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    • 6. 发明申请
    • Temperature-compensated in-vivo sensor
    • 温度补偿体内传感器
    • US20090275815A1
    • 2009-11-05
    • US12503376
    • 2009-07-15
    • Charles BickoffThomas H. PetersonGerhard Jobst
    • Charles BickoffThomas H. PetersonGerhard Jobst
    • A61B5/1473
    • A61B5/1495A61B5/14532A61B5/14865A61B5/6848A61B2560/0252
    • An in-vivo sensor assembly includes an assembly body having a body proximal end and a body distal end, a plurality of sensor elements including at least an analyte sensor element containing an enzyme that is a substrate of the analyte to be measured, a reference sensor element and a temperature sensor element disposed at or near the body distal end wherein the at least an analyte sensor element and the reference sensor element are exposed to the sample fluid and the temperature sensor is capable of measuring the temperature of and adjacent to the analyte sensor element, and an electrical coupling means disposed at the body proximal end and configured to couple to the at least an analytical sensor element, the reference sensor element and the temperature sensor element.
    • 体内传感器组件包括具有身体近端和身体远端的组件主体,多个传感器元件至少包括分析物传感器元件,所述分析物传感器元件包含作为待测量分析物的基底的酶,参考传感器 元件和设置在身体远端处或附近的温度传感器元件,其中至少分析物传感器元件和参考传感器元件暴露于样品流体,并且温度传感器能够测量分析物传感器的温度并与其相邻 元件和设置在身体近端处并且被配置为耦合到至少一个分析传感器元件,参考传感器元件和温度传感器元件的电耦合装置。
    • 7. 发明授权
    • Sensor having electrode for determining the rate of flow of a fluid
    • 传感器具有用于确定流体流速的电极
    • US06801041B2
    • 2004-10-05
    • US10145837
    • 2002-05-14
    • Shridhara Alva KarinkaIsabella MoserGerhard JobstUwe TietjenPanagiota S. PetrouUwe HerberthGerald Urban
    • Shridhara Alva KarinkaIsabella MoserGerhard JobstUwe TietjenPanagiota S. PetrouUwe HerberthGerald Urban
    • G01N2702
    • G01F1/64C12Q1/006
    • Sensors that are capable measuring the rate of flow of a fluid that passes over the electrodes of the sensor. In these sensors, an electrode, designated the flow rate-determining electrode, is used in conjunction with the conventional electrodes, e.g., the working electrode, the reference electrode, and the counter electrode, to determine the rate of flow of the fluid. In one aspect, this invention provides a sensor for measuring the concentration of an analyte in a sample of fluid when the sample flows continuously over the electrodes of the sensor, especially when the rate of flow of the sample is relatively low. In another aspect, this invention provides a method for measuring the concentration of an analyte in a sample of fluid, wherein the rate of flow of the sample varies during the period of time that the sensor is in place. In a preferred embodiment, the sensor employs four electrodes, namely, a working electrode, a reference electrode, a counter electrode, and a flow rate-determining electrode. Alternatively, a single electrode that performs both the function of the reference electrode and the function of the counter electrode can replace the reference electrode and the counter electrode. In addition, a dummy electrode or a blank electrode can be used to compensate for interference from electrochemically active species. The reagent(s) specific to the analyte of interest is required to be deposited on the working electrode.
    • 能够测量通过传感器电极的流体流速的传感器。 在这些传感器中,与常规电极(例如工作电极,参比电极和对电极)结合使用称为流速确定电极的电极,以确定流体的流速。 一方面,本发明提供一种传感器,用于当样品连续地流过传感器的电极时,特别是当样品的流速相对较低时,用于测量流体样品中分析物的浓度。 在另一方面,本发明提供了一种用于测量流体样品中分析物浓度的方法,其中样品的流速在传感器就位的时间段内变化。 在优选实施例中,传感器使用四个电极,即工作电极,参考电极,对电极和流速确定电极。 或者,执行参考电极的功能和对电极的功能的单个电极可以替代参考电极和对电极。 此外,可以使用虚拟电极或空白电极来补偿来自电化学活性物质的干扰。 需要将特定于目标分析物的试剂沉积在工作电极上。