In-field use of I-VED electrical impedance sensor for assessing post-dive decompression stress in humans.

IF 0.7 4区 医学 Q4 MARINE & FRESHWATER BIOLOGY Undersea and Hyperbaric Medicine Pub Date : 2024-01-01
Sotiris P Evgenidis, Konstantinos Zacharias, Virginie Papadopoulou, Sigrid Theunissen, Costantino Balestra, Thodoris D Karapantsios
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Abstract

Purpose: Ultrasound imaging is commonly used in decompression research to assess venous gas emboli (VGE) post-dive, with higher loads associated with increased decompression sickness risk. This work examines, for the first time in humans, the performance of a novel electrical impedance spectroscopy technology (I-VED), on possible detection of post-dive bubbles presence and arterial endothelial dysfunction that may be used as markers of decompression stress.

Methods: I-VED signals were recorded in scuba divers who performed standardized pool dives before and at set time points after their dives at 35-minute intervals for about two hours. Two distinct frequency components of the obtained signals, Low-Pass Frequency-LPF: 0-0.5 Hz and Band-Pass Frequency-BPF: 0.5-10 Hz, are extracted and respectively compared to VGE presence and known flow-mediated dilation trends for the same dive profile for endothelial dysfunction.

Results: Subjects with VGE counts above the median for all subjects were found to have an elevated average LPF compared to subjects with lower VGE counts, although this was not statistically significant (p=0.06), as well as significantly decreased BPF standard deviation post-dive compared to pre-dive (p=0.008).

Conclusions: I-VED was used for the first time in humans and operated to provide qualitative in-vivo electrical impedance measurements that may contribute to the assessment of decompression stress. Compared to ultrasound imaging, the proposed method is less expensive, not operator-dependent and compatible with continuous monitoring and application of multiple probes. This study provided preliminary insights; further calibration and validation are necessary to determine I-VED sensitivity and specificity.

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现场使用 I-VED 电阻抗传感器评估人体潜水减压后的压力。
目的:在减压研究中,超声波成像通常用于评估潜水后静脉气体栓塞(VGE),较高的负荷会增加减压病的风险。这项研究首次在人体中研究了一种新型电阻抗光谱技术(I-VED)的性能,该技术可用于检测潜水后气泡的存在和动脉内皮功能障碍,可作为减压压力的标记:方法:对潜水员进行 I-VED 信号记录,这些潜水员在潜水前和潜水后的设定时间点进行了标准化的泳池潜水,间隔时间为 35 分钟,持续约两小时。从获得的信号中提取两个不同的频率成分,即低通频-LPF:0-0.5 Hz 和带通频-BPF:0.5-10 Hz,并分别与 VGE 的存在和已知的同一潜水情况下血流介导的扩张趋势进行比较,以确定内皮功能障碍:结果:与 VGE 数量较少的受试者相比,VGE 数量高于所有受试者中位数的受试者的平均 LPF 升高,尽管这在统计学上并不显著(p=0.06),而且与潜水前相比,潜水后的 BPF 标准偏差显著降低(p=0.008):I-VED首次用于人体,并可提供定性的体内电阻抗测量,有助于减压压力的评估。与超声波成像相比,所提议的方法成本更低、不依赖于操作者,并且可进行连续监测和应用多个探头。这项研究提供了初步的见解;要确定 I-VED 的灵敏度和特异性,还需要进一步的校准和验证。
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来源期刊
Undersea and Hyperbaric Medicine
Undersea and Hyperbaric Medicine 医学-海洋与淡水生物学
CiteScore
1.60
自引率
11.10%
发文量
37
审稿时长
>12 weeks
期刊介绍: Undersea and Hyperbaric Medicine Journal accepts manuscripts for publication that are related to the areas of diving research and physiology, hyperbaric medicine and oxygen therapy, submarine medicine, naval medicine and clinical research related to the above topics. To be considered for UHM scientific papers must deal with significant and new research in an area related to biological, physical and clinical phenomena related to the above environments.
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