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高度微型化、低功耗 CMOS 专用集成电路芯片,用于长期连续血糖监测。

Highly Miniaturized, Low-Power CMOS ASIC Chip for Long-Term Continuous Glucose Monitoring.

机构信息

University of Connecticut, Storrs, CT, USA.

Biorasis Inc., Storrs, CT, USA.

出版信息

J Diabetes Sci Technol. 2024 Sep;18(5):1179-1184. doi: 10.1177/19322968231153419. Epub 2023 Feb 11.

DOI:10.1177/19322968231153419
PMID:36772835
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11418493/
Abstract

BACKGROUND

The objective of this work is to develop a highly miniaturized, low-power, biosensing platform for continuous glucose monitoring (CGM). This platform is based on an application-specific integrated circuit (ASIC) chip that interfaces with an amperometric glucose-sensing element. To reduce both size and power requirements, this custom ASIC chip was implemented using 65-nm complementary metal oxide semiconductor (CMOS) technology node. Interfacing this chip to a frequency-counting microprocessor with storage capabilities, a miniaturized transcutaneous CGM system can be constructed for small laboratory animals, with long battery life.

METHOD

A 0.45 mm × 1.12 mm custom ASIC chip was first designed and implemented using the Taiwan Semiconductor Manufacturing Company (TSMC) 65-nm CMOS technology node. This ASIC chip was then interfaced with a multi-layer amperometric glucose-sensing element and a frequency-counting microprocessor with storage capabilities. Variation in glucose levels generates a linear increase in frequency response of this ASIC chip. In vivo experiments were conducted in healthy Sprague Dawley rats.

RESULTS

This highly miniaturized, 65-nm custom ASIC chip has an overall power consumption of circa 36 µW. In vitro testing shows that this ASIC chip produces a linear ( = 99.5) frequency response to varying glucose levels (from 2 to 25 mM), with a sensitivity of 1278 Hz/mM. In vivo testing in unrestrained healthy rats demonstrated long-term CGM (six days/per charge) with rapid glucose response to glycemic variations induced by isoflurane anesthesia and tail vein injection.

CONCLUSIONS

The miniature footprint of the biosensor platform, together with its low-power consumption, renders this CMOS ASIC chip a versatile platform for a variety of highly miniaturized devices, intended to improve the quality of life of patients with type 1 and type 2 diabetes.

摘要

背景

本工作旨在开发一种高度微型化、低功耗的生物传感平台,用于连续血糖监测(CGM)。该平台基于专用集成电路(ASIC)芯片,与电流型葡萄糖传感元件接口。为了减小尺寸和功耗,该定制 ASIC 芯片采用 65nm 互补金属氧化物半导体(CMOS)技术节点实现。将该芯片与具有存储功能的计频微处理器接口,可以构建用于小型实验动物的微型经皮 CGM 系统,具有较长的电池寿命。

方法

首先使用台湾积体电路制造公司(TSMC)65nm CMOS 技术节点设计和实现了 0.45mm×1.12mm 的定制 ASIC 芯片。然后,将该 ASIC 芯片与多层电流型葡萄糖传感元件和具有存储功能的计频微处理器接口。葡萄糖水平的变化会使该 ASIC 芯片的频率响应线性增加。在健康的 Sprague Dawley 大鼠中进行了体内实验。

结果

这种高度微型化的 65nm 定制 ASIC 芯片的总功耗约为 36µW。体外测试表明,该 ASIC 芯片对不同的葡萄糖水平(2-25mM)产生线性(=99.5)的频率响应,灵敏度为 1278Hz/mM。在不受约束的健康大鼠中进行的体内测试表明,该 CGM 可进行长期监测(每充电 6 天),并能快速响应异氟烷麻醉和尾静脉注射引起的血糖变化。

结论

生物传感器平台的微型化尺寸和低功耗特性,使该 CMOS ASIC 芯片成为各种高度微型化设备的通用平台,旨在提高 1 型和 2 型糖尿病患者的生活质量。