IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0072646
(2011-03-25)
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등록번호 |
US-8500724
(2013-08-06)
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발명자
/ 주소 |
- Blumenkranz, Mark S.
- Palanker, Daniel V.
- Mordaunt, David H.
- Andersen, Dan E.
|
출원인 / 주소 |
|
대리인 / 주소 |
Wilson Sonsini Goodrich & Rosati
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
88 |
초록
▼
System and method for making incisions in eye tissue at different depths. The system and method focuses light, possibly in a pattern, at various focal points which are at various depths within the eye tissue. A segmented lens can be used to create multiple focal points simultaneously. Optimal incisi
System and method for making incisions in eye tissue at different depths. The system and method focuses light, possibly in a pattern, at various focal points which are at various depths within the eye tissue. A segmented lens can be used to create multiple focal points simultaneously. Optimal incisions can be achieved by sequentially or simultaneously focusing lights at different depths, creating an expanded column of plasma, and creating a beam with an elongated waist.
대표청구항
▼
1. A method for laser cataract surgery that protects the retina of the eye from laser exposure, comprising: a. generating, using a computer, an image of at least a portion of a crystalline lens of the eye based on detecting remitted light from locations distributed throughout a volume of the crystal
1. A method for laser cataract surgery that protects the retina of the eye from laser exposure, comprising: a. generating, using a computer, an image of at least a portion of a crystalline lens of the eye based on detecting remitted light from locations distributed throughout a volume of the crystalline lens;b. processing data including the image data so as to determine a targeted treatment region in the lens of the eye, wherein the targeted treatment region comprises an axially-elongated cutting zone transecting the anterior capsule and does not transect the posterior capsule of the lens;c. directing a laser beam, under computer guided control, in a first pattern to photodisrupt at least a portion of lens tissue of the eye to create a light scattering region; andd. subsequently directing the laser beam, under computer guided control, in a second pattern in lens tissue anterior to the light scattering region so as to photodisrupt at least a portion of the targeted region, thereby effecting patterned laser cutting of lens tissue for subsequent removal of pieces or segments of lens tissue. 2. The method of claim 1, wherein the light scattering region comprises an element selected from the group consisting of: a gas bubble, a crack, a tissue fragment, a tissue rupture. 3. The method of claim 1, wherein photo disrupting at least a portion of the posterior tissue structure to create a light scattering region comprises irradiating the portion of the posterior tissue structure with a pattern formed by scanning the laser beam. 4. The method of claim 3, wherein irradiating with a pattern comprises creating a planar pattern at a first depth, and repeatedly irradiating with this pattern at one or more additional depths. 5. The method of claim 4, wherein the one or more additional depths is more anterior than the first depth. 6. The method of claim 3, wherein the pattern is a three-dimensional pattern. 7. The method of claim 3, wherein the pattern is selected from the group consisting of: two or more intersecting straight lines, a crosshatched pattern comprising two or more sets of intersecting lines, one or more curved lines, a circular line, two or more concentric circular lines, and one or more spiral-shaped lines. 8. The method of claim 3, wherein one or more cuts are created by the laser beam within a lens capsule of the eye, and wherein the pattern is selected from the group consisting of: a circular pattern, a spiral pattern, and an axially stepping spiral pattern. 9. The method of claim 3, wherein one or more cuts are created by the laser beam within a crystalline lens of the eye, and wherein the pattern is configured such that the one or more cuts facilitate prefragmentation of the lens for later phacoemulsification. 10. The method of claim 3, wherein one or more cuts are created by the laser beam within a crystalline lens of the eye, and wherein the pattern is configured such that the one or more cuts divide the lens into fragments of sufficiently small size so that they may be removed through a lumen of an ophthalmic aspiration probe. 11. The method of claim 1, wherein the targeted tissue structure is a structure selected from the group consisting of: a cornea, an iris, a lens capsule, a crystalline lens, a crystalline lens cortex, crystalline lens nucleus, and an opacity within a crystalline lens. 12. The method of claim 1, wherein the image is acquired using a device selected from the group consisting of: a camera, an optical coherence tomography system, a confocal microscope system, and an ultrasound transducer. 