ObjectiveTo assess the function of left ventricular outlet tract and aortic valve after arterial switch operation (ASO) for patients with transposition of the great arteries (TGA) and left ventricular outlet tract obstruction (LVOTO). MethodsFrom 2002 to 2013, 549 pediatric TGA patients received ASO in Fu Wai Hospital. Among them, 42 patients had LVOTO, including 31 males and 11 females with their median age of 12 months (range, 7 days to 96 months), median body weight of 6.5(3.5-26.0) kg and percutaneous oxygen saturation of 52%-85%. LVOTO anomalies included pulmonary valve stenosis, subaortic membrane, tunnel-like subaortic stenosis, muscular subaortic stenosis, subvalvular apparatus and combined anomalies. Different surgical procedures were performed according to respective anomalies. Echocardiographic characteristics, intraoperative findings, surgical methods, early and follow-up results were summarized. ResultsCardiopulmonary bypass time was 147-344 (193.5±73.1) minutes, mean aortic cross-clamping time was 139(109-305) minutes, mean mechanical ventilation time was 36(3-960) hours, and mean length of ICU stay was 5(1-48) days. Three patients received and later successfully weaned from extracorporeal membrane oxygenation. Two patients died postoperatively including 1 patient with multiple organ dysfunction syndrome and another patient with severe infection. One patient died during follow-up for unknown reason, and 3 patients were lost during followup. Thirty-six patients were followed up for 24 (3-116) months. During follow-up, there were 1 patient with LVOTO recurrence, 1 patient with new-onset mild aortic valve stenosis, 11 patients with new-onset mild aortic regurgitation (AR), and 2 patients with new-onset moderate AR. Median systolic left ventricular-aortic pressure gradient[4 (2-49) mm Hg] was significantly lower than preoperative value[37.2 (12.1-70.6) mm Hg] (Z=-5.153). Cardiac event-free rate was 91%±5% at 1 year and 78%±8% at 5 years after discharge. ConclusionFor TGA patients with LVOTO, ASO can produce satisfactory mid-and long-term results if proper surgical indications and strategies are chosen according to different severity of LVOTO which can be evaluated by anatomic features of TGA and systolic left ventricular-aortic pressure gradient.
ObjectiveTo examine changes of in-hospitalization mortality for arterial switch operation (ASO) for the patients with D-transposition of the great arteries (TGA) in our hospital. MethodsWe retrospectively analyzed the clinical data of 473 consecutive TGA patients undergoing ASO to assess temporal trends of in-hospital mortality between 2001 and 2012 year. The patients in every 2 years were brought together into a group. By this way, all the patients were divided into 6 groups. In risk-adjusted analyses, mortality of each group between 2001 and 2012 year were compared within the 6 groups. ResultsAmong all the patients, 29 in-hospital deaths occurred. Between 2001 and 2012 year, the prevalence of preoperative factors-including age (P=0.13), gender (P=0.94), height (P=0.29), weight (P=0.21), combined with pulmonary hypertension (P=0.59), training for left ventricle (P=0.14), and anatomy of coronary arteries (P=0.27) did not significantly change. Crude mortality significantly decreased during that period (17.4% in the first group vs. 4.1% in the sixth group, P<0.001). Adjusted mortality also significantly became better in the ten years (the sixth group vs. the first group, odds ratio 0.098, 95% confidence interval, 0.018-0.550,P=0.01). ConclusionBetween 2001 and 2012 year, the prevalence of risk factors among TGA patients undergoing ASO remains unchanged, but the in-hospital mortality substantial decreases.
Objective To evaluate the efficacy of 3-dimensional printing model (3DPM) aiding decision making and surgery rehearsal for the treatment of double outlet right ventricle (DORV) with non-committed ventricular septal defect (NC-VSD). Methods From January 1st, 2012 through December 30th, 2014, 12 patients with DORV and NC-VSD were operated with the aid of “3DPM guidance” to do decision making and surgical technique rehearsal preoperatively. There were 9 males and 3 females at age of 2.9±2.2 years. The “3DPM guidance” consisted of step by step procedures: computerized tomography (CT) scan for the patients, CT based 3DPM rendering, 3DPM exploration, decision making, and surgery rehearsal. During surgery rehearsal, surgeons did patch designing, VSD enlargement planning, muscle bundle resection etc. Eight out of the twelve patients underwent biventricular repair, 4 patients underwent single ventricle repair. Six of the eight biventricular repair patients had intra-ventricular baffle repair, 1 patient had intra-ventricular baffle repair and arterial switch procedure, 1 had modified Nikaidoh procedure. VSD enlargement was performed in all the patients in biventricular repair group. The reasons not to do a biventricular repair included very restrictive VSD, tricuspid attachments across the sub-aortic passway. Results The operation findings correlated well with the 3DPM in all the cases. There was no hospital death, no major complication. One patient had a mild sub-aortic stenosis and he was under close follow-up. There was no late death and reoperation. Surgeons involved were satisfied with the “3DPM guidance”. Conclusions 3-D printing model is an excellent way to help decision making for DORV with NC-VSD and can provide surgery simulation which decrease complication rate and help achieve good outcomes.