Non-Invasive Brain Sensing Technologies for Modulation of Neurological Disorders

Biosensors Pub Date : 2024-07-09 DOI:10.3390/bios14070335
Salman Alfihed, Majed Majrashi, Muhammad Ansary, Naif Alshamrani, Shahad H. Albrahim, Abdulrahman Alsolami, Hala A. Alamari, Adnan Zaman, Dhaifallah Almutairi, Abdulaziz Kurdi, Mai M. Alzaydi, Thamer Tabbakh, Faisal Al-Otaibi
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Abstract

The non-invasive brain sensing modulation technology field is experiencing rapid development, with new techniques constantly emerging. This study delves into the field of non-invasive brain neuromodulation, a safer and potentially effective approach for treating a spectrum of neurological and psychiatric disorders. Unlike traditional deep brain stimulation (DBS) surgery, non-invasive techniques employ ultrasound, electrical currents, and electromagnetic field stimulation to stimulate the brain from outside the skull, thereby eliminating surgery risks and enhancing patient comfort. This study explores the mechanisms of various modalities, including transcranial direct current stimulation (tDCS) and transcranial magnetic stimulation (TMS), highlighting their potential to address chronic pain, anxiety, Parkinson’s disease, and depression. We also probe into the concept of closed-loop neuromodulation, which personalizes stimulation based on real-time brain activity. While we acknowledge the limitations of current technologies, our study concludes by proposing future research avenues to advance this rapidly evolving field with its immense potential to revolutionize neurological and psychiatric care and lay the foundation for the continuing advancement of innovative non-invasive brain sensing technologies.
用于调节神经系统疾病的非侵入性大脑传感技术
无创脑神经调控技术领域发展迅速,新技术层出不穷。本研究深入探讨了无创脑神经调控领域,这是一种治疗各种神经和精神疾病的更安全、更有效的方法。与传统的脑深部刺激(DBS)手术不同,非侵入性技术采用超声波、电流和电磁场刺激,从颅骨外刺激大脑,从而消除了手术风险,提高了患者的舒适度。本研究探讨了各种模式的机制,包括经颅直流电刺激(tDCS)和经颅磁刺激(TMS),强调了它们在解决慢性疼痛、焦虑、帕金森病和抑郁症方面的潜力。我们还探究了闭环神经调控的概念,即根据实时大脑活动进行个性化刺激。虽然我们承认当前技术的局限性,但我们的研究最后提出了未来的研究途径,以推进这一快速发展的领域,其巨大的潜力将彻底改变神经和精神治疗,并为创新性无创大脑传感技术的持续发展奠定基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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