PREDICTION OF STROKE VOLUME FROM OXYGEN PULSE MEASUREMENTS IN UNTRAINED AND TRAINED MEN

This study examined the relationship of oxygen pulse (O-2 pulse) to st roke volume (SV) and arterio-venous oxygen difference [(a-(v) over bar )O-2 diff] during submaximal cycle exercise in untrained (UG) and trai ned (TG) males. Fourteen volunteers in each group completed an increme ntal VO2 max test and a submaximal test at 60% VO2 max to determine ca rdiac output (Q) via CO2 rebreathing. VO2, Q, and heart rate (HR) were used to calculate SV and (a-(v) over bar)O-2 diff. There were no sign ificant differences (p > .05) between the two groups for O-2 pulse, SV , and (a-(v) over bar)O-2 diff during submaximal exercise. Stroke volu me index (SVI) was significantly higher (p < .05) in the TG. O-2 pulse was significantly related to SV and SVI (p < .05) bur not to (a-(v) o ver bar)O-2 diff in both groups. Regression equations for predicting S V from O-2 pulse for UG and TG were Y = 6.81X + 26.7, SE = 21.4, r = 0 .84, and Y = 10.33X - 32.3, SE = 14.2, r = 0.71, respectively. These r esults suggest that O-2 pulse can be used to predict SV during submaxi mal cycle exercise in untrained and trained men.