View clinical trials related to Aortic Stenosis.
Filter by:Angiogenesis and fibrosis lie at the heart of a number of fundamental processes responsible for cardiovascular disease. In this proposal, the investigators intend to build upon a highly successful programme of studies exploring the cardiovascular applications of positron emission tomography. Specifically, the investigators will explore the potential role of a novel radiotracer, 18F-fluciclatide, which is a highly selective ligand for the αvβ3 and αvβ5 integrin receptors that are up regulated during angiogenesis, and tissue fibrosis and remodelling. This tracer has been successfully used to assess angiogenesis in metastatic tumours and its uptake is suppressed by anti-angiogenic therapies. The investigators here propose to describe the pattern of uptake of 18F-fluciclatide in cardiovascular diseases, specifically aortic stenosis and aortic atherosclerosis. The investigators will correlate 18F-fluciclatide uptake with in vivo measures of angiogenesis and fibrosis as well as ex vivo histological characterisation of tissue. If successful, this novel radiotracer could provide an extremely important non-invasive method of assessing in vivo angiogenesis, plaque vulnerability, and tissue remodelling as well as potential applications in developing stem cell therapies.
Our main hypothesis on the present study is that new parameters such as risk-taking behavior, patients motivation, health related quality of life, new biomarkers and more precise echocardiography measures in addition to traditional parameters will improve pre-operative risk assessment in patients with AS and better guide patients and doctors in decision whether to operate or not.
In patients with aortic stenosis the valve through which blood is pumped out of the main heart chamber is narrowed. This results in heart muscle working harder to open the valve so blood can circulate around the body. The muscle adapts to the increased pressure load to maintain efficiency. This can cause long-term muscle damage. To predict when this deterioration will require a valve replacement is difficult and untimely operation exposes patients to unnecessary risk. We aim to compare all validated techniques looking at different aspects of heart muscle strain in these patients. These will be a blood sample measuring a specific hormone (BNP) and enzyme (Troponin), a nuclear scan to assess nerve activation, an MRI identifying scarring and an exercise echocardiogram that measures heart muscle response and pressure changes across the valve. Tests will be performed at recruitment and either after one year or after valve replacement, which ever comes first. In comparing these different imaging techniques we aim to identify patients who will benefit from an early operation, those whose muscle is likely to recover back to normal and which patients it is safe to wait longer for the surgery, avoiding unnecessary risk. The results of the study will benefit patients as it will help doctors more accurately assess the timing of valve surgery and improve their prediction of long term heart muscle recovery. It may also increase convenience in clinical management by reducing unnecessary tests and hospital trips. This would translate into cost savings for the NHS.
The objective of this trial is to confirm that the modifications to tissue processing, valve sterilization and packaging do not raise any new questions of safety and effectiveness in subjects who require replacement of their native or prosthetic aortic or mitral valve.
Aortic stenosis is the most common adult valvular heart disease in the western world. Heart failure and sudden cardiac death are complications associated with aortic stenosis. In symptomatic individuals, valve replacement is often the only effective treatment. However, there are no good markers to identify patients who may benefit from early surgery before symptoms developed. The purpose of the study is to test the hypothesis that the presence heart muscle scarring on the cardiac magnetic resonance imaging may predict a worse outcome in patients with aortic stenosis, and thus may be helpful in identifying patients for early valve replacement.
The purpose of this study is to investigate if methylprednisolone is effective in reducing the cerebral inflammatory response after open heart surgery with cardiopulmonary bypass.
The primary aim of the present study was to examine the haemodynamic changes in primary hypertension and secondary hypertension (renal diseases, endocrine diseases, obesity-associated hypertension) with a non-invasive haemodynamic measurement protocol utilizing radial pulse wave analysis and whole-body impedance cardiography in both supine position and during head-up tilt. For comparison, haemodynamics of subjects with chronic fatigue syndrome will also be recorded.
For fetuses with severe aortic stenosis, in utero balloon aortic valvuloplasty may improve fetal growth of left heart structures and thus improve potential for biventricular repair strategies after birth.
This study is intended to collect data regarding the clinical utility, safety and performance of the Medtronic CoreValve® System for Transcatheter Aortic Valve Implantation (TAVI) in patients with severe symptomatic aortic valve stenosis for which treatment via direct aortic access (DA) is selected.
This is a pilot prospective, comparative, monocentric, randomized study with 2 groups. People with a severe aortic stenosis and a high risk of surgery are referred to a Trans catheter aortic valve implantation (TAVI).