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.
Abstract: Objective To investigate the outcome of continuous shallow stitching repairing perimembranous ventricular septal defect(pVSD). Methods From January 2002 to October 2004,50 patients less than 10kg of body weight with simple pVSD were chosen in our hospital. VSD was repaired by continuous shallow stitching with autograft pericardium. Results The aortic clamping time was 32±21min(14-52min), cardiopulmonary bypass time 56±35min(29-69min).No Ⅲ° atrioventricular conduction block happened, 9 patients developed right bundle branch block, and 2 patients showed junctional rhythm. Two patients with perimembranous extending outlet were repaired because of residual shunt(0.4cm,0.3cm) on the anterosuperior rim of defect. One patient with trivial residual shunt(0.15cm) on the posteroinferior rim of defect was found closed spontaneously six months later. Tricuspid valve was incised in 10 patients of VSD sextending outlet,8 patients vertical to the valve ring,2 patients parallel to the valve ring. Moderate tricuspid valve regurgitation was found in 1 patient, mild in 5 patients, trivial in 4 patients. No one aggravated. One patient complicated with pericardial effusion.One patient was reoperated because of bleeding. Conclusion Continuous shallow stitching repairing pVSD is effective.
Objective To recognize and reevaluate the pathologic anatomic classification of ventricular septal defect (VSD). Methods From January,2002 to October,2004,119 patients less than 10kg of body weight with simple VSD whose pathologic anatomic classification was determined by preoperative echocardiography and ascertained during surgery were choosed randomly. Results (1) There were fihy-one patients with perimembranous VSD (diameter 0. 6±1.0 cm), 8 VSD situated in the membranous septum (diameter 0. 5±0.4 cm), 21 VSD extending to inlet (diameter 0.8±0.5 cm), 14 extending to outlet (diameter 1.0±0. 6 cm) and 8 extending to trabecula (diameter 0. 8±0.6 cm). In this group, accessory tricuspid valve tissue was formed in 14 patients(diameter 0. 5±0.3 cm). (2) Twenty-one patients had conoventricular VSD (diameter 1.2±0. 8 cm), among them 13 VSD had muscle margins, 8 extending to membranous septum, 14 had septal band hypertrophy, and 5 had subaortic stenosis. (3) Twenty-six patients had subpulmonary VSD(diameter 0.8±0.8 cm), 18 VSD lay immediately below pulmonary valve, 8 had muscle distant from pulmonary valve, 20 lay completely below pulmonary valve, and 6 lay below pulmonary valve and aortic valve. (4) Ten patients were atrioventricular canal type or inlet VSD (diameter 1.2±0.8 cm). (5)Eleven patients had muscular VSD, among them 3 were single ,and 8 multiple (diameter 0. 4±0.3 cm). Conclusion It will be more clinically significant that VSD is classified into perimembranous, conoventricular, atrioventricular canal or inlet, muscular and subpulmonary artery or conical types.
Objective Summarize and review on surgical repair of congenital heart disease in infants. Methods Between January 1988 and June 2003, seven hundred and eighty seven less than 6 months of age patients were operated. There were 109 cases of complete transposition of the great arteries(D-TGA), 51 total abnormal pulmonary venous connection(TAPVC), 16 pulmonary atresia with ventricular septal defect(VSD), 33 coarctation of aorta, 299 VSD with pulmonary hypertention, 44 tetralogy of Fallot, 23 double outlet right ventricle, 9 pulmonary atresia with intact ventricle septum, et al. The operative procedure was dependent on different disease. Results There were 77 patients died, the total mortality was 9.78%(77/787). Following improvement of surgical procedure, the mortality was decreased from 25% in 1988-1995 to 4.11% in 2003. In the D-TGA patients, there was one residual VSD who was repaired 3 months late, and two had mild pulmonary and aortic supravalve obstruction. They were still be followed up. Two patients with intracardiac type of TAPVC had venous return obstruction, one was died and another was re-operated 4 days later. In the VSD patients, there were 5 patients with residural VSD, but all of them did not need to repair. Conclusion The time of surgical repair is very important, especially for complex congenital heart disease. The best operative procedure will be lost, if the infants is repaired too late, the postoperative events and mortality will be increased.
Objective To review and summarize the clinical outcomes of neonatal D-transposition of the great arteries by rapid two-stage arterial switch operation. Methods Between September 2002 and May 2003, five neonates with D-transposition of the great arteries were repaired by rapid two-stage arterial switch operation. The operative age was 83.0±72.2 day and weight was 4.7±0.9 kg. Because these patients came to the hospital late, the left ventricle was unable to accommodate the systemic pressure, so the left ventricle had to be prepared by pulmonary artery banding and systemic-pulmonary arterial shunt. After 6-9 days, the arterial switch procedure was performed. Results At first stage, one patient died of supraventricular tachycardia and oliguria after peritoneal dialysis. Four patients were repaired by arterial switch operation with no death. These patients were followed up for 2 to 10 months and had good development. The echocardiogram showed that there were no intracardiac residual shunt , the aorta and pulmonary artery anastomosis had no obstruction . The heart function was good, ejection fraction 0.68-0.77,fractional shortening 0.24-0.37. One patient had mild aortic valve regurgitation. Conclusion Rapid two-stage arterial switch operation is the best way for neonatal D-transposition of the great arteries that the left ventricle was unable to accommodate the systemic pressure.
Abstract: Objective To investigate the clinical anatomy of ventricular septal defect(VSD) in tetralogy of Fallot(TOF),reassess its classification and technique of surgical closure. Methods The data of one hundred consecutive patients with TOF (between January 2002 and June 2006) were reviewed. Their ages ranged from 2 months to 13 years, weights ranged from 5 to 38kg, percutaneous oxygen saturation(SpO2) ranged from 57% to 92%, haematocrit(HCT) ranged from 0.34 to 0.74, Nakata index ranged from 90 to 210mm2/m2 and McGoon ratio ranged from 0.8 to 2.0. The clinic anatomy of the VSD was studied intraoperatively. Results Among them, seventy one patients had fibrous continuity between the leaflets of the aortic and tricuspid valve. Ninteen patients had a muscular postero-inferior border. Ten patients had subpulmonary VSD’s. There was no third degree atrioventricular block (3°AVB). Two patients had transient-atrioventricular dissociation but subsequent returned to sinus rhythm. Twenty two patients had incomplete right bundle branch block. Three patients were found to have very small residual VSD (less than 0.2cm) in the posteroinferior borders which closed spontaneously after 6 months. ConclusionVSD in TOF when classified as peri-membranous, muscular and subpulmonary VSD may improve the accuracy of surgical closure.