Methods of correcting vision
First Claim
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1. A method of correcting vision for presbyopia, comprising:
- remodeling the stroma with a laser to create an intracorneal shape, wherein the intracorneal shape includes a central region with a thickness that is about 50 microns or less measured from an extension of a shape of a peripheral region of the corneal shape,wherein remodeling a portion of the stroma increases a curvature of a central portion of the anterior surface of the cornea with a central elevation change for near vision while allowing distance vision in a region peripheral to the central portion;
wherein the corneal shape compensates for epithelial remodeling of the epithelial layer of the cornea in response to remodeling the stroma, and wherein the central region with a thickness that is about 50 microns or less measured from an extension of a shape of the peripheral region of the corneal ablation shape is 3 to 7 times the central elevation change.
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Abstract
Methods of correcting vision for presbyopia, including remodeling a stroma with a laser to create an intracorneal shape, where the corneal shape includes a central region with a thickness that is about 50 microns or less measured from an extension of a shape of a peripheral region of the corneal shape, wherein remodeling a portion of the stroma increases a curvature of a central portion of the anterior surface of the cornea with a central elevation change for near vision.
435 Citations
8 Claims
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1. A method of correcting vision for presbyopia, comprising:
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remodeling the stroma with a laser to create an intracorneal shape, wherein the intracorneal shape includes a central region with a thickness that is about 50 microns or less measured from an extension of a shape of a peripheral region of the corneal shape, wherein remodeling a portion of the stroma increases a curvature of a central portion of the anterior surface of the cornea with a central elevation change for near vision while allowing distance vision in a region peripheral to the central portion; wherein the corneal shape compensates for epithelial remodeling of the epithelial layer of the cornea in response to remodeling the stroma, and wherein the central region with a thickness that is about 50 microns or less measured from an extension of a shape of the peripheral region of the corneal ablation shape is 3 to 7 times the central elevation change. - View Dependent Claims (2, 3)
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4. A method of correcting vision for presbyopia, comprising:
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creating a lenticule in a stroma, wherein creating the lenticule includes creating an anterior lenticule incision and a posterior lenticule incision with a femtosecond laser, wherein one of the posterior lenticule incision and the anterior lenticule incision has a central region and a peripheral region, the central region having increased curvature relative to the peripheral region, and a central thickness that is about 50 microns or less measured from an extension of the peripheral region, the central region having an outer diameter between 1 mm and 4 mm; and removing the lenticule from the stroma, wherein removing the lenticule increases the curvature of a central portion of the anterior surface of the cornea with a central elevation change for near vision;
wherein one of the posterior lenticule incision and anterior lenticule incision compensates for epithelial remodeling of the epithelial layer of the cornea in response to cutting and removing the lenticule in the stroma, and wherein the central thickness that is about 50 microns or less measured from an extension of the peripheral region is 3 to 7 times the central elevation change. - View Dependent Claims (5, 6, 7)
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8. A method of correcting vision for presbyopia, comprising:
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creating a lenticule in a stroma, wherein creating the lenticule includes creating an anterior lenticule incision and a posterior lenticule incision with a femtosecond laser, wherein the posterior lenticule incision has a posterior peripheral region and a posterior central region, and the anterior lenticule incision has an anterior central region and an anterior peripheral region, the anterior and posterior central regions having increased curvature relative to the anterior and posterior peripheral regions, the anterior and posterior central regions having a combined thickness that is about 50 microns or less measured from extension of the peripheral regions, the anterior and posterior central regions having an outer diameter between 1 mm and 4 mm; and removing the lenticule from the stroma, wherein removing the lenticule increases the curvature of a central portion of the anterior surface of the cornea with a central elevation change for near vision;
wherein the posterior lenticule incision and the anterior lenticule incision compensate for epithelial remodeling of the epithelial layer of the cornea in response to cutting and removing the lenticule in the stroma, and wherein the combined central thickness that is about 50 microns or less measured from extensions of the peripheral regions is 3 to 7 times the central elevation change.
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Specification
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Current AssigneeReVision Optics, Inc.
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Original AssigneeReVision Optics, Inc.
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InventorsHolliday, Keith, Lang, Alan
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Primary Examiner(s)PREBILIC, PAUL B
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Application NumberUS14/656,621Publication NumberTime in Patent Office670 DaysField of SearchUS Class Current1/1CPC Class CodesA61F 2009/00872 CorneaA61F 9/00827 Refractive correction, e.g....A61F 9/00834 Inlays; Onlays; Intraocular...A61F 9/00838 Correction of presbyopia
