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Communication protocols integrating wearables, ingestibles, and implantables for closed-loop therapies

Ramy Ghanim, Anika Kaushik, Jihoon Park, Alex Abramson

2023Device41 citationsDOIOpen Access PDF

Abstract

Body-conformal sensors and tissue interfacing robotic therapeutics enable the real-time monitoring and treatment of diabetes, wound healing, and other critical conditions. By integrating sensors and drug delivery devices, scientists and engineers have developed closed-loop drug delivery systems with on-demand therapeutic capabilities to provide just-in-time treatments that correspond to chemical, electrical, and physical signals of a target morbidity. To enable closed-loop functionality in vivo, engineers utilize various low-power means of communication that reduce the size of implants by orders of magnitude, increase device lifetime from hours to months, and ensure the secure high-speed transfer of data. In this review, we highlight how communication protocols used to integrate sensors and drug delivery devices, such as radio frequency communication (e.g., Bluetooth, near-field communication), in-body communication, and ultrasound, enable improved treatment outcomes.

Topics & Concepts

InterfacingWearable computerBluetoothComputer scienceCommunications protocolClosed loopEmbedded systemEngineeringWirelessComputer networkComputer hardwareTelecommunicationsControl engineeringWireless Body Area NetworksMolecular Communication and NanonetworksNeuroscience and Neural Engineering
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