Active clinical trials for "Aortic Valve Stenosis"

This is a pre-market clinical investigation aiming to evaluate the safety and effectiveness of MicroPort™ CardioFlow VitaFlow™ Transcatheter Aortic Valve System for the treatment of severe aortic stenosis.

Transcatheter aortic valve replacement (TAVR) has a high risk and a high mortality rate in the treatment of aortic stenosis/regurgitation patients with cardiac insufficiency. The investigators aim to discuss the clinical efficacy of extracorporeal life support system(ECLS) during TAVR procedure in severe aortic lesion under very low ejection fraction (EF).

The consequence of aortic valve stenosis (AVS) is increased pressure load on the left ventricle which causes left ventricular (LV) hypertrophy, and myocardial stretch will cause activation of cardiac peptides and activation of the renin angiotensin aldosterone system (RAAS). The consequence of LV hypertrophy is increased chamber-stiffness and delayed active LV relaxation which initially will cause diastolic and later systolic dysfunction. In heart failure (HF) and ischemic heart disease the degree of diastolic dysfunction has been demonstrated to correlate with functional class, neurohormonal activation and prognosis which also recently have been suggested for AVS. With longstanding elevated filling pressures the left atrium (LA) will dilate. Only limited data are available on the degree and importance of LA dilatation in AVS. When apparent, symptoms of HF in AVS are associated with high mortality rates. If LV systolic dysfunction also is present prognosis will deteriorate further. In these cases aorta valve replacement (AVR) is recommended. AVR will normalize pressure overload and thereby decreases LV hypertrophy. Previously it was believed that in time LV hypertrophy regressed towards normal and even normalized. Recent studies however have demonstrated that LV hypertrophy regression mainly happens during the first year after AVR, and little subsequent changes are seen during the remaining 10 years. Furthermore, patients that experience most regression of hypertrophy have more favourable outcome and better functional class than patients with less regression of hypertrophy. Thus absence of reverse remodelling is associated with poor outcome after AVR. Importantly the regression of LV hypertrophy is closely paralleled by decreasing RAAS hyperactivity. RAAS hyperactivity may be attenuated pharmacologically with angiotensin II receptor blockers (ARB) which in systemic hypertension with LV hypertrophy has been associated with reverse remodelling. The hypothesis is that in patients undergoing AVR for symptomatic AVS, 12 months post operative blockade of the angiotensin II receptor will accelerate LV and LA reverse remodelling, reduce filling pressures and suppress neurohormonal activation compared with conventional therapy. This will lead to improved exercise tolerance and due to improved left atrial function reducing the risk of atrial arrythmias.

Optimize a candidate software algorithm using data collected with the Vivio system for use as an aid in the identification of heart sounds associated with severe aortic stenosis

Aortic valve disease is the most common form of heart valve disease and is a major burden to society. Aortic valve disease is also expected to become more prevalent with the aging of the Canadian population. Currently, over 1 million individuals in North America have aortic stenosis, which is a narrowing of the aortic valve, and leads to symptoms of heart failure and sometimes death. Valve replacement with its potential costs and complications remains the only avenue for treatment, once symptoms develop. Despite the major importance of this disease, there are currently no medical treatments to prevent the development of aortic stenosis.The lack of preventative treatments stems in large part to a poor understanding of the causes of this disease. Using cutting-edge genetic technologies, the investigators have recently identified that individuals with a genetic predisposition to elevations in a type of cholesterol not normally screened, called lipoprotein(a), have a much higher risk of developing aortic valve disease. The investigators have also shown that lipoprotein(a) causes hardening of the valve, a very early sign of valve narrowing. The investigators plan to evaluate in a randomized controlled trial whether lowering this unusual form of cholesterol at an early stage of this disease could slow or stop the development of aortic valve narrowing The investigators are currently proposing a pilot project to evaluate the feasibility of this type of study. If successful, our proposed treatment would be notable in two ways. First, it would represent the first medical treatment to prevent valve disease, which could lead to major reductions in the societal burden of this important disease. And second, it would herald a major success for genomic medicine as it would represent one of the first treatments borne from recent genetic studies. In these ways, our proposal could significantly impact the health of many Canadians while also highlighting the innovative research performed in Canada. Recruitment (n=238) for this project will be from the echocardiography laboratories of McGill University affiliated hospitals. Individuals with aortic sclerosis or mild aortic stenosis (aortic valve area [AVA] >1.5 cm2, mean gradient [MG] < 25 mmHG) and high Lp(a) will be eligible for inclusion into this proposed study.

First-in-Human clinical investigation to evaluate the safety and clinical performance of the BIOVALVE prosthesis in subjects presenting with severe symptomatic aortic valve stenosis, which are as judged by the heart team, indicated for transfemoral transcatheter aortic valve implantation

To confirm the safety and efficacy of the Lotus™ Valve System in the Chinese population for Transcatheter Aortic Valve Implantation (TAVI) in symptomatic patients with severe aortic stenosis.

Pilot interventional study, without drug, randomized 1: 1, open-label comparison of efficacy and safety between the technique of percutaneous balloon aortic valvuloplasty without rapid ventricular pacing vs valvuloplasty during rapid ventricular pacing (using a temporary pacemaker device with CE mark). It is expected to enroll 100 patients. Randomization is done through a dedicated computer program.

This study will be evaluate the autonomic, endothelial and hemodynamic functions, inspiratory muscle strength, peripheral tissue oxygenation, peripheral and respiratory muscle architecture, and inflammatory profile of severe AS patients submitted undergoing to valve replacement (sAVR) or transcatheter aortic valve implantation (TAVI), and their influence on the pathophysiological mechanisms involved in cardiovascular rehabilitation.

The purpose of this registry is to collect specific health and patient data to identify more precisely the patient population undergoing TA aortic valve replacement with the ACURATE neo™ Aortic biprosthesis and ACURATE neo™ TA Transapical Delivery System. Safety and efficacy data will be collected to support the commercial use of the ACURATE neo™ Aortic Bioprosthesis and ACURATE neo™ TA Transapical Delivery System in a specific TA population. As per IFU, the ACURATE neo™ and its ACURATE neo™ TA Delivery System are intended for use in minimally invasive, transcatheter aortic valve replacement using transapical access in patients presenting with severe aortic valve stenosis.