The Autonomic Nexus: Neuromodulation as a New Frontier in Arrhythmia Therapy

神经调节 医学 自主神经系统 神经科学 迷走神经电刺激 迷走神经 临床电生理 心动过缓 自主神经 心律失常 心脏电生理学 神经生理学 心脏传导系统 心脏病学 随机对照试验 生物反馈 临床试验 内科学
作者
Hadrian Hoang-Vu Tran,Audrey Thu,Anu Radha Twayana,Axel Fuertes,Marco Gonzalez,Marina Basta,Maggie James,Krutagni Adwait Mehta,Ghulam Rabbani Anwar,Daniel Elias,Yghor Myrtho Figaro,Rachelle El-Houayek,Damien Islek,Basel Hajal,Abraham Lo,William H. Frishman,Wilbert S Aronow
出处
期刊:Cardiology in Review [Lippincott Williams & Wilkins]
标识
DOI:10.1097/crd.0000000000001132
摘要

Cardiac autonomic modulation has emerged as a novel therapeutic frontier for atrial and ventricular arrhythmias, addressing the limitations of conventional anti-arrhythmic drugs, ablation, and device therapies. This review summarizes recent progress in neuromodulation, focusing on mechanistic foundations, clinical applications, safety considerations, and future directions. Neuromodulatory techniques such as ganglionated plexus ablation, vagus nerve stimulation, renal denervation, and stellate ganglion modulation have shown potential to restore autonomic balance, reduce inflammation, and lower arrhythmic burden in refractory and inflammation-associated conditions. Advances in artificial intelligence-assisted mapping, high-resolution imaging, and closed-loop biofeedback systems are improving the precision and adaptability of these therapies. Despite encouraging results, translation remains limited by incomplete mechanistic understanding, anatomical variability, and lack of standardized protocols or objective biomarkers. Rigorous randomized trials and long-term studies are required to confirm durability and safety. The integration of neuromodulation with digital, imaging, and structural rhythm strategies represents a major step toward personalized electrophysiology and the next generation of arrhythmia management.
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