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Publication Abstracts

The effects of low levels of CO₂ on ventilation during rest and exercise

Loeppk JA
Aviat Space Environ Med l998; 69:368-73

Abstract

Background: Measurements of pulmonary gas exchange are especially sensitive to low levels of CO₂ in the environment; this is an important consideration in measurements in enclosed spaces. Methods: In order to determine the responses to these low levels, subjects were exposed in five studies to partial pressures of inspired CO₂ (PICO₂) of 5.7 and 7.5 mmHg for 30 min during basal conditions at rest and to 5.4, 9.4 and 15 mmHg during a progressive exercise to VO₂max on a cycle ergometer. Results: In the two resting studies, total pulmonary ventilation and alveolar ventilation were increased by 19% at 7.5 mmHg (1.1% sea level equivalent) and 10% at 5.4 mmHg (0.8% equivalent), with clear evidence of CO₂ retention in both studies. During exercise at 15 mmHg the VO₂max was reduced significantly by 13%, compared with air at about the same maximal ventilation, but VO₂max was not reduced at 9.4 mmHg. A 6% decrease in VO₂max at PICO₂ of 5.4 mmHg may have resulted from these subjects being less fit. The maximal CO₂ output and respiratory exchange ratio in the three exercise studies was always lower with CO₂ than corresponding air measurements, indicating CO₂ storage. Evaluation of sub-maximal measurements provided an equation for predicting ventilation as a function of PICO₂ and VO₂ /VO VO₂max and demonstrated that ventilation during sub-maximal exercise is increased significantly by the lowest CO₂ level. BP and heart rate responses during sub-maximal and maximal work were not predictably altered by CO₂ at these levels. Conclusion: These studies demonstrate that minimal CO₂ levels have significant influences on pulmonary ventilation during rest and exercise and must be considered in acute studies in confined spaces such as space cabins. The inspired CO₂ should be stated when ventilation measurements are reported under these conditions.

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Table of Contents for Volume 69, Number 4 of the ASEM journal.