一种用于实时检测组织间液中钠的基于可穿戴微针的扩展栅晶体管。

A Wearable Microneedle-Based Extended Gate Transistor for Real-Time Detection of Sodium in Interstitial Fluids.

作者信息

Zheng Youbin, Omar Rawan, Zhang Rongjun, Tang Ning, Khatib Muhammad, Xu Qi, Milyutin Yana, Saliba Walaa, Broza Yoav Y, Wu Weiwei, Yuan Miaomiao, Haick Hossam

机构信息

Department of Chemical Engineering and Russell Berrie Nanotechnology Institute, Technion-Israel Institute of Technology, Haifa, 3200003, Israel.

The Eighth Affiliated Hospital, Sun Yat-sen University, Shenzhen, 518033, P. R. China.

出版信息

Adv Mater. 2022 Mar;34(10):e2108607. doi: 10.1002/adma.202108607. Epub 2022 Jan 20.

DOI:10.1002/adma.202108607

PMID:34918409

Abstract

Sodium is a prominent prognostic biomarker for assessing health status, such as dysnatremia. As of now, detection and monitoring of sodium levels in the human body is carried out by means of laborious and bulky laboratory equipmentand/or by offline analysis of various body fluids. Herein, an innovative stretchable, skin-conformal and fast-response microneedle extended-gate FET biosensor is reported for real-time detection of sodium in interstitial fluids for minimally invasive health monitoring along with high sensitivity, low limit of detection, excellent biocompatibility, and on-body mechanical stability. The integration of the reported device with a wireless-data transmitter and the Internet-of-Things cloud for real-time monitoring and long-term analysis is reported and discussed. This platform would eventually help bringing unlimited possibilities for effecient medical care and accurate clinical decision-making.

摘要

钠是评估健康状况（如钠代谢紊乱）的重要预后生物标志物。目前，人体钠水平的检测和监测是通过繁琐且庞大的实验室设备和/或对各种体液进行离线分析来进行的。在此，报道了一种创新的可拉伸、贴合皮肤且响应快速的微针扩展栅场效应晶体管生物传感器，用于实时检测组织液中的钠，以实现微创健康监测，同时具有高灵敏度、低检测限、优异的生物相容性和体表机械稳定性。还报道并讨论了将所报道的设备与无线数据发射器和物联网云集成以进行实时监测和长期分析。该平台最终将有助于为高效医疗护理和准确的临床决策带来无限可能。

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一种用于实时检测组织间液中钠的基于可穿戴微针的扩展栅晶体管。

A Wearable Microneedle-Based Extended Gate Transistor for Real-Time Detection of Sodium in Interstitial Fluids.

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