Baroreflex Sensitivity Response to Exercise (PACE MAKERS)

Forty healthy and physically active participants (20 males and 20 females) aged 18-31 were recruited for this study. All participants reported to the laboratory in a fasted state (>4 hours) and refrained from consuming foods or drinks containing caffeine or alcohol for at least 12 hours. They also avoided strenuous exercise for at least 24 hours prior to the testing sessions. The menstrual cycle was not controlled for female participants. All participants provided written informed consent after receiving a detailed explanation of the study's aims and experimental procedures.

This study was constructed as a crossover trial. Participants attended 4 separate intervention sessions. On the first visit, participants had their body composition evaluated by a clinical bioimpedance device using 8 electrodes positioned on each hand and foot. Each participant also performed a ramp incremental cycle ergometer test to exhaustion on a recumbent stationary cycle ergometer (Excite Recline Med, TechnoGym, Italy). On the second and third visit, participants quietly rested for 15 min in the supine position to evaluate heart rate variability (HRV) using a 5-ECG lead module (Nova, Finapres Measurement Systems, Amsterdam, The Netherlands), carotid (Arietta V60 ultrasound; Aloka/Hitachi Medical Systems) and aortic (Complior Analyse software (ALAM Medical, Paris, France) arterial stiffness. Participants then performed a 6 minutes bout of moderate intensity continuous exercise (MICE) at 50% heart rate reserve [HRR= 0.5*(HRmax- HRrest) + HRrest] followed by a 6 minutes vigorous intensity continuous exercise (VICE) bout at 80% HRR on a recumbent stationary bike, while having their HRV, beat-by-beat blood pressure and carotid arterial stiffness evaluated at HR steady state at each intensity. Visits 2 and 3 provided the data for the repeatability objective and hypothesis. On the fourth visit, the participants performed an acute bout of MICE and VICE, but this time at the corresponding average blood pressure at each intensity from visits 2 and 3. As men show higher blood pressure values during exercise, in the fourth visit we matched their intensity of exercise with the average blood pressure attained by women during steady state at each intensity.

Blood pressure and HR were monitored beat-by-beat and carotid arterial stiffness was measured at BP steady-state.

All visits were conducted in the morning with each participant performing sessions at the same time of the day to minimize any potential diurnal variation.