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    • 3. 发明申请
    • Continuous glucose monitoring device
    • 连续葡萄糖监测装置
    • US20050137471A1
    • 2005-06-23
    • US10740056
    • 2003-12-18
    • Hans-Peter HaarHans ListFelix BaaderHerbert HarttigGeorge Meacham
    • Hans-Peter HaarHans ListFelix BaaderHerbert HarttigGeorge Meacham
    • A61B5/00G01N35/00A61K9/22
    • A61B5/14528A61B5/14532A61B5/686A61B2562/0295Y10T436/110833
    • The present invention is generally directed towards devices for sensing a concentration of chemical constituents in body fluid such as interstitial fluid, including but not limited to glucose. The devices also relates to systems for measuring and reporting the concentration of body fluid constituents at time intervals shorter than the physiological response time, thereby providing effectively continuous concentration measurements. The device according to the present invention comprises a probe, a reservoir with perfusion fluid connected to an inlet of the probe, at least one test zones which comprise a reagent, to react with the analyte to produce a detectable change, a reader unit which reads test zones wetted with fluid containing the analyte, where the reader unit produces signals according to the concentration of the analyte in the fluid; and a processing unit for processing the signals and the concentration of the analyte.
    • 本发明通常涉及用于感测体液中诸如间质液体(包括但不限于葡萄糖)的化学成分浓度的装置。 这些装置还涉及用于在比生理反应时间短的时间间隔测量和报告体液组分的浓度的系统,从而提供有效的连续浓度测量。 根据本发明的装置包括探针,具有连接到探针的入口的灌注流体的储存器,包含试剂的至少一个测试区域,以与分析物反应以产生可检测的变化;读取器单元,其读取 用含有分析物的流体润湿的测试区域,其中读取器单元根据流体中分析物的浓度产生信号; 以及用于处理信号和分析物浓度的处理单元。
    • 4. 发明授权
    • Micromechanical pipetting device
    • 微机械移液装置
    • US06407437B1
    • 2002-06-18
    • US09044735
    • 1998-03-19
    • Jürgen BurgerFelix BaaderRudolf BuserOlivier ElsenhansNicolas Szita
    • Jürgen BurgerFelix BaaderRudolf BuserOlivier ElsenhansNicolas Szita
    • H01L2984
    • B01L3/0268B01L3/021B01L2200/146B01L2400/0481G01N2035/1039
    • A micromechanical pipetting device comprising an integrally built pipetting module which has an inlet/outlet which may be connected to a removable pipetting tip or integrally built with a pipetting tip. The pipetting module comprises a micromechanical structure which is integrally built on a silicon wafer. In order to improve the accuracy of the pipetted volume the device is characterized in that it comprises a) a first chamber located within said pipetting module, the volume comprised within said first chamber being alterable by displacement of a membrane which is a portion of a wall of said chamber, said first chamber having an opening, said opening being permanently open and allowing fluid flow into and from the interior of said first chamber, b) a channel located within said pipetting module, said channel establishing a direct, valveless and permanent fluidical connection between said opening of the first chamber and the inlet/outlet of the pipetting module, c) actuator means for displacing said membrane, and thereby aspiring or expelling a volume of air or of a liquid into or from said first chamber, which in turn causes aspiring or expelling a volume of a liquid sample into respectively from said pipetting tip, and d) first sensor means for generating a first output signal related to the displacement of the membrane.
    • 一种微机械移液装置,其包括一体式构造的移液模块,其具有可连接到可移动移液末端或与移液头一体构建的入口/出口。 移液模块包括一体地构建在硅晶片上的微机械结构。 为了提高吸移体积的精度,该装置的特征在于它包括:a)位于所述移液模块内的第一腔室,包含在所述第一腔室内的体积可以通过膜的位移而变化,所述膜是壁的一部分 所述腔室,所述第一腔室具有开口,所述开口永久地打开并允许流体流入和流出所述第一腔室的内部,b)位于所述移液模块内的通道,所述通道建立直接,无阀和永久的流体连接 在所述第一室的所述开口和所述移液模块的入口/出口之间,c)用于移动所述膜的致动器装置,从而将一定体积的空气或液体向所述第一室吸入或排出, 分别从所述移液头吸取或排出体积的液体样品,以及d)用于产生与t相关的第一输出信号的第一传感器装置 他的膜的位移。