Minimally invasive retinal prosthesis

US 6,976,998 B2
Filed: 01/17/2003
Issued: 12/20/2005
Est. Priority Date: 01/17/2002
Status: Expired due to Fees

First Claim

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1. A retinal prosthesis, comprising:

an RF coil adapted to be attached to the outside of and moving with an eye to receive power from an external power source;

electronic circuitry adapted to be attached to and moving with the eye and electrically connected to the RF coil;

a light sensitive array electrically connected to the electronic circuitry and adapted to be located within the eye for receiving incident light and for generating an electrical signal in response to the incident light; and

a stimulating array adapted for abutting a retina of the eye and electrically connected to the electronic circuitry to stimulate retinal tissue in response to the electrical signal from the light sensitive array, further comprising wireless control means for specifying, from outside the body of a patient, a transformation in response to the patient'"'"'s reported perceptions by which electrical signals from the light-sensitive array are transformed into a set of electrical patterns to the stimulating array to influence visual function.

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Abstract

An ocular device that can more safely and effectively perform all functions needed of a retinal prosthesis with electronic components that are placed outside the wall of an eye, are powered wirelessly provided by an external power source, and which provide a patient with a view determined by natural motion of the eye and triggered by natural incident light converging at the retina. In one aspect, the invention is an externally powered, light-activated, sub-retinal prosthesis in which natural light entering the eye conveys visual details to the sub-retinal prosthesis, while wireless radiofrequency transmission provides the power needed to stimulate the retina, which would be insufficient if it were obtained from the intensity of incoming light alone.

208 Citations

15 Claims

1. A retinal prosthesis, comprising:
- an RF coil adapted to be attached to the outside of and moving with an eye to receive power from an external power source;
  
  electronic circuitry adapted to be attached to and moving with the eye and electrically connected to the RF coil;
  
  a light sensitive array electrically connected to the electronic circuitry and adapted to be located within the eye for receiving incident light and for generating an electrical signal in response to the incident light; and
  
  a stimulating array adapted for abutting a retina of the eye and electrically connected to the electronic circuitry to stimulate retinal tissue in response to the electrical signal from the light sensitive array, further comprising wireless control means for specifying, from outside the body of a patient, a transformation in response to the patient'"'"'s reported perceptions by which electrical signals from the light-sensitive array are transformed into a set of electrical patterns to the stimulating array to influence visual function.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The retinal prosthesis of claim 1, wherein said light-sensitive array comprises an array of photo diodes.
  - 3. The retinal prosthesis of claim 1, wherein said stimulating array comprises an electrode array.
  - 4. The retinal prosthesis of claim 1, wherein said power source is a primary RF coil positioned external to a body of a patient and adapted to deliver power to said RF coil adapted to be attached to the eye.
  - 5. The retinal prosthesis of claim 1, wherein all electronics adapted to be positioned within the eye contact the retina within a region defined by a surface area of the retina covered by said stimulating array.
  - 6. The retinal prosthesis of claim 1, wherein the stimulating array, the light-sensitive array, the electronic circuitry, and the RF coil are adapted to be attached to the eye so as to conform with the eye'"'"'s curvature and movements.
  - 7. The retinal prosthesis of claim 1, wherein said stimulating array and said light-sensitive array form an integral component having interlaced elements.

8. A retinal prosthesis, comprising:
- an RF coil adapted to be attached to the outside of and moving with an eye to receive power from an external power source, and wherein the RF coil is adapted to be attached to a temporal side of the eye;
  
  electronic circuitry adapted to be attached to and moving with the eye and electrically connected to the RF coil;
  
  a light sensitive array electrically connected to the electronic circuitry and adapted to be located within the eye for receiving incident light and for generating an electrical signal in response to the incident light;
  
  a stimulating array adapted to be positioned sub-retinally within the eye and electrically connected to the electronic circuitry to stimulate retinal tissue in response to the electrical signal from the light sensitive array; and
  
  wireless control means for specifying, from outside a body of a patient, transformation in response to the patient'"'"'s recorded perceptions by which electrical signals from the light-sensitive array are transformed into a set of electrical patterns to the stimulating array to influence visual function.

