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Implantable Multi-Cross-Linked Membrane-Ionogel Assembly for Reversible Non-Faradaic Neurostimulation

Joo Sung Kim, Junho Kim, Jun Woo Lim, Dong Jun Kim, Jong Ik Lee, Hanbin Choi, Hyukmin Kweon, Jiho Lee, Hyeono Yee, Ji Hong Kim, Bokyung Kim, Moon Sung Kang, Jae Hyun Jeong, Sung‐Min Park, Do Hwan Kim

2023ACS Nano16 citationsDOI

Abstract

Neural interfaces play a major role in modulating neural signals for therapeutic purposes. To meet the demand of conformable neural interfaces for developing bioelectronic medicine, recent studies have focused on the performance of electrical neurostimulators employing soft conductors such as conducting polymers and electronic or ionic conductive hydrogels. However, faradaic charge injection at the interface of the electrode and nerve tissue causes irreversible gas evolution, oxidation of electrodes, and reduction of biological ions, thus causing undesired tissue damage and electrode degradation. Here we report a conformable neural interface engineering based on multicross-linked membrane-ionogel assembly (termed McMiA), which enables nonfaradaic neurostimulation without irreversible charge transfer reaction. The McMiA consists of a genipin-cross-linked biopolymeric ionogel coupled with a dopamine-cross-linked graphene oxide membrane to prevent ion exchange between biological and synthetic McMiA ions and to function as a bioadhesive forming covalent bonds with the target tissues. In addition, the demonstration of bioelectronic medicine via the McMiA-based neurostimulation of sciatic nerves shows the enhanced clinical utility in treating the overactive bladder syndrome. As the McMiA-based neural interface is soft, robust for bioadhesion, and stable in a physiological environment, it can offer significant advancement in biocompatibility and long-term operability for neural interface engineering.

Topics & Concepts

Materials scienceNanotechnologyNeurostimulationArtificial muscleBiomedical engineeringNeuroscienceComputer scienceMedicineActuatorArtificial intelligenceBiologyStimulationNeuroscience and Neural EngineeringEEG and Brain-Computer InterfacesVagus Nerve Stimulation Research
Implantable Multi-Cross-Linked Membrane-Ionogel Assembly for Reversible Non-Faradaic Neurostimulation | Litcius