在 1 型糖尿病患者中，基于非生物和荧光的连续葡萄糖监测系统的性能特征。

Performance characterization of an abiotic and fluorescent-based continuous glucose monitoring system in patients with type 1 diabetes.

机构信息

Senseonics, Incorporated, 20451 Seneca Meadows Parkway, Germantown, MD 20876, United States.

出版信息

Biosens Bioelectron. 2014 Nov 15;61:227-31. doi: 10.1016/j.bios.2014.05.022. Epub 2014 May 17.

DOI:10.1016/j.bios.2014.05.022

Abstract

A continuous glucose monitoring (CGM) system consisting of a wireless, subcutaneously implantable glucose sensor and a body-worn transmitter is described and clinical performance over a 28 day implant period in 12 type 1 diabetic patients is reported. The implantable sensor is constructed of a fluorescent, boronic-acid based glucose indicating polymer coated onto a miniaturized, polymer-encased optical detection system. The external transmitter wirelessly communicates with and powers the sensor and contains Bluetooth capability for interfacing with a Smartphone application. The accuracy of 19 implanted sensors were evaluated over 28 days during 6 in-clinic sessions by comparing the CGM glucose values to venous blood glucose measurements taken every 15 min. Mean absolute relative difference (MARD) for all sensors was 11.6 ± 0.7%, and Clarke error grid analysis showed that 99% of paired data points were in the combined A and B zones.

摘要

一种由无线、皮下植入式葡萄糖传感器和可穿戴式发射器组成的连续血糖监测 (CGM) 系统被描述出来，并且报告了在 12 名 1 型糖尿病患者 28 天的植入期间的临床性能。可植入传感器由涂有荧光硼酸基葡萄糖指示聚合物的微型聚合物封装光学检测系统构建而成。外部发射器通过无线方式与传感器进行通信并为其供电，并具有蓝牙功能，可与智能手机应用程序接口。在 6 次门诊期间的 28 天内，通过将 CGM 血糖值与每 15 分钟采集的静脉血糖值进行比较，对 19 个植入传感器的准确性进行了评估。所有传感器的平均绝对相对差异 (MARD) 为 11.6 ± 0.7%，Clarke 误差网格分析显示，99%的配对数据点位于 A 和 B 区的组合区内。

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在 1 型糖尿病患者中，基于非生物和荧光的连续葡萄糖监测系统的性能特征。

Performance characterization of an abiotic and fluorescent-based continuous glucose monitoring system in patients with type 1 diabetes.

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