Development of Ocular Muscle Stimulation Systems and Optimization of Electrical Stimulus Parameters for Paralytic Strabismus Treatment.

IF 4.4 2区 医学 Q2 ENGINEERING, BIOMEDICAL
Kyeongho Eom, Han-Sol Lee, Minju Park, Seung Min Yang, Jong Chan Choe, Suk-Won Hwang, Young-Woo Suh, Hyung-Min Lee
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引用次数: 0

Abstract

Paralysis of the extraocular muscles can lead to complications such as strabismus, diplopia, and loss of stereopsis. Current surgical treatments aim to mitigate these issues by resecting the paralyzed muscle or transposing the other recti muscles to the paralyzed muscle, but they do not fully improve the patient's quality of life. Electrical stimulation shows promise, while requiring further in vivo experiments and research on various stimulation parameters. In this study, we conducted experiments on rabbits to stimulate the superior rectus (SR) muscles using different parameters and stimulation waveforms. To provide various types of electrical stimulation, we developed the ocular muscle stimulation systems capable of both current controlled stimulation (CCS) and high-frequency stimulation (HFS), along with the chip that enables energy-efficient and safe switched-capacitor stimulation (SCS). We also developed electrodes for easy implantation and employed safe and efficient stimulation methods including CCS, SCS, and HFS. The in vivo animal experiments on normal and paralyzed SR muscles of rabbits showed that eyeball abduction angles were proportional to the current and pulse width of the stimulation. With the decaying exponential stimuli of the SCS system, eyeball abductions were 2.58× and 5.65× larger for normal and paralyzed muscles, respectively, compared to the rectangular stimulus of CCS. HFS achieved 0.92× and 0.26× abduction for normal and paralyzed muscles, respectively, with half energy compared to CCS. In addition, the continuous changes in eyeball abduction angle in response to varying stimulation intensity over time were observed.

开发眼肌刺激系统并优化用于麻痹性斜视治疗的电刺激参数。
眼外肌麻痹可导致斜视、复视和立体视丧失等并发症。目前的手术治疗方法旨在通过切除瘫痪肌肉或将其他直肌移位到瘫痪肌肉来缓解这些问题,但这些方法并不能完全改善患者的生活质量。电刺激显示了前景,但需要进一步的体内实验和对各种刺激参数的研究。在这项研究中,我们在兔子身上进行了实验,使用不同的参数和刺激波形刺激上直肌。为了提供各种类型的电刺激,我们开发了能同时进行电流控制刺激(CCS)和高频刺激(HFS)的眼肌刺激系统,以及能进行节能、安全的开关电容刺激(SCS)的芯片。我们还开发了易于植入的电极,并采用了安全高效的刺激方法,包括 CCS、SCS 和 HFS。对正常和麻痹的兔子 SR 肌肉进行的活体动物实验表明,眼球外展角度与刺激的电流和脉冲宽度成正比。与 CCS 的矩形刺激相比,在 SCS 系统的衰减指数刺激下,正常肌肉和麻痹肌肉的眼球外展分别增加了 2.58 倍和 5.65 倍。与 CCS 相比,HFS 以一半的能量使正常肌肉和麻痹肌肉的眼球外展分别达到 0.92 倍和 0.26 倍。此外,还观察到眼球外展角度随着刺激强度的变化而不断变化。
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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来源期刊
IEEE Transactions on Biomedical Engineering
IEEE Transactions on Biomedical Engineering 工程技术-工程:生物医学
CiteScore
9.40
自引率
4.30%
发文量
880
审稿时长
2.5 months
期刊介绍: IEEE Transactions on Biomedical Engineering contains basic and applied papers dealing with biomedical engineering. Papers range from engineering development in methods and techniques with biomedical applications to experimental and clinical investigations with engineering contributions.
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