Chuncheng Shi scite author profile

There has been increasing interest in wireless, miniaturized implantable medical devices for in vivo and in situ physiological monitoring. Here, we present such an implant that uses a conventional ultrasound imager for wireless powering and data communication and acts as a probe for real-time temperature sensing, including the monitoring of body temperature and temperature changes resulting from therapeutic application of ultrasound. The sub–0.1-mm3, sub–1-nW device, referred to as a mote, achieves aggressive miniaturization through the monolithic integration of a custom low-power temperature sensor chip with a microscale piezoelectric transducer fabricated on top of the chip. The small displaced volume of these motes allows them to be implanted or injected using minimally invasive techniques with improved biocompatibility. We demonstrate their sensing functionality in vivo for an ultrasound neurostimulation procedure in mice. Our motes have the potential to be adapted to the distributed and localized sensing of other clinically relevant physiological parameters.

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A 0.065-mm³Monolithically-Integrated Ultrasonic Wireless Sensing Mote for Real-Time Physiological Temperature Monitoring

Shi

Costa

Elloian

et al. 2020

IEEE Trans. Biomed. Circuits Syst.

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Four structural diversity MOF-photocatalysts readily prepared for the degradation of the methyl violet dye under UV-visible light

Wang

Shi

et al. 2021

New J. Chem.

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Chuncheng Shi

Application of a sub–0.1-mm ³ implantable mote for in vivo real-time wireless temperature sensing

A 0.065-mm³Monolithically-Integrated Ultrasonic Wireless Sensing Mote for Real-Time Physiological Temperature Monitoring

Four structural diversity MOF-photocatalysts readily prepared for the degradation of the methyl violet dye under UV-visible light

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Chuncheng Shi

Application of a sub–0.1-mm 3 implantable mote for in vivo real-time wireless temperature sensing

A 0.065-mm3Monolithically-Integrated Ultrasonic Wireless Sensing Mote for Real-Time Physiological Temperature Monitoring

Four structural diversity MOF-photocatalysts readily prepared for the degradation of the methyl violet dye under UV-visible light

Contact Info

Product

Resources

About

Application of a sub–0.1-mm ³ implantable mote for in vivo real-time wireless temperature sensing

A 0.065-mm³Monolithically-Integrated Ultrasonic Wireless Sensing Mote for Real-Time Physiological Temperature Monitoring