View clinical trials related to Aortic Valve Stenosis.
Filter by:The purpose of this registry is to document the everyday practice in our centers with minimal invasive treatment of patients with aortic valve disease who were considered suitable for transfemoral aortic valve implantation by heart team.
The purpose of this study is to determine why sutureless aortic bioprostheses apparently offer better haemodynamic properties compared to sewed-in aortic bioprostheses in patients who underwent aortic valve replacement. Our approach to address this question is the combination of clinical data with the application of specifically validated experimental and computer based analyses to compare the performance of these valves under patient-specific conditions.
The primary objective of this study is to determine the efficacy, safety and feasibility of next day discharge home in patients undergoing balloon-expandable transfemoral TAVR utilizing the Vancouver 3M Clinical Pathway in low, medium, and high volume North American centres.
Background: - Some people who need a transcatheter aortic valve replacement (TAVR) have leg arteries that are too small and are too sick for standard techniques. But they may benefit from a new technique called transcaval TAVR. For this technique, doctors make a hole between the largest vein (vena cava) and largest artery (aorta) in the body, inside the abdomen. Then they replace the valve through a tube they put in the groin vein. Then they close the hole between the vein and the artery using a device designed to close holes in the heart. This study tests the device for this new, off-label use. Objective: - To further study the safety and effectiveness of transcaval TAVR. Eligibility: - Adults age 21 and older who would benefit from TAVR but for whom standard techniques are not suitable. Design: - Participants will be selected by a team of heart specialists and others. - Participants will have a computed tomography (CT) scan with or without contrast dye. - Participants will have blood tests. - Participants will have transcaval TAVR. - Participants will receive the same standard care as for all patients with TAVR. - Participants will also have another CT scan, or an MRI or ultrasound, before they leave the hospital, and again after about 30 days and after about 12 months. - Participants will be contacted 1 and 6 months afterwards and will have another visit 1 year later. They will have a CT, MRI, or ultrasound. They will have blood tests and a physical exam.
This is a single-center, open-label, randomized controlled trial. Patients scheduled for aortic valve replacement (AVR) at Karolinska University Hospital in Stockholm, Sweden will be eligible. One-hundred patients will be randomly assigned to either partial upper sternotomy (50 patients) or full sternotomy AVR (50 patients). Inclusion criteria is severe aortic stenosis referred for medically indicated isolated aortic valve replacement. Exclusion criteria are inclusion in other trial, left ventricular ejection fraction less than 0.45, previous cardiac surgery, or urgent/emergent surgery. Mechanical and bioprosthetic (stented or sutureless) aortic valves will be implanted. Clinical characteristics will be registered. Clinical postoperative outcomes including bleeding outcomes will be registered. Routine blood sampling will be performed pre- and postoperatively. All available data will be collected prospectively. Informed consent will be obtained from patients meeting the inclusion criteria before the initiation of any study-specific procedures.
Background: The prevalence of both senile cardiac amyloidosis (CA) and aortic stenosis (AS) markedly increases with age. Aortic stenosis increases left ventricular pressure overload. Cardiac deposits have been observed in AS and the amount of these deposits has been correlated to post-surgical outcome. As they are strong echocardiographic and cardiac MRI imaging similarities between CA and AS, the investigators hypothesized that the deposit observed in AS is transthyretin amyloid deposit. The investigators objective is to demonstrate that amyloid deposit is associated with poor outcomes following aortic stenosis surgical valve replacement. Materiel and methods: 180 patients with indication for surgical aortic valve replacement will be recruited prospectively and consecutively in 5 French centers. A replicative study will be performed in one Austrian center. Echocardiography, cardiac MRI and bone scintigraphy will be performed prior to surgery. During surgery, a basal LV septum biopsy will be collected for determination and quantification of interstitial deposits using specific staining which will be performed in a blind fashion. Clinical outcomes will be recorded during the hospitalization period following the surgery and at 1 year. Alive and re-hospitalization status will be determined. Patients will be classified according to the presence or not of amyloid deposits. Expected results and impact: This study will emphasize how pressure overload stress accelerates and magnifies amyloid deposition usually known to be related to cardiac aging process. It will develop reliable imaging tools and markers to detect cardiac amyloid deposition. Correlation between anatomopathologic analyses and the three different imaging technics will identify accurate imaging markers of CA. A risk stratification model based on amyloid deposits level for the clinical management of these patients will be created combining imaging and biological markers.
The SENTINEL Post-Market Registry is a prospective, multi-center, registry using the CE-Marked Sentinel System in subjects with severe symptomatic calcified native aortic valve stenosis indicated for TAVR. Subjects enrolled in the registry will undergo TAVR + Sentinel. Basic demographic information and detailed procedural data will be captured and documented in a registry case report form. All Sentinel filters will be sent for histopathology at an independent core-lab.
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
The purpose of this study is to narrow the gap between patients being diagnosed with severe aortic stenosis and those being appropriately monitored and treated. For this purpose a prospective survey of current practice (3 months) will be conducted followed by a six month period of intervention during which a variety of quality improvements measures will be implemented. There will then be a 3 month follow-up period during which the legacy of this initiative will be monitored during which no intervention will be carried out.
Aortic stenosis is the most common valvular heart disease and an important public-health problem. Surgical or interventional aortic valve replacement are based on symptoms and measures of valvular and ventricular function using echocardiography.There is no uniform pattern of progression. Instead, marked differences not only between individuals, but also during the time course of the disease can be observed. Several prospective studies have been performed to enhance the predictability of disease behavior. Individually it is still prone to large errors and hard to predict aortic stenosis progression. Therefore, in patients with aortic sclerosis without severe stenosis, it is desirable to find a strong predictor of rapid disease progression. This would allow anticipating cardiovascular deterioration by identifying individuals at particular risk. Study Hypothesis In patients with aortic sclerosis, increased serum calcification propensity, as measured by the T50-Test, is related to the amount of stenosis progression in one year.