Tetralogy of Fallot Clinical Trial
Official title:
Randomized Trial of Pulmonary Valve Replacement in Tetralogy of Fallot
Repair of tetralogy of Fallot (TOF), the most common form of cyanotic congenital heart disease, usually involves surgery on the outflow of the right ventricle (RV) and the pulmonary valve in order to relieve obstruction to blood flow from the RV to the lungs. This procedure often leads to regurgitation (leakage) of the pulmonary valve, which puts the burden of handling a larger than normal amount of blood flow on the RV. Over the years, that extra burden leads to enlargement of the RV and to a decrease in its function. Treatment often includes surgical insertion or replacement of a new pulmonary valve. Replacement of the damaged pulmonary valve aims to minimize the leakage and help the RV function better. This study is designed to compare two methods of how the operation (called pulmonary valve replacement [PVR]) is performed. In the first method, a new valve is inserted and only the area of the old valve is operated on; this is the standard PVR. The second method involves inserting the new valve in the same way as the standard method but, in addition, areas of the right ventricular wall that are scarred and not functioning well are removed (PVR plus right ventricular remodeling). This study will evaluate which method is more effective based on the size and function of the RV measured by cardiac magnetic resonance imaging (CMR) six months following surgery, as compared to its size and function before the operation.
Background:
Surgical repair of TOF often results in chronic pulmonary regurgitation (PR) with associated
RV dilatation and dysfunction. Mounting evidence indicates that PR leads to significant
long-term morbidity and mortality, including arrhythmias, sudden death, and right heart
failure. Using CMR, there is a high prevalence of regional dysfunction and aneurysms in the
RV in patients with repaired TOF. Current standard clinical practice in patients with
repaired TOF, severe PR, ventricular dysfunction, and/or clinical deterioration is to insert
a bioprosthetic pulmonary valve to reduce the volume load on the RV. Although PVR can be
achieved with low mortality, research has shown a persistent or worsening RV dysfunction
postoperatively, despite a competent pulmonary valve. In patients with left ventricular (LV)
aneurysms, surgical remodeling with aneurysm resection has been shown to improve LV
mechanics. In view of the potentially deleterious effects of aneurysmal and akinetic wall
segments on RV mechanics, researcher have recently modified their PVR surgical technique in
selected patients to include surgical remodeling of the RV with resection of the akinetic
wall segments. However, no studies have systematically compared the efficacy of PVR plus
surgical RV remodeling to PVR alone.
Research Question:
Is there a difference between two surgical strategies—PVR alone (bioprosthetic pulmonary
valve insertion and, when present, resection of right ventricular outflow tract [RVOT]
aneurysm) versus PVR and surgical RV remodeling (bioprosthetic pulmonary valve insertion and
resection of akinetic scarred areas on the anterior RV wall to reduce RV volume)—on RV
mechanics and on the incidence of adverse events in patients with repaired TOF and chronic
pulmonary regurgitation?
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Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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