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    • 1. 发明申请
    • MULTI-ANALYTE TEST STRIP WITH SHARED COUNTER/REFERENCE ELECTRODE AND INLINE ELECTRODE CONFIGURATION
    • 具有共享计数器/参考电极和在线电极配置的多分析测试条
    • US20110048972A1
    • 2011-03-03
    • US12551157
    • 2009-08-31
    • James MOFFATKathryn MacleodChristopher Philip LeachGavin MacfieGeoffrey LillieMarco F. Cardosi
    • James MOFFATKathryn MacleodChristopher Philip LeachGavin MacfieGeoffrey LillieMarco F. Cardosi
    • G01N27/26
    • C12Q1/001G01N27/3272
    • A multi-analyte test strip includes a first insulating layer and an electrically conductive layer disposed on the first insulating layer. The electrically conductive layer has a first working electrode with a first analyte contact pad, a shared counter/reference electrode with a counter/reference electrode contact pad, and a second working electrode with a second analyte contact pad. The multi-analyte test strip also includes a second insulating layer disposed above the first insulating layer and a patterned spacer layer positioned between the first insulating layer and the first electrically conductive layer with the patterned spacer layer defining a bodily fluid sample-receiving chamber that overlies the first working electrode, the shared counter/reference electrode and the second working electrode. The multi-analyte test strip further includes a mediator reagent layer disposed over the first working electrode, the shared counter/reference electrode and the second working electrode; a first analyte reagent layer disposed over the first working electrode and mediator reagent layer; and a second analyte reagent layer disposed over the second working electrode and mediator reagent layer. Furthermore, the first analyte electrode, shared counter/reference electrode and second analyte electrode of the multi-analyte test strip are disposed on the first insulating layer in a planar inline configuration.
    • 多分析物测试条包括设置在第一绝缘层上的第一绝缘层和导电层。 导电层具有第一工作电极,其具有第一分析物接触焊盘,共用的计数器/参考电极,其具有计数器/参考电极接触焊盘,以及具有第二分析物接触焊盘的第二工作电极。 多分析物测试条还包括设置在第一绝缘层上方的第二绝缘层和位于第一绝缘层和第一导电层之间的图案化间隔层,其中图案化间隔层限定体液样品接收室, 第一工作电极,共用计数器/参考电极和第二工作电极。 多分析物测试条还包括设置在第一工作电极,共用计数器/参考电极和第二工作电极之上的介体试剂层; 设置在第一工作电极和介体试剂层上的第一分析物试剂层; 以及设置在第二工作电极和介体试剂层上的第二分析物试剂层。 此外,多分析物测试条的第一分析物电极,共用计数器/参考电极和第二分析物电极以平面一字排列配置在第一绝缘层上。
    • 2. 发明授权
    • Dual chamber, multi-analyte test strip with opposing electrodes
    • 具有相对电极的双室多分析物测试条
    • US08323467B2
    • 2012-12-04
    • US12606467
    • 2009-10-27
    • Gavin MacFieGraeme WebsterMarco F. CardosiChristopher Philip LeachSteven SetfordSelwayan Saini
    • Gavin MacFieGraeme WebsterMarco F. CardosiChristopher Philip LeachSteven SetfordSelwayan Saini
    • G01N27/327
    • G01N27/3272G01N2035/00118
    • A dual chamber, multi-analyte test strip has a first insulating layer, a first electrically conductive layer, with a first working electrode, disposed on the first insulating layer and a first patterned spacer layer positioned above the first electrically conductive layer. The first patterned spacer layer has a first sample-receiving chamber, with first and second end openings, defined therein that overlies the first working electrode. The test strip also includes a first counter/reference electrode layer that is exposed to the first sample receiving chamber and is in an opposing relationship to the first working electrode. The test strip further includes a counter/reference insulating layer disposed over the first counter/reference electrode layer and a second counter/reference electrode layer disposed on the counter/reference substrate. Also included in the test strip is a second patterned spacer layer that is positioned above the second counter/reference electrode layer. The second patterned spacer layer has a second sample-receiving chamber, with first and second end openings, defined therein. The test strip additionally has a second electrically conductive layer, with a second working electrode, disposed above the second patterned spacer layer, a second insulating layer disposed above the second electrically conductive layer, a first analyte reagent layer disposed on the first working electrode within the first sample-receiving chamber; and a second analyte reagent layer disposed on the second working electrode within the second sample-receiving chamber. The second counter/reference electrode layer is exposed to the second sample receiving chamber and is in an opposing relationship to the second working electrode.
