Objective To summarize the clinical experiences of using the remaining coronary buttons to reconstruct the neoaortic root in the arterial switch operation (ASO) and discuss the clinical significance of preserving the morphology of aortic sinus in improving postoperative coronary artery perfusion. Methods From January 2003 to June 2009, 110 patients with transposition of great arteries (TGA) combined with ventricular septal defect (VSD ) or the Taussig Bing anomaly treated in our hospital were enrolled in this study. The patients were at the age between 2 days and 2 years averaged 91.1 days, and their body weight varied between 1.79 and 9.50 kg with an average weight of 4.70 kg. The patients were divided into two groups based on different surgical strategies. For group A (n=78), we reconstructed the neoaortic root with the remaining coronary buttons by shortening the diameter of the proximal neoaorta. While for group B (n=32), we excised the remaining coronary buttons with the aortopulmonary diameter mismatched. The risk factors of hospital mortality were analyzed with stepwise logistic regression. Results Twelve patients died early after operation with a death rate of 10.9% (12/110). Mortality in group A was significantly lower than that in group B [6.4%(5/78) vs. 21.9%(7/32),P= 0.019]. Clinical followup was completed in 72 survivors with the followup time of 3 months to 5 years after operation. Late death occurred in 3 patients including 1 in group A and 2 in group B. Five patients underwent reoperations. Univariate logistic regression analysis showed that risk factors for early postoperative death were TaussigBing anomaly (χ2=4.011,P=0.046), aortic arch anomaly (χ2=4.437,P=0.036), single coronary artery pattern (χ2=5.071,P=0.025) and patients in group B (χ2=5.584, P= 0.019). Multivariate analysis confirmed that the aortic arch anomaly (χ2= 5.681, P=0.010 ) and patients in group B (χ2=3.987, P=0.047 ) were two independent risk factors for early mortality after operation. Conclusion The modified technique which uses the remaining coronary buttons to reconstruct the neoaortic root can preserve the morphology of neoaortic root better. The special anatomical morphology of aortic sinus has close relation to the perfusion of coronary arteries. The lowering hospital mortality may be due to the better perfusion of the coronary arteries.
Objective To analyze the growth of anastomotic stoma of aortic(AO) and pulmonary artery (PA) after arteries switch operation(ASO) so as to assess the longterm efficacy of ASO . Methods The data of 331 patients who had undergone ASO in Shanghai Children’s Medical Center of Jiaotong University from December 1999 to December 2007 was analysed retrospectively. One hundred eleven patients had complete transposition of great arteries complicated with intact ventricular septum(TGA/IVS), 123 had complete transposition of great arteries complicated with ventricular septal defect(TGA/VSD), 73 had TaussigBing complicated with ventricular septal defect and pulmonary hypertension, and 24 underwent StageSwitch. Of the 331 patients 228 were followedup, and the followup time was 20.4±18.6 months. There were 752 ultrasonic cardiograph reports, 3.3per patient on average. The growth of anastomosis was analysed according to the diameters of AO and PA. Results The AO and PA anastomosis diameters of TGA/IVS patients(before discharge 0.74±0.17 cm and 0.65±0.13 cm, latest followup 1.09±0.31cm and 0.84±0.21 cm), TGA/VSD patients (before discharge 0.76±0.20 cm and 0.63±0.14 cm, latest followup 1.09±0.24 cm and 0.82±0.22 cm) and TaussigBing patients(before discharge 0.84±0.25 cm and 0.74±0.20 cm, latest followup 1.05±0.30 cm and 0.85±0.24 cm) growed significantly(Plt;0.05). The AO anastomotic stoma diameters of patients who had underwent StageSwtich (before discharge 0.93±0.19 cm, latest followup 1.19±0.29 cm) growed significantly(Plt;0.05). The PA anastomotic stoma diameter growed(before discharge 0.90±0.27 cm, latest followup 1.00±0.32 cm), but had no statistical significance (P>0.05). Till November 2008, Six patients needed reoperation because of the right or left ventricle outflow tract obstruction. After reoperation, 3 had no residual obstruction, 3 had residual obstruction. Conclusion After the section and suture of ASO, aortic and pulmonary artery can grow with age, but sometimes stenosis happens to some patients. During the followingup, some patients need reoperation.
Objective To analyze the outcome of arterial switch operation (ASO) for surgical repair of complete transposition of the great arteries (TGA), and to investigate the risk factors influencing the mortality of ASO. Methods The clinical data of patients suffered from TGA and treated with ASO from the January 2003 to December 2004, and the clinical records in hospital including eehoeardiogram and operation record were collected. The clinical data were analyzed by chi-squared test and logistic muhivariable regression analysis, including the age undergone operation, body weight, diagnosis, anatomic type of coronary artery, cardiopulmonary bypass time, aortic crossclamping time, circulation arrest time, assisted respiration time after operation, the delayed closure of sternum and so on. The risk factors influencing the early mortality of the ASO were analyzed. Results Sixty seven patients were operated with ASO, five patients died during the peri-operative period. The outcome of univariate analysis indicated that risk factors influencing the mortality of ASO included: age(P=0. 004), body weight (P=0. 042), anatomic type of coronary artery (P= 0. 006) and extracorporeal circulation time (P= 0. 048), the length of the CICU stay(P= 0. 004) and the hospital stay(P=0. 007) after operation in the TGA/VSD patients were longer than those in TGA/ IVS patients. The logistic muhivariable regression analysis indicated that the age at operation (P= 0. 012), coronary arteries anomaly (P = 0.001 )and the longer cardiopulmonary bypass time (P = 0. 002) were correlated with the increase of death rate. Conclusion It could be good results for TGA patients who was repaired with ASO. The age at operation, the coronary arteries anomaly and the longer cardiopulmonary bypass time are the risk factors influencing the mortality.