View clinical trials related to Hypertension.
Filter by:The use of automated blood pressure measurement (ABPM) devices in the office setting is increasingly recognized as superior to manual BP measurement. Current guidelines recommend that patients be alone in a quiet room, with no interactions with health care professionals during the readings; in practice, this means using an exam room. However, we found no evidence supporting the location of ABPM. Furthermore, exam rooms are constantly being used in primary care offices, so this may not be practical in routine care. For this study, fifty consecutive consenting patients age 18 or more in each of seven community based primary care offices will randomly be allocated to either ABPM in an exam room, or in a non-private area of the clinic. After being tested in the first location they will then be tested in the second location with the same device. The main outcome will be the mean value of the last five systolic blood pressures for each location within offices. Secondary measures will include blood pressures for patients with or without hypertension, a comparison of the initial and second set of blood pressures and of the effect of office noise in decibels on BP readings. New technology is more readily adopted if barriers to use are minimized. If we find no differences in BP readings between office locations, clinicians will then have the option to use an additional office area to implement the automated BP measurement device.
Patients with acute brain injury are at risk for complications such as increased pressure in the brain (intracranial pressure (ICP)), decreased blood flow, bleeding, and brain swelling (cerebral edema). Several studies have suggested that high blood pressure is associated with a worsening outcome possibly due to an increased rate of continued bleeding or rebleeding, as well as increased brain swelling (cerebral edema). High systemic (body) blood pressure (SBP) may also increase the risk of ongoing bleeding. Therefore lowering the blood pressure (BP) is critical, as continued bleeding occurs most frequently in patients with high BP. Clevidipine Butyrate (Cleviprex) is a new medication approved by the FDA for the treatment of acute high blood pressure (hypertension). Cleviprex is given through an intravenous line (IV) and has the benefit of being faster acting and easier to control adjustments than other drugs used to treat high BP. Patients who have an acute brain injury and who have severe high BP may benefit from this faster acting medication. For this study, eligible patients, 18 yrs of age or older, will have been admitted to the Neurocritical care unit within 24 hours after their brain injury, who have high systemic (body) SBP. The treating physicians will have already had multimodality brain monitoring placed for clinical management of the patient (standard care). The investigators will use Cleviprex to lower their SBP and record brain pressure and brain blood flow measurements from the multimodality monitoring. Due to the severity of their brain injury most of the patients eligible for the study will be unable to provide consent. Informed consent will be sought from a surrogate (family member, spouse or close friend) according to Columbia University Medical Center guidelines. Cleviprex is fast acting and effects are seen in about 90 seconds. The medication will be started at a low rate, and if the SBP still needs lowering, the dose increased every 90 seconds until the maximum FDA approved dose is reached. If the SBP is still high, another medication used to treat high blood pressure will be added (Cardene or labetolol). Once the SBP is lowered and is stable, the Cleviprex will be continued for 6 hours. As part of standard care, patients have their blood pressure monitored continuously. After 6 hours the treating physician will make a determination to continue clinical management with cleviprex or another antihypertensive medication.
The purpose of this study is to examine the potential of carbon monoxide (CO) to decrease elevated blood pressure in the pulmonary artery. This symptom is seen in patients with pulmonary arterial hypertension, a rare disease that causes fatigue, dizziness, and shortness of breath because the blood vessels that supply the lungs narrow, forcing the heart to work harder to push blood through. Previous studies in the laboratory have shown that carbon monoxide has promise in treating these symptoms. Subjects in this study are being asked to undergo a new type of treatment to improve pulmonary arterial hypertension by breathing CO gas. CO is a colorless, tasteless, odorless gas usually found in car exhaust or cigarette smoke. It is administered with a continuous flow of air. Subjects will undergo a screening process during which it will be determined if they are eligible for the study. After the screening process, if subjects meet eligibility criteria for the study, they will begin carbon monoxide treatment through a cushioned mask that is placed over the nose and mouth. This treatment will last for sixteen weeks.
The purpose of this multi-center, open label, single arm, post-marketing surveillance study is to assess the safety of Travacom in patients with open-angle glaucoma or ocular hypertension who are insufficiently responsive to beta-blockers, prostaglandins, or other intraocular pressure-lowering (IOP) medication and when use of Travacom is considered appropriate.
It has been hypothesized that one of the benefits of bosentan relates to pulmonary vascular remodeling. The investigators believe that this study will help document the nature of beneficial changes that occur in patients with Pulmonary Arterial Hypertension (PAH) in response to bosentan therapy. In turn, demonstrating that changes in pulmonary vascular structure and function accompany clinical improvement.
