View clinical trials related to Blood Pressure.
Filter by:The clinical protocol of the trial: 1. Objective of the trial: To assess the accuracy of device. 2. Test methods and procedures: Perform comparation test on seated position by two devices at the same time. 3. DUT: Transtek Blood Pressure Monitor, Model TMB-1591-A-002, with Cuff (sizes, cm) 15-21, 20-26, 25-34, 25-34(L), 32-43, 32-43(L), 40-55. 4. Reference device: Baumanometer Desk Mercury Sphygmomanometer. 5. Study endpoints: Comply with ANSI/AAMI ISO 81060-2:2013 standard. 6. Statistical methodology used: Standard deviation, Mean error.
The investigator's objective is to validate the novel automated blood pressure device against the requirements set forth in the AAMI_ISO 81060-2:2010 standard in voluntarily consented study participants.
The new American Heart Association (AHA) blood pressure guidelines are expected to raise the prevalence of high blood pressure to ~46% in the United States. One recommendation for lowering blood pressure is aerobic exercise, which produces a period of lowered blood pressure (post-exercise hypotension; PEH) that lasts up to 24 hours. It is believed that PEH may be responsible for the observations of lowered blood pressure following initiation of exercise. However, most Americans eat too much salt, which expands plasma volume and may prevent PEH, rending aerobic exercise ineffective in improving blood pressure status.
Americans eat more salt than is recommended by the American Heart Association. This is important because consuming a high-salt diet is associated with an increased risk of cardiovascular events, like strokes and heart attacks. In fact, consuming one high-salt meal temporarily reduces blood vessel function and it is not uncommon for Americans to consume high-salt meals. Therefore, our laboratory is interested in determining if a single high-salt meal affects 1) brain blood vessel function at rest and 2) blood pressure responses during exercise.
The purpose of this study was to examine the impact of a 12-week jump rope exercise program on blood pressure, arterial stiffness, vasodilating and vasoconstricting factors, inflammatory markers, and body composition in prehypertensive adolescent girls. Forty prehypertensive adolescent girls participated in this study. The girls were randomly divided into the jump rope exercise intervention group (EX, n=20) and control group (CON, n=20). The EX group performed a jump rope training program at 40-70% of their heart rate reserve (HRR) 5 days/week for 12 weeks (sessions 50 minutes in duration). The CON group did not participate in any structured or unstructured exercise protocol. Blood pressure, arterial stiffness, plasma nitrate/nitrite levels, endothelin-1, C-reactive protein, and body composition were measured before and after the 12-weeks study.
Intraoperative hypotension occurs often and is associated with adverse patient outcomes such as stroke, myocardial infarction and renal injury. The aim of this study was to test the accuracy of a physiology-based machine-learning algorithm using continuous non-invasive measurement of the blood pressure waveform with the Nexfin® finger cuff during surgery.
This study was a randomized controlled trial study. The aim of this study was to determine the effect of soursop fruit supplementation on blood pressure (BP), serum uric acid (SUA), and kidney function. The definition of prehypertension and hypertension was accepted as delivered in The Seventh Report of the Joint National Committee (JNC 7) as the systolic BP was 120 - 139 mmHg and diastolic BP was 80 - 89 mmHg for prehypertension, while systolic BP ≥ 140 mmHg or diastolic BP ≥ 90 mmHg for hypertension. Based on the study by Sja'bani (2014), the cut-off point of (SUA) was divided into 3 categories, which are normal (< 5 mg/dL), high-normal (5 - <7 mg/dL), and high (≥ 7 mg/dL). A number of 143 people with essential prehypertension and high normal uric acid level were assigned as subject in this study. Subjects were randomly assigned into two groups which are treatment and control group. For a 3 months period, the treatment group was given 2x100 g soursop fruit juice per day and the control group was left without treatment. Blood pressure was measured by medical team using Omron HEM-907 (digital automatic blood pressure monitoring) every 2 weeks (3 times readings for each) in each subject's home. Subjects were examined in sitting position. Evaluation of laboratory examination was taken at week 0, 7 and 13.
This pilot study aims to recruit 30 adults with abdominal obesity, without major chronic disease, and test whether clinical dietary advice that is solely focused on the timing of eating (time restricted eating), has an effect on cardiometabolic health compared to standard dietary advice for cardiometabolic health, which is focused on content. The goal of this pilot study is to develop and hone dietary counseling approaches for time restricted eating for RD's in a clinical practice paradigm, and collect data on testing this intervention compared to standard dietary counseling approaches for cardiometabolic health.
Although expert consensuses recommend the use of statins in the treatment of atherosclerotic renal artery stenosis, in patients with severe atherosclerotic renal artery stenosis undergoing stent placement, the related investigation focused on renal protection by intensive lipid-lowering therapy is scant , and the optimal target level for lipid reduction remain uncertain. Therefore, we hypothesized that intensive lipid lowering could offer more benefits with respect to renal function in the patients with percutaneous renal artery stenting. We conducted the prospective randomized unblinded trial to compare the renal-protective effect of intensive lipid lowering with that of conventional lipid lowering in patients underwent renal artery stenting (75 patients in each study group)
The investigators seek to understand how reflexes from the breathing muscles influence blood pressure during exercise. Furthermore, the investigators are determining if increasing breathing muscle strength (via inspiratory muscle training) influences the respiratory muscle contribution to blood pressure during exercise.