Claims
- 1. A method of correcting vision on an unrestrained eye by ablating the eye's corneal tissue comprising:providing laser beam shots having a size; selecting an area of the cornea to which the laser beam shots will be applied; the size of the shots being smaller than the selected area of the cornea; selecting a pattern for the placement of the laser beam shots on the selected area of the cornea; the shots in the pattern having a spacing; the eye being unrestrained and capable of movement; placing the shots on the eye in the pattern to ablate corneal tissue; tracking a movement of the eye, the tracking step comprising transmitting light energy aligned parallel to the laser beam shots to be incident on the eye, the light energy comprising a plurality of light spots directed to an eye boundary and sensing a movement of the plurality of light spots; and moving the placement of the laser beam shots in relation to the tracked movement of the eye, so that spacing in the pattern is maintained as subsequent shots are placed on the eye.
- 2. The method of claim 1 wherein providing laser beam shots comprises:applying a first laser shot to the cornea of the eye; i) the laser shot having a diameter and an area; ii) the laser shot having a center point; and, iii) the laser shot ablating corneal tissue from the corneal surface; applying a second laser shot to the cornea of the eye; i) the laser shot having a diameter and an area; ii) the laser shot having a center point; and, iii) the laser shot ablating corneal tissue from the corneal surface; applying a third laser shot to the cornea of the eye; i) the laser shot having a diameter and an area; ii) the laser shot having a center point; and, iii) the laser shot ablating corneal tissue from the corneal surface; the distance between the center point of the first laser shot and the center point of the second laser shot being sufficient so that any plume of ablated material from the first laser shot will not substantially interfere with the ablation of corneal tissue by the second laser shot; the distance between the center point of the second laser shot and the center of the third laser shot being sufficient so that any plume of ablated material from the second laser shot will not substantially interfere with the ablation of corneal tissue by the third laser shot; and, the distance and time between the third laser shot and the first laser shot being sufficient so that any plume of ablated material from the first laser shot will not substantially interfere with the ablation of corneal tissue by the third laser shot.
- 3. The method of claim 1 wherein providing laser beam shots comprises:applying a first laser pulse to the cornea of the eye at a first point in the ablation pattern, applying a second laser pulse to the cornea at a second point in the ablation pattern, and applying a third laser pulse to the corneal at a third point in the ablation pattern; the laser pulses ablating an area of tissue from the cornea; the ablated area of tissue from the second pulse being spaced apart from the ablated area of tissue from the first pulse; and the area of ablated tissue from the third pulse being spaced apart from the area of ablated tissue of the second pulse.
- 4. The method of claim 1, wherein the laser beam shots are provided from an excimer laser.
- 5. The method of claim 4 wherein providing laser beam shots comprises:applying a first laser shot to the cornea of the eye; i) the laser shot having a diameter and an area; ii) the laser shot having a center point; and, iii) the laser shot ablating corneal tissue from the corneal surface; applying a second laser shot to the cornea of the eye; i) the laser shot having a diameter and an area; ii) the laser shot having a center point; and, iii) the laser shot ablating corneal tissue from the corneal surface; applying a third laser shot to the cornea of the eye; i) the laser shot having a diameter and an area; ii) the laser shot having a center point; and, iii) the laser shot ablating corneal tissue from the corneal surface; the distance between the center point of the first laser shot and the center point of the second laser shot being sufficient so that any plume of ablated material from the first laser shot will not substantially interfere with the ablation of corneal tissue by the second laser shot; the distance between the center point of the second laser shot and the center of the third laser shot being sufficient so that any plume of ablated material from the second laser shot will not substantially interfere with the ablation of corneal tissue by the third laser shot; and, the distance and time between the third laser shot and the first laser shot being sufficient so that any plume of ablated material from the first laser shot will not substantially interfere with the ablation of corneal tissue by the third laser shot.
- 6. The method of claim 4 wherein providing laser beam shots comprises:applying a first laser pulse to the cornea of the eye at a first point in the ablation pattern, applying a second laser pulse to the cornea at a second point in the ablation pattern, and applying a third laser pulse to the corneal at a third point in the ablation pattern; the laser pulses ablating an area of tissue from the cornea; the ablated area of tissue from the second pulse being spaced apart from the ablated area of tissue from the first pulse; and the area of ablated tissue from the third pulse being spaced apart from the area of ablated tissue of the second pulse.
- 7. The method of claim 1, wherein the laser beam shots have a wavelength of 193 nm.