    • 双室多分析物测试条具有设置在第一绝缘层上的第一绝缘层,第一导电层和第一工作电极,以及位于第一导电层上方的第一图案化间隔层。 第一图案化间隔层具有第一样品接收室,其中限定在其中的第一和第二端部开口覆盖在第一工作电极上。 测试条还包括暴露于第一样品接收室并与第一工作电极相对关系的第一计数器/参考电极层。 测试条还包括设置在第一计数器/参考电极层上的计数器/参考绝缘层和设置在反向/参考基板上的第二计数器/参考电极层。 还包括在测试条中的是位于第二计数器/参考电极层上方的第二图案化间隔层。 第二图案化间隔层具有第二样品接收室,其中限定有第一和第二端部开口。 测试条另外具有第二导电层,第二工作电极设置在第二图案化间隔层上方,设置在第二导电层上方的第二绝缘层,设置在第二工作电极内的第一分析物试剂层, 第一采样室; 以及设置在第二样品接收室内的第二工作电极上的第二分析物试剂层。 第二计数器/参考电极层暴露于第二样品接收室,并且与第二工作电极相对。
    • 3. 发明申请
    • DUAL CHAMBER, MULTI-ANALYTE TEST STRIP WITH OPPOSING ELECTRODES
    • 双室,多分析测试带与电极
    • US20110094896A1
    • 2011-04-28
    • US12606467
    • 2009-10-27
    • Gavin MACFIEGraeme WebsterMarco F. CardosiChristopher Philip LeachSteven SetfordSelwayan Saini
    • Gavin MACFIEGraeme WebsterMarco F. CardosiChristopher Philip LeachSteven SetfordSelwayan Saini
    • G01N27/26
    • G01N27/3272G01N2035/00118
    • A dual chamber, multi-analyte test strip has a first insulating layer, a first electrically conductive layer, with a first working electrode, disposed on the first insulating layer and a first patterned spacer layer positioned above the first electrically conductive layer. The first patterned spacer layer has a first sample-receiving chamber, with first and second end openings, defined therein that overlies the first working electrode. The test strip also includes a first counter/reference electrode layer that is exposed to the first sample receiving chamber and is in an opposing relationship to the first working electrode. The test strip further includes a counter/reference insulating layer disposed over the first counter/reference electrode layer and a second counter/reference electrode layer disposed on the counter/reference substrate. Also included in the test strip is a second patterned spacer layer that is positioned above the second counter/reference electrode layer. The second patterned spacer layer has a second sample-receiving chamber, with first and second end openings, defined therein. The test strip additionally has a second electrically conductive layer, with a second working electrode, disposed above the second patterned spacer layer, a second insulating layer disposed above the second electrically conductive layer, a first analyte reagent layer disposed on the first working electrode within the first sample-receiving chamber; and a second analyte reagent layer disposed on the second working electrode within the second sample-receiving chamber. The second counter/reference electrode layer is exposed to the second sample receiving chamber and is in an opposing relationship to the second working electrode.
