Apparatus for determining the contour of the cornea of a human eye
First Claim
1. Apparatus for use in determining the contour of the cornea of a human eye, comprising a housing having an open end, a source of light within the housing, means within the housing for transmitting concentric rings of light from the source to the cornea of a human eye located at the open end of the housing, each ring being several pixels wide, camera means having a lens positioned with its optical axis coaxial to the rings of light reflected by the cornea and means to sense and display images of the rings that are reflected by the cornea, means for measuring the intensity of the light of each pixel across a profile of each reflected ring, means for determining the pixel in each ring that has the highest intensity of reflected light, and means for calculating the contour of the cornea using the pixel having the highest intensity of reflected light of each ring of light reflected by the cornea by fitting a mathematical curve to such pixels.
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Reexamination
Accused Products
Abstract
There is disclosed apparatus which comprises a corneal topographer including a video camera or charge-coupled-device camera system for sensing images of rings of light reflected from the cornea, and means for processing the image rings to produce data useful in determining the contour of the cornea of a human eye.
91 Citations
8 Claims
- 1. Apparatus for use in determining the contour of the cornea of a human eye, comprising a housing having an open end, a source of light within the housing, means within the housing for transmitting concentric rings of light from the source to the cornea of a human eye located at the open end of the housing, each ring being several pixels wide, camera means having a lens positioned with its optical axis coaxial to the rings of light reflected by the cornea and means to sense and display images of the rings that are reflected by the cornea, means for measuring the intensity of the light of each pixel across a profile of each reflected ring, means for determining the pixel in each ring that has the highest intensity of reflected light, and means for calculating the contour of the cornea using the pixel having the highest intensity of reflected light of each ring of light reflected by the cornea by fitting a mathematical curve to such pixels.
- 4. Apparatus for use in determining the contour of the cornea of a human eye, comprising a corneal topographer including a housing having an open end, a source of light within the housing, means within the housing for transmitting concentric rings of light from the source to the cornea of a human eye located at the open end of the housing, each light ring being several pixels wide, means for converting the light rings reflected from the cornea to video signals, means for converting the video signal for each light ring into a plurality of digital values for the light intensity of each pixel across a profile of the light ring, means for determining the pixel having the highest light intensity in each light ring, and means to calculate the contour of the cornea based on the location of the pixel in each light ring having the highest intensity.
- 6. A method of determining the contour of the cornea of a human eye in real time for guiding a surgeon performing surgery on the eye comprising the steps of transmitting concentric rings of light several pixels wide onto the cornea of a human eye, converting the light rings reflected from the eye to video signals, converting the video signals for each ring into digital values for the intensity of each pixel across a profile of each ring, determining the pixel in each ring having the highest intensity of reflected light, and calculating the contour of the eye using the pixel of each reflected ring having the highest intensity.
Specification