- 8. The method of claim 7 wherein providing laser beam shots comprises:applying a first laser shot to the cornea of the eye; i) the laser shot having a diameter and an area; ii) the laser shot having a center point; and, iii) the laser shot ablating corneal tissue from the corneal surface; applying a second laser shot to the cornea of the eye; i) the laser shot having a diameter and an area; ii) the laser shot having a center point; and, iii) the laser shot ablating corneal tissue from the corneal surface; applying a third laser shot to the cornea of the eye; i) the laser shot having a diameter and an area; ii) the laser shot having a center point; and, iii) the laser shot ablating corneal tissue from the corneal surface; the distance between the center point of the first laser shot and the center point of the second laser shot being sufficient so that any plume of ablated material from the first laser shot will not substantially interfere with the ablation of corneal tissue by the second laser shot; the distance between the center point of the second laser shot and the center of the third laser shot being sufficient so that any plume of ablated material from the second laser shot will not substantially interfere with the ablation of corneal tissue by the third laser shot; and, the distance and time between the third laser shot and the first laser shot being sufficient so that any plume of ablated material from the first laser shot will not substantially interfere with the ablation of corneal tissue by the third laser shot.
- 9. The method of claim 7 wherein providing laser beam shots comprises:applying a first laser pulse to the cornea of the eye at a first point in the ablation pattern, applying a second laser pulse to the cornea at a second point in the ablation pattern, and applying a third laser pulse to the corneal at a third point in the ablation pattern; the laser pulses ablating an area of tissue from the cornea; the ablated area of tissue from the second pulse being spaced apart from the ablated area of tissue from the first pulse; and the area of ablated tissue from the third pulse being spaced apart from the area of ablated tissue of the second pulse.
- 10. A method of correcting vision on an unrestrained eye by ablating the eye's corneal tissue comprising:providing laser beam shots having a size; selecting an area of the cornea to which the laser beam shots will be applied; the size of the shots being smaller than the selected area of the cornea; selecting a pattern for the placement of the laser beam shots on the selected area of the cornea; the shots in the pattern having a spacing; the eye being unrestrained and capable of movement; placing the shots on the eye in the pattern to ablate corneal tissue; tracking a saccadic movement of the eye, the tracking step comprising transmitting light energy aligned parallel to the laser beam shots to be incident on the eye, the light energy comprising a plurality of light spots directed to an eye boundary and sensing a movement of the plurality of light spots; and moving the placement of the laser beam shots in relation to the tracked movement of the eye, so that spacing in the pattern is maintained as subsequent shots are placed on the eye.
- 11. The method of claim 10 wherein providing laser beam shots comprises:applying a first laser shot to the cornea of the eye; i) the laser shot having a diameter and an area; ii) the laser shot having a center point; and, iii) the laser shot ablating corneal tissue from the corneal surface; appling a second laser shot to the cornea of the eye; i) the laser shot having a diameter and an area; ii) the laser shot having a center point; and iii) the laser shot ablating corneal tissue from the corneal surface; applying a third laser shot to the cornea of the eye; i) the laser shot having a diameter and an area; ii) the laser shot having a center point; and iii) the laser shot ablating corneal tissue from the corneal surface; the distance between the center point of the first laser shot and the center point of the second laser shot being sufficient so that any plume of ablated material from the first laser shot will not substantially interfere with the ablation of corneal tissue by the second laser shot; the distance between the center point of the second laser shot and the center of the third laser shot being sufficient so that any plume of ablated material from the second laser shot will not substantially interfere with the ablation of corneal tissue by the third laser shot; and the distance and time between the third laser shot and the first laser shot being sufficient so that any plume of ablated material from the first laser shot will not substantially interfere with the ablation of corneal tissue by the third laser shot.
- 12. The method of claim 10 wherein providing laser beam shots comprises:applying a first laser pulse to the cornea of the eye at a first point in the ablation pattern, applying a second laser pulse to the cornea at a second point in the ablation pattern, and applying a third laser pulse to the corneal at a third point in the ablation pattern; the laser pulses ablating an area of tissue from the cornea; the ablated area of tissue from the second pulse being spaced apart from the ablated area of tissue from the first pulse; and the area of ablated tissue from the third pulse being spaced apart from the area of ablated tissue of the second pulse.
- 13. The method of claim 10, wherein the laser beam shots are provided from an excimer laser.
