Assessing changes in regional cerebral hemodynamics in adults with a high-density full-head coverage time-resolved near-infrared spectroscopy device.

IF 3 3区 医学 Q2 BIOCHEMICAL RESEARCH METHODS
Journal of Biomedical Optics Pub Date : 2024-06-01 Epub Date: 2024-05-03 DOI:10.1117/1.JBO.29.S3.S33302
Farah Kamar, Leena N Shoemaker, Rasa Eskandari, Daniel Milej, Darren Drosdowech, John M Murkin, Keith St Lawrence, Jason Chui, Mamadou Diop
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引用次数: 0

Abstract

Significance: Cerebral oximeters have the potential to detect abnormal cerebral blood oxygenation to allow for early intervention. However, current commercial systems have two major limitations: (1) spatial coverage of only the frontal region, assuming that surgery-related hemodynamic effects are global and (2) susceptibility to extracerebral signal contamination inherent to continuous-wave near-infrared spectroscopy (NIRS).

Aim: This work aimed to assess the feasibility of a high-density, time-resolved (tr) NIRS device (Kernel Flow) to monitor regional oxygenation changes across the cerebral cortex during surgery.

Approach: The Flow system was assessed using two protocols. First, digital carotid compression was applied to healthy volunteers to cause a rapid oxygenation decrease across the ipsilateral hemisphere without affecting the contralateral side. Next, the system was used on patients undergoing shoulder surgery to provide continuous monitoring of cerebral oxygenation. In both protocols, the improved depth sensitivity of trNIRS was investigated by applying moment analysis. A dynamic wavelet filtering approach was also developed to remove observed temperature-induced signal drifts.

Results: In the first protocol (28±5 years; five females, five males), hair significantly impacted regional sensitivity; however, the enhanced depth sensitivity of trNIRS was able to separate brain and scalp responses in the frontal region. Regional sensitivity was improved in the clinical study given the age-related reduction in hair density of the patients (65±15 years; 14 females, 13 males). In five patients who received phenylephrine to treat hypotension, different scalp and brain oxygenation responses were apparent, although no regional differences were observed.

Conclusions: The Kernel Flow has promise as an intraoperative neuromonitoring device. Although regional sensitivity was affected by hair color and density, enhanced depth sensitivity of trNIRS was able to resolve differences in scalp and brain oxygenation responses in both protocols.

利用高密度全头部覆盖时间分辨近红外光谱仪评估成人区域脑血流动力学的变化。
意义重大:脑血氧仪有可能检测出异常的脑血氧,以便进行早期干预。然而,目前的商用系统有两大局限性:(1)仅覆盖额叶区域的空间,假定与手术相关的血流动力学效应是全局性的;(2)易受连续波近红外光谱仪(NIRS)固有的脑外信号污染的影响。目的:这项工作旨在评估高密度、时间分辨(tr)NIRS设备(Kernel Flow)在手术期间监测整个大脑皮层区域氧合变化的可行性:方法:采用两种方案对 Flow 系统进行评估。首先,对健康志愿者进行数字颈动脉压迫,使同侧大脑半球的氧饱和度迅速下降,但不影响对侧大脑半球。接着,在接受肩部手术的患者身上使用该系统,对脑氧饱和度进行连续监测。在这两个方案中,通过矩分析研究了 trNIRS 灵敏度的提高。还开发了一种动态小波滤波方法,以消除观察到的温度引起的信号漂移:结果:在第一个方案中(28±5 岁;5 名女性,5 名男性),毛发对区域灵敏度有显著影响;然而,trNIRS 增强的深度灵敏度能够分离额叶区域的大脑和头皮反应。在临床研究中,由于患者(65±15 岁;14 名女性,13 名男性)的毛发密度随年龄增长而降低,因此区域灵敏度有所提高。在接受苯肾上腺素治疗低血压的五名患者中,头皮和大脑氧合反应明显不同,但未观察到区域差异:结论:Kernel Flow有望成为术中神经监测设备。虽然区域灵敏度受头发颜色和密度的影响,但 trNIRS 增强的深度灵敏度能够解决两种方案中头皮和大脑氧合反应的差异。
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
CiteScore
6.40
自引率
5.70%
发文量
263
审稿时长
2 months
期刊介绍: The Journal of Biomedical Optics publishes peer-reviewed papers on the use of modern optical technology for improved health care and biomedical research.
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