Wireless Self‐Powered Optogenetic System for Long‐Term Cardiac Neuromodulation to Improve Post‐MI Cardiac Remodeling and Malignant Arrhythmia

Autonomic imbalance is an important characteristic of patients after myocardial infarction (MI) and adversely contributes to post‐MI cardiac remodeling and ventricular arrhythmias (VAs). A previous study proved that optogenetic modulation could precisely inhibit cardiac sympathetic hyperactivity and...

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Bibliographic Details
Published in:Advanced science 2023-03, Vol.10 (9), p.e2205551-n/a
Main Authors: Zhou, Liping, Zhang, Yuanzheng, Cao, Gang, Zhang, Chi, Zheng, Chen, Meng, Guannan, Lai, Yanqiu, Zhou, Zhen, Liu, Zhihao, Liu, Zihan, Guo, Fuding, Dong, Xin, Liang, Zhizhuo, Wang, Yueyi, Guo, Shishang, Zhou, Xiaoya, Jiang, Hong, Yu, Lilei
Format: Article
Language:English
Subjects:
Animals
Arrhythmias, Cardiac - pathology
Arrhythmias, Cardiac - therapy
Biomechanics
cardiac remodeling
Dogs
Electricity distribution
Electrodes
Energy
Heart
Light emitting diodes
Myocardial Infarction - drug therapy
Nervous system
neuromodulation
Optogenetics
Pets
Power supply
triboelectric nanogenerator
ventricular arrhythmia
Ventricular Remodeling - physiology
wireless self‐powered optogenetics
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Summary:Autonomic imbalance is an important characteristic of patients after myocardial infarction (MI) and adversely contributes to post‐MI cardiac remodeling and ventricular arrhythmias (VAs). A previous study proved that optogenetic modulation could precisely inhibit cardiac sympathetic hyperactivity and prevent acute ischemia‐induced VAs. Here, a wireless self‐powered optogenetic modulation system is introduced, which achieves long‐term precise cardiac neuromodulation in ambulatory canines. The wireless self‐powered optical system based on a triboelectric nanogenerator is powered by energy harvested from body motion and realized the effective optical illumination that is required for optogenetic neuromodulation (ON). It is further demonstrated that long‐term ON significantly mitigates MI‐induced sympathetic remodeling and hyperactivity, and improves a variety of clinically relevant outcomes such as improves ventricular dysfunction, reduces infarct size, increases electrophysiological stability, and reduces susceptibility to VAs. These novel insights suggest that wireless ON holds translational potential for the clinical treatment of arrhythmia and other cardiovascular diseases related to sympathetic hyperactivity. Moreover, this innovative self‐powered optical system may provide an opportunity to develop implantable/wearable and self‐controllable devices for long‐term optogenetic therapy. In the present study, a wireless self‐powered optogenetic modulation system is introduced, which achieves long‐term precise cardiac neuromodulation in ambulatory canines. Long‐term optogenetic neuromodulation significantly improves MI‐induced cardiac autonomic, electrical, functional, and structural remodeling, and thus, suppresses post‐MI ventricular arrhythmogenesis.
ISSN:2198-3844
2198-3844
DOI:10.1002/advs.202205551