View clinical trials related to Cardiovascular Abnormalities.
Filter by:This study evaluates if a single oral dose of 150 mg of the novel food ingredient (AME001, R,R-monatin) does not have an effect on the Fridericia-corrected QT ECG interval (QTcF) exceeding 10 milliseconds (msec). Each subject will consume test article (150 mg), placebo, and moxifloxacin (400 mg; positive control) in each of 3 treatment periods.
The purpose of this study is to evaluate the safety and short-term effectiveness of implantation of Transcatheter Pulmonary Valve (TPV) for the treatment of congenital heart disease with pulmonary valve disease.
This is a Prospective, Double-center, randomized clinical trial. The purpose of the trial is to evaluate the benefit of adding POC US to the management of inpatients admitted to the internal ward with respiratory, cardiovascular or hemodynamic abnormalities.
Prospective, non-randomized, multicenter post-approval study to collect long term clinical and echographic data on Mitroflow DL patients.
To investigate the changes of cardiovascular function during short-term simulated weightlessness after electroacupuncture (EA) treatment.
Description of the phenomena "Slow Coronary Flow" (SCF), according to the data that has been collected from patients hospitalized with specific criteria. Clinical follow-up of these patients to determine whether they suffered from any cardial or psychological disorders that might be a result of SCF.
Randomized cross-over design with 10 male subjects and 3 campaigns to test whether the negative effects of bed rest (6º head-down tilt) on the various systems of the body and the consequences to health of simulated weightlessness can be counteracted by the use of a defined training programme.
The phosphatidylinositol 3-kinase (PI3Kinase)/Protein Kinase B (AKT)/mammalian target of rapamycin (mTor) pathway plays a role on the development and the lymphatic-vascular organisations. The investigators want to study the efficacy and the safety of Rapamycin, an mTor inhibitor.
Mainly due to the absence of gravitational forces in weightlessness, astronauts suffer from an increased bone loss- negatively affecting health and vitality during a mission. The development of effective countermeasures to this loss includes many different aspects like sports but also nutrition. Alkaline salts, abundant in fruits and vegetables, have shown to have positive effects on markers of bone turnover of postmenopausal women but also men and younger adults. With the current study the effects of a potassium bicarbonate supplementation added to a standardised, strictly controlled, definite diet of healthy, young men, should be verified within 21 days of 6°- HDT- Bedrest- the gold standard of simulating weightlessness within earthbound conditions.
Obesity is a medical problem of epidemic proportions and is associated with high mortality. Obesity has significant effects on the cardiovascular system, producing structural cardiovascular changes including myocardial hypertrophy, fatty infiltration, and fibrosis; diastolic and systolic dysfunction; changes in pulmonary artery compliance; and increased aortic stiffness - all of which can lead to heart failure. Indeed, evidence suggests that obesity increases the risk for heart disease independent of other known risk factors such as coronary artery disease, hypertension, diabetes mellitus, and obstructive sleep apnea. Obesity also causes significant changes in pulmonary function, including a decrease in expiratory reserve volume and functional residual capacity and closure of peripheral airways. The exact mechanisms for the development of cardiopulmonary disease are not well understood - the pathophysiology is complex and likely multifactorial, related to altered hemodynamic load, altered metabolic activity, underlying inflammation, and increased cardiac output. Newer diagnostic modalities available at our institution such as cardiac MRI and pulmonary function tests with impulse oscillometry allow us to better evaluate cardiopulmonary dysfunction in patients with severe obesity. Cardiac MRI is especially promising as a non-invasive imaging modality in obese individuals, providing more reproducible measurements of cardiac and vascular anatomy and function relative to echocardiography. Similarly, pulmonary function testing with impulse oscillometry is more sensitive for detection of abnormalities in the distal airways especially when spirometry is normal, as frequently occurs in the severely obese symptomatic patients. The main objective of the proposed study is to evaluate the effect of obesity on quality of life and health care utilization and its relationship to cardiopulmonary disease in an ethnically diverse, underserved obese population by using state-of-the-art diagnostic modalities before and after significant (20%) weight loss. The investigators propose to perform stress cardiac MRI and pulmonary function testing with oscillometry before and after significant surgical weight loss in 150 severely obese patients with cardiopulmonary symptoms. Patients evaluated in the comprehensive Obesity Center at Bellevue Hospital who meet NIH Consensus Guidelines for Bariatric Surgery, who have cardiopulmonary symptoms, and who meet clinical criteria for cardiac stress testing and pulmonary function testing will be approached by the study personnel and offered enrollment. Informed consent will be obtained. Enrolled patients will undergo clinical evaluation with a detailed medical history including the Borg dyspnea scale, physical examination, laboratory testing including cardiopulmonary biomarkers (brain natriuretic peptide, C-reactive protein, atrial natriuretic peptide), and non-invasive cardiovascular stress MRI and pulmonary physiologic evaluation including spirometry, plethysmography and impulse oscillometry (IOS). Patients with active smoking history and/or asthma will be identified clinically. Cardiovascular MRI will be performed using a 1.5T (Avanto or Espree, Siemens Healthcare) system. Standard cardiovascular techniques will be used for the assessment of myocardial and vascular structure and function, including T1-weighted, T2-weighted, late gadolinium enhancement, cine, tagged and phase contrast imaging in selected planes. Adenosine stress MRI will be performed for evaluation of underlying coronary artery or microvascular disease.