生物电子医学的最新进展:回顾。

Sudipta Das, Baishali Ghosh, Rudra Narayan Sahoo, Amit Kumar Nayak
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摘要

生物电子医学是一个多学科领域,它将分子医学、神经学、工程学和计算机科学结合起来,设计用于诊断和治疗疾病的设备。生物电子医学的进步可以提高疾病治疗的精确性和个性化。生物电子医学可以产生、抑制和测量可兴奋组织中的电活动。生物电子设备利用电子而不是药物来改变特定的神经回路,并利用生物电子过程来调节各种疾病的生物过程。与传统药物治疗相比,生物电子设备具有解决疾病根本原因、减少不良反应和降低成本的潜力。本综述介绍了生物电子药物的不同重要方面以及最新进展。生物电子医学领域在治疗疾病方面具有很大的潜力,可通过调节脑脉冲实现非侵入性治疗干预。生物电子医学利用电能控制生物过程、治疗疾病或恢复丧失的能力。这些新型药物是通过检测和调节神经系统电信号方法的技术发展设计出来的。外周神经系统调节慢性疾病的各种过程;它涉及在特定外周神经上植入小型装置,读取并调节大脑信号模式,以达到针对特定器官信号能力的治疗效果。生物电子医学领域潜力巨大,它研究如何治疗各种疾病,包括类风湿性关节炎、糖尿病、高血压、瘫痪、慢性病、失明等。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Recent Advancements in Bioelectronic Medicine: A Review.

Bioelectronic medicine is a multidisciplinary field that combines molecular medicine, neurology, engineering, and computer science to design devices for diagnosing and treating diseases. The advancements in bioelectronic medicine can improve the precision and personalization of illness treatment. Bioelectronic medicine can produce, suppress, and measure electrical activity in excitable tissue. Bioelectronic devices modify specific neural circuits using electrons rather than pharmaceuticals and uses of bioelectronic processes to regulate the biological processes underlining various diseases. This promotes the potential to address the underlying causes of illnesses, reduce adverse effects, and lower costs compared to conventional medication. The current review presents different important aspects of bioelectronic medicines with recent advancements. The area of bioelectronic medicine has a lot of potential for treating diseases, enabling non-invasive therapeutic intervention by regulating brain impulses. Bioelectronic medicine uses electricity to control biological processes, treat illnesses, or regain lost capability. These new classes of medicines are designed by the technological developments in the detection and regulation of electrical signaling methods in the nervous system. Peripheral nervous system regulates a wide range of processes in chronic diseases; it involves implanting small devices onto specific peripheral nerves, which read and regulate the brain signaling patterns to achieve therapeutic effects specific to the signal capacity of a particular organ. The potential for bioelectronic medicine field is vast, as it investigates for treatment of various diseases, including rheumatoid arthritis, diabetes, hypertension, paralysis, chronic illnesses, blindness, etc.

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