Fate of transposition of the great arteries with pulmonary stenosis after double-root translocation, Rastelli, and Réparation à l’Etage Ventriculaire

Abstract

ObjectivesFor transposition of the great arteries with unrestricted ventricular septal defect and pulmonary stenosis, double-root translocation is reported to reconstruct ideal double artery roots with growth potential. However, prospective long-term studies describing the long-term outcomes are still scarce. Therefore, the aim was to assess development of double artery roots, hemodynamics, and freedom from death and heart failure 17 years after double-root translocation, Rastelli, and Réparation à l’Etage Ventriculaire procedures. MethodsIn this prospective population-based study, 266 patients with transposition of the great arteries/ventricular septal defect/pulmonary stenosis (from July 2004 to August 2021) were consecutively included before surgery. All patients were divided into 3 groups based on the type of operation: double-root translocation (174), Rastelli (68), and Réparation à l’Etage Ventriculaire (24), who accepted postoperative evaluations annually. Generalized linear mixed model analysis was performed to determine growth potential of artery roots. ResultsLongitudinal repeated computed tomography measurements show the pulmonary root has significantly increased diameter (0.62 [0.03] mm/y, P < .001) over time and an adequate Z-score (−0.18) at the last follow-up only in the double-root translocation group. The pressure gradients of double outflow tracts in the double-root translocation group were the least among 3 groups. The probabilities of freedom from death/heart failure at the 15th year were 73.1%, 59.3%, and 60.9% in the double-root translocation, Rastelli, and Réparation à l’Etage Ventriculaire groups, respectively (double-root translocation vs Rastelli, P = .026; double-root translocation vs Réparation à l’Etage Ventriculaire, P = .009; Rastelli vs Réparation à l’Etage Ventriculaire, P = .449). ConclusionsBy reconstructing ideal double artery roots, double-root translocation can provide postoperative long-term excellent hemodynamics and minimal death and heart failure for patients with transposition of the great arteries/ventricular septal defect/pulmonary stenosis.