13. The method of claim 1, further comprising phacoemulsifying the one or more structures of the eye. 14. The method of claim 1, further comprising dynamically adjusting a characteristic of the laser beam, the laser beam characteristic selected from the group consisting of: focus, position, power, pulse energy, repetition rate, and scanning speed. 15. The method of claim 1, wherein the light scattering region is located in the posterior part of the targeted region. 16. A method for laser cataract surgery that protects the retina of the eye from laser exposure, comprising: a. generating, using a computer, an image of at least a portion of a crystalline lens of the eye based on detecting remitted light from locations distributed throughout a volume of the crystalline lens using an optical coherence tomography imaging system;b. processing data including image data, using a computer, so as to determine a targeted treatment region of the lens of the eye based at least in part upon the image, the targeted treatment region comprising a posterior cutting boundary located anterior to the posterior capsule of the lens;c. directing a laser beam in a first pattern, controlled by a computer, to photodisrupt at least a portion of lens tissue anterior to the posterior capsule and posterior to the targeted treatment region in the lens of the eye to create a light scattering region; andd. subsequently directing the laser beam in a second pattern, controlled by a computer, in lens tissue anterior to the light scattering region so as to photodisrupt at least a portion of the targeted region and effect patterned laser cutting of lens tissue of the target region into one or more pieces or segments for subsequent removal. 17. A method for laser cataract surgery that protects the retina of the eye from laser exposure, comprising: a. operating an optical coherence tomography imaging system, controlled by a computer system, so as to acquire image data from locations distributed throughout a volume of a crystalline lens of a patient;b. processing data including image data, using the computer system, so as to construct a targeted treatment region of the lens of the eye, the targeted treatment region being disposed anterior to the posterior capsule of the lens; andc. generating a beam of light using a pulsed laser system, wherein the pulsed laser system is guided by the computer system so as to effect fragmentation of lens tissue of the targeted treatment region in a fragmentation pattern within the targeted treatment region, the fragmentation comprising: i. directing a laser beam in a first pattern to photodisrupt at least a portion of lens tissue of the eye to create a light scattering region; andii. subsequently directing the laser beam in a second pattern in lens tissue anterior to the light scattering region so as to photodisrupt at least a portion of the targeted region and effect 3-Dimensional patterned laser cutting of the lens tissue for subsequent removal. 18. The method of claim 17, wherein the pulsed laser system is guided by the computer system based at least in part on the identified targeted treatment region so as to effect a capsulotomy of the anterior lens capsule followed by the fragmentation. 19. A method for laser cataract surgery that protects the retina of the eye from laser exposure, comprising: a. operating an imaging system, controlled by a computer system, so as to acquire image data from a crystalline lens of a patient;b. processing data including the image data, using the computer system, so as to generate a targeted treatment region in the lens of the eye, wherein the targeted treatment region is anterior to the posterior capsule of the lens; andc. generating a beam of light using a pulsed laser system so as to effect cutting of lens tissue of the targeted treatment region, the cutting comprising: i. directing a laser beam, under computer-guided control, in a first pattern to photodisrupt at least a portion of lens tissue to create a light scattering region; andii. subsequently directing the laser beam, under computer-guided control, in a second pattern in lens tissue anterior to the light scattering region, the second pattern comprising a plurality of intersecting planar incision patterns, so as to effect cutting of lens tissue into a plurality of segments or fragments for subsequent removal. 20. The method of claim 19, wherein the cutting comprises directing the laser beam in a plurality of 2-dimensional (2-D) planar incision patterns applied at different axial depths in the lens, each 2-D planar incision pattern comprising a plurality of intersecting lines. 21. The method of claim 19, wherein the cutting comprises directing the laser beam in a plurality of 2-dimensional (2-D) planar incision patterns applied at different axial depths in the lens, each 2-D planar incision pattern comprising a plurality of concentric circular lines. 22. The method of claim 19, wherein a segmented or fragmented piece comprises a length of at least 1 mm. 23. The method of claim 19, wherein the pulsed laser system is guided by the computer system so as to effect a capsulotomy of the anterior lens capsule followed by the segmentation or fragmentation of lens material.
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