View clinical trials related to Aortic Valve Stenosis.
Filter by:The objective of the PORTICO pivotal IDE trial is to evaluate the safety and effectiveness of the St Jude Medical (SJM) Portico Transcatheter Heart Valve and Delivery Systems (Portico) in the treatment of severe symptomatic aortic stenosis via transfemoral and alternative delivery methods in high risk and extreme risk patients.
The study purpose is to evaluate the safety and feasibility of the CORolla™ TAA in two treatment groups, "CORolla™ Stand-alone group" and " AVR & CORolla™ Add on group".
This project focuses on the physiopathology of left ventricular remodeling associated with type II diabetes in patients with aortic valve stenosis referred for surgical aortic valve replacement. The main objective is to compare the reverse left ventricular remodeling between patients with type II diabetes and case-control patients without diabetes at one(1) year after surgical aortic valve replacement. The secondary objectives are : 1. assess the influence of type II diabetes on left ventricular remodeling in patients presenting with aortic valve stenosis, 2. assess the predictive value of myocardial fibrosis and other LV characteristics present prior to aortic valve surgery on the LV reverse remodeling and their influence on cardiovascular events at one (1) year after surgery, 3. assess the influence of type II diabetes on cardiovascular morbidity and mortality post aortic valve surgery. The investigators main hypothesis is that patients with type II diabetes and aortic valve stenosis requiring aortic valve replacement have poorer LV function and less favorable post surgery clinical outcomes than patients without type II diabetes.
The purpose of this postmarket Registry is to assess the standard of care and clinical outcomes of the Direct Flow Medical Transcatheter Aortic Valve System used in clinical routine according to the approved commercial indications. Procedures and assessments required by this registry are generally considered standard of care for Transcatheter Aortic Valve Replacement patients. Evaluation criteria will be the incidence of mortality/morbidity and adverse events clinical performance, and hemodynamic performance of the DEVICE via ultrasound (echo) and angiographic imaging.
Low-flow, low-gradient (LF-LG) aortic stenosis (AS) may occur with depressed (i.e. Classical LF; CLF) or preserved (i.e. Paradoxical LF; PLF) LV ejection fraction (LVEF) and both situations are amongst the most challenging encountered in patients with valvular heart disease. Although, CLF-LG AS is recognized has an important clinical entity, current ACC/AHA-ESC guidelines however do not provide precise recommendations for clinical management of these patients . PLF-LG AS is a new entity recently described by our group, which is characterized by more pronounced LV concentric remodeling with smaller LV cavity size and a restrictive physiology leading to impaired LV filling, altered myocardial function, and a low-flow state. Up to recently, this entity was often misdiagnosed, leading to underestimation of AS severity and inappropriate delays for aortic valve replacement surgery (SAVR). The two main challenges in patients with CLF- or PLF- LG AS are to distinguish between a true-severe (TS) versus a pseudo-severe (PS) stenosis and to accurately quantify the extent of myocardial impairment. Unfortunately, the traditional resting and stress echocardiographic parameters currently used to assess the severity of valvular and myocardial dysfunction in patients with LF-LG AS are far from being optimal, and as a consequence, quantification of disease severity and therapeutic management may not be appropriate in a substantial proportion of these patients. THE GENERAL OBJECTIVES of the TOPAS study are to develop and validate new parameters and biomarkers to improve the assessment of stenosis severity and myocardial impairment, the risk-stratification, and the clinical decision making in patients with LF-LG AS and to assess the impact of the different therapeutic strategies on patient outcomes.
The aim of this study is to assess the possible neuroprotective effects of cooling (targeted cooling of the brain to 33°C) during Transcatheter Aortic Valve Implantation (TAVI) procedures. From start of anesthesia, until final valve implantation, local cooling (by the RhinoChill device) will be applied to the brain. Effect of cooling on cerebral oxygenation, by cerebral oxygen saturation monitoring (NIRS ForeSight technology) during the TAVI procedure will be continuously assessed during native valve manipulation and during final valve deployment (=primary endpoint of he study). As secondary endpoints, neuropsychological testing performed before and after TAVI procedure will assess the effects of the use of cooling during the TAVI procedure. Neuron-specific enolase (NSE) and S100-beta will be analyzed during and up to 72hrs after TAVI to compare the cerebral ischemic damage between cooled and non-cooled patients. And finally, diffusion-weighted MRI of the brain will be performed 5 days before and 5-7 days after TAVI to compare the number and total amount of cerebral ischemic insults between cooled and non-cooled patients. The hypothesis behind this study is that by local cooling of the brain during manipulation of the calcified aorta and aortic valve, the brain might be protected from cerebral ischemic insults.
Transcatheter aortic valve implantation (TAVI) is an emerging alternative therapy for aortic stenosis for patients ineligible for open heart surgery or at high risk for perioperative complications. Pre-procedural imaging of the aortic root is essential for selection of the correct valve prosthesis and to minimize complications as prosthesis mismatch, possibly subsequent embolization, coronary obstruction, annulus rupture or severe aortic regurgitation. The aim of the study is to compare the different imaging modalities for aortic root measurements. Aortic root imaging will be performed prior to TAVI-procedure. The contrast injection will be performed either into the aorta or into the left ventricle. The datasets will be assessed by blinded-independent observers in a multi-planar reconstruction view. The study will be performed retrospectively (2009-2012) and prospectively starting 2013.
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.
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.
The TVT Registry™ is a benchmarking tool developed to track patient safety and real-world outcomes related to the transcatheter aortic valve replacement (TAVR) procedure. Created by The Society of Thoracic Surgeons (STS) and the American College of Cardiology (ACC), the TVT Registry is designed to monitor the safety and efficacy of this new procedure for the treatment of aortic stenosis.