Caffeine elevates blood pressure response to exercise in mild hypertensive men.

The present study examined the effects of caffeine on blood pressure (BP) regulation in hypertensive men during exercise. Twenty unmedicated, mild hypertensives (HT, BP = 140/90 to 160/105 mm Hg) and 12 age-matched, normotensives (NT, BP < 130/80 mm Hg) performed 30 min of extended bicycle exercise following a single dose of caffeine (3.3 mg/kg, equivalent to 2 to 3 cups of coffee) and placebo in a double-blind, cross-over design. Hemodynamic measurements were made at predrug, 40-min postdrug and during exercise. At predrug baseline, HT had significantly higher HR (67 v 57 beats/min) and BP (141/96 v 118/72 mm Hg) than NT. At postdrug baseline, caffeine increased systolic and diastolic BP, and peripheral vascular resistance (P < .01 in all cases), decreased HR (P < .05) and did not significantly change stroke volume and cardiac output for both groups. During exercise, HR response was greater on caffeine day than placebo day in HT (P < 0.05) only. Systolic BP was consistently elevated on caffeine day compared to placebo day in both groups (P < .001). Diastolic BP was elevated in HT for 30 min of exercise on caffeine day, but this pressor effect disappeared at 15 min of exercise in NT. As a result, rate-pressure products were significantly higher on caffeine days in HT at postdrug and during exercise. On caffeine day, 7 (39%) HT and 1 (8%) NT showed an excessive BP response (> 230 for systolic or > 120 for diastolic) during exercise. In conclusion, caffeine has significant hemodynamic effects on mild hypertensives at rest and during exercise. The increased rate-pressure products following caffeine during exercise place a greater workload on the heart, and abstinence from caffeine, especially before exercise, may be beneficial for persons with hypertension.

RCT Entities:   Population Interventions Outcomes