Hypotensive effects of exercise training: are postmenopausal women with hypertension non-responders or responders?

We tested the hypothesis that increasing the exercise dose or changing the exercise mode would augment hypotensive effects when traditional aerobic exercise training failed to produce it in postmenopausal women. Sixty-five postmenopausal women with essential hypertension were randomly allocated into the continuous aerobic training (CAT) and non-exercising control (CON) groups. CAT group cycled at moderate intensity 3 times a week for 12 weeks. Individuals who failed to decrease systolic blood pressure (BP) were classified as non-responders (n = 34) and performed an additional 12 weeks of exercise training with either increasing the exercise dose or changing the exercise mode. The 3 follow-up groups were continuous aerobic training 3 times a week, continuous aerobic training 4 times a week, and high-intensity interval training. After the first 12 weeks of exercise training, systolic BP decreased by 1.5 mmHg (NS) with a wide range of inter-individual responses (-23 to 23 mmHg). Sixty-seven percent of women who were initially classified as non-responders participated in the second training period. Sixty percent of women who participated in continuous exercise training 3 or 4 times a week at greater exercise intensities reduced systolic BP. All (100%) of the women who performed high-intensity interval training experienced significant reductions in systolic BP. Traditional aerobic exercise was not sufficient to decrease BP significantly in the majority of postmenopausal women. However, those women who were not sensitive to recommended exercise may reduce BP if they were exposed to continuous aerobic exercise at higher intensities and/or volumes or a different mode of exercise.

The effects of exercise training on hypertensive older adults: an umbrella meta-analysis.

Exercise training has been shown to blunt many of the physiological declines and common diseases of the aging process. One such beneficial effect is the reduction of blood pressure (BP) in hypertensive older adults. However, there is no consensus about which benefits of aerobic (AT) or resistance training (RT) may be lost by the use of combined training (CT) or even what benefits could be acquired only by performing CT, considering the extensive health needs of older adults with hypertension. Thus, we performed an umbrella meta-analysis. The benefits conferred by CT are extensive and encompass cardiorespiratory fitness, muscular fitness, and blood lipid profile improvements. CT may be recommended to improve the extensive health needs of hypertensive older adults that go beyond blood pressure reduction.

Do baseline blood pressure and type of exercise influence level of reduction induced by training in hypertensive older adults? A meta-analysis of controlled trials.

BACKGROUND: Exercise recommendations for hypertensive individuals encourage the use of aerobic training (AT) for lowering blood pressure (BP). However, it is not clear whether equivalent BP-lowering effects are obtained with different exercise training types in older adults, among whom hypertension is more prevalent. DESIGN: We meta-analyzed previous literature testing different types of training [AT, resistance (RT) and combined (CT)] effects on casual systolic BP (SBP) and diastolic BP (DBP), taking into account age and baseline BP influences. METHODS: Randomized controlled trials (RCTs), published up to August 2019 (PubMed), assessing exercise training effects on BP in hypertensive older adults (aged ≥50 years) were included (11, 8 and 3 RCTs tested the effects of AT, RT and CT, respectively). RESULTS AND CONCLUSIONS: First, both AT and RT reduced SBP (-12.31 [-16.39; -8.24] and - 6.76 [-8.36; -5.17] mm Hg, respectively) and DBP (-4.31 [-5.96; -2.65] and - 3.53 [-4.22; -2.85] mm Hg, respectively) in older adults, while there was not enough evidence for the effects of CT on SBP, due to high variance among the small number of CT studies. Second, training-induced BP reductions were more prominent in patients <65 years compared to those >65 years. However, this difference was mostly driven by differences between AT and CT versus RT intervention on age subgroups. Third, baseline BP values, rather than type of exercise and age, were the main determinant of BP response to exercise (predicted 74% and 53% of SBP and DBP reduction, respectively), indicating this is a major confounding factor to be considered in studies evaluating the impact of exercise training on BP.