Methods and devices to design and fabricate surfaces on contact lenses and on corneal tissue that correct the eye's optical aberrations

US 6,086,204 A
Filed: 09/20/1999
Issued: 07/11/2000
Est. Priority Date: 09/20/1999
Status: Expired

First Claim

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1. A method for correcting the optical aberrations beyond defocus and astigmatism of an eye fitted with an original contact lens having a known anterior surface shape by providing a modified or new contact lens which has its anterior surface reshaped from said original contact lens'"'"'s anterior surface, comprising the steps of:

a) measuring said optical aberrations of an eye fitted with an original contact lens,b) performing a mathematical analysis of said eye'"'"'s optical aberrations when fitted with original contact lens to determine said modified anterior contact lens surface shape, andc) fabricating said modified anterior contact lens surface by methods that remove, add or compress material or alter the surface chemistry.

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Abstract

Methods and devices are described that are needed to design and fabricate modified surfaces on contact lenses or on corneal tissue that correct the eye'"'"'s optical aberrations beyond defocus and astigmatism. The invention provides the means for: 1) measuring the eye'"'"'s optical aberrations either with or without a contact lens in place on the cornea, 2) performing a mathematical analysis on the eye'"'"'s optical aberrations in order to design a modified surface shape for the original contact lens or cornea that will correct the optical aberrations, 3) fabricating the aberration-correcting surface on a contact lens by diamond point turning, three dimensional contour cutting, laser ablation, thermal molding, photolithography, thin film deposition, or surface chemistry alteration, and 4) fabricating the aberration-correcting surface on a cornea by laser ablation.

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15 Claims

1. A method for correcting the optical aberrations beyond defocus and astigmatism of an eye fitted with an original contact lens having a known anterior surface shape by providing a modified or new contact lens which has its anterior surface reshaped from said original contact lens'"'"'s anterior surface, comprising the steps of:
- a) measuring said optical aberrations of an eye fitted with an original contact lens,b) performing a mathematical analysis of said eye'"'"'s optical aberrations when fitted with original contact lens to determine said modified anterior contact lens surface shape, andc) fabricating said modified anterior contact lens surface by methods that remove, add or compress material or alter the surface chemistry.
- View Dependent Claims (2, 3, 4)
- - 2. A method as claimed in claim 1 wherein said measuring of the eye'"'"'s optical aberrations comprises the sub-steps of:
    - i) optically projecting the image of a small point of incoherent light onto the macular region of the eye'"'"'s retina,ii) optically conveying the image of the eye'"'"'s pupil, through which light scattered back from the macular region emerges, onto a microlens array,iii) optically conveying the multiple spot images formed by said microlens array onto the image plane of a photo-electronic imaging device,iv) transforming by means of the photo-electronic imaging device the multiple spot images formed by said microlens array to an electronic signal which represents the images,v) conveying said electronic signal to a computer for data processing,vi) processing first the electronic signal with said computer in order to obtain the coordinate locations of the centroids of said multiple spot images formed by said microlens array, andvii) processing next said coordinate locations with said computer in order to obtain the slopes of optical rays emerging from the subject'"'"'s pupil at said coordinate locations.
  - 3. A method as claimed in claim 1 wherein said mathematical analysis comprises the sub-steps of:
    - i) determining mathematically the normal vectors of said original contact lens'"'"'s anterior surface,ii) determining mathematically the directional derivatives of said modified or new contact lens'"'"'s anterior surface using data of said normal vectors of original contact lens'"'"'s anterior surface and data of said eye'"'"'s optical aberrations, andiii) fitting mathematically by the method of least squares said directional derivatives to the corresponding directional derivatives of a polynomial expression that represents said modified or new contact lens'"'"'s anterior surface.
  - 4. A method as claimed in claim 1 wherein said step of fabricating said modified or new contact lens'"'"'s anterior surface is chosen from the group of methods comprising diamond point machining, laser ablation, thermal molding, photo-lithographic etching, thin film deposition, and surface chemistry alteration.

