Andrew R Brotto1, Devin B Phillips1, Victoria L Meah1, Bryan A Ross2, Desi P Fuhr2, Rhys I Beaudry2, Sean van Diepen3, Michael K Stickland4. 1. Faculty of Kinesiology, Sport, and Recreation, University of Alberta, Edmonton, AB, Canada. 2. Division of Pulmonary Medicine, Faculty of Medicine and Dentistry, University of Alberta, 3-135 Clinical Sciences Building 8440 112 St NW, Edmonton, AB, T6G 2B7, Canada. 3. Department of Critical Care and Division of Cardiology, Department of Medicine, Faculty of Medicine and Dentistry, University of Alberta, Edmonton, AB, Canada. 4. Division of Pulmonary Medicine, Faculty of Medicine and Dentistry, University of Alberta, 3-135 Clinical Sciences Building 8440 112 St NW, Edmonton, AB, T6G 2B7, Canada. michael.stickland@ualberta.ca.
Abstract
PURPOSE: Previous work suggests that endurance-trained athletes have superior pulmonary vasculature function as compared to untrained individuals, which may contribute to their greater maximal oxygen uptake ([Formula: see text]O2max). Inhaled nitric oxide (iNO) reduces pulmonary vascular resistance in healthy individuals, which could translate into greater cardiac output and improved [Formula: see text]O2max, particularly in untrained individuals. The purpose of the study was to examine whether iNO improved [Formula: see text]O2max in endurance trained and untrained individuals. METHODS: Sixteen endurance-trained and sixteen untrained individuals with normal lung function completed this randomized double-blind cross-over study over four sessions. Experimental cardiopulmonary exercise tests were completed while breathing either normoxia (placebo) or 40 ppm of iNO, on separate days (order randomized). On an additional day, echocardiography was used to determine pulmonary artery systolic pressure at rest and during sub-maximal exercise (60 Watts) while participants breathed normoxia or iNO. RESULTS: Right ventricular systolic pressure was significantly reduced by iNO during exercise (Placebo: 34 ± 7 vs. iNO: 32 ± 7; p = 0.04). [Formula: see text]O2max was greater in the endurance trained group (Untrained: 3.1 ± 0.7 vs. Endurance: 4.3 ± 0.9 L min-1; p < 0.01), however, there was no effect of condition (p = 0.79) and no group by condition interaction (p = 0.68). Peak cardiac output was also unchanged by iNO in either group. CONCLUSION: Despite a reduction in right ventricular systolic pressure, the lack of change in [Formula: see text]O2max with iNO suggests that the pulmonary vasculature does not limit [Formula: see text]O2max in young healthy individuals, regardless of fitness level.
PURPOSE: Previous work suggests that endurance-trained athletes have superior pulmonary vasculature function as compared to untrained individuals, which may contribute to their greater maximal oxygen uptake ([Formula: see text]O2max). Inhaled nitric oxide (iNO) reduces pulmonary vascular resistance in healthy individuals, which could translate into greater cardiac output and improved [Formula: see text]O2max, particularly in untrained individuals. The purpose of the study was to examine whether iNO improved [Formula: see text]O2max in endurance trained and untrained individuals. METHODS: Sixteen endurance-trained and sixteen untrained individuals with normal lung function completed this randomized double-blind cross-over study over four sessions. Experimental cardiopulmonary exercise tests were completed while breathing either normoxia (placebo) or 40 ppm of iNO, on separate days (order randomized). On an additional day, echocardiography was used to determine pulmonary artery systolic pressure at rest and during sub-maximal exercise (60 Watts) while participants breathed normoxia or iNO. RESULTS: Right ventricular systolic pressure was significantly reduced by iNO during exercise (Placebo: 34 ± 7 vs. iNO: 32 ± 7; p = 0.04). [Formula: see text]O2max was greater in the endurance trained group (Untrained: 3.1 ± 0.7 vs. Endurance: 4.3 ± 0.9 L min-1; p < 0.01), however, there was no effect of condition (p = 0.79) and no group by condition interaction (p = 0.68). Peak cardiac output was also unchanged by iNO in either group. CONCLUSION: Despite a reduction in right ventricular systolic pressure, the lack of change in [Formula: see text]O2max with iNO suggests that the pulmonary vasculature does not limit [Formula: see text]O2max in young healthy individuals, regardless of fitness level.
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