The purpose of this study is to create a registry of patients with Pulmonary Hypertension who received medical care in the Hospital Italiano of Buenos Aires.
A natural sweetener (Stevia Rebaudina Bertoni) reduces blood glucose levels and blood pressure according to various preclinical and clinical studies conducted worldwide. Since it is not found many studies in the literature wich compares Stevia Rebaudiana with saccharin, we've proposed a randomized crossover clinical trial comparing the effects on postprandial capillary blood glucose and blood pressure in healthy adults. Sample: healthy professionals from two health centers in Alava (Kakuabizkarra primary care center and Txagorritxu hospital). Inclusion criteria: Professionals of two health centers of Álava (Lakuabizkarra and Txagorritxu) and active employment status at the beginning of the trial, weighing more than 50kg and age over 18 years. Intervention: 200mg capsules of Stevia or 250mgcapsules of saccharin. Measurements: Capillary blood glucose and blood pressure, fasting and after eating. Evaluation of satiety, hunger and fullness by questionnaire after intake, and at the end of the day. Statistical analysis: Compare the postprandial capillary glucose levels between 8 am and 1 st hour, 2nd hour 3rd hour after intake between treatments by ANCOVA. We will also compare blood pressure before and after intake between treatments. We will also compare by t test or paired Wilcoxom (depending on the nature of the variable) the results of the questionnaire after intake between treatments.
This study will be performed only at the Jewish General Hospital. It will investigate the effect of treatment with aliskiren, an inhibitor of renin, a substance produced by the kidney that constricts arteries and raises blood pressure, on the blood vessels, specifically the arteries, of subjects who have diabetes and elevated blood pressure (hypertension). To investigate blood vessels, different techniques will be used. For large arteries, these will be studied by non invasive methods using detection of the pulse wave or using ultrasound over the skin of the neck, the wrist and the groin. To study small vessels, the investigators will perform a biopsy on the buttock, under local anesthesia, and obtain a small sample of tissue from under the skin, from which the vessels will be dissected. The investigators have performed many hundreds of these small biopsies over the past 20 years for similar studies without any complications. The biopsies are very well tolerated. From this research the investigators will thus be able to learn what the structure and function of these vessels is in these patients, in comparison to a normal healthy group. The hypertensive diabetic subjects will then be assigned by chance (randomized trial) to treatment with the renin inhibitor aliskiren or a comparator, the diuretic hydrochlorothiazide. Aliskiren is a relatively new drug used to treat hypertension that is very well tolerated and is now being evaluated in numerous trials in hypertensive diabetic individuals. The diuretic is a well-know agent used to treat high blood pressure now for many years, and which is very well tolerated. Physicians, nurses and scientists involved in the study will be unaware of who is receiving which drug, as will be the patients (this is the meaning of double-blind trial). However, if there is any problem, the secret code will be broken and the individual withdrawn from the study. Subjects will be treated for a year, and the study procedures (non invasive and the biopsy) repeated at 6 months and after one year of treatment. During the study, blood samples will be drawn and urine collected at certain intervals to ensure safety of the treatment. Once tissues are obtained they will be studied in the laboratory. The study of the vessels will allow treatment us to determine how the treatment with the renin inhibitor aliskiren affects the structure and function as well as cellular and molecular aspects of arteries of hypertensive diabetic persons. The investigators expect these studies to provide us knowledge on mechanisms and perhaps new targets for future therapies of cardiovascular disease and hypertension.
A multinational, multicenter, double-blind, randomized, placebo-controlled, Phase III study to assess the efficacy and safety of BPS 314d-MR in subjects with pulmonary arterial hypertension currently receiving treatment with an Endothelin Receptor Antagonist (ERA) and/or a Phosphodiesterase-5 Inhibitor (PDE-5 inhibitor). Approximately 100 centers will be participating in the study. Approximately 630 eligible subjects will be randomized 1:1 into two groups, BPS-314d-MR (active) or placebo study drug.
The investigators aim to pilot test the efficacy of a yoga intervention designed specifically for individuals with ocular hypertension. The investigators would like to find out if a combination of breathing, postures and meditation may help to reduce intraocular pressure in the short term after each yoga session, and also long-term across an 8-week program. Subjects will participate in the yoga intervention sessions led by Dr. Pamela Jeter once a week at the investigators center, and will be asked to practice at home at least twice a week using a audio CD.