| NANO-RETINA, INC. Patent applications |
| Patent application number | Title | Published |
|---|
| 20120041514 | RETINAL PROSTHESIS - An external device ( | 02-16-2012 |
| 20120035726 | RETINAL PROSTHESIS TECHNIQUES - Apparatus for use with an external non-visible light source is provided. The apparatus comprises an intraocular device configured for implantation in a human eye, and comprising an energy receiver. The energy receiver is configured to receive light emitted from the external non-visible light source, and extract energy from the emitted light for powering the intraocular device. The intraocular device is configured to regulate a parameter of operation of the intraocular device based on a modulation of the light emitted by the external non-visible light source and received by the energy receiver. Other embodiments are also described. | 02-09-2012 |
| 20120035725 | RETINAL PROSTHESIS TECHNIQUES - Apparatus is provided including an external device including, a mount, which is placed in front of an eye of a subject. A power source is coupled to the mount and emits energy toward the eye. An intraocular device is implanted entirely in the subject's eye, and includes a control unit, a plurality of stimulating electrodes, and an energy receiver, which receives the energy from the power source and generates a voltage drop in response thereto. A plurality of photosensors detect photons and generate a signal in response thereto. Driving circuitry is coupled to the energy receiver and to the photosensors, and drives the electrodes to apply electrical charges to a retina in response to the signals from the photosensors. The external device modulates the emitted energy, and the control unit demodulates the modulated energy to regulate an operation parameter of the intraocular device. Other embodiments are also described. | 02-09-2012 |
| 20110172736 | PENETRATING ELECTRODES FOR RETINAL STIMULATION - Apparatus configured for implantation in a body of a subject is provided. The apparatus includes a support substrate, and at least 500 electrodes protruding at least 50 um from the support substrate, each electrode having (a) a distal tip, (b) an electrically-exposed tip portion, and (c) a cross-section of 50-1500 um2, 20 um from the distal tip. Other embodiments are also described. | 07-14-2011 |
