Introduction: Post-exercise hypotension (PEH) induced transiently lowers blood pressure after exercise, and that could be a conducive mechanism to reduce blood pressure associated with hypertension. Simultaneously, exercise is beneficialin diminishing the marker for arterial stiffness (pulse wave velocity, PWV). In contrast to exercise, a caffeine supplement is adverse to blood pressure and PWV. However, it is still unknown what the effects are from the combination ofcaffeine and exercise on blood pressure and PWV. The purpose of this study was to investigate the effect of caffeine on PEH and PWV after moderately intense aerobic exercise. Methods: Ten healthy college males participated in this randomized, double-blind design study. Participants were asked to perform three different trials: caffeineplusexercise (CE, 6 mg/kg), placeboplusexercise (PE), and caffeine control (CC).Both CE and PE trials were performed with 30 min of running at 70% heart rate reserve (HRR) after 30 min of restand oral supplements, and a CC trial without exercise. Blood pressure and brachial-ankle PWV (baPWV)were measured pre-supplement (T1), 30 min after supplement/pre-exercise (T2), and 30 min (T3), 60 min (T4), and120 min (T5) after exercise. Two-way repeated-measure ANOVA was used to compare the differences among trials and times. Results: The interaction effects of trials and time on systolic blood pressure (SBP)were statistically significant (p = .003). The simple main effect indicated that systolic blood pressure of PE at T4 and T5 were significantly lower than the CC trial. In addition, the systolic blood pressure of CE at T5 was significantly lower than the CC trial, but there wasno significant difference between CE and PE trials. Then, there werestatistically significant differences in mean arterial pressure (MAP) between trials and time points (p = .020). The simple main effect indicated that MAP of PE at T3-T5 was significantly lower thanthe CC trial. In addition, the MAP of CE at T5 was significantly lower than the CC trial, but no significant differences were found between CE and PE trials. Moreover, the index of baPWV was statistically significant (p ＜ .001). That at T3, T5 in CE and T4, T5 in PE were all lower than the CC trial, but there wasno difference in CE and PE. Conclusions: Supplies of caffeine could increase systolic blood pressure and PWV, but was offset by aerobic exercise. Caffeine supply, combined with aerobic exercise, will not have a negative impact on temporal peripheral arterial stiffeningamonghealthy adult men.