Human Performance Laboratory

Aim:  Recent findings have challenged the belief that the cardiac output (CO) and oxygen consumption (VO₂) relationship is linear from rest to maximal exercise. The purpose of this study was to determine the CO and stroke volume (SV) response to a range of exercise intensities, 40–100% of VO_2max, during cycling.

Methods:  Ten well-trained cyclists performed a series of discontinuous exercise bouts to determine the CO and SV vs. VO₂ responses.

Results:  The rate of increase in CO, relative to VO₂, during exercise from 40 to 70% of VO_2maxwas 4.4 ± 1.4 L L⁻¹. During exercise at 70–100% of VO_2max, the rate of increase in CO was reduced to 2.1 ± 0.9 L L⁻¹ (P = 0.01). Stroke volume during exercise at 80–100% of VO_2max was reduced by 7% when compared to exercise at 50–70% of VO_2max (134 ± 5 vs. 143 ± 5 mL per beat, P = 0.02). Whole body arterial-venous O₂ difference increased significantly as intensity increased.

Conclusion:  The observation that the rate of increase in CO is reduced as exercise intensity increases suggests that cardiovascular performance displays signs of compromised function before maximal VO₂ is reached.