View clinical trials related to Hypertension.
Filter by:The purpose of this study is to test the hypothesis that endothelin plays a role in the pathogenesis of supine hypertension in pure autonomic failure by increasing vascular resistance. To gauge its contribution to blood pressure regulation, pure autonomic failure and multiple system atrophy patients with supine hypertension will undergo a medication testing with the endothelin blocker, BQ123. We will compare the hemodynamic effects between PAF and MSA patients. Our primary endpoint will be the decrease in blood pressure during the administration of this compound.
This study is looking to evaluate which drug combination, olmesartan/amlodipine or perindopril/amlodipine, is better at lowering blood pressure in people with mild to moderate hypertension. The investigators will be enrolling people who are either currently taking medication to lower their blood pressure or who have been recently diagnosed with high blood pressure and are not yet on medication. Patients on medication for their blood pressure will be asked to stop taking this medication for 2 to 4 weeks. If their blood pressure is suitable (not too high or low) they will be randomised to one of their treatment arm: Group 1 will receive Perindopril on its own (5mg for 4 weeks followed by 10mg for 8 weeks). There will be 80 patients in this group. Group 2 will receive Perindopril and Amlodipine together (5mg/5mg for 4 weeks, 10mg/5mg for a further 4 weeks then 10mg/10mg for the final 4 weeks). There will be 80 patient in this group. Group 3 will receive Olmesartan and Amlodipine together (20mg/5mg for 4 weeks, 40mg/5mg for a further 4 weeks then 40mg/10mg for the final 4 weeks). There will be 120 patients in this group. During the study we will measure the patients blood pressure and heart rate, weight and perform routine blood tests. They will also have ECGs (3 occasions) and 24 hour blood pressure monitor (4 occasions). At the end of the study patients pre-study medication will be restarted or they will be put on to a suitable alternative.
Intra- abdominal hypertension (IAH) and abdominal compartment syndrome (ACS) are a cause of organ dysfunction in critically ill patients. IAH develops due to abdominal lesions (primary IAH) or extra-abdominal processes (secondary IAH). Secondary IAH arises due to decreased abdominal wall compliance and gut edema caused by capillary leak and excessive fluid resuscitation. Decreasing intra-abdominal pressure (IAP) using decompressieve laparotomy has been shown to improve organ dysfunction. However, laparotomy is generally avoided in patients with secondary IAH due to the risk of abdominal complications. Acute kidney injury (AKI) is one of the first and most pronounced organ failures associated with IAH and many patients with AKI in the ICU require renal replacement therapy (RRT). Fluid removal using continuous RRT (CRRT) has been demonstrated to decrease IAP in small series and selected patients. The aim of this study is to evaluate whether fluid removal using CVVH in patients with IAH, fluid overload and AKI is feasible and whether it has a beneficial effect on organ dysfunction (compared to CVVH without net fluid removal).
The purpose of this study is to directly compare the blood pressure (hypertension) reduction effects of lisinopril and nebivolol in patients who develop new onset or worsening hypertension while treated with bevacizumab.
The goal of this study is to compare the effects of Potassium Magnesium Citrate to Potassium Chloride on blood pressure among patients with pre-hypertension or mild hypertension. We will also test whether Potassium Magnesium Citrate increases excretion of large amounts of sodium in the urine.
Cholesterol and blood pressure lowering tablets have been shown to be of benefit in patients with established high blood pressure. High blood pressure is a very common medical condition that can lead to vascular complications i.e. problems with the blood vessels in the body. One way of detecting early changes in these blood vessels as a result of high blood pressure is to measure their compliance/flexibility with a noninvasive technique known as ultrasound and with a simple blood test. The investigators are trying to establish whether these early changes in blood vessels can be significantly improved by the use of both a cholesterol and blood pressure lowering tablet at an earlier stage than is currently advised. The investigators hope that the early combination of these tablets will prove more effective than the use of a blood pressure lowering tablet by itself and therefore possibly reduce the risk of long term complications developing.
This study is a single-arm, open label protocol evaluating the use of Cleviprex to rapidly control hypertension in patients who present with intracerebral hemorrhage (ICH) or subarachnoid hemorrhage (SAH), and that require ICP monitoring via ventriculostomy (External Ventricular Drain or EVD).
The purpose of this study is to develop an approach to provide personalized medicine to individuals who have hypertension (high blood pressure). The investigators plan to use people's genetic characteristics (traits) to determine what medication they should use to lower their blood pressure most effectively. The investigators will give individuals one of two medications to treat hypertension (lisinopril or atenolol). The investigators believe that depending on the individuals genetic background one medication will work better in lowering their blood pressure.
The purpose of this study is to assess the effect of Tekturna (aliskiren), in combination with an ACE and calcium channel blocker in hypertensive patients diagnosed with Type II diabetes.
Recent evidence suggests that increased levels of a circulation fat (free fatty acids or FFAs) can cause high blood pressure and cardiac complications. Intralipid is the only type of fat approved by the FDA for clinical use. It is usually used as nutrition support in malnourished patients. The investigators' preliminary studies indicate that Intralipid results in a significant rise in blood pressure, blood vessel stiffness, and inflammation in obese subjects. Olive oil can also be used as nutrition support. The effect of olive oil intravenous (IV) on blood pressure and inflammation is not known. In this study, the investigators will compare the effect of Intralipid and olive oil on blood pressure, blood vessel stiffness and inflammation in healthy subjects. The investigators hypothesize that Olive oil emulsions will result in less vascular changes and less inflammatory response than Intralipid solutions. Accordingly, the investigators propose a systematic evaluation of the effects of Intralipid, olive oil and normal saline on blood pressure, endothelial function (vascular stiffness), inflammation in normal subjects. A group of obese subjects will be admitted to the Clinical Research Center on 3 occasions. Subjects will receive repeated infusions of Intralipid, ClinOleic, and normal saline at 20 ml/hour for 24 hours.