稳态肺一氧化碳转运的饱和动力学。
Saturation kinetics for steady-state pulmonary CO transfer.
作者信息
Mendoza C, Peavy H, Burns B, Gurtner G
出版信息
J Appl Physiol Respir Environ Exerc Physiol. 1977 Nov;43(5):880-4. doi: 10.1152/jappl.1977.43.5.880.
Steady-state diffusing capacity of the lungs for carbon monoxide (DLCO) was measured in 13 anesthetized, paralyzed dogs ventilated at constant tidal volume and rate, using four different inspired CO levels (190, 600, 1,110, and 2,000 ppm). DLCO increased and reached a maximum as the inspired CO level was raised from 190 to 600 ppm. Further increases in inspired CO concentration were accompanied by a decrease in inspired CO concentration were accompanied by a decrease in DLCO. CO dead space and Pao2 remained constant at all inspired O2 levels. In some experiments a second set of measurements was made, the results of which were similar to those of the first set. The results cannot be explained by changes in CO back pressure, pulmonary capillary volume, or reaction rate of CO with hemoglobin, but can be explained if there is carrier-mediated CO transport in the alveolar capillary membrane.
在13只麻醉、麻痹的狗身上进行了肺一氧化碳稳态弥散量(DLCO)的测量,这些狗以恒定潮气量和呼吸频率进行通气,使用四种不同的吸入一氧化碳水平(190、600、1110和2000 ppm)。随着吸入一氧化碳水平从190 ppm提高到600 ppm,DLCO增加并达到最大值。吸入一氧化碳浓度的进一步增加伴随着DLCO的降低。在所有吸入氧气水平下,一氧化碳死腔和动脉血氧分压保持恒定。在一些实验中进行了第二组测量,其结果与第一组相似。这些结果不能用一氧化碳背压、肺毛细血管容积或一氧化碳与血红蛋白的反应速率的变化来解释,但如果在肺泡毛细血管膜中有载体介导的一氧化碳转运,则可以解释。
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