View clinical trials related to Aortic Valve Calcification.
Filter by:The purpose of this study is to conduct a clinical investigation of the Foldax Tria Aortic Valve to collect evidence on the device's safety and performance.
The study aims to evaluate composition differences of aortic valves in different stages and phenotypes of aortic stenosis using non-invasive imaging and histology.
The goal of the 3D-CARDIOPATH study is to investigate the potential added value of emerging 3D imaging modalities by imaging ex vivo cardiac specimens (diseased coronary arteries, calcific aortic valves, and thrombotic materials) in 3D. Specifically, 20 cadaveric coronary artery segments with advanced atherosclerosis will be received from 10 patients with SCD. These segments will first be scanned with intravascular imaging modalities, namely optical coherence tomography (OCT) and intravascular ultrasound (IVUS), and then with micro-computed tomography (micro-CT) and light sheet fluorescence microscopy (LSFM). Additionally, 30 thrombotic specimens aspirated from patients with ST-elevated myocardial infarction, will also be scanned using micro-CT. Finally, 30 surgically removed aortic valves will undergo scanning with micro-CT and LSFM. Traditional histopathological assessment will also be performed on the scanned specimens. Patient laboratory profiles, past medical histories, demographic characteristics, and therapeutic management will be recorded, where applicable.
Biomarkers and mechanisms in the progression of aortic valve stenosis are sometimes not sufficiently understood. The current project will take into account image morphological and immunological aspects that predict the development of hemodynamically relevant aortic valve stenosis in order to identify high-risk patients and to develop further therapeutic options.
To evaluate the safety and feasibility of DurAVR™ THV System in the treatment of subjects with symptomatic severe native aortic stenosis.
The objective of the study is to evaluate the safety and performance of a new non-invasive ultrasound therapy (NIUT) with Valvosoft in the treatment of Calified Aortic Stenosis
A prospective, non-randomized, single-arm, single-center, first-in-human study designed to evaluate the safety and feasibility of the DurAVR™ THV System in the treatment of subjects with symptomatic severe aortic stenosis.
Aortic stenosis (AS) is the most common valvular heart disease in the developed world. Once symptomatic, untreated patients have a poor prognosis with five-year survival rate of 25%. Once at an advanced stage, AS will lead to the development of left ventricle hypertrophy, and eventually heart failure and death. At-present, there is no effective medical therapy for aortic stenosis. Current management of patients with AS consists of 'watchful waiting'. Valve replacement is needed when these patients (often acutely) become symptomatic. Recent studies have shown that inflammatory processes with similarities to atherosclerosis play an important role in AS. Therefore, we hypothesize that treatment with anti-inflammatory therapy, in the form of colchicine, could reduce the progression of AS. If positive, this trial will be the first to provide a potential therapeutic option for millions of people world-wide with AS.
The ACURATE Neo2 PMCF is aimed at collecting clinical and device performance outcomes data with the ACURATE neo2™ Transfemoral Aortic Valve System as used in routine clinical practice for the treatment of severe calcific aortic stenosis.
Background Calcification of the aortic valve affects more than 26% of adult patients over 65 years of age and is the main indication for valve replacement in the United States of America. Previous evidence shows that aortic valve calcification is an active biological process associated with inflammation. The only actual treatment for severe aortic stenosis is surgical aortic valve replacement (AVR). The materials with which the different types of prostheses are manufactured could induce inflammation per se. Biological prostheses, an incomplete cell removal process and therefore, the presence of residual proteins of animal origin, could induce the immune system's response. In the manufacturing bioprosthesis at the "Ignacio Chávez" National Institute of Cardiology (INC), an evaluation was carried out in the early, and late post-surgical period, it was shown that the inflammatory response after six months is similar to that produced by mechanical prosthesis. This study's main objective is to evaluate the inflammatory response in patients with post-operated AVR due to biological or mechanical prosthetic valve through different plasma biomarkers in long-term follow-up. Research question What is the inflammatory response and calcification in patients who undergo aortic valve replacement for a manufactured prosthesis at the "Ignacio Chávez" National Institute of Cardiology in the long-term follow-up? Hypothesis Manufactured bioprostheses at the "Ignacio Chávez" National Institute of Cardiology show a similar or lower inflammatory response to imported bioprostheses or mechanical prostheses associated with less valve dysfunction and more outstanding durability.