View clinical trials related to Pulmonary Valve Stenosis.
Filter by:The aim of this study is to compare the effect of different anesthetic drugs used for induction of anesthesia ketamine versus sevoflurane on the RV pressure in pediatrics undergoing balloon dilatation for congenital pulmonary stenosis.
This study investigates damage of the right cardiac chamber in adult patients with a congenital heart defect involving the pulmonary valve (the heart valve between the right cardiac chamber and the lungs). The investigators want to investigate if novel, less invasive techniques are feasible to assess damage of this right cardiac chamber, to improve follow-up and timing of intervention (valve replacement) in this group of patients.
This clinical trial is studying the use of different levels of oxygen exposure during and after cardiopulmonary bypass in eligible infants to learn about its safety during heart surgery. In addition to having the various doses of oxygen, participants will also have blood samples, ultrasounds of the head, and brain wave patterns monitored. The hypotheses of this trial are: - that there will be no difference with regards to adverse events between the infants in the normoxia group compared to the infants in the standard of care group - there will be a significant difference in the measured partial pressure of oxygen (PaO2) values between the two treatment groups. - the use of normoxia during cardiopulmonary bypass and in the immediate post-operative period will result in clinically significant decrease in oxidative stress as measured by thiobarbituric acid reactive substances (TBARS) after cardiac surgery
The purpose of this study is to evaluate the safety and short-term effectiveness of implantation of Transcatheter Pulmonary Valve (TPV) for the treatment of congenital heart disease with pulmonary valve disease.
Long term survival of patients with repaired tetralogy of Fallot is excellent (about 85% at 35 year-old). However these patients are exposed to residual pulmonary stenosis (PS) and/or pulmonary regurgitation (PR). It is well established that these lesions can lead to irreversible sequelae such as right ventricle dilatation and dysfunction. Pulmonary valve replacement technique was developed to avoid long term right ventricular dysfunction. Pulmonary valve replacement indications are based upon the presence of symptoms at exercise and/or morphological or functional parameters such as severe pulmonary regurgitation with right ventricle dilatation/dysfunction. The best timing of such intervention is still underdebate with the main aim of having the right balance between avoiding long term sequelae of PR or PS and being the latter possible to push ahead the need for new intervention. Recent publication showed that myocardial diffuse fibrosis can contribute to irreversible alteration of myocardial contractility. Quantification of diffuse fibrosis by magnetic resonance imaging is feasible and could help the physician to best determine the right timing for PVR in this population of patients. Cardiac function assessment at rest and during exercise is possible using MR and our centre has developed a program for cardiac exercise during MRI. This could help to detect infra clinic abnormality and to analyse myocardial adaptation during exercise.
The Covered Cheatham-Platinum Stent (CCPS) is being study for repair of tears that occur in the pulmonary artery during dilation (enlargement) of a conduit (passageway) connecting the right ventricle of the heart to the pulmonary arteries. Patients undergoing replacement of their pulmonary valve by transcatheter technique Melody Valve) are at risk of developing such tears in the process of preparing the conduit to accept the new valve. In order to implant such a valve, the connection between the right ventricle and the pulmonary arteries often needs to be enlarged. High pressure balloons may be needed and these balloons can sometimes cause tears in or even rupture of the connecting conduit. Such tears can allow blood to flow into the chest and rarely this can lead to a life-threatening emergency. Experience suggests that such tears can be closed by implanting into the conduit a metallic stent with an outer covering, rebuilding the wall and allowing continuation of the valve implant.
The purpose of this registry is to retrospectively and prospectively obtain clinical data in consecutively treated patients, in order to demonstrate that the commercially available Edwards SAPIEN Valve with the RF3 delivery system is a safe and effective treatment for patients with pulmonary regurgitation or stenosis.
The purpose of this study is to collect long-term follow-up data of the CryoValve SG Pulmonary Human Heart Valve.
To assess the safety and effectiveness of pulmonic THV implantation in subjects with dysfunctional RVOT conduit requiring treatment for moderate or severe pulmonary regurgitation (≥3+ pulmonary regurgitation) and/or RVOT conduit obstruction (mean gradient of >=35mmHg) by TTE.
The purpose of this study is to determine if the Medtronic Freestyle porcine valve is effective over a long period of time when it is used to replace the valve that normally allows blood to flow from the right lower pumping chamber of the heart to the lungs.