The slope of the linear relationship between ventilation (V(E)) and carbon dioxide production (VC0(2)) has been thought to indicate that VC0(2) is one of the major stimuli to V(E). A group of 15 normal subjects undertook different incremental treadmill exercise protocols to explore the relationship between V(E) and VCO(2). An incremental protocol using 1 instead of 3-min stages of exercise resulted in an increase in the V E to VCO(2) ratio [26.84 (SEM 1.23) vs 31.08 (SEM 1.36) (P <0.008) for the first stage, 25.24 (SEM 0.86) vs 27.83 (SEM 0.91) (P <0.005) for the second stage and 23.90 (SEM 0.86) vs 26.34 (SEM 0.81) (P = 0.001) for the third stage]. Voluntary hyperventilation to double the control level of V(E) during exercise resulted in an increase in the V(E) to VCO(2) slope [from 21.3 (SEM 0.71) for the control run to 35.1 (SEM 1.2) for the hyperventilation run (P <0.001)]. Prolonged hyperventilation (5 min) during exercise at stage 2 of the Bruce protocol resulted in a continued elevation of VCO(2) and the V(E)/VCO(2) slope. A steady state of V(E) and metabolic gas exchange can only be said to have been present after at least 3 min of exercise. Voluntary hyperventilation increased the slope of the relationship between V(E) and VCO(2). End-tidal carbon dioxide fell, but remained within the normal range. These results would suggest that a non-carbon dioxide factor may have been responsible for the increase we found in V(E) during exercise, and that factors other than increased dead space ventilation can cause an increased ventilation to VCO(2) slope, such as that seen in some pathophysiological conditions, such as chronic heart failure.

Factors which alter the relationship between ventilation and carbon dioxide production during exercise in normal subjects. C

Volterrani M;
1996-01-01

Abstract

The slope of the linear relationship between ventilation (V(E)) and carbon dioxide production (VC0(2)) has been thought to indicate that VC0(2) is one of the major stimuli to V(E). A group of 15 normal subjects undertook different incremental treadmill exercise protocols to explore the relationship between V(E) and VCO(2). An incremental protocol using 1 instead of 3-min stages of exercise resulted in an increase in the V E to VCO(2) ratio [26.84 (SEM 1.23) vs 31.08 (SEM 1.36) (P <0.008) for the first stage, 25.24 (SEM 0.86) vs 27.83 (SEM 0.91) (P <0.005) for the second stage and 23.90 (SEM 0.86) vs 26.34 (SEM 0.81) (P = 0.001) for the third stage]. Voluntary hyperventilation to double the control level of V(E) during exercise resulted in an increase in the V(E) to VCO(2) slope [from 21.3 (SEM 0.71) for the control run to 35.1 (SEM 1.2) for the hyperventilation run (P <0.001)]. Prolonged hyperventilation (5 min) during exercise at stage 2 of the Bruce protocol resulted in a continued elevation of VCO(2) and the V(E)/VCO(2) slope. A steady state of V(E) and metabolic gas exchange can only be said to have been present after at least 3 min of exercise. Voluntary hyperventilation increased the slope of the relationship between V(E) and VCO(2). End-tidal carbon dioxide fell, but remained within the normal range. These results would suggest that a non-carbon dioxide factor may have been responsible for the increase we found in V(E) during exercise, and that factors other than increased dead space ventilation can cause an increased ventilation to VCO(2) slope, such as that seen in some pathophysiological conditions, such as chronic heart failure.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.12078/13812
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