US2006217688A1PendingUtilityA1

Method and Apparatus for Laser Surgery of the Cornea

Assignee: LAI SHUI TPriority: Nov 6, 1991Filed: Apr 27, 2006Published: Sep 28, 2006
Est. expiryNov 6, 2011(expired)· nominal 20-yr term from priority
Inventors:Shui T. Lai
B23K 26/0648A61F 9/00804B23K 26/06A61F 2009/00846H01S 3/235B23K 26/704H01S 3/06A61F 2009/00872H01S 3/101B23K 26/0096B23K 26/03B23K 26/043B23K 26/032A61F 9/00814B23K 26/0652B23K 26/0624H01S 3/005B23K 26/0665G02B 26/10A61B 2017/00694G02F 1/37B23K 26/04A61F 2009/00897
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Claims

Abstract

A laser-based method and apparatus for corneal surgery. The present invention is intended to be applied primarily to ablate organic materials, and human cornea in particular. The invention uses a laser source which has the characteristics of providing a shallow ablation depth (0.2 microns or less per laser pulse), and a low ablation energy density threshold (less than or equal to about 10 mJ/cm.sup.2), to achieve optically smooth ablated corneal surfaces. The preferred laser includes a laser emitting approximately 100-50,000 laser pulses per second, with a wavelength of about 198-300 nm and a pulse duration of about 1-5,000 picoseconds. Each laser pulse is directed by a highly controllable laser scanning system. Described is a method of distributing laser pulses and the energy deposited on a target surface such that surface roughness is controlled within a specific range. Included is a laser beam intensity monitor and a beam intensity adjustment means, such that constant energy level is maintained throughout an operation. Eye movement during an operation is corrected for by a corresponding compensation in the location of the surgical beam. Beam operation is terminated if the laser parameters or the eye positioning is outside of a predetermined tolerable range. The surgical system can be used to perform surgical procedures including removal of corneal scar, making incisions, cornea transplants, and to correct myopia, hyperopia, astigmatism, and other corneal surface profile defects.

Claims

exact text as granted — not AI-modified
1 . A scanning laser device for ophthalmic surgery, the device comprising: 
 a laser source for generating a beam of laser pulses, each pulse having a Gaussian-like tissue ablation profile;    scanning optics for directing the beam of the laser pulses;    a computer device coupled with the optics for directing each laser pulse to a location on the cornea;    the computer device comprising one or more digital storage media having embedded therein programming code for programming one or more processors to perform certain operations, including:    a first executable program for calculating a pulse deposit pattern by calculating the location of each laser pulse on the tissue based on overlap of the Gaussian-like ablation profile, such that upon ablation according to said calculated pulse deposit pattern, a smooth ablated surface is provided on the tissue; and    a second executable program for directing each of the lasers pulses to locations on the tissue in accordance with the pulse locations provided by the first executable program; and    an eye movement tracking indicator and optics for directing the laser pulses to be deposited to intended locations on a cornea by adjusting one or more optics when the eye moves during the eye surgery, the eye movement tracking indicator and optics comprising:    a positional indicator; and    laser beam deflecting optics for deflecting the laser beam to follow the movement of the eye.    
     
     
         2 . A scanning laser device as in  claim 1 , wherein a diameter of the laser beams is in a range of around 0.01 to 4.0 mm at the cornea.  
     
     
         3 . A scanning laser device as in  claim 1 , wherein the Gaussian-like tissue ablation profile of the laser pulse includes a non top hat shape, Gaussian shape or a super-Gaussian shape or a combination thereof.  
     
     
         4 . A scanning laser device as in  claim 1 , wherein the scanning optics comprise at least one galvanometric scanner.  
     
     
         5 . A scanning laser device as in  claim 1 , wherein the pulse deposit pattern comprises laser pulse deposit locations sufficiently far apart from each other so that the tissue ablation profiles of at least one pair of consecutive pulses have no overlap.  
     
     
         6 . A scanning laser device as in  claim 1 , wherein the pulse deposit pattern comprises laser pulse deposit locations sufficiently close to each other so that the tissue ablation profiles of at least one pair of consecutive pulses overlap.  
     
     
         7 . A scanning laser device as in  claim 1 , wherein the first executable program includes: 
 a first subroutine for calculating an ablation depth per layer of the deposit pattern;    a second subroutine for calculating the number of layers required to ablate total depth of the predetermined shape of corneal tissue; and    a third subroutine for determining an area boundary for each layer of the deposit pattern.    
     
     
         8 . A scanning laser device as in  claim 1 , wherein the scanning optics for directing each of the laser pulses provide sequential scanning such that each of the laser pulses is deposited in an orderly sequence until the predetermined pulse deposit pattern is scanned.  
     
     
         9 . A scanning laser device as in  claim 8 , wherein the orderly sequence includes a linear scan, a circular scan, or a spiral scan, or combinations thereof.  
     
     
         10 . A scanning laser as in  claim 1 , wherein the scanning optics for directing each of the laser pulses provide a random scan sequence such that laser pulses in the predetermined pulse deposit pattern are deposited randomly.  
     
     
         11 . A scanning laser as in  claim 1 , wherein the eye positional indicator comprises one or more distinct marks placed on the eye, a pupil of the eye, or a sclera of the eye, or combinations thereof.

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