Cardiovascular responses to facial cooling during low and moderate intensity exercise.

To investigate the hypothesis that facial cooling (FC) exerts a greater influence on the cardiovascular system at lower versus higher levels of exercise, this study examined the effect of facial cooling [mean (SE): 0 (2) degrees C at 0.8 m.s-1 wind velocity] during 30 min low [35% maximum oxygen consumption (VO2max)] and moderate (70% VO2max) levels of cycle ergometry in the supine position. Five male subjects were assigned in random order to four exercise conditions: (1) FC at 35% VO2max (FC35), (2) no cooling (NFC35), (3) FC at 70% VO2max (FC70), and (4) no cooling (NFC70). Heart rate (fc), stroke volume (Vs), and cardiac output (Qc) were measured at rest and every 10 min of exercise using impedance cardiography. During FC35, the change in fc [mean (SE)] was significantly lower (P < 0.05) than NFC35 at 10 [22 (5) vs 31 (3) beats.min-1], 20 [29 vs 35 (3) beats.min-1], and 30 [29 (5) vs 38 (4) beats.min-1] min. No differences in fc were observed between FC70 and NFC70. Furthermore, FC had no effect on Vs or Qc at either exercise intensity. However, when comparing the FC70 and NFC70 conditions, there was a significant main effect (P < 0.05) in mean arterial pressure (Pa) response with cooling despite the fact that neither Vs or Qc were different from the NFC70 control. The increase (P < 0.05) in the estimated change in systemic vascular resistance (delta Pa.delta Qc-1) could partly explain the relative rise in Pa at FC70. No pressor effect of cooling was observed at 35% VO2max.(ABSTRACT TRUNCATED AT 250 WORDS)

RCT Entities:   Population Interventions Outcomes