在模拟大出血过程中,比较通过有创动脉测量和光敏血流体积钳获得的代偿储备指标。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Kevin L Webb, Wyatt W Pruter, Ruth J Poole, Robert W Techentin, Christopher P Johnson, Riley J Regimbal, Kaylah J Berndt, David R Holmes, Clifton R Haider, Michael J Joyner, Victor A Convertino, Chad C Wiggins, Timothy B Curry
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引用次数: 0

摘要

目的:代偿储备指标(CRM)是预测大出血期间心血管失代偿的一种新工具。传统上,CRM 是通过光敏血流体积钳(PPGVC)获得的波形计算的,但有创动脉压可能是唯一可用的方法。我们的目的是研究根据有创动脉波形计算出的 CRM 值与根据 PPGVC 波形计算出的 CRM 值的一致程度:69 名参与者接受了分级下半身负压以模拟出血。收集肱动脉导管和 PPGVC 手指袖带的波形测量值。根据 PPGVC 手指波形重建 PPGVC 肱动脉波形。然后,使用深度一维卷积神经网络计算以下每种源波形的 CRM 值:(1) 有创动脉,(2) PPGVC 肱动脉,(3) PPGVC 手指。使用 Bland-Altman 分析确定有创动脉 CRM 值和 PPGVC CRM 值之间的一致程度,结果以平均偏差[95% 一致限]表示:结果:有创动脉 CRM 值与 PPGVC 肱动脉 CRM 值在静息、压力为 -45mmHg 和耐受时的平均偏差分别为 6% [-17%, 29%]、1% [-28%, 30%] 和 0% [-25%, 25%]。此外,有创动脉指和 PPGVC 指 CRM 值在静息、施加 -45mmHg 压力和耐受时的平均偏差分别为 2% [-22%, 26%]、8% [-19%, 35%] 和 5% [-15%, 25%]:从有创动脉波形中获得的 CRM 值与从 PPGVC 波形中获得的值之间一般具有良好的一致性。有创动脉波形可作为计算 CRM 的替代方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Comparing the compensatory reserve metric obtained from invasive arterial measurements and photoplethysmographic volume-clamp during simulated hemorrhage.

Comparing the compensatory reserve metric obtained from invasive arterial measurements and photoplethysmographic volume-clamp during simulated hemorrhage.

Purpose: The compensatory reserve metric (CRM) is a novel tool to predict cardiovascular decompensation during hemorrhage. The CRM is traditionally computed using waveforms obtained from photoplethysmographic volume-clamp (PPGVC), yet invasive arterial pressures may be uniquely available. We aimed to examine the level of agreement of CRM values computed from invasive arterial-derived waveforms and values computed from PPGVC-derived waveforms.

Methods: Sixty-nine participants underwent graded lower body negative pressure to simulate hemorrhage. Waveform measurements from a brachial arterial catheter and PPGVC finger-cuff were collected. A PPGVC brachial waveform was reconstructed from the PPGVC finger waveform. Thereafter, CRM values were computed using a deep one-dimensional convolutional neural network for each of the following source waveforms; (1) invasive arterial, (2) PPGVC brachial, and (3) PPGVC finger. Bland-Altman analyses were used to determine the level of agreement between invasive arterial CRM values and PPGVC CRM values, with results presented as the Mean Bias [95% Limits of Agreement].

Results: The mean bias between invasive arterial- and PPGVC brachial CRM values at rest, an applied pressure of -45mmHg, and at tolerance was 6% [-17%, 29%], 1% [-28%, 30%], and 0% [-25%, 25%], respectively. Additionally, the mean bias between invasive arterial- and PPGVC finger CRM values at rest, applied pressure of -45mmHg, and tolerance was 2% [-22%, 26%], 8% [-19%, 35%], and 5% [-15%, 25%], respectively.

Conclusion: There is generally good agreement between CRM values obtained from invasive arterial waveforms and values obtained from PPGVC waveforms. Invasive arterial waveforms may serve as an alternative for computation of the CRM.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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