View clinical trials related to Aortic Valve Stenosis.
Filter by:This is a prospective, open, single arm, multi-center clinical study in China. The primary objective of this study is to demonstrate the safety and effectiveness of the PERCEVAL S heart valve when used to replace a diseased native or malfunctioning prosthetic aortic valve in the indicated Chinese population for tissue heart valve replacement and suitable to the PERCEVAL S valve. The secondary objectives are to collect all relevant device and subject demographics, procedural and hospital discharge, short and long-term data, as described in the secondary endpoints section.
This study will confirm the procedural safety and performance of the SAPIEN 3 Ultra System in subjects with severe, calcific AS who are at intermediate operative risk for standard aortic valve replacement.
The PACO trial is a randomized clinical trial conducted in Heart Centers of Kuopio and Turku university hospitals. The coronary artery disease, aortic valve stenosis and mitral valve insufficiency patients preparing for elective coronary artery bypass grafting (CABG), aortic valve replacement (AVR) or mitral valve repair (MVR) will be randomized to either intervention or control group. The specific operation groups (CABG, AVR and MVR) will be analyzed separately. The 7-day baseline measurements of sedentary behaviour (SB), physical activity (PA) and sleep will be conducted to the patients by using the RM42 accelerometer during the pre-operative month. After the cardiac procedure is completed and the patient is moved to post-operative ward, the control group patients will begin the standard post-operative rehabilitation program of the participating hospitals (activity guidance given by a physiotherapist). Patients in the intervention groups will follow the identical program but after discharge they will also receive personalized activity guidance through the combination of ExSed smart phone application, Suunto MoveSense accelerometer and cloud system during the first 90 days of post-operative rehabilitation. Weekly evolving daily goals to replace SB with PA (daily goals for steps, moderate PA, light PA and standing, and sitting time limit) will be designed for each patient of the intervention groups. A new daily step goal will be delivered from the cloud system to the patient's smart phone in the beginning of each week of the intervention. The daily step goal of the first intervention week is based on patient's walking distance assessed by a physiotherapist in post-operative ward. The following goals will be automatically evolved in the basis of patient's personal average step count of the previous week. The MoveSense accelerometer will measure accumulated levels of SB, PA and sleep, and transmit the data to user's ExSed application with Bluetooth. With information about accumulated levels of SB and PA, the application is able to guide the patient to accomplish the predefined activity goal. The guidance and motivation will be offered with pop-up notifications and histograms (columns are fulfilled according to patient's accumulated daily activity). The researches retain a remote access to the activity data of patients in the cloud system. The ExSed application will be connected to the cloud system with internet connection. In addition, the patients of the intervention groups will receive short video files (lasting from 1 to 3 minutes) containing exercise guidance from a physiotherapist specialized to cardiac operation patients. These videos are available on the ExSed application during the intervention. The physiotherapist will also contact each patient (by mobile phone) with structured contact form from 1 to 4 times in a month to make sure that the intervention is proceeding as designed.
To evaluate the safety and effectiveness of the SAPIEN 3 (Edwards Lifesciences, Irvine, California) transcatheter heart valve implantation (TAVI) in Chinese patients with symptomatic severe calcific aortic stenosis who are considered at high risk for surgical valve replacement.
The diagnosis of valvular heart disease (VHD), or its absence, invariably requires cardiac imaging. A familiar and inexpensive tool to assist in the diagnosis or exclusion of significant VHD could both expedite access to life-saving therapies and reduce the need for costly testing. The FDA-approved Eko Duo device consists of a digital stethoscope and a single-lead electrocardiogram (ECG), which wirelessly pairs with the Eko Mobile application to allow for simultaneous recording and visualization of phono- and electrocardiograms. These features uniquely situate this device to accumulate large sets of auscultatory data on patients both with and without VHD. In this study, the investigators seek to develop an automated system to identify VHD by phono- and electrocardiogram. Specifically, the investigators will attempt to develop machine learning algorithms to learn the phonocardiograms of patients with clinically important aortic stenosis (AS) or mitral regurgitation (MR), and then task the algorithms to identify subjects with clinically important VHD, as identified by a gold standard, from naïve phonocardiograms. The investigators anticipate that the study has the potential to revolutionize the diagnosis of VHD by providing a more accurate substitute to traditional auscultation.
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.
This study evaluated effectiveness and safety of aortic valve replacement in real-world clinical practice.
The objective of CAREBANK study is to establish definitive relationships with human cardiac samples and clinical phenotypes in patients undergoing cardiac procedures. Specifically, the investigators aim at comparing atrial phenotypes from atrial fibrillation patients and controls. The work consists of three broad categories: A) role of atrial cardiomyopathy in atrial fibrillation; B) genetic defects predisposing to atrial fibrillation; and C) the role of inflammation in atrial fibrillation.
Coronary artery blockages can reduce blood flow to the heart muscle. Fractional flow reserve (iFR or FFR) assessment is an invasive tool used to determine how much blood flow is reduced. The investigators will perform iFR/FFR on all intermediate coronary stenoses using standard practice, immediately before (at the time of) transcatheter aortic valve replacement (TAVR) and after successful TAVR. The investigators will compare pre- and post-TAVR iFR/FFR values, and assess short-term outcomes. The investigators hypothesize that iFR/FFR values will be consistently and significantly higher pre-TAVR in comparison with post-TAVR for the same lesions.
Background: Transcatheter aortic valve replacement (TAVR) is a non-surgical alternative to standard surgical aortic valve replacement. Not all patients are eligible for TAVR using standard access through the artery in the groin, because the artery is too small or too diseased. In this study, TAVR is performed using a new technique called transcaval access. The catheter is placed in the artery deep in the body by crossing through the wall of a deep vein. The connection between that vein and the aorta is closed with a new metallic device they are testing. This is called a transcaval closure device (TCD). Objective: To test the safety and early feasibility of closure of transcaval aortic access sites using the TCD after TAVR. Eligibility: Adults ages 21 and older undergoing TAVR for whom the procedure cannot be performed safely by the standard artery approach Design: Participants will be assessed by heart experts including cardiologists and surgeons. Participants will have TAVR by the transcaval approach. A small catheter will be passed between the largest vein in the body and the nearby largest artery (aorta), inside the abdomen. Through this catheter, the TAVR will be implanted in the usual way. After, doctors will implant the TCD by catheter to close the hole made in the aorta. Participants will be X-rayed. A dye will be injected to view the TCD device. Participants will get standard TAVR care afterwards. They will have physical exams, blood tests, and scans. Participants will have a follow-up scan within 1 month and after 12 months. Participants will have follow-up visits and phone calls 6 and 12 months after the procedure.