9. A retinal prosthesis, comprising:
- an RF coil adapted to be associated with an eye to receive power from an external power source;
  
  electronic circuitry adapted to be attached to and moving with the eye and electrically connected to the RF coil;
  
  a light sensitive array electrically connected to the electronic circuitry and adapted to be located within the eye for receiving incident light and for generating an electrical signal in response to the incident light;
  
  a stimulating array adapted for abutting a retina of the eye and electrically connected to the electronic circuitry to stimulate retinal tissue in response to the electrical signal from the light sensitive array; and
  
  wireless control means for specifying, from outside a body of a patient, transformation in response to the patient'"'"'s perceptions by which electrical signals from the light-sensitive array are transformed into a set of electrical patterns to the stimulating array to influence visual function.

10. A retinal prosthesis comprising:
- electronic circuitry adapted to be attached to and moving with an eye;
  
  means for delivering power to the electronic circuitry; and
  
  a wide field stimulating array adapted to be positioned sub-retinally within the eye and electrically connected to the electronic circuitry for stimulating retinal tissue, wherein the wide field stimulating array has an area of at least 100 mm².

11. A retinal prosthesis comprising:
- electronic circuitry adapted to be attached to and moving with an eye;
  
  an RF coil adapted to be attached to the outside of and moving with the eye and adapted to receive power from a power source and deliver power to the electronic circuitry;
  
  a stimulating array adapted to be positioned within the eye and electrically connected to the electronic circuitry for stimulating retinal tissue; and
  
  a demultiplexor to issue stimulus commands to the stimulating array.
- View Dependent Claims (12)
- - 12. The retinal prosthesis of claim 11 wherein the demultiplexor is adapted to be located within the eye.

13. A retinal prosthesis comprising:
- electronic circuitry adapted to be attached to and moving with an eye;
  
  means for delivering power to the electronic circuitry;
  
  a stimulating array adapted to be positioned within the eye and electrically connected to the electronic circuitry for stimulating retinal tissue; and
  
  reverse telemetry means to monitor neural activity.

14. A retinal prosthesis comprising:
- electronic circuitry adapted to be attached to and moving with an eye;
  
  means for delivering power to the electronic circuitry;
  
  a light sensitive array electrically connected to the electronic circuitry for receiving incident light and for generating an electrical signal in response to the incident light;
  
  stimulating array adapted to be positioned within the eye and electrically connected to the electronic circuitry for stimulating retinal tissue;
  
  a transformation algorithm for transforming electrical signals from the light sensitive array into a set of electrical patterns to the stimulating array; and
  
  means for altering the transformation algorithm based on inputs from a patient or based on known medical specifications.

15. A retinal prosthesis comprising:
- electronic circuitry adapted to be attached to and moving with an eye;
  
  means for delivering power to the electronic circuitry; and
  
  a stimulating array adapted to be positioned within the eye and electrically connected to the electronic circuitry for stimulating retinal tissue;
  
  wherein size and/or spacing of elements within the stimulating array is selected depending on the retinal tissue to be stimulated.

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Current Assignee
Massachusetts Institute of Technology
Original Assignee
Massachusetts Eye And Ear Infirmary (Foundation of The Massachusetts Eye and EAR Infirmary Incorporated), Massachusetts Institute of Technology
Inventors
Wyatt, John L. Jr., Theogarajan, Luke, Rizzo, Joseph F.
Primary Examiner(s)
McDermott, Corrine
Assistant Examiner(s)
SWEET, THOMAS

Application Number

US10/346,701
Publication Number

US 20030158588A1
Time in Patent Office

1,068 Days
Field of Search

607/53, 607/54, 623/60, 623/63, 623/6.63
US Class Current

623/6.63
CPC Class Codes

A61F 2/14   Eye parts, e.g. lenses, cor...

A61F 9/08   Devices or methods enabling...

A61N 1/0543   Retinal electrodes

A61N 1/36046   of the eye

A61N 1/3787   from an external energy source

Minimally invasive retinal prosthesis

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

208 Citations

15 Claims

Specification

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Minimally invasive retinal prosthesis

First Claim

2 Assignments

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Subscription Required

0 Petitions

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Accused Products

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Abstract

208 Citations

15 Claims

Specification

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Use Cases

Quick Links

Others