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System and method for selective retinal stimulationRelated Patent Categories: Surgery: Light, Thermal, And Electrical Application, Light, Thermal, And Electrical Application, Electrical Therapeutic Systems, Producing Visual Effects By StimulationSystem and method for selective retinal stimulation description/claimsThe Patent Description & Claims data below is from USPTO Patent Application 20070244523, System and method for selective retinal stimulation. Brief Patent Description - Full Patent Description - Patent Application Claims
RELATED APPLICATIONS [0001] The inventors claim the benefit of U.S. Provisional Application No. 60/744,749, filed Apr. 13, 2006, which is hereby incorporated by reference in its entirety. FIELD OF THE INVENTION [0002] The present invention relates generally to electrical stimulation of sensory nerves, and in particular electrical stimulation of retinal ganglion cells of an eye to induce visual perception. BACKGROUND [0003] In many patients who are blinded by degenerative conditions, the photoreceptors of the retina may no longer function normally. For many of these patients, however, the retinal ganglion cells can continue to function and provide a signal pathway through the central nervous system to the brain. [0004] A typical eye 10 and the relative location of its components is schematically illustrated in FIGS. 1 and 2. The eye 10 is a generally circular globe filled with aqueous humour 12, a clear liquid that is similar to water. The eye 10 also includes a cornea 14, which is a transparent structure that admits light into the eye 10. The amount of light passing into the eye 10 is controlled by an iris 16, a muscle that moves to allow or block light from passing through a lens 20 behind the iris 16 to the interior of the eye 10. The lens 20 focuses light passing therethrough onto the retina 22. The retina 22 forms the interior surface of the eye opposite the lens. The output of the retina 22 is carried by retinal ganglion cells 30 that transmit action potentials to the brain via the optic nerve 24. [0005] In the eye 10, the retina 22 is a multilayered tissue that includes a layer of rods 26 and cones 28 which are the photoreceptors that detect the light falling thereon and help to convert the image projected on the retina 22 into electrical signals that can be interpreted by the brain as sight. The rods 26 provide vision in dim light and do not respond to bright light. Cones 28 on the other hand, do not respond to dim light, but provide color and fine detail vision. An inner nuclear layer separates the rods 26 and cones 28 from the ganglion cells 30 and includes amacrine cells 32, bipolar cells 34 and horizontal cells 36. [0006] A common structural feature of ganglion cells 30 is an approximately 90.degree. bend 40 in the axon as the axon leaves the ganglion cell layer 42 and enters the nerve fiber layer 44. The axons of the retinal ganglion cells 30 pass across the surface of the retina 22 and collect before exiting to form the optic nerve 24. In a healthy eye, light detected by the rods 26 and cones 28 generate signals that are transmitted via the retinal ganglion cells 30 and the optic nerve 24 to the brain, which perceives the visual image. SUMMARY [0007] An exemplary method for electrically stimulating a retina of an eye to induce visual perception includes the following steps: placing an electrode adjacent a retinal ganglion cell layer; effecting a change in the excitability of cells in the ganglion cell layer by selectively applying a biphasic asymmetrical waveform having a relatively long duration and a relatively low amplitude pre-pulse phase of a first polarity, and inducing visual perception by selectively applying a biphasic asymmetrical waveform having a relatively short duration and relatively high amplitude stimulation pulse phase that follows the pre-pulse phase. The stimulation pulse phase has a second polarity opposite the first polarity of the pre-pulse phase. A cathodic pre-pulse phase and an anodic stimulation phase induce the perception of a circular (punctuate) shape, and an anodic pre-pulse phase and a cathodic stimulation phase induce the perception of an elongated (streak) shape. [0008] The pre-pulse phase has a magnitude that is below a threshold value at which ganglion nerve cells are activated to pass a signal (sub-threshold magnitude), and has a duration that is sufficient to increase the excitability of the selected type of ganglion nerve cell. An anodic pre-pulse phase applied at a sub-threshold magnitude and for a duration that is sufficient to increase the excitability of a bending region of an axon helps to induce the perception of a circular shape in response to the stimulation phase. Applying a cathodic pre-pulse phase at a sub-threshold magnitude and for a duration