View clinical trials related to Resistant Hypertension.
Filter by:Systemic arterial hypertension is a serious health problem worldwide. In some cases, it can phenotypically present as resistant arterial hypertension, which consists of blood pressure levels outside the treatment goals in patients using three or more classes of antihypertensive drugs, one of which is preferably a thiazide diuretic. Resistant hypertension contributes to a 47% higher risk of developing cardiovascular events when compared to patients with non-resistant hypertension. It is known that the microcirculation plays a relevant role in the pathophysiology of arterial hypertension. Furthermore, it is known that the cutaneous microvascular network is an adequate model and that it reflects the systemic microcirculation. In this sense, the present research proposes the study of cutaneous capillary density - through high resolution intravital microscopy - and of the endothelium-dependent and independent microvascular vasodilator response - by the speckle laser flowmetry method coupled to a pharmacological system of micro- iontophoresis - in patients diagnosed with resistant hypertension, with the aim of identifying changes in comparison with patients with non-resistant hypertension and normotensive individuals. Additionally, the evaluation of the association between systemic microvascular function and the presence of target organ lesions in this population may indicate that this is a new non-invasive way of stratifying cardiovascular risk in these individuals.
The present study aims to evaluate the antihypertensive effect of sacubitril/valsartan in patients with resistant hypertension compared to the use of recommended and optimized antihypertensive therapy, through a randomized clinical trial, over 12 weeks.
To demonstrate that in patients with resistant hypertension oral treatment with minocycline via inhibition of central immune cell activation and inflammation results in reduced central sympathetic outflow and concomitant lowering of BP.
The gastrointestinal tract begins its colonization shortly after birth. During the first two years of life, gut microbiota is unstable and less diverse than in adulthood. Its complexity and diversity are modified by external factors that shall influence the composition of gut microbiota, especially the diet, the personal hygiene and the food cleansing, as well as the chronic use of antibiotics. Some recent evidence suggests that the microbiome may affect the likelihood of various diseases, including obesity, diabetes and cardiovascular disease. Among cardiovascular diseases, hypertension (HT) accompanied with increased cardiovascular morbidity and mortality. Hypertensive individuals may present controlled blood pressure (use of up to 03 antihypertensive drugs) or resistant without blood pressure control, even in the use of 03 or more antihypertensive drugs. Objectives: Evaluating gut microbiota of resistant hypertensive individuals, we shall compare it with those of normotensive and controlled hypertensive individuals. The resistant hypertensive ones will also receive a therapeutic intervention with prebiotics to determine if the changes in microbiota and in the production of microbiota metabolites can lower blood pressure. Methods: The study will be composed of two phases, one observational and one interventional. The observational phase will be composed of adults of both genders, aged between 40 and 70 years old, divided into three groups: normotensive, controlled hypertensive and resistant hypertensive individuals. Nutritional assessment, biochemistry and stool analysis will be performed to study the microbiota in all groups, in addition to the evaluation of peripheral and central hemodynamic parameters. The intervention phase will consist of a, randomized, double-blinded, placebo-controlled crossover study using a prebiotic formula during 04 weeks in the resistant hypertensive group. After a washout period of 4 weeks, the protocol will be repeated in the other arm. Participants will visit the clinic in 4 occasions, which shall include biochemical tests [for small chain fatty acids (SCFAs), noradrenaline, gut dysbiosis, immunomodulation] and fecal sample collection (for SCFAs and gut microbiome determination), besides the evaluation of flow-mediated dilation and peripheral and central hemodynamic parameters.
Resistant hypertension is defined as blood pressure that remains above goal despite concurrent use of three antihypertensive agents of different classes including diuretics. Patients with resistant hypertension has at least 1.5-fold higher cardiovascular risk than those with non-resistant hypertension. Therefore, controlling blood pressure is crucial in patients with resistant hypertension. It has been unclear which antihypertensive agent should be added in patients who cannot reach target blood pressure despite use of three antihypertensive agents. There have been three randomized clinical trials that proved the efficacy of spironolactone in resistant hypertension, but they were small sized, comparison study to placebo. Recently published PATHWAY-2 study which compared the efficacy of spironolactone with placebo, doxazosin, and bisoprolol showed superiority of spironolactone in blood pressure lowering in patients with resistant hypertension. Thus, revised ACC/AHA and ESC/ESH guideline for arterial hypertension recommended spironolactone as the fourth agent for resistant hypertension. However, in real world, adherence to spironolactone may not be adequate because of adverse effect such as gynecomastia, hyperkalemia, and so on. Recently, sub-study of PATHWAY-2 revealed that amiloride changes systolic blood pressure by -22.2 mmHg (95% CI, -24.7 to -19.7) which is comparable with the effect of spironolactone (-21.8 mmHg; 95% CI, -24.2 to -19.3). However, it was not randomized clinical trial to compare the effect between spironolactone and amiloride in patients with resistant hypertension. This study aims to compare the effect of spironolactone and amiloride on home blood pressure in resistant hypertensive patients and to compare the rate of target blood pressure achievement between spironolactone and amiloride in resistant hypertensive patients.
Prevalence of primary aldosteronism (PA) in resistant hypertension is not clear. In addition, emerging evidence supports the role of elevated serum aldosterone in promoting cardiovascular disease, independently from high blood pressure (BP) levels, but current data on this issue are heterogeneous.
As one of the most common chronic diseases,The adult prevalence of hypertension is approximately 26.4% at present and will rise to 29.2% by 2025.Renal sympathetic denervation from the intima of renal artery has emerged as a potential treatment for resistant hypertension. However, renal sympathetic nerve are mainly located in the adventitia,and there is no report on renal sympathetic denervation from the adventitia of renal artery.This study is a multicenter,randomized,single-blind study,and aimed to observe the safety and efficacy of radiofrequency ablation of the renal artery from the adventitia on the basis of laparoscopic techniques for patients with resistant hypertension.
This study is a registry study to examine the clinical features, blood pressure control rate, and clinical prognosis of resistant hypertension in Koreans. This study will register patients with resistance hypertension in eight tertiary hospitals in Korea and follow up them for three years. The prognosis will be analysed according to etiologies, achieved blood pressure, and types of antihypertensive medication.
This study evaluates the utility and reliability of Somnocheck micro Weinmann for obstructive sleep apnea syndrome (OSAS) screening in patients affected by resistant systemic arterial hypertension. Results are compared with a modified portable sleep apnea testing (type III portable monitoring: Somnocheck 2 Weinmann).
Hypertension is a major risk factor for stroke and cardiovascular mortality. Catheter- based renal denervation causes substantial and sustained blood- pressure reduction in patients with resistant hypertension. The purpose of RENSYMPIS is to study the effects of renal denervation on: 1. Cardiovascular function 2. Metabolic factors 3. Inflammatory and endocrine factors 4. Coagulation 5. Sleep