View clinical trials related to High-Normal Blood Pressure.
Filter by:Hypertension is a major risk factor for cardiovascular disease and cardiovascular events. Healthy lifestyle factors are widely recommended for hypertension prevention and control, and cardiorespiratory fitness is a strong and independent predictor of the progression of hypertension. Increased cardiorespiratory fitness through lifestyle modifications is associated with lower mortality in hypertensive or high-normal blood pressure individuals. The aim of the study is to evaluate the effects of supervised lifestyle intervention that include diet and exercise and base on intelligent application and continuous physiological monitoring on improvement of cardiopulmonary fitness, blood pressure and other health outcomes among participants with hypertension or high-normal blood pressure.
Cardiovascular diseases (CVDs) are the leading cause of mortality worldwide, reaching the 31% of deaths in 2012. CVDs represent also the major cause of disability in developed countries and has been estimated that their growing burden could lead to a global increase in loss of disability-adjusted life years (DALY), from a loss of 85 million DALYs of 1990 to a loss of ~ 150 million DALYs in 2020, becoming a major cause of no psychic responsible for lost productivity. Several risk factors contribute to the aetiology and development of CVD. These factors have been traditionally stratified into modifiable risk factors through the lifestyle changes or by taking a pharmacologic treatment (e.g. hypertension, smoking, diabetes mellitus, hypercholesterolemia) and not modifiable risk factors (age, male sex and family history). Essential hypertension is the most common modifiable risk factor in the general population, with a prevalence in Western Countries -including Italy- ranging between about 25-45%. Given the large prevalence of the disease of the general population, hypertension is responsible for the vast majority of CVD in individuals with different CV risk profiles, despite the availability of effective and well tolerated antihypertensive therapies. In this regard, several reports have shown that hypertensive patients often present additional CV and metabolic risk factors, mostly hypercholesterolemia, hypertriglyceridemia, metabolic syndrome and diabetes, which further contribute to increase the individual risk of developing hypertension-related complications, including stroke, end-stage renal disease, congestive heart failure, and CVD death. The concomitant presence of hypertension and dyslipidaemia is also responsible for the objective difficulty in achieving the recommended therapeutic targets for BP and cholesterol levels in a setting of clinical practice. Several pharmacological and non-pharmacological interventions have been proposed for ameliorating the relatively low rates of control of hypertension. Among these, an extensive use of nutrients and food supplements has been shown to provide favourable effects in the management and control of high-normal blood pressure (BP) (or pre-hypertension), that increases the risk of developing hypertension, cardiovascular diseases, and renal failure.
The purpose of this trial is to show that the Transcendental Meditation program can decrease blood pressure in young adults (college students) and is associated with decreased psychological distress and coping ability.
Aspirin (ASA) has been shown to provide marked benefits in the prevention of cardiovascular events, although the potential direct effects of ASA on cardiovascular function remain uncertain. Previous studies have demonstrated that ASA is a potent antioxidative agent that markedly reduces vascular production of superoxide in normotensive and hypertensive rats. In addition, ASA was found to prevent angiotensin II-induced hypertension and cardiovascular hypertrophy, mainly through its antioxidative properties in preventing the generation of superoxide, although ASA apparently did not appear to reduce hypertensive levels of blood pressure (BP). Moreover, recent results have demonstrated that ASA induces nitric oxide (NO) release from vascular endothelium. No attention has been paid, so far, to potential administration time-dependent effects in these studies. Previous laboratory animal and clinical trial research convincingly demonstrates administration time-dependent (with reference to circadian rhythms) effects of ASA. Thus, the effects of ASA upon lipoperoxides, β-adrenergic receptors, and BP in clinically healthy subjects depend on the circadian timing of ASA administration. Most important, the administration time-dependent influence of ASA on BP was previously demonstrated in a randomized trial on healthy women and in other independent, double-blind, randomized, placebo-controlled clinical trials. The first was conducted on clinically healthy subjects, a second one on normotensive and hypertensive subjects, a third one on pregnant women at high risk for preeclampsia and a fourth one in previously untreated patients with mild hypertension. The findings of these BP studies are consistent; the BP-lowering effect of low-dose ASA is achieved when administered at bedtime but not upon awakening. In keeping with the chronopharmacological effects of ASA and the previous findings suggesting that ASA at low dose may have a potential beneficial effect on BP, this prospective, randomized, double-blind, crossover study will investigate the potential influence of ASA on BP in subjects with either high-normal BP or diagnosis of mild (grade 1) hypertension. The subjects will receive low-dose ASA or placebo at different times of the day according to their rest-activity cycle, and will be evaluated by 48-hour ambulatory BP monitoring before and after 6 weeks of pharmacologic intervention.