Active clinical trials for "Hypertension"

In this study, the investigators aim to describe the hemodynamic consequences of nasal high-flow measured during right heart catheterization and echocardiography. The research hypothesis is that nasal high-flow would increase cardiac output in patients with pulmonary hypertension. The concomitant echocardiography will allow to describe its sensibility to detect cardiovascular consequences of nasal high-flow.

Pulmonary arterial hypertension (PAH) and chronic thromboembolic pulmonary hypertension (CTEPH) are severe clinical conditions that, despite advances in therapeutics over the past 20 years, lead to serious morbidity and mortality. Guidelines on the diagnosis and treatment of pulmonary hypertension (PH) recommend the use of a multiparametric risk stratification tool to determine severity of disease, which should guide initial therapy and therapy modulation. This multiparametric risk stratification schema includes objective assessment of exercise capacity, right ventricular function and hemodynamic parameters in order to classify patients into severity categories. Cardiac index (CI) and right atrial pressure (RAP), measured via right heart catheterization (RHC), are the hemodynamic parameters used in risk assessment of PH. Arguably, stroke volume index (SVI) is the most important hemodynamic parameter for assessment of PH severity and there is currently no validated method for noninvasive measurement of cardiac output (CO), CI or SVI. Currently, a major obstacle in the field is that hemodynamic measurements are not obtained on a regular basis in the risk assessment and therapy modulation of patients with PAH and CTEPH. If a noninvasive method of hemodynamic measurement could be correlated with other objective measurements of risk assessment, it could become an invaluable tool in therapy initiation and modulation in the ambulatory setting. This is a single center study to evaluate the use of non-invasive measurement of CO and stroke volume to assess risk and response to treatment in patients with PAH and non- operable CTEPH. We anticipate to enroll a total of 100 subjects at Ronald Reagan UCLA Medical Center. A maximum of 10 hour in total for the study including the consent process, pre-procedure care, RHC procedure, and follow up visit. The initial visit will be approximately 4 hours with the RHC procedure itself will only be 20 minutes. Each follow up visit will be 1.5 hour. Patients with known or suspected PAH or CTEPH will undergo a RHC as part of his or her standard of care. Three techniques of CO measurement will be performed sequentially at the time of the RHC. The device that will be used is the Edwards ClearSight system and EV1000 clinical platform, a device that measures NIBP. Patients will be followed over the period of 1 year every 3 months to obtain serial measurements for six-minute walk distance (6MWD), World Health Organization (WHO)/New York Heart Association Functional Class (FC), B-type natriuretic peptide (BNP) or N-terminal-pro hormone BNP (NT-proBNP), and non-invasive hemodynamic measurements. Additional visits will be scheduled to obtain the serial measurements one month prior and one month following if a patient is initiating or changing PH-specific therapy. As this is a study looking at the feasibility of non-invasive measurement of cardiac output and stroke volume for risk assessment and response to therapy in pulmonary arterial hypertension (PAH) or chronic thromboembolic pulmonary hypertension (CTEPH), study personnel performing the study procedures will not be blinded to the clinical diagnosis and the management of the subject.

All post-menopausal women followed an energy-restricted diet for 8 weeks. Meal plan that creates an energy deficit of 500 to 1000 Kcal per day less than the individual's average daily intake was suitable for weight reduction.Each post-menopausal woman followed Dietary Approaches to Stop Hypertension (DASH) which : low in total fat, cholesterol, red meat, sweets and sugar containing beverages, emphasize fish, nuts, fruits, vegetables and whole grains and it also rich in Potassium(6900mg), Calcium(1200-1500mg) and Magnesium, as well as vitamins A, C and E.Group B (WBV group): For 8 weeks, WBV participants completed 3 supervised training sessions a week.

Among individuals with an uncontrolled BP at the current visit, the objective of this study is to compare clinical management of hypertension with and without information from a machine learning algorithm on whether a patient will have uncontrolled blood pressure at their next follow up visit through a case-vignette study.

The purpose of this study is to assess which blood pressure medication (intravenous labetalol or oral nifedipine) works better in treating severely elevated blood pressure in women who have just delivered a baby.

The purpose of the CHANGE-BP study is to examine the change in in-office measured Blood Pressure (BP) from baseline to end of study (6-months) between participants randomized to either 1) Continual Blood Pressure Monitoring (CBPM), which includes receiving Aktiia's novel cuffless BP Research System that has an accompanying Aktiia Patient Interface smartphone application, and care delivered through a centralized Aktiia Provider Interface that displays device data and is accessible by a health care professional or 2) Home Blood Pressure Monitoring (HBPM), which includes a standard oscillometric blood pressure cuff and the standard blood pressure management care from a participant's primary care physician.

This study will be carried out in 2 emergency departments (at the exit of the emergency room) and 2 external consultations (endocrinology of the CHU FB Monastir and diabetology consultation, Jemmal hospital). Patients over 18 years of age with: Arterial hypertension (hypertension).

In the DASH (Dietary Approaches to Stop Hypertension) trials, a diet rich in fruits, vegetables, nuts and dairy products, and limited in fat content, was shown to be useful in controlling hypertension, particularly in African Americans (AA). Key components of such a diet are potassium, magnesium, and alkali, each of which has been implicated in lowering blood pressure. In the original IND 116,208, the investigators explored whether potassium-magnesium citrate (KMgCit) as a powder pharmaceutical formulation (dissolved in water before ingestion) could serve as a surrogate for the DASH diet and would lower blood pressure among patients with pre- or Stage I hypertension. Unfortunately, previous studies did not include adequate number of African American patients.

IntelliStent is intended to achieve reduction of pulmonary hypertension, improvements in symptoms and quality of life in adolescent and adult patients with congenital heart disease and dilated cardiomyopathy.

Pulmonary hypertension (PH) is a life-threatening cardiovascular disease characterized by pathological elevation of mean pulmonary arterial pressure (mPAP) >/= 25 mmHg at rest. mPAP < 20 mmHg is defined as normal, values in the range between 21-24 mmHg are described as "borderline PH" diagnosed by right heart catheterization. Based on the etiology, PH is assigned to 5 groups (WHO, Data Point, 2008), whereas classification of disease is an important prognostic and therapy-deciding criterion. Cardiac magnetic resonance tomography (CMR) provides a reliable technique to estimate elevated mean pulmonary arterial pressure from period of existence of a vortical motion of blood flow in the main pulmonary artery. Vortex can be visualized in 3-dimensional vector field, particle trace and streamline representations and can be analysed with respect to vortex related measures (geometry of center, vortex formation, vorticity, propagation dynamics …). Furthermore T1-mapping and non-contrast enhanced lung perfusion/ventilation scans represent promising techniques for PH characterization. Aim of this explorative study is to 1. analyse PH-associated blood flow characteristics in the heart and the surrounding great vessels with respect to the 5 groups of PH, and 2. investigate the hemodynamic state of "borderline PH" compared to normal mPAP and manifest PH by non-contrast CMR.