Bruno Rigo scite author profile

Bruno Rigo

3Publications

77Citation Statements Received

89Citation Statements Given

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126

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Interface (United States), Georgia Institute of Technology

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Fully implantable wireless batteryless vascular electronics with printed soft sensors for multiplex sensing of hemodynamics

et al. 2022

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The continuous monitoring of hemodynamics attainable with wireless implantable devices would improve the treatment of vascular diseases. However, demanding requirements of size, wireless operation, and compatibility with endovascular procedures have limited the development of vascular electronics. Here, we report an implantable, wireless vascular electronic system, consisting of a multimaterial inductive stent and printed soft sensors capable of real-time monitoring of arterial pressure, pulse rate, and flow without batteries or circuits. Developments in stent design achieve an enhanced wireless platform while matching conventional stent mechanics. The fully printed pressure sensors demonstrate fast response times, high durability, and sensing at small bending radii. The device is monitored via inductive coupling at communication distances notably larger than prior vascular sensors. The wireless electronic system is validated in artery models, while minimally invasive catheter implantation is demonstrated in an in vivo rabbit study. Overall, the vascular system offers an adaptable framework for comprehensive monitoring of hemodynamics.

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Fully implantable batteryless soft platforms with printed nanomaterial-based arterial stiffness sensors for wireless continuous monitoring of restenosis in real time

et al. 2022

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Fully Implantable Batteryless Soft Platforms with Printed Nanomaterial-Based Arterial Stiffness Sensors for Wireless Continuous Monitoring of Restenosis in Real Time

Herbert¹,

Elsisy

Rigo³

et al. 2022

SSRN Journal

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Bruno Rigo

Fully implantable wireless batteryless vascular electronics with printed soft sensors for multiplex sensing of hemodynamics

Fully implantable batteryless soft platforms with printed nanomaterial-based arterial stiffness sensors for wireless continuous monitoring of restenosis in real time

Fully Implantable Batteryless Soft Platforms with Printed Nanomaterial-Based Arterial Stiffness Sensors for Wireless Continuous Monitoring of Restenosis in Real Time

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