Diamond Devices for High Acuity Prosthetic Vision

Arman Ahnood; Hamish Meffin; David J. Garrett; Kate Fox; Kumaravelu Ganesan; Alastair Stacey; Nicholas V. Apollo; Yan T. Wong; Samantha G. Lichter; William Kentler; Omid Kavehei; Ursula Greferath; Kirstan A. Vessey; Michael R. Ibbotson; Erica L. Fletcher; Anthony N. Burkitt; Steven Prawer

doi:10.1002/adbi.201600003

Diamond Devices for High Acuity Prosthetic Vision

Arman Ahnood, Hamish Meffin, David J. Garrett, Kate Fox, Kumaravelu Ganesan, Alastair Stacey, Nicholas V. Apollo, Yan T. Wong, Samantha G. Lichter, William Kentler, Omid Kavehei, Ursula Greferath, Kirstan A. Vessey, Michael R. Ibbotson, Erica L. Fletcher, Anthony N. Burkitt, Steven Prawer

Research output: Contribution to journal › Article › peer-review

39 Scopus citations

Abstract

Retinal implants restore a sense of vision, for a growing number of users worldwide. Nevertheless, visual acuities provided by the current generation of devices are low. The quantity of information transferable to the retina using existing implant technologies is limited, far below receptor cells' capabilities. Many agree that increasing the information density deliverable by a retinal prosthesis requires devices with stimulation electrodes that are both dense and numerous. This work describes a new generation of retinal prostheses capable of upscaling the information density conveyable to the retina. Centered on engineered diamond materials, the implant is very well tolerated and long-term stable in the eye's unique physiological environment and capable of delivering highly versatile stimulation waveforms – both key attributes in providing useful vision. Delivery of high-density information, close to the retina with the flexibility to alter stimulation parameters in situ provides the best chance for success in providing high acuity prosthetic vision.

Original language	English (US)
Article number	1600003
Journal	Advanced Biosystems
Volume	1
Issue number	1-2
DOIs	https://doi.org/10.1002/adbi.201600003
State	Published - Feb 1 2017
Externally published	Yes

All Science Journal Classification (ASJC) codes

Biomaterials
Biomedical Engineering
General Biochemistry, Genetics and Molecular Biology

Keywords

diamond electrodes
diamond encapsulation
high acuity
neuronal stimulators
retinal implants

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10.1002/adbi.201600003

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Ahnood, A., Meffin, H., Garrett, D. J., Fox, K., Ganesan, K., Stacey, A., Apollo, N. V., Wong, Y. T., Lichter, S. G., Kentler, W., Kavehei, O., Greferath, U., Vessey, K. A., Ibbotson, M. R., Fletcher, E. L., Burkitt, A. N., & Prawer, S. (2017). Diamond Devices for High Acuity Prosthetic Vision. Advanced Biosystems, 1(1-2), Article 1600003. https://doi.org/10.1002/adbi.201600003

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abstract = "Retinal implants restore a sense of vision, for a growing number of users worldwide. Nevertheless, visual acuities provided by the current generation of devices are low. The quantity of information transferable to the retina using existing implant technologies is limited, far below receptor cells' capabilities. Many agree that increasing the information density deliverable by a retinal prosthesis requires devices with stimulation electrodes that are both dense and numerous. This work describes a new generation of retinal prostheses capable of upscaling the information density conveyable to the retina. Centered on engineered diamond materials, the implant is very well tolerated and long-term stable in the eye's unique physiological environment and capable of delivering highly versatile stimulation waveforms – both key attributes in providing useful vision. Delivery of high-density information, close to the retina with the flexibility to alter stimulation parameters in situ provides the best chance for success in providing high acuity prosthetic vision.",

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AU - Apollo, Nicholas V.

AU - Wong, Yan T.

AU - Lichter, Samantha G.

AU - Kentler, William

AU - Kavehei, Omid

AU - Greferath, Ursula

AU - Vessey, Kirstan A.

AU - Ibbotson, Michael R.

AU - Fletcher, Erica L.

AU - Burkitt, Anthony N.

AU - Prawer, Steven

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Diamond Devices for High Acuity Prosthetic Vision

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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