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Wireless, Fully Implantable and Expandable Electronic System for Bidirectional Electrical Neuromodulation of the Urinary Bladder

Joong Hoon Lee, Tae‐Min Jang, Jeong‐Woong Shin, Bong Hee Lim, Kaveti Rajaram, Won Bae Han, Gwan‐Jin Ko, Seung Min Yang, Sungkeun Han, Dong‐Je Kim, Heeseok Kang, Jun Hyeon Lim, Kyu‐Sung Lee, Eunkyoung Park, Suk‐Won Hwang

2023ACS Nano26 citationsDOI

Abstract

Current standard clinical options for patients with detrusor underactivity (DUA) or underactive bladder─the inability to release urine naturally─include the use of medications, voiding techniques, and intermittent catheterization, for which the patient inserts a tube directly into the urethra to eliminate urine. Although those are life-saving techniques, there are still unfavorable side effects, including urinary tract infection (UTI), urethritis, irritation, and discomfort. Here, we report a wireless, fully implantable, and expandable electronic complex that enables elaborate management of abnormal bladder function via seamless integrations with the urinary bladder. Such electronics can not only record multiple physiological parameters simultaneously but also provide direct electrical stimulation based on a feedback control system. Uniform distribution of multiple stimulation electrodes via mesh-type geometry realizes low-impedance characteristics, which improves voiding/urination efficiency at the desired times. In vivo evaluations using live, free-moving animal models demonstrate system-level functionality.

Topics & Concepts

UrinationMedicineNeuromodulationUrologyUrinary systemUrethraUrinary bladderBiomedical engineeringStimulationInternal medicineNeuroscience and Neural EngineeringTissue Engineering and Regenerative MedicinePhotoreceptor and optogenetics research
Wireless, Fully Implantable and Expandable Electronic System for Bidirectional Electrical Neuromodulation of the Urinary Bladder | Litcius