Dylan T. Berry scite author profile

Dylan T. Berry

3Publications

1Citation Statement Received

45Citation Statements Given

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University of Wisconsin–Eau Claire

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An Inductively Powered Implantable System to Study the Gastrointestinal Electrophysiology in Freely Behaving Rodents

et al. 2022

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Chronic studies in the fasting and fed states of conscious subjects are fundamental for understanding the pathophysiological significance of functional gastrointestinal (GI) disorders and motility dysfunctions. To study the electrophysiology of the GI tract in the long term, the development of gastric implants is essential. This paper presents the development of an implantable system capable of monitoring the bioelectrical activity of the gastric system and modulating the activity in freely behaving rodents. The system consists of a miniature-sized implantable unit (IU), a stationary unit (SU) that communicates with the IU over a 2.4 GHz far-field radio frequency (RF) bidirectional link, and a charging unit (CU) that establishes an inductive 13.56 MHz near-field communication (NFC) with the IU, implementing an adaptive wireless power transfer (WPT). The CU can generate an adjustable power between +20 dBm and +30 dBm, and, in the presence of body movements and stomach motility, can deliver a constant rectified voltage to the IU. The live subject’s exposure to the electromagnetic WPT in the developed system complies with the RF energy absorption restrictions for health and safety concerns. The system can be utilized to investigate the relationship between functional GI disorders and dysrhythmias in the gastric bioelectrical activity and study the potential of electroceutical therapies for motility dysfunctions in clinical settings.

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A Wirelessly-Powered Implantable System to Record and Modulate the Gastric Slow Waves in Freely-Behaving Rodents

Dexheimer

Shea

Verhaalen

et al. 2022

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A Wearable Wideband Analog Bio-Impedance Analyzer for Real-Time Monitoring of Human Physiology

Verhaalen¹,

Berry²,

Shea³

et al. 2022

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Dylan T. Berry

An Inductively Powered Implantable System to Study the Gastrointestinal Electrophysiology in Freely Behaving Rodents

A Wirelessly-Powered Implantable System to Record and Modulate the Gastric Slow Waves in Freely-Behaving Rodents

A Wearable Wideband Analog Bio-Impedance Analyzer for Real-Time Monitoring of Human Physiology

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