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1. 发明申请

US20110118834A1 FLUIDIC INTRAOCULAR LENS SYSTEMS AND METHODS 审中-公开
标题翻译：流体内窥镜系统和方法
公开(公告)号：US20110118834A1
公开(公告)日：2011-05-19
申请号：US12874150
申请日：2010-09-01
申请人： Yuhwa Lo , Wen Qiao , David Schanzlin , Gary L. Shields , Robert S. Vasko , Jeff Vasko
发明人： Yuhwa Lo , Wen Qiao , David Schanzlin , Gary L. Shields , Robert S. Vasko , Jeff Vasko
IPC分类号： A61F2/16 , G02C7/02 , A61B3/10
CPC分类号： G02B3/14 , A61F2/1635 , A61F2002/169 , A61F2240/001 , G02C7/08
摘要： The present invention relates to a fluidic intraocular lens inserted into a capsular bag of an eye to replace a crystalline lens. The fluidic intraocular lens may be shaped by elastic membranes bonded to a support ring. The space inside the device may be filled with optically transparent fluid or gel having an index of refraction greater than the index of vitreous humor. The device may be such designed so that the focusing power of the lens can be changed by the deformation of the capsular bag, which may be subsequently controlled by a ciliary muscle.
摘要翻译：本发明涉及一种插入眼袋的液体眼内透镜，以取代晶状体。流体眼内透镜可以通过粘结到支撑环的弹性膜成形。装置内的空间可以填充光学透明的流体或凝胶，其折射率大于玻璃体液的指数。该装置可以被设计成使得透镜的聚焦能量可以通过胶囊袋的变形来改变，该囊袋随后可由睫状肌控制。

2. 发明授权

US5246435A Method for removing cataractous material 失效
标题翻译：去除白内障物质的方法
公开(公告)号：US5246435A
公开(公告)日：1993-09-21
申请号：US841614
申请日：1992-02-25
申请人： Josef F. Bille , David Schanzlin
发明人： Josef F. Bille , David Schanzlin
IPC分类号： A61F9/008
CPC分类号： A61F9/008 , A61F9/00812 , A61F2009/0087 , A61F2009/00887 , A61F2009/00897
摘要： A method for using an ophthalmic laser system to remove cataractous tissue from the lens capsule of an eye requires phacofragmentation of the lens tissue and subsequent aspiration of the treated tissue. More specifically, a cutting laser is used to create various strata of incisions through the lens tissue. Within each stratum, each incision is made in the direction from a posterior to an anterior position. The strata are stacked on each other in the posterior-anterior direction, and each includes a plurality of minute incisions. The most posterior stratum of incisions is created first by referencing the cutting laser back into the lens tissue from the posterior capsule. Subsequent, more anterior strata, are created by referencing the cutting layer from the tissue treated by the previous stratum of incisions. In each stratum, the vapors which result from the incisions are allowed to infiltrate between the layers of the lens tissue to fragment and liquify the tissue. The liquified lens tissue is then aspirated.
摘要翻译：使用眼科激光系统从眼睛的晶状体胶囊去除白内障组织的方法需要对镜片组织进行镜片化并随后抽吸经处理的组织。更具体地，使用切割激光器来通过透镜组织产生各种切口层。在每个层内，每个切口在从后部到前部位置的方向上进行。地层在前后方向彼此堆叠，并且每个包括多个微小切口。首先通过将切割激光器从后囊回到镜片组织中来创建最后面的切口层。随后，通过参考由先前的切口层处理的组织切割层来产生更多的前层。在每个层中，允许从切口产生的蒸气渗透在晶状体组织的层之间以使组织碎裂和液化。然后抽吸液化的透镜组织。

3. 发明授权

US5439462A Apparatus for removing cataractous material 失效
标题翻译：用于去除白内障物质的装置
公开(公告)号：US5439462A
公开(公告)日：1995-08-08
申请号：US124237
申请日：1994-04-04
申请人： Josef F. Bille , David Schanzlin
发明人： Josef F. Bille , David Schanzlin
IPC分类号： A61F9/008 , A61B17/36
CPC分类号： A61F9/008 , A61F9/00812 , A61F2009/0087 , A61F2009/00887 , A61F2009/00897
摘要： An ophthalmic laser system is disclosed for removing cataractous tissue from the lens capsule of an eye by phacofragmentation of the lens tissue for subsequent aspiration of the treated tissue. More specifically, a cutting laser is provided which creates a plurality of computer controlled and directed incisions in various strata through the lens tissue. Within each stratum, each incision is computer controlled and is made in the direction from a posterior to an anterior position. The strata are stacked on each other in the posterior-anterior direction, and each includes a plurality of minute incisions. The most posterior stratum of incisions is created first by referencing the cutting laser back into the lens tissue from the posterior capsule. Subsequent, more anterior strata, are created by referencing the cutting layer from the tissue treated by the previous stratum of incisions. In each stratum, the vapors which result from the incisions infiltrate between the layers of the lens tissue fragmenting and liquefying the tissue. The computer controlled device can automatically determine locations and dimensions of incisions, as well as automatically adjusting incision curvature and beam intensity as the incision point is moved from stratum to stratum. After the device liquifies the lens tissue it can then be aspirated.
摘要翻译：公开了一种眼科激光系统，用于通过镜片组织的分片化来从眼睛的晶状体囊中除去白内障组织，以便随后抽吸经处理的组织。更具体地，提供切割激光器，其通过透镜组织在各种层中产生多个计算机控制和定向切口。在每个层内，每个切口都是计算机控制的，并且在从后部到前部位置的方向上制成。地层在前后方向彼此堆叠，并且每个包括多个微小切口。首先通过将切割激光器从后囊回到镜片组织中来创建最后面的切口层。随后，通过参考由先前的切口层处理的组织切割层来产生更多的前层。在每个层中，由切口产生的蒸气渗透在晶状体组织的层之间，并且使组织液化。计算机控制装置可以自动确定切口的位置和尺寸，以及切口点从层向层移动时自动调整切口曲率和束强度。在装置液化透镜组织之后，可以将其吸出。

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