizet, Fabrice; Akolkar, Himanshu; Khoei, Mina A.; Blaize, Kévin; Oubari, Omar; Daye, Pierre; Lanoë, Marion; Valet, Manon; Dalouz, Sami; Langlois, Paul; Esposito, Elric; Forster, Valérie; Dubus, Élisabeth; Wattiez, Nicolas; Brazhnikova, Elena; Nouvel-Jaillard, Céline; LeMer, Yannick; Demilly, J; Fovet, Claire-Maëlle; Hantraye, Philippe; Weissenburger, Morgane; Lorach, Henri; Bouillet, Elodie; Deterre, Martin; Hornig, R.; Buc, Guillaume; Sahel, José‐Alain; Chènegros, Guillaume; Pouget, Pierre; Benosman, Ryad; Picaud, Serge

doi:10.1038/s41551-019-0484-2

Cited by 65 publications

(61 citation statements)

References 22 publications

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“…Early research has shown that photodiodes reliant solely on ambient light can induce neurotrophic effects, but are insufficient for phosphene generation (Chow et al, 2004;Palanker et al, 2005). By incorporating circuitry for signal amplification, significant responses were seen in animal models (Lorach et al, 2015;Prévot et al, 2019) and patients can perceive distinct phosphenes (Zrenner et al, 2010;Lorach et al, 2015). Since the image is based on incident light entering the eye instead of an externally located camera for MPDAs with electronic amplification, patients can utilize natural eye movements.…”

Section: Subretinalmentioning

confidence: 99%

New Vision for Visual Prostheses

Farnum

Pelled

2020

Front. Neurosci.

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Section: Subretinalmentioning

confidence: 99%

New Vision for Visual Prostheses

Farnum

Pelled

2020

Front. Neurosci.

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“…Most cutting-edge therapies today are directed toward late-stage rod-cone dystrophy and atrophic or wet AMD, where loss of photoreceptors has already occurred. For this, the lack of severe inherited models displaying outer retinal loss has been compensated by the generation of acute models via laser ablation (14-16), chemically induced photoreceptor ablation (16), or the separation of the outer retina in reaction to a subretinally implanted retinal prosthesis (17). Other promising vision restoration strategies such as optogenetics have been tested extensively in normal NHPs, including marmosets (18) and macaques (19,20).…”

Section: Uniqueness Of the Primate Model For Human Visionmentioning

confidence: 99%

“…These in vitro preparations allowed us to demonstrate functional expression of genes such as microbial opsins in cone photoreceptors (70) and retinal ganglion cells (73) in the development of optogenetic therapy for restoring vision. We also used ex vivo NHP retinal explants to assess the efficacy of the PRIMA photovoltaic retinal prosthesis (17). The recent development of retinal organoids from induced pluripotent stem cells (iPSCs) has extended the interest in in vitro studies by providing an unlimited source of human retinal cells, with the additional possibility of generating tissues from patients affected by specific gene mutations (72,(74)(75)(76)(77).…”

Section: Surrogate Models On the Development Pathmentioning

confidence: 99%

The primate model for understanding and restoring vision

Picaud

Dalkara

Marazova

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

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Retinal degenerative diseases caused by photoreceptor cell death are major causes of irreversible vision loss. As only primates have a macula, the nonhuman primate (NHP) models have a crucial role not only in revealing biological mechanisms underlying high-acuity vision but also in the development of therapies. Successful translation of basic research findings into clinical trials and, moreover, approval of the first therapies for blinding inherited and age-related retinal dystrophies has been reported in recent years. This article explores the value of the NHP models in understanding human vision and reviews their contribution to the development of innovative therapeutic strategies to save and restore vision.

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“…Engineered kidneys could potentially report on the level of metabolites within the blood and whether or not they can handle their excretion. Engineered retinas could allow restoration of vision and digitization of the recorded data for various purposes (Pré vot et al, 2019). For each of these engineered tissues or organs, the lifetime of the integrated electronics could also be controlled.…”

Section: Future Outlookmentioning

confidence: 99%

Engineering Smart Hybrid Tissues with Built-In Electronics

Feiner

2020

iScience

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One of the major hurdles faced in tissue engineering is the inability to monitor and control the function of an engineered tissue following transplantation. Recent years have seen major developments in the field by integrating electronics within engineered tissues. Previously, the most common types of devices integrated into the body used to be pacemakers and deep brain stimulation electrodes that are stiff and non-compliant; the advent of ultra-thin and flexible electronics has brought forth a significant expansion of the field. Recent developments have enabled interfacing electronics onto, into, and within all tissues and organs with minimal adverse reactions. These have introduced the ability to engineer tissues with built-in electronics that allow for remote monitoring and regulation of tissue function. In this review, we discuss the development of technologies that allowed for the formation of tissue-electronics hybrids and give an overview of the existing examples of these hybrid ''cyborg'' tissues.

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Behavioural responses to a photovoltaic subretinal prosthesis implanted in non-human primates

Cited by 65 publications

References 22 publications

New Vision for Visual Prostheses

New Vision for Visual Prostheses

The primate model for understanding and restoring vision

Engineering Smart Hybrid Tissues with Built-In Electronics

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