呼吸水汽和温度动态测量系统

Measurement system for respiratory water vapor and temperature dynamics.

作者信息

Primiano F P, Montague F W, Saidel G M

出版信息

J Appl Physiol Respir Environ Exerc Physiol. 1984 Jun;56(6):1679-85. doi: 10.1152/jappl.1984.56.6.1679.

DOI:10.1152/jappl.1984.56.6.1679

Abstract

An instrumentation system has been developed to simultaneously measure water vapor and temperature at the same point within respiratory airways during breathing. A mass spectrometer was used to analyze gas continuously sampled through a modified inlet catheter. At the tip of the catheter, gas temperature is sensed by a microbead thermistor. Adequate water vapor dynamics is achieved by a two-step procedure. First, the tip of the sampling catheter is constricted to reduce the catheter's internal pressure and thereby prevent condensation and evaporation. Second, the water vapor signal from the mass spectrometer is compensated electronically to improve its transient response. As part of the evaluation of the system, water vapor and gas temperature were measured in the oropharynx of human subjects.

摘要

已开发出一种仪器系统，用于在呼吸过程中同时测量呼吸道内同一点处的水蒸气和温度。使用质谱仪对通过改良的入口导管连续采样的气体进行分析。在导管尖端，通过微珠热敏电阻感测气体温度。通过两步程序实现了足够的水蒸气动力学。首先，收缩采样导管的尖端以降低导管内部压力，从而防止冷凝和蒸发。其次，对来自质谱仪的水蒸气信号进行电子补偿，以改善其瞬态响应。作为系统评估的一部分，在人体受试者的口咽中测量了水蒸气和气体温度。

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Measurement system for respiratory water vapor and temperature dynamics.呼吸水汽和温度动态测量系统

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