Validation of a method for estimating pulmonary dead space in ventilated beagles to correct exhaled propofol concentration in mixed air.

IF 2.3 2区农林科学 Q1 VETERINARY SCIENCES

BMC Veterinary Research Pub Date : 2025-01-07 DOI:10.1186/s12917-024-04458-1

Xiaoxiao Li, Pan Chang, Xing Liu, Zhongjun Zhao, Yixiang Duan, Wensheng Zhang

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引用次数: 0

Abstract

Background: Mixed exhaled air has been widely used to determine exhaled propofol concentrations with online analyzers, but changes in dead space proportions may lead to inaccurate assessments of critical drug concentration data. This study proposes a method to correct propofol concentration in mixed air by estimating pulmonary dead space through reconstructing volumetric capnography (Vcap) from time-CO₂ and time-volume curves, validated with vacuum ultraviolet time-of-flight mass spectrometry (VUV-TOF MS).

Methods: Existing monitoring parameters, including time-volume and time-CO₂ curves, were used to determine Vcap. The ratio of physiological dead space to tidal volume (V_D/V_T) was calculated using Bohr's formula. Additionally, an animal experiment on beagles was conducted with continuous propofol administration until a pseudo-steady state in exhaled propofol concentration was achieved. The propofol concentration in mixed air (CONC_mix), and in alveolar air combined with N₂ (CONC_AN) were measured using VUV-TOF MS to calculate V_D/V_T. The agreements between V_D/V_T values from the two methods, along with the predicted CONC_AN values based on Vcap and the actual measured CONC_AN values were evaluated using the intraclass correlation coefficient (ICC) and Pearson correlation analysis.

Results: After 30 min of continuous propofol administration, a stable respiratory cycle was selected for analysis in each beagle. The calculated V_D/V_T-Bohr values were 0.535 for beagle A, 0.544 for beagle B, and 0.552 for beagle C. Additionally, based on CONC_mix and CONC_AN, the calculated V_D/V_{T-VUV-TOF MS} values were 0.494, 0.504, and 0.513, respectively. Strong agreement between the two methods was demonstrated by an ICC of 0.994 (P = 0.003) and Pearson's r of 0.995 (P = 0.045). Additionally, the predicted CONC_AN values from mixed exhaled air (5.11 parts per billion by volume (ppbv) for beagle A, 5.93 ppbv for beagle B, and 2.56 ppbv for beagle C) showed strong agreement with the actual CONC_AN values, with an ICC of 0.996 (P = 0.002) and Pearson's r of 0.994 (P = 0.046).

Conclusion: The physiological dead space to tidal volume ratio from mixed air in beagles can be accurately measured using the existing time-volume and time-CO₂ curves from the anesthesia machine, enabling corrections of exhaled propofol concentrations in mixed air samples.

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一种估算通风比格犬肺死腔以校正混合空气中呼出异丙酚浓度的方法的验证。

背景：混合呼出空气已被广泛用于在线分析仪测定呼出异丙酚浓度，但死区比例的变化可能导致关键药物浓度数据评估不准确。本研究提出了一种校正混合空气中异丙酚浓度的方法，该方法通过从时间-二氧化碳和时间-体积曲线重建容积二氧化碳图（Vcap）来估计肺死亡空间，并通过真空紫外飞行时间质谱（VUV-TOF MS）进行验证。方法：利用已有的监测参数，包括时间-体积曲线和时间- co2曲线，测定Vcap。生理死区与潮容之比（VD/VT）采用玻尔公式计算。此外，在小猎犬身上进行了持续给药异丙酚的动物实验，直到呼出异丙酚浓度达到伪稳态。采用紫外- tof质谱法测定混合空气（CONCmix）和肺泡空气（CONCAN）中异丙酚浓度，计算VD/VT。使用类内相关系数（ICC）和Pearson相关分析评估两种方法的VD/VT值之间的一致性，以及基于Vcap的CONCAN预测值和实际测量的CONCAN值。结果：连续异丙酚给药30 min后，每只小猎犬均选择一个稳定的呼吸周期进行分析。beagle A的VD/VT-Bohr值为0.535，beagle B的VD/VT-Bohr值为0.544，beagle c的VD/VT-VUV-TOF MS值分别为0.494,0.504和0.513。两种方法的ICC为0.994 (P = 0.003), Pearson’s r为0.995 （P = 0.045）。此外，从混合呼出的空气中预测的CONCAN值（比格犬A为5.11 ppbv，比格犬B为5.93 ppbv，比格犬C为2.56 ppbv）与实际CONCAN值非常吻合，ICC为0.996 (P = 0.002), Pearson’s r为0.994 （P = 0.046）。结论：利用麻醉机现有的时间-体积和时间- co2曲线，可以准确测量比格犬混合空气的生理死空与潮气量比，从而校正混合空气样品呼出的异丙酚浓度。

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

BMC Veterinary Research VETERINARY SCIENCES-

CiteScore

4.80

自引率

3.80%

发文量

420

审稿时长

3-6 weeks

期刊介绍： BMC Veterinary Research is an open access, peer-reviewed journal that considers articles on all aspects of veterinary science and medicine, including the epidemiology, diagnosis, prevention and treatment of medical conditions of domestic, companion, farm and wild animals, as well as the biomedical processes that underlie their health.