sufficient to increase the excitability of the passing region of an axon helps to induce the perception of an elongated shape in response to the stimulation phase. Typically, the stimulation pulse phase has a supra-threshold magnitude that balances the charge injected by the pre-pulse phase. The pre-pulse phase typically lasts for no more than about one millisecond. The duration of the stimulation pulse phase to the duration of the pre-pulse phase is approximately 10:1. [0009] Another method includes the steps of placing an electrode adjacent a retinal ganglion cell layer and effecting a change in the excitability of cells in the ganglion cell layer by selectively applying a biphasic asymmetrical waveform. The waveform has a pre-pulse phase having a first polarity, a first amplitude and a first duration. The first amplitude and first duration together define a pre-pulse charge having a first magnitude and the first polarity. The waveform also includes a stimulation-pulse phase following the pre-pulse phase, the stimulation-pulse phase having a second polarity opposite the first polarity, a second amplitude and second duration less than the first duration. The second amplitude and second duration together define a stimulation charge having the second polarity and a second magnitude that equals the first magnitude. [0010] A visual neuroprosthesis for electrically stimulating a retina of an eye to induce visual perception generally includes an electrode positionable near a ganglion cell layer of the retina of an eye, and a waveform generator capable of generating a waveform for selectively stimulating either bending axons to induce the perception of a circular image or passing axons to induce the perception of a streak image. [0011] U.S. Pat. No. 6,560,490, which includes work performed by an inventor of the present invention in the field of central nervous system (CNS) stimulation, is hereby incorporated herein by reference. In contrast to this earlier patent, the present application recognizes the applicability of electrical stimulation to the eye and applies a biphasic asymmetrical waveform to produce selectively different types of perception, i.e., either spots or streaks, based on the polarity, duration and magnitude of the pre-pulse phase and the stimulation phase. [0012] The foregoing and other features of the invention are shown in the drawings and particularly pointed out in the claims. The following description and annexed drawings set forth detail one or more illustrated embodiments of the invention, as being indicative, however, but one or a few of the various ways in which the principles of the invention might be employed. BRIEF DESCRIPTION OF THE DRAWINGS [0013] FIG. 1 is a schematic cross-sectional view of an eye. [0014] FIG. 2 is an enlarged schematic view of a portion of a retina portion of the eye. [0015] FIG. 3 is a schematic drawing of a neuroprosthesis that can be used in accordance with the present invention. [0016] FIG. 4 is a schematic representation of an electrode and retinal ganglion cells. [0017] FIGS. 5 and 6 are schematic illustrations of biphasic asymmetrical waveforms and the resulting visual perception induced thereby. DETAILED DESCRIPTION [0018] Referring now to the drawings in detail, and initially to FIGS. 1-4, a visual neuroprosthesis 100 for electrically stimulating a retina 22 of an eye 10 to induce visual perception includes an electrode 102 that can be positioned near a ganglion cell layer 40 of a retina 22, and a waveform generator 104 connected to the electrode 102. The threshold for excitation of a retinal ganglion cell 30 with an epiretinal electrode generally is lower when the electrode is located in proximity to the characteristic 90.degree. bend (bending region) 40 in the axon of the ganglion cell 30 than when it is located over a passing axon of the nerve fiber layer 44. The waveform generator 104 is capable of generating a waveform in the electrode 102 for selectively stimulating either bending axons 40 of the retinal ganglion cell layer 42 to induce the perception of a circular image (punctuate, spot) or passing axons of the nerve fiber layer 44 to induce the perception of an elongate image (pie, streak, teardrop). Continue reading about System and method for selective retinal stimulation... Full patent description for System and method for selective retinal stimulation Brief Patent Description - Full Patent Description - Patent Application Claims Click on the above for other options relating to this System and method for selective retinal stimulation patent application. ###  How KEYWORD MONITOR works... a FREE service from FreshPatents1. Sign up (takes 30 seconds). 2. Fill in the keywords to be monitored. 3. Each week you receive an email with patent applications related to your keywords. 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