    • 双室多分析物测试条具有设置在第一绝缘层上的第一绝缘层,第一导电层和第一工作电极,以及位于第一导电层上方的第一图案化间隔层。 第一图案化间隔层具有第一样品接收室,其中限定在其中的第一和第二端部开口覆盖在第一工作电极上。 测试条还包括暴露于第一样品接收室并与第一工作电极相对关系的第一计数器/参考电极层。 测试条还包括设置在第一计数器/参考电极层上的计数器/参考绝缘层和设置在反向/参考基板上的第二计数器/参考电极层。 还包括在测试条中的是位于第二计数器/参考电极层上方的第二图案化间隔层。 第二图案化间隔层具有第二样品接收室,其中限定有第一和第二端部开口。 测试条另外具有第二导电层,第二工作电极设置在第二图案化间隔层上方,设置在第二导电层上方的第二绝缘层,设置在第二工作电极内的第一分析物试剂层, 第一采样室; 以及设置在第二样品接收室内的第二工作电极上的第二分析物试剂层。 第二计数器/参考电极层暴露于第二样品接收室,并且与第二工作电极相对。
    • 4. 发明授权
    • Test meter for use with a dual chamber, multi-analyte test strip with opposing electrodes
    • 用于具有相对电极的双室多分析物测试条的测试仪
    • US08632664B2
    • 2014-01-21
    • US12606496
    • 2009-10-27
    • Gavin MacfieGraeme WebsterMarco F. CardosiChristopher Philip LeachSteven SetfordSelwayan Saini
    • Gavin MacfieGraeme WebsterMarco F. CardosiChristopher Philip LeachSteven SetfordSelwayan Saini
    • G01N27/327
    • G01N27/3272G01N2035/00118
    • A test meter for use with a dual-chamber, multi-analyte test strip includes a test strip receiving module and a signal processing module. The test strip receiving module has a first electrical connector configured for contacting a first analyte contact pad of a first working electrode of the test strip; a second electrical connector configured for contacting a second analyte contact pad of a second working electrode of the test strip, a third electrical connector configured for contacting a first counter/reference contact pad of a first counter/reference electrode layer of the test strip, and a fourth electrical connector configured for contacting a second counter/reference contact pad of a second counter/reference electrode layer of the test strip. The signal processing module is configured to receive a first signal via the first electrical connector and the third electrical connector and employ the first signal for the determination of a first analyte (such as glucose) in a bodily fluid sample (for example, whole blood sample) applied to the dual-chamber, multi-analyte test strip. Moreover, the signal processing module is also configured to receive a second signal via the second electrical connector and fourth electrical connector and employ the second signal for the determination of a second analyte (e.g., a ketone analyte) in the bodily fluid sample applied to the dual-chamber, multi-analyte test strip. Furthermore, the third and fourth electrical contacts provide contact in an opposing manner.
    • 用于双腔多分析物测试条的测试仪包括测试条接收模块和信号处理模块。 测试条接收模块具有第一电连接器,其被配置用于接触测试条的第一工作电极的第一分析物接触焊盘; 第二电连接器,其被配置用于接触测试条的第二工作电极的第二分析物接触焊盘;第三电连接器,其被配置用于接触测试条的第一计数器/参考电极层的第一计数器/参考接触焊盘,以及 第四电连接器,其被配置为接触测试条的第二计数器/参考电极层的第二计数器/参考接触焊盘。 信号处理模块被配置为经由第一电连接器和第三电连接器接收第一信号,并且采用第一信号来确定体液样品中的第一分析物(例如葡萄糖)(例如,全血样品 )应用于双室多分析物测试条。 此外,信号处理模块还被配置为经由第二电连接器和第四电连接器接收第二信号,并且使用第二信号来确定施加到所述第二电连接器和第四电连接器的体液样品中的第二分析物(例如,酮分析物) 双室多分析物测试条。 此外,第三和第四电触点以相反的方式提供接触。
    • 5. 发明授权
    • Method for determining hematocrit corrected analyte concentrations
    • 确定血细胞比容校正分析物浓度的方法
    • US08388821B2
    • 2013-03-05
    • US12305363
    • 2007-10-05
    • Stephen Patrick BlytheMarco F. CardosiAndrew GillLeanne MillsChristopher Philip Leach
    • Stephen Patrick BlytheMarco F. CardosiAndrew GillLeanne MillsChristopher Philip Leach
    • G01N27/327
    • C12Q1/006G01N27/3271
    • Description is provided herein for an embodiment of a method determining a hematocrit-corrected glucose concentration. The exemplary method includes providing a test strip having a reference electrode and a working electrode, wherein the working electrode includes a plurality of microelectrodes and is coated with at least an enzyme and a mediator. The method can be achieved by: providing a test strip comprising a reference electrode and a working electrode formed with a plurality of microelectrodes and coated with a reagent layer; applying a fluid sample to the test strip for a reaction period; applying a test voltage between the reference electrode and the working electrode; measuring a test current as a function of time; measuring a steady state current value when the test current has reached an equilibrium; calculating a ratio of the test current to the steady state current value; plotting the ratio of the test current to the steady state current value as a function of the inverse square root of time; calculating an effective diffusion coefficient from the slope of the linearly regressed plot of the ratio of the test current to the steady state current value as a function of the inverse square root of time; and calculating a hematocrit-corrected concentration of analyte.