5. A method for correcting the optical aberrations beyond defocus and astigmatism of an eye with an original anterior corneal surface of known shape by providing a modified anterior corneal surface shape, comprising the steps of:
- a) measuring said eye'"'"'s optical aberrations,b) performing a mathematical analysis of said eye'"'"'s optical aberrations to determine said modified anterior corneal surface shape,c) fabricating said modified anterior corneal surface by laser ablation.
- View Dependent Claims (6, 7)
- - 6. A method as claimed in claim 5 wherein said measuring of the eye'"'"'s optical aberrations comprises the sub-steps of:
    - i) optically projecting the image of a small point of incoherent light onto the macular region of the eye'"'"'s retina,ii) optically conveying the image of the eye'"'"'s pupil, through which light scattered back from the macular region emerges, onto a microlens array,iii) optically conveying the multiple spot images formed by said microlens array onto the image plane of a photo-electronic imaging device,iv) transforming by means of the photo-electronic imaging device the multiple spot images formed by said microlens array to an electronic signal which represents the images,v) conveying said electronic signal to a computer for data processing,vi) processing first the electronic signal with said computer in order to obtain the coordinate locations of the centroids of said multiple spot images formed by said microlens array, andvii) processing next said coordinate locations with said computer in order to obtain the slopes of optical rays emerging from the subject'"'"'s pupil at said coordinate locations.
  - 7. A method as claimed in claim 5 wherein said mathematical analysis comprises the sub-steps of:
    - i) determining mathematically the normal vectors of said original anterior corneal surface,ii) determining mathematically the directional derivatives of said modified anterior corneal surface using data of said normal vectors of original anterior corneal surface and data of said eye'"'"'s optical aberrations, andiii) fitting mathematically by the method of least squares said directional derivatives to the corresponding directional derivatives of a polynomial expression that represents said modified anterior corneal surface.

8. An ophthalmic device for measuring the eye'"'"'s optical aberrations either with or without a contact lens in place on the cornea, including;
- a) an optical projection system for imaging a small point of light onto the macular region of the eye'"'"'s retina with an improvement provided by use of an incoherent light source chosen from the group comprising laser diodes operated below threshold, light emitting diodes, arc and plasma sources, and incandescent filament lamps,b) an optical image acquisition system for conveying the image of the eye'"'"'s pupil, through which light scattered back from the macular region emerges, onto a microlens array,c) a microlens array to form multiple spot images onto the image plane of a photo-electronic imaging device,d) a photo-electronic imaging device for transforming said multiple spot images formed by said microlens array to an electronic signal which represents the images,e) a computer for processing the electronic signal in order, first, to obtain the coordinate locations of the centroids of said multiple spot images formed by said microlens array and, second, to obtain the slopes of optical rays emerging from the subject'"'"'s pupil at said coordinate locations, andf) an optical alignment system allowing the entering beam to be accurately centered with respect to the subject'"'"'s pupil.
- View Dependent Claims (9, 10, 11, 12)
- - 9. An ophthalmic device as claimed in claim 8 wherein said optical projection system includes an optical isolator consisting of a quarter-wave plate and polarizer.
  - 10. An ophthalmic device as claimed in claim 8 wherein said optical projection system includes a field stop placed at a location that is optically conjugate to the eye'"'"'s retina.
  - 11. An ophthalmic device as claimed in claim 8 wherein said optical projection system includes both an optical isolator consisting of a quarter-wave plate and polarizer, and a field stop placed at a location that is optically conjugate to the eye'"'"'s retina.
  - 12. An ophthalmic device as claimed in claim 8 wherein said photo-electronic imaging device is chosen from the group comprising vidicons, charge-coupled devices, and charge-injection devices.

13. A device for thermally forming surfaces on thermoplastic contact lens blanks that correct eyes'"'"' optical aberrations beyond defocus and astigmatism consisting of a die with an adjustable surface shape (either continuous or discontinuous) formed by computer-controlled electromechanical actuators or electromechanical fingers which are known in the field of adaptive optics,

14. A lathe device for machining surfaces on contact lens blanks that correct eyes'"'"' optical aberrations beyond defocus and astigmatism consisting of a rotating spindle onto which a contact lens blank is fastened, translation slides for precisely positioning a diamond point cutting tool with respect to the surface of the contact lens blank, and a programmed computer that controls the movement of the translation slides synchronously with the rotational location of the spindle.

15. A contour cutting device for machining surfaces on contact lens blanks that correct eyes'"'"' optical aberrations beyond defocus and astigmatism consisting of a means for supporting and holding stationary a contact lens blank, translation slides for precisely positioning in three dimensions a diamond point cutting tool with respect to the surface of the contact lens blank, and a programmed computer that controls the movement of the translation slides.

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Current Assignee
Brookfield Optical Systems Inc.
Original Assignee
Peter C. Magnante
Inventors
Magnante, Peter C.
Primary Examiner(s)
MANUEL, GEORGE C

Application Number

US09/399,022
Time in Patent Office

295 Days
Field of Search

351/205, 351/211, 351/212, 351/219, 351/221, 351/246, 351/160 R, 351/176, 351/177, 606/4, 606/5, 219/121.6, 219/121.61, 219/121.75, 219/121.69
US Class Current

351/212
CPC Class Codes

A61B 3/1015 for wavefront analysis

Methods and devices to design and fabricate surfaces on contact lenses and on corneal tissue that correct the eye's optical aberrations

First Claim

1 Assignment

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Accused Products

Abstract

Citations

15 Claims

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Methods and devices to design and fabricate surfaces on contact lenses and on corneal tissue that correct the eye's optical aberrations

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

15 Claims

Specification

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Solutions

Use Cases

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