- 14. The method of claim 13 wherein providing laser beam shots comprises:applying a first laser shot to the cornea of the eye; i) the laser shot having a diameter and an area; ii) the laser shot having a center point; and, iii) the laser shot ablating corneal tissue from the corneal surface; applying a second laser shot to the cornea of the eye; i) the laser shot having a diameter and an area; ii) the laser shot having a center point; and iii) the laser shot ablating corneal tissue from the corneal surface; applying a third laser shot to the cornea of the eye; i) the laser shot having a diameter and an area; ii) the laser shot having a center point; and iii) the laser shot ablating corneal tissue from the corneal surface; the distance between the center point of the first laser shot and the center point of the second laser shot being sufficient so that any plume of ablated material from the first laser shot will not substantially interfere with the ablation of corneal tissue by the second laser shot; the distance between the center point of the second laser shot and the center of the third laser shot being sufficient so that any plume of ablated material from the second laser shot will not substantially interfere with the ablation of corneal tissue by the third laser shot; and the distance and time between the third laser shot and the first laser shot being sufficient so that any plume of ablated material from the first laser shot will not substantially interfere with the ablation of corneal tissue by the third laser shot.
- 15. The method of claim 13 wherein providing laser beam shots comprises:applying a first laser pulse to the cornea of the eye at a first point in the ablation pattern, applying a second laser pulse to the cornea at a second point in the ablation pattern, and applying a third laser pulse to the corneal at a third point in the ablation pattern; the laser pulses ablating an area of tissue from the cornea; the ablated area of tissue from the second pulse being spaced apart from the ablated area of tissue from the first pulse; and the area of ablated tissue from the third pulse being spaced apart from the area of ablated tissue of the second pulse.
- 16. The method of claim 10, wherein the laser beam shots have a wavelength of 193 nm.
- 17. The method of claim 16 wherein providing laser beam shots comprises:applying a first laser shot to the cornea of the eye; i) the laser shot having a diameter and an area; ii) the laser shot having a center point; and, iii) the laser shot ablating corneal tissue from the corneal surface; applying a second laser shot to the cornea of the eye; i) the laser shot having a diameter and an area; ii) the laser shot having a center point; and iii) the laser shot ablating corneal tissue from the corneal surface; applying a third laser shot to the cornea of the eye; i) the laser shot having a diameter and an area; ii) the laser shot having a center point; and iii) the laser shot ablating corneal tissue from the corneal surface; the distance between the center point of the first laser shot and the center point of the second laser shot being sufficient so that any plume of ablated material from the first laser shot will not substantially interfere with the ablation of corneal tissue by the second laser shot; the distance between the center point of the second laser shot and the center of the third laser shot being sufficient so that any plume of ablated material from the second laser shot will not substantially interfere with the ablation of corneal tissue by the third laser shot; and the distance and time between the third laser shot and the first laser shot being sufficient so that any plume of ablated material from the first laser shot will not substantially interfere with the ablation of corneal tissue by the third laser shot.
- 18. The method of claim 16 wherein providing laser beam shots comprises:applying a first laser pulse to the cornea of the eye at a first point in the ablation pattern, applying a second laser pulse to the cornea at a second point in the ablation pattern, and applying a third laser pulse to the corneal at a third point in the ablation pattern; the laser pulses ablating an area of tissue from the cornea; the ablated area of tissue from the second pulse being spaced apart from the ablated area of tissue from the first pulse; and the area of ablated tissue from the third pulse being spaced apart from the area of ablated tissue of the second pulse.
CROSS-REFERENCE TO RELATED APPLICATIONS
This application is a continuation of and incorporates by reference application Ser. No. 09/376,133, filed Aug. 17, 1999 now U.S. Pat. No. 6,451,008, which is a continuation of application Ser. No. 08/232,615, filed Apr. 25, 1994, now issued as U.S. Pat. No. 5,980,513, and further incorporates U.S. Pat. Nos. 5,849,006 and 5,632,742 by reference, all of which are commonly owned and have the disclosures incorporated by reference.
US Referenced Citations (32)
Foreign Referenced Citations (7)
Number |
Date |
Country |
24 50 095 |
Apr 1976 |
DE |
199 26 476 |
Dec 2000 |
DE |
0 151 869 |
Aug 1985 |
EP |
WO 8501869 |
May 1985 |
WO |
WO 8706478 |
Nov 1987 |
WO |
WO 9221999 |
Dec 1992 |
WO |
WO 9316631 |
Sep 1993 |
WO |
Non-Patent Literature Citations (1)
Entry |
Gailitis et al, Solid State Ultraviolet Laser Ablation of the Cornea and Synthetic Collagen Lenticules, vol. 105, Sep. 1987, pp. 566-562. |
Continuations (2)
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Number |
Date |
Country |
Parent |
09/376133 |
Aug 1999 |
US |
Child |
09/745195 |
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US |
Parent |
08/232615 |
Apr 1994 |
US |
Child |
09/376133 |
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US |