Is there a disassociation of maximal oxygen consumption and maximal cardiac output?

Purpose: The purpose of the present study was to determine whether maximal cardiac output (Q(over dot)) is affected by the duration of the maximal exe rcise test. Methods: Nine healthy men (N = 6) and women (N = 3) performed t hree separate maximal treadmill exercise tests, separated by at least 24 h, and underwent a body composition assessment by hydrostatic weighing, all w ithin a 2-wk period. A baseline maximal exercise test was performed to esta blish V(over dot)O-2max. The second and third tests, assigned randomly, wer e designed to elicit the subjects' predetermined V(over dot)O-2max in eithe r 6 or 12 min. Heart rate (HR), blood pressure (BP). minutes of ventilation , and oxygen consumption (V(over dot)O-2) were measured during all tests. A t the end of the 6- and 12-min tests, Q(over dot) was measured using an ace tylene rebreathing technique. Stroke volume (SV), mean arterial pressure (M AP), total peripheral resistance (TPR), and arteriovenous O-2 difference we re calculated using standard equations. Results: Repeated-measures ANOVA in dicated that there were no significant differences in HR and V(over dot)O-2 max between the baseline, 6-min, and 12-min tests. Paired t-tests revealed significantly greater Q(over dot) (25.1 +/- 5.6 vs 23.7 +/- 5.2 L.min(-1)) and SV (138.3 +/- 31.5 vs 130.5 +/- 31.2 mL) in the 6- versus 12-min tests, respectively. There were no significant differences in systolic BP, diasto lic BP, MAP, TPR, or arteriovenous O-2 difference. Conclusions: Despite the re being no difference in V(over dot)O-2max between the two tests, the 6-mi n maximal exercise test resulted in a significantly greater Q(over dot) tha n the 12-min test, because of a significantly greater SV. Thus, there was a disassociation between V(over dot)O-2 and Q(over dot) during maximal exerc ise.