View clinical trials related to Blood Pressure.
Filter by:The study will explore the capacity for a lifestyle modification in firefighters to improve blood pressure, blood vessel stiffness, inflammation, and reduce oxidative stress. The study will be a pre- post-testing controlled trial with three groups. The intervention will be a weekly circuit workout program and a Mediterranean (high fruit/vegetable) diet. The groups will be firefighters with >10yrs experience, firefighters with <10yrs experience, and control Non-firefighters.
This randomized, controlled clinical pilot trial will evaluate the effects associated with in-office use of closed-loop, acoustic stimulation neurotechnology (High-resolution, relational, resonance-based, electroencephalic mirroring; HIRREM), compared with acoustic stimulation not linked to brainwaves (ambient nature sounds), for participants with pre-hypertension. Data collection will occur at baseline, and at intervals after completion of the intervention. Outcomes include blood pressure, measures of autonomic cardiovascular regulation, behavioral symptom outcomes, quality of life, alcohol use, and functional performance measures. The primary outcome will be change in blood pressure from baseline to 4-6 weeks after intervention.
For patients with kidney failure requiring hemodialysis treatment, sometimes the blood pressure will drop too low during dialysis. In an effort to prevent that from occurring, patients are frequently told to skip doses of their blood pressure medications. However, whether this actually prevents blood pressure drops during dialysis, and whether it may cause more uncontrolled high blood pressure is unknown. TAKE-HOLD will study the effect of taking or holding blood pressure medication on blood pressure for patients on hemodialysis.
This study will investigate the relationship between resistance training load and repetitions on cardiometabolic outcomes. The primary objective of this clinical trial is to determine whether high load or low load resistance exercise training affects arterial stiffness in overweight or obese men and women. Our secondary objectives are to investigate the effects of high and low load RT on vascular function, cardiac structure, and markers of insulin sensitivity. Finally, we are going to preliminarily explore the effects of resistance training on intestinal bacteria.
In the UK, 23,000 (15%) of the 150,000 people who suffer a stroke each year have bleeding in the brain, also referred to as acute intracerebral haemorrhage (ICH). An Autoregulation Index (ARI) can be assigned between 0 and 9 (0 being poor and 9 being the most efficient CA observed) to gauge how good the control over blood flow is at a given time. Dynamic CA (dCA) is a measure of the response of cerebral blood flow (CBF) to rapid changes in blood pressure (BP), and several key studies have shown impaired dCA post-acute ICH. The most recent study demonstrated that dCA impairment lasts up to 12 days. This is particularly important to understand, since our preliminary work has recently shown that changes in carbon dioxide using simple breathing exercises can improve Autoregulation. Unfortunately, there are limited non-pharmacological management options and significant opportunities to improve patient outcome in ICH. The proposed study addresses this area, by investigating whether a simple breathing exercise in survivors of ICH is safe, feasible and effective in reducing brain injury by improving cerebral autoregulation.
A large body of medical research has shown that sleep deprivation adversely affects outcomes ranging from cognitive function to pain sensitivity and cardiovascular function. Much of this evidence comes from sleep labs in the developed world, where sleep can be carefully manipulated, and short-run physiological and cognitive outcomes precisely measured. In contrast, there is much less knowledge about how sleep deprivation affects the health of individuals in the developing world, coming from a lack of studies outside the lab and over longer periods. This project aims to fill this gap. The investigators will implement a randomized controlled trial (RCT) with 450 low-income adults in Chennai, India, providing the first objective measurement of sleep in a developing country. The investigators will also evaluate scalable interventions to improve the sleep of poor adults, such as providing home sleep-aid devices and a comfortable space for a 30-minute afternoon nap at the participants' work site. Finally, the study aims to assess the impact of improved sleep on health, with a primary focus on cardiovascular health and cognitive outcomes.
Observational study in which pulse transit time (PTT) as a method and the device to register this data is compared with arterial blood pressure. The population is composed of pediatric and adult patients in anesthesia or intensive care in need of arterial blood pressure monitoring.
To determine if 24-hr ambulatory blood pressure monitoring effects endothelial function, we will measure flow-mediated dilation before and after the blood pressure monitoring (ischemia conditioning).
Population in study will be selected from students and staff of the University of Pisa. Right carotid artery contour wave analysis will be performed during the application of different PEEP levels (from 0 cmH2O to 10 cmH2O) with applanation tonometry technique.
The DECIDE - Salt in Elderly (Diet, ExerCIse and carDiovascular hEalth - Salt Reduction Strategies for the Elderly in Nursing Homes in China) is to evaluate the effects, safety and cost-effectiveness of salt substitution (SS) and stepwise salt supply control (SSSC) in reducing blood pressure in Chinese elderly in nursing homes. The study will recruit over 960 old people from 48 nursing homes in northern China. The 48 nursing homes will be randomised into the following 4 groups. 1. salt substitute (SS) and stepwise salt supply control (SSSC); 2. SS only; 3. SSSC only; and 4. no SS and no SSSC (control). The intervention will last over 2 years. The randomization will be conducted centrally after the baseline survey completed. Primary outcome will be the change in systolic blood pressure. The secondary outcomes include: the changes in diastolic blood pressure, 24hr urinary sodium, potassium and microalbumin, and incidence of hyperkalemia, hypokalemia, hyponatremia, cardiovascular events, and all causes death, and incremental cost-effectiveness ratio.