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    • 2. 发明申请
      WO2012034117A2 ENZYME CO-FACTOR ENHANCEMENT OF BIOSENSOR PERFORMANCE 审中-公开
    • ENZYME CO-FACTOR ENHANCEMENT OF BIOSENSOR PERFORMANCE
    • 生物传感器性能的酶合成因子增强
    • WO2012034117A2
    • 2012-03-15
    • PCT/US2011/051193
    • 2011-09-12
    • PINNACLE TECHNOLOGY, INC.PETILLO, Peter A.AILLON, Daniel V.BARRETT, Brian S.
    • PETILLO, Peter A.AILLON, Daniel V.BARRETT, Brian S.
    • C12Q1/26G01N33/573
    • C12N9/96A61B5/14532A61B5/14865C12Q1/004G01N33/573
    • The present invention is broadly concerned with the crafting and manufacturability of an implantable enzymatic-based sensor characterized by a small size, optimum geometry, linearity of response over the concentration range of interest, extended shelf-life, selectivity for the analyte in question, and the ability to exclude bioactive interferents. More particularly, it is preferably concerned with a general approach to optimize the performance of the biorecognition elements required to produce biosensors of the type designed to provide, and in conjunction with a suitable signal processing unit, a current which is proportional to the concentration of the analyte of interest. The biosensors described herein may be implanted in vivo, including intra-cerebral, sub-cutaneous, intra-muscular, inter-peritoneal oral, serum, and vascular implantation, the majority of which may act as a surrogate for systemic monitoring and used to monitor analytes of interest in real-time. Multiple biosensors can be joined together to allow for the simultaneous recording of multiple analytes of interest. In addition to the in vivo applications, sensors of the design described herein may also find use in medical monitoring, industrial processes, fermentation, environmental monitoring, and waste water stream monitoring. The present invention offers co-factor enhancement of the biorecognition element, providing access to a range of biorecognition elements heretofore difficult to incorporate into a manufacturing process for the large-scale production of biosensors.
    • 本发明广泛涉及可植入酶基传感器的制作和可制造性,其特征在于在所关注的浓度范围内具有小尺寸,最佳几何形状,响应线性,延长的保质期,所述分析物的选择性,以及 排除生物活性干扰物的能力。 更具体地,优选涉及优化生物识别元件的性能的一般方法,所述生物识别元件所需的生物传感器的类型被设计为提供合适的信号处理单元,并且与合适的信号处理单元结合,该电流与 感兴趣的分析物 本文描述的生物传感器可以植入体内,包括脑内,皮下,肌内,腹膜内口服,血清和血管植入,其中大多数可以用作系统监测的替代物并用于监测 实时分析物。 多个生物传感器可以连接在一起以允许同时记录多个感兴趣的分析物。 除了体内应用之外,本文所述设计的传感器还可用于医疗监测,工业过程,发酵,环境监测和废水流监测。 本发明提供了生物识别元件的辅因子增强,提供了到目前难以并入用于大规模生产生物传感器的制造过程中的一系列生物识别元件的获取。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 3. 发明申请
      WO2012034117A3 ENZYME CO-FACTOR ENHANCEMENT OF BIOSENSOR PERFORMANCE 审中-公开
    • ENZYME CO-FACTOR ENHANCEMENT OF BIOSENSOR PERFORMANCE
    • 酶系统因子增强生物传感器的性能
    • WO2012034117A3
    • 2012-06-14
    • PCT/US2011051193
    • 2011-09-12
    • PINNACLE TECHNOLOGY INCPETILLO PETER AAILLON DANIEL VBARRETT BRIAN S
    • PETILLO PETER AAILLON DANIEL VBARRETT BRIAN S
    • C12Q1/26G01N33/573
    • C12N9/96A61B5/14532A61B5/14865C12Q1/004G01N33/573
    • The present invention is broadly concerned with the crafting and manufacturability of an implantable enzymatic-based sensor characterized by a small size, optimum geometry, linearity of response over the concentration range of interest, extended shelf-life, selectivity for the analyte in question, and the ability to exclude bioactive interferents. More particularly, it is preferably concerned with a general approach to optimize the performance of the biorecognition elements required to produce biosensors of the type designed to provide, and in conjunction with a suitable signal processing unit, a current which is proportional to the concentration of the analyte of interest. The biosensors described herein may be implanted in vivo, including intra-cerebral, sub-cutaneous, intra-muscular, inter-peritoneal oral, serum, and vascular implantation, the majority of which may act as a surrogate for systemic monitoring and used to monitor analytes of interest in real-time. Multiple biosensors can be joined together to allow for the simultaneous recording of multiple analytes of interest. In addition to the in vivo applications, sensors of the design described herein may also find use in medical monitoring, industrial processes, fermentation, environmental monitoring, and waste water stream monitoring. The present invention offers co-factor enhancement of the biorecognition element, providing access to a range of biorecognition elements heretofore difficult to incorporate into a manufacturing process for the large-scale production of biosensors.
    • 本发明广泛涉及可植入的基于酶的传感器的制造和可制造性,其特征在于小尺寸,最佳几何形状,在所关注的浓度范围内的响应线性,延长的货架期,所讨论的分析物的选择性以及 排除生物活性干扰物的能力。 更具体地说,优选涉及优化生物识别元件性能所需的生物识别元件的性能的一般方法,所述生物识别元件设计用于提供与合适的信号处理单元相结合的电流,该电流与 感兴趣的分析物。 本文所述的生物传感器可以体内植入,包括脑内,皮下,肌内,腹膜内口服,血清和血管植入,其中大部分可以充当系统监测的替代物并用于监测 实时感兴趣的分析物。 多个生物传感器可以连接在一起,以便同时记录多种感兴趣的分析物。 除了体内应用之外,本文描述的设计的传感器还可以用于医学监测,工业过程,发酵,环境监测和废水流监测。 本发明提供了生物识别元件的辅因子增强,提供了一系列生物识别元件,迄今为止很难将其纳入用于大规模生产生物传感器的制造过程中。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
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