    • 本文提供了确定血细胞比容校正葡萄糖浓度的方法的实施方案的描述。 该示例性方法包括提供具有参考电极和工作电极的测试条,其中工作电极包括多个微电极并且至少涂覆有酶和介体。 该方法可以通过以下方式实现:提供包括参考电极和形成有多个微电极并涂覆有试剂层的工作电极的测试条; 将流体样品施加到测试条上一段反应期; 在参考电极和工作电极之间施加测试电压; 测量作为时间的函数的测试电流; 当测试电流达到平衡时测量稳态电流值; 计算测试电流与稳态电流值的比值; 将测试电流与稳态电流值的比率绘制为时间的逆平方根的函数; 根据测试电流与稳态电流值的比值的线性回归曲线的斜率计算有效扩散系数作为时间的平方根的函数; 并计算分析物的血细胞比容校正浓度。
    • 8. 发明申请
    • METHOD FOR DETERMINING HEMATOCRIT CORRECTED ANALYTE CONCENTRATIONS
    • 用于确定HEMATOCRIT校正分析物浓度的方法
    • US20100219084A1
    • 2010-09-02
    • US12305363
    • 2007-10-05
    • Stephen Patrick BlytheMarco F. CardosiAndrew GillLeanne MillsChristopher Philip Leach
    • Stephen Patrick BlytheMarco F. CardosiAndrew GillLeanne MillsChristopher Philip Leach
    • G01N27/26C12Q1/00
    • C12Q1/006G01N27/3271
    • Description is provided herein for an embodiment of a method determining a hematocrit-corrected glucose concentration. The exemplary method includes providing a test strip having a reference electrode and a working electrode, wherein the working electrode includes a plurality of microelectrodes and is coated with at least an enzyme and a mediator. The method can be achieved by: providing a test strip comprising a reference electrode and a working electrode formed with a plurality of microelectrodes and coated with a reagent layer; applying a fluid sample to the test strip for a reaction period; applying a test voltage between the reference electrode and the working electrode; measuring a test current as a function of time; measuring a steady state current value when the test current has reached an equilibrium; calculating a ratio of the test current to the steady state current value; plotting the ratio of the test current to the steady state current value as a function of the inverse square root of time; calculating an effective diffusion coefficient from the slope of the linearly regressed plot of the ratio of the test current to the steady state current value as a function of the inverse square root of time; and calculating a hematocrit-corrected concentration of analyte.
    • 本文提供了确定血细胞比容校正葡萄糖浓度的方法的实施方案的描述。 该示例性方法包括提供具有参考电极和工作电极的测试条,其中工作电极包括多个微电极并且至少涂覆有酶和介体。 该方法可以通过以下方式实现:提供包括参考电极和形成有多个微电极并涂覆有试剂层的工作电极的测试条; 将流体样品施加到测试条上一段反应期; 在参考电极和工作电极之间施加测试电压; 测量作为时间的函数的测试电流; 当测试电流达到平衡时测量稳态电流值; 计算测试电流与稳态电流值的比值; 将测试电流与稳态电流值的比率绘制为时间的逆平方根的函数; 根据测试电流与稳态电流值的比值的线性回归曲线的斜率计算有效扩散系数作为时间的平方根的函数; 并计算分析物的血细胞比容校正浓度。