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    • 3. 发明申请
    • INTRAOCULAR DRUG DELIVERY DEVICE AND ASSOCIATED METHODS
    • 内镜药物递送装置及相关方法
    • WO2009140246A2
    • 2009-11-19
    • PCT/US2009/043566
    • 2009-05-12
    • UNIVERSITY OF UTAH RESEARCH FOUNDATIONAMBATI, Balamurali, K.GALE, Bruce, K.
    • AMBATI, Balamurali, K.GALE, Bruce, K.
    • A61F9/00A61K9/00
    • A61F9/0017B33Y80/00
    • The present invention provides devices, systems, and methods for delivery of an active agent into the eye of a subject. In one aspect, for example, an ocular active agent delivery device (10) can include an active agent reservoir (14) disposed in an annular housing (12), the annular housing (12) being configured to fit inside of a lens capsule and at least partially encircling a line of sight of an intraocular lens within the lens capsule. The device (10) can further include a semipermeable membrane (16) operatively coupled to the active agent reservoir (14), where the semipermeable membrane (16) is configured to allow diffusion of an active agent from the active agent reservoir (14). Additionally, a valve (18) can be operatively coupled to the active agent reservoir (14), where the valve (18) is configured to allow filling of the active agent reservoir (14) with an active agent.
    • 本发明提供了将活性剂递送到受试者的眼睛中的装置,系统和方法。 在一个方面,例如,眼部活性剂递送装置(10)可以包括设置在环形壳体(12)中的活性剂储存器(14),所述环形壳体(12)被配置成装配在透镜囊内部, 至少部分地包围晶状体囊内的眼内透镜的视线。 装置(10)还可以包括可操作地耦合到活性剂储存器(14)的半透膜(16),其中半透膜(16)构造成允许活性剂从活性剂储存器(14)扩散。 此外,阀(18)可以可操作地联接到活性剂储存器(14),其中阀(18)构造成允许用活性剂填充活性剂储存器(14)。
    • 4. 发明申请
    • MICROFLUIDIC FLOW CELL
    • 微流感细胞
    • WO2009111461A2
    • 2009-09-11
    • PCT/US2009/035859
    • 2009-03-03
    • UNIVERSITY OF UTAH RESEARCH FOUNDATIONSUNDBERG, Scott, O.WITTNER, Carl, T.GALE, Bruce, K.
    • SUNDBERG, Scott, O.WITTNER, Carl, T.GALE, Bruce, K.
    • C12M1/10
    • C12Q1/6844B01L3/50273B01L3/50851B01L7/52B01L2200/0642B01L2300/0806B01L2300/0887B01L2400/0409
    • A microfluidic flow cell having a body with a fluid transport channel disposed therein, the fluid transport channel having a proximal end and a distal end defining a fluid flow path, a fluid inlet port disposed at the proximal end of the fluid transport channel at a central portion of the body and an outlet port disposed at the distal end of the fluid transport channel at an outer portion of the body, and a plurality sample wells disposed in the fluid transport channel substantially perpendicular to the fluid flow path in the fluid transport channel. The microfluidic flow cell may have hundreds or thousands of individual, sub-microliter sample wells. The microfluidic flow cell can be filled by applying a flowable liquid to the inlet port and spinning the flow cell to cause fluid to flow into fluid transport channel. The microfluidic flow cells described herein can be used in a variety of applications where small sample size and/or a large number of replicates are desirable.
    • 一种微流体流动池,其具有设置在其中的流体输送通道的主体,所述流体输送通道具有限定流体流动路径的近端和远端;流体入口,其设置在所述流体输送通道的近端处的中心 主体的一部分和设置在主体的外部部分处的流体输送通道的远端处的出口端口以及设置在流体输送通道中的基本上垂直于流体输送通道中的流体流动路径的多个样本阱。 微流体流动池可以具有数百或数千个单独的亚微升样品孔。 可以通过将可流动的液体施加到入口端口并旋转流动池以使流体流入流体输送通道来填充微流体流动池。 本文所述的微流体流动池可以用于需要小样品量和/或大量重复的各种应用中。
    • 7. 发明申请
    • HIGH FIELD STRENGTH MAGNETIC FIELD GENERATION SYSTEM AND ASSOCIATED METHODS
    • 高强度磁场发生系统及相关方法
    • WO2007117335A2
    • 2007-10-18
    • PCT/US2007/000217
    • 2007-01-04
    • UNIVERSITY OF UTAH RESEARCH FOUNDATIONSTEPHENSON, James, C.GALE, Bruce, K.FURSE, Cynthia
    • STEPHENSON, James, C.GALE, Bruce, K.FURSE, Cynthia
    • H01F7/08
    • H01F7/0284G01R33/3806G01R33/383
    • A magnetic field generation system can comprise first (28a) and second (28b) magnetic flux concentrators each spaced apart to form a sample volume (30). The first (28a) and second (28b) magnetic flux concentrators can be formed of a material having a magnetic field saturation. A first set of auxiliary permanent magnets (10a, 10b) can be symmetrically oriented about a portion of the first magnetic flux concentrator (28a) and can be in substantial contact with the first magnetic flux concentrator. Similarly, a second set of auxiliary permanent magnets (1 Oc, 1 Od) can be symmetrically oriented about a portion of the second magnetic flux concentrator (28b) and can be in substantial contact with the second magnetic flux concentrator. Generally, the first set (10a,10b) and second set (10c,10d) of auxiliary permanent magnets can be remote from the sample volume (30). Each of the first set and second set of auxiliary permanent magnets can be oriented in a magnetically repulsive orientation with respect to at least one other member of their respective sets. The first (10a,10b) and second (10c,10d) sets of auxiliary magnets can be magnetically associated via the first (28a) and second (28b) magnetic flux concentrators. The present invention can further be configured to allow variation of the magnetic field strength across the sample volume by disrupting the field flux across the magnetic flux concentrators. This can be accomplished by orienting one or more magnetically soft shunts (38) in a sufficient proximity to at least one of the magnetic flux concentrators (28a,28b).
    • 磁场产生系统可以包括第一(28a)和第二(28b)磁通量聚集器,每个间隔开以形成样品体积(30)。 第一(28a)和第二(28b)磁通量聚集器可以由具有磁场饱和的材料形成。 第一组辅助永久磁铁(10a,10b)可围绕第一磁通量聚集器(28a)的一部分对称地取向,并且可以与第一磁通集中器实质接触。 类似地,第二组辅助永磁体(1 Oc,1 Od)可以围绕第二磁通量聚集器(28b)的一部分对称地定向,并且可以与第二磁通量集中器实质接触。 通常,辅助永磁体的第一组(10a,10b)和第二组(10c,10d)可以远离样品体积(30)。 第一组和第二组辅助永磁体中的每一个可以相对于它们各自的组的至少一个其它构件以磁性排斥取向定向。 第一(10a,10b)和第二(10c,10d)组辅助磁体可以经由第一(28a)和第二(28b)磁通量集中器磁性地相关联。 本发明还可以被配置为允许通过扰乱磁通集中器上的磁场通量来改变跨样品体积的磁场强度。 这可以通过将一个或多个磁软分流器(38)定向到至少一个磁通量聚集器(28a,28b)的足够接近来实现。