Language

English

Publication Date

6-1-2025

Journal

Biomaterials

DOI

10.1016/j.biomaterials.2024.123071

PMID

39809077

PMCID

PMC12757118

PubMedCentral® Posted Date

1-2-2026

PubMedCentral® Full Text Version

Author MSS

Abstract

Direct pacing of the mid myocardium where re-entry originates can be used to prevent ventricular arrhythmias and circumvent the need for painful defibrillation or cardiac ablation. However, there are no pacing electrodes small enough to navigate the coronary veins that cross these culprit scar regions. To address this need, we have developed an injectable ionically conductive hydrogel electrode that can fill the epicardial coronary veins and transform them into flexible electrodes. A new hydrogel chemistry based on a polyether urethane diacrylamide macromer was developed that matches myocardial stiffness and is resistant to hydrolysis. Conductivity was imparted using ionic precursor solutions with values in the range of 2-3X of native myocardium that was retained after implantation. Ionic hydrogel electrodes provided stable electrical stimuli over many cycles and across a substantial length of the cardiac vein. Rapid in situ cure was achieved with redox initiation after injection from a double-barrel syringe with a mixing head. An ex vivo porcine model was used to identify the requisite viscosity and cure rate for hydrogel retention and homogeneity. Finally, successful in vivo deployment and pacing in a porcine model demonstrated that the ionic hydrogel electrode filled the anterior interventricular vein to depths far more distal and refined than current technologies. Collectively, these studies demonstrate the potential of this injectable ionic hydrogel electrode to pace previously inaccessible mid-myocardial tissue and pave the pathway for painless defibrillation.

Keywords

Animals, Hydrogels, Swine, Injections, Electric Conductivity, Cardiac Pacing, Artificial, Electrodes, biomaterials, conductive, hydrogels, injectable, arrhythmias, pacing

Published Open-Access

yes

nihms-2127793-f0001.jpg (370 kB)
Graphical Abstract

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