Cerebral oxygenation and perfusion kinetics monitoring of military aircrew at high G using novel fNIRS wearable system.

IF 1.5 Q3 ERGONOMICS Frontiers in neuroergonomics Pub Date : 2024-02-23 eCollection Date: 2024-01-01 DOI:10.3389/fnrgo.2024.1357905
Thibault Roumengous, R Casey Boutwell, Jason Strohmaier, Jared Allen, Brett Goldbach, Nicholas Marotta, Tanner Songkakul, Shelby Critcher, Bria G Morse, Jeremy M A Beer, Paul M Sherman
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Abstract

Introduction: Real-time physiological episode (PE) detection and management in aircrew operating high-performance aircraft (HPA) is crucial for the US Military. This paper addresses the unique challenges posed by high acceleration (G-force) in HPA aircrew and explores the potential of a novel wearable functional near-infrared spectroscopy (fNIRS) system, named NIRSense Aerie, to continuously monitor cerebral oxygenation during high G-force exposure.

Methods: The NIRSense Aerie system is a flight-optimized, wearable fNIRS device designed to monitor tissue oxygenation 13-20 mm below the skin's surface. The system includes an optical frontend adhered to the forehead, an electronics module behind the earcup of aircrew helmets, and a custom adhesive for secure attachment. The fNIRS optical layout incorporates near-distance, middle-distance, and far-distance infrared emitters, a photodetector, and an accelerometer for motion measurements. Data processing involves the modified Beer-Lambert law for computing relative chromophore concentration changes. A human evaluation of the NIRSense Aerie was conducted on six subjects exposed to G-forces up to +9 Gz in an Aerospace Environmental Protection Laboratory centrifuge. fNIRS data, pulse oximetry, and electrocardiography (HR) were collected to analyze cerebral and superficial tissue oxygenation kinetics during G-loading and recovery.

Results: The NIRSense Aerie successfully captured cerebral deoxygenation responses during high G-force exposure, demonstrating its potential for continuous monitoring in challenging operational environments. Pulse oximetry was compromised during G-loading, emphasizing the system's advantage in uninterrupted cerebrovascular monitoring. Significant changes in oxygenation metrics were observed across G-loading levels, with distinct responses in Deoxy-Hb and Oxy-Hb concentrations. HR increased during G-loading, reflecting physiological stress and the anti-G straining maneuver.

Discussion: The NIRSense Aerie shows promise for real-time monitoring of aircrew physiological responses during high G-force exposure. Despite challenges, the system provides valuable insights into cerebral oxygenation kinetics. Future developments aim for miniaturization and optimization for enhanced aircrew comfort and wearability. This technology has potential for improving anti-G straining maneuver learning and retention through real-time cerebral oxygenation feedback during centrifuge training.

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使用新型 fNIRS 可穿戴系统监测军用空勤人员在高 G 值下的脑氧合和灌注动力学。
导言:对美国军方而言,实时检测和管理高性能飞机 (HPA) 空勤人员的生理反应(PE)至关重要。本文探讨了高加速度(G 力)给高性能飞机机组人员带来的独特挑战,并探索了一种名为 NIRSense Aerie 的新型可穿戴功能性近红外光谱(fNIRS)系统在高 G 力暴露期间连续监测脑氧合的潜力:NIRSense Aerie 系统是一种经过飞行优化的可穿戴 fNIRS 设备,设计用于监测皮肤表面下 13-20 毫米处的组织氧含量。该系统包括一个粘贴在前额的光学前端、一个位于飞行员头盔耳罩后的电子模块以及一种用于牢固粘贴的定制粘合剂。fNIRS 的光学布局包括近距离、中距离和远距离红外发射器、光电探测器和用于运动测量的加速度计。数据处理采用修正的比尔-朗伯定律,用于计算相对发色团浓度变化。对六名受试者进行了 NIRSense Aerie 的人体评估,他们在航空环境保护实验室的离心机中承受了高达 +9 Gz 的 G 力。收集了 fNIRS 数据、脉搏血氧仪和心电图 (HR),以分析 G 力加载和恢复期间大脑和表层组织的氧合动力学:结果:NIRSense Aerie 成功捕获了高 G 力暴露期间的大脑脱氧反应,证明了其在具有挑战性的作战环境中进行连续监测的潜力。脉搏血氧饱和度在 G 力加载期间受到影响,这凸显了该系统在不间断脑血管监测方面的优势。在不同的 G 负荷水平下,氧合指标都发生了显著变化,脱氧血红蛋白和氧合血红蛋白浓度也有不同的反应。G负荷期间心率增加,反映了生理压力和抗G负荷动作:NIRSense Aerie 显示了在高 G 力暴露期间实时监测机组人员生理反应的前景。尽管存在挑战,但该系统为了解脑氧合动力学提供了宝贵的信息。未来的发展目标是实现微型化和优化,以提高机组人员的舒适度和可穿戴性。在离心机训练期间,该技术可通过实时脑氧反馈改善抗 G 拉力动作的学习和保持。
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