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ABSTRACT
Purpose
The studies regarding the effects of exercise duration on blood pressure have reported inconsistent and conflicting results. Nitric oxide (NO) is a well-known vasodilator released by endothelial cells, and endothelial microparticles (EMPs) are membranous vesicles released into the circulation from activated or apoptotic endothelial cells, both of whose level can reflect the endothelial function. But few studies have been done to explore the effect of exercise duration on blood pressure and endothelial function, especially, the EMPs response to exercise in young male patients with hypertension. This study aimed to investigate the blood pressure response during moderate-intensity exercise performed in different durations and the acute effects on post-exercise hypotension and endothelial function in hypertensive patients.
Methods
Eighteen young male hypertensive patients who did not take antihypertensive drugs were recruited in this study. They randomly performed twice exercises on a cycle ergometer at a moderate intensity of 40%–50% of their HR reserve; one was 20 min (E20 session), the other one was 40 min (E40 session); there was 1-week break between the two exercises. Blood pressure was monitored by the YUWELL blood pressure monitor at rest, every 5 min during exercise, and 3 and 6 min post-exercise. The level of NO (nitrate/nitrite reduction) and EMPs (flow cytometry) in plasma were detected before and immediately following exercise. CD31+/CD42b− events were classified as EMPs and events per microliter plasma were calculated. This study was approved by the Beijing Sport University Institutional Review Board (protocol number 2019087 H).
Results
Mean age of patients was 34.8 ± 3.5 yrs, and BMI was 27.6 ± 2.7 kg/m2. Systolic blood pressure (SBP) in the two sessions increased significantly during exercise. The SBP in the E20 session increased by 37 mmHg (P < .01) at 5 min during exercise and remained stable afterward. In the E40 session, the SBP increased by 35 mmHg (P < .01) at 5 min during exercise and was stable at 5 through 25 min, decreased by 8 mmHg at 25 through 35 min during exercise, and then stabilized (P < .01). There was no obvious change of diastolic blood pressure (DBP) in the two sessions during exercise. In the E20 session, SBP at 6 min following exercise was no different from the rest; in the E40 session, SBP at 6 min following exercise was 14 mmHg lower than at the rest (P < .01). DBP in the E20 session was the same as rest at 3 min following exercise and decreased by 4 mmHg at 6 min following exercise compared with the rest (P < .05), while DBP in the E40 session decreased by 3 mmHg at 3 min following exercise compared with the rest (P < .05). The plasma NO levels of E20 and E40 increased significantly following exercise (P < .01 for both). There was no difference in plasma NO level between the two sessions pre- and post-exercise, but the increased magnitude of NO level in E40 was greater than that in E20 (24.47% vs. 9.24%, P < .01). The plasma EMPs level of E20 and E40 decreased significantly following exercise (P < .01 for both). There was no difference in plasma EMPs level between the two sessions pre- and post-exercise, but the decreased magnitude of EMPs level in E40 was greater than that in E20 (15.66% vs. 8.00%, P < .01).
Conclusion
There is no exaggerated blood pressure response to 20-min and 40-min acute moderate-intensity exercise in young hypertensive men with no antihypertensive drugs. Both 20-min and 40-min acute moderate exercise can reduce the rest blood pressure, and improve endothelial function by increasing NO and decreasing EMPs in young male patients with hypertension, and the effects of 40-min exercise on lowering SBP and improving endothelial function are better than that of 20-min.