View clinical trials related to Aortic Valve Stenosis.
Filter by: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.
Obtain safety and effectiveness data to support indication expansion for the Medtronic TAVR System to include patients with moderate, AS.
The study aims to evaluate the processes of a pilot single-centre randomised controlled trial (RCT) of carbon-dioxide flushing of transcatheter aortic valves (TAVI-CO2) versus standard saline flushing of valves (TAVI-S) and assess potential neuroprotection through a number of neurological endpoints for planning of a full-sized RCT
This is an adaptive Phase 2/3 multicenter, double-blind, placebo-controlled, randomized, parallel, 3 arm study to evaluate the efficacy and safety of DA-1229 compared to placebo in patients with calcific aortic valve disease with mild to moderate aortic stenosis. There are 3 arms in this study to which patients will be randomized in a ratio of 1:1:1 to receive the DA-1229 or placebo orally once daily for a period of 104 weeks . the 3 arms are: placebo, DA-1229 5mg GroupDA-1229 10 mg Group. The study will have three phases: Screening Period (up to 4 weeks), Treatment Period (104 weeks), and Follow-Up Period (2-4 weeks). Total Study Duration is112 Weeks.
The purpose of the current study is to assess complete coronary physiology (FFR, RFR, CFR, IMR, and CT-FFR) in TAVI candidates with intermediate coronary artery stenosis before and 6 months after TAVI. This aims to determine how TAVI affects coronary blood flow and coronary microcirculatory function after longer-term follow-up, and how these effects influence FFR and RFR values. In addition, it is aimed to correlate invasive functional testing (FFR and RFR) with non-invasive CT-FFR before and 6 months after TAVI.
Background: Transcatheter aortic valve replacement (TAVR) has become the preferred therapy for aortic stenosis. Given the growing life-expectancy, the risk of requiring coronary interventions or of developing prosthesis degeneration that could require TAVR-in-TAVR for its treatment progressively increases. During standard TAVI procedures the native and the prosthesis commissures are randomly aligned with misalignment in up to 70% of the cases. This might hinder coronary re-access in 18% of the cases, increase the risk of coronary obstruction during future TAVR-in-TAVR procedures, and has been associated to greater residual gradients. Methods: Although several techniques have been developed to increase the degree of commissural alignment, all are imperfect or imply manipulation of the system within the patient, potentially increasing the risk of complications. The research team developed a software based on computed tomography analysis that allows planification of accurate commissural alignment by inserting the delivery system in a patient-specific degree of rotation. Aim: The proponent team aimed to prospectively validate this methodology comparing a cohort of patients harboring TAVR with Acurate Commissural Alignment (ACA) vs. a control cohort with non-ACA standard technique, in order to determine benefits in terms of coronary re-access and clinical events (coronary events, valve degeneration, and TAVR-in-TAVR).
TAVR patients exhibiting post-procedural residual AR had higher mortality and hospitalization rates due to heart failure, with the extent of this association increasing proportionally to the severity of the regurgitation. Optimizing transcatheter valve performance by intra-procedural hemodynamic evaluation of AR and residual transvalvular gradient remains of high clinical importance.
The aim of this trial is to evaluate the safety and cost effectiveness of omission of percutaneous coronary intervention of significant coronary artery disease in patients scheduled to undergo transcatheter aortic valve implantation.
In this study it is aimed to determine the diagnostic value of physiological measurements in the presence of aortic stenosis, and whether these are more accurate than angiographic assessment. Post-TAVR FFR will be taken as the reference for predicting ischemic lesions, and angiography and physiology - FFR and diastolic pressure ratio (dPR) - will be performed immediately before and after TAVR, in an all-comer multicentric observational study.
The ART-VR Trial is an international multi-center, open label, randomized controlled trial evaluating the effect of an immersive VR environment on procedural anxiety in patients undergoing transfemoral aortic valve replacement (TAVR) under local anaesthesia.