Intraoperative Monitoring of Sensory Evoked Potentials in Neurosurgery: A Personalized Approach.

IF 3 3区医学 Q2 HEALTH CARE SCIENCES & SERVICES

Journal of Personalized Medicine Pub Date : 2025-01-13 DOI:10.3390/jpm15010026

Evgeny A Levin

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引用次数: 0

Abstract

Sensory evoked potentials (EPs), namely, somatosensory, visual, and brainstem acoustic EPs, are used in neurosurgery to monitor the corresponding functions with the aim of preventing iatrogenic neurological complications. Functional deficiency usually precedes structural defect, being initially reversible, and prompt alarms may help surgeons achieve this aim. However, sensory EP registration requires presenting multiple stimuli and averaging of responses, which significantly lengthen this procedure. As delays can make intraoperative neuromonitoring (IONM) ineffective, it is important to reduce EP recording time. The possibility of speeding up EP recording relies on differences between IONM and outpatient clinical neurophysiology (CN). Namely, in IONM, the patient is her/his own control, and the neurophysiologist is less constrained by norms and standards than in outpatient CN. Therefore, neurophysiologists can perform a personalized selection of optimal locations of recording electrodes, frequency filter passbands, and stimulation rates. Varying some or all of these parameters, it is often possible to significantly improve the signal-to-noise ratio (SNR) for EPs and accelerate EP recording by up to several times. The aim of this paper is to review how this personalized approach is or may be applied during IONM for recording sensory EPs of each of the abovementioned modalities. Also, the problems hindering the implementation and dissemination of this approach and options for overcoming them are discussed here, as well as possible future developments.

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神经外科术中感觉诱发电位监测：一种个性化的方法。

感觉诱发电位（EPs），即体感、视觉和脑干声学EPs，在神经外科中用于监测相应的功能，目的是预防医源性神经系统并发症。功能缺陷通常先于结构缺陷，最初是可逆的，及时的警报可以帮助外科医生实现这一目标。然而，感觉电位登记需要呈现多个刺激和平均反应，这大大延长了这一过程。由于延迟可使术中神经监测（IONM）无效，因此缩短EP记录时间非常重要。加快EP记录的可能性取决于IONM和门诊临床神经生理学（CN）之间的差异。也就是说，在IONM中，患者是自己控制的，神经生理学家受规范和标准的约束比门诊CN少。因此，神经生理学家可以对记录电极、频率滤波器通带和刺激率的最佳位置进行个性化选择。改变部分或全部这些参数，通常可以显著提高EPs的信噪比（SNR），并将EP记录速度提高几倍。本文的目的是回顾这种个性化的方法是如何或可能被应用于离子电离监测中，以记录上述每种模式的感觉EPs。此外，本文还讨论了妨碍执行和传播这种方法的问题和克服这些问题的备选办法，以及未来可能的发展。

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

Journal of Personalized Medicine Medicine-Medicine (miscellaneous)

CiteScore

4.10

自引率

0.00%

发文量

1878

审稿时长

11 weeks

期刊介绍： Journal of Personalized Medicine (JPM; ISSN 2075-4426) is an international, open access journal aimed at bringing all aspects of personalized medicine to one platform. JPM publishes cutting edge, innovative preclinical and translational scientific research and technologies related to personalized medicine (e.g., pharmacogenomics/proteomics, systems biology). JPM recognizes that personalized medicine—the assessment of genetic, environmental and host factors that cause variability of individuals—is a challenging, transdisciplinary topic that requires discussions from a range of experts. For a comprehensive perspective of personalized medicine, JPM aims to integrate expertise from the molecular and translational sciences, therapeutics and diagnostics, as well as discussions of regulatory, social, ethical and policy aspects. We provide a forum to bring together academic and clinical researchers, biotechnology, diagnostic and pharmaceutical companies, health professionals, regulatory and ethical experts, and government and regulatory authorities.