ObjectiveTo define the patient characteristics and perioperative management, and to define the mortality and its risk factors after arterial switch operation (ASO).MethodsWe conducted a bidirectional cohort study with 571 consecutive patients undergoing ASO from 1997 to 2016 in our hospital. We enrolled patients who underwent ASO before 2012 retrospectively and after 2012 prospectively and followed up all the patients prospectively. Demographic characteristics, clinical information and mortality of these patients were summarized. Joinpoint regression analysis was used to identify the time trend of the overall mortality. Kaplan-Meier survival analysis was used to evaluate the mid- and long-term survival rate after ASO. Cox proportional hazards regression models were used to explore the potential factors associated with mortality. The cumulative incidence of complications after ASO was predicted using competing risk models.ResultsSeveral aspects of patients’ characteristics and perioperative management in our center differed from those in the developed countries. The overall mortality and in-hospital mortality after ASO was 16.3% and 15.1%, respectively. The overall cumulative survival rate at 5, 10 and 15 years after ASO was 83.3%, 82.8% and 82.8%, respectively. A significant decrease of overall mortality from 1997 to 2016 was observed. Independent risk factors of mortality included earlier ASO (1997-2006), single or intramural coronary anatomy and longer cardiopulmonary bypass time. Ten years after ASO, re-intervention, arrhythmia, pulmonary and anastomotic stenosis were the most common complications with a cumulative incidence over 10%.ConclusionSignificant improvements in the results of the ASO were observed and the postoperative mortality rate is close to reports from developed countries. Nonetheless, we have identified the need for further improvement in the early and late postoperative periods after ASO. Pulmonary stenosis, anastomotic stenosis and arrhythmia should be paid attention to during the long-term follow-up after ASO.
Abstract: Objective To analyze risk factors for perioperative mortality in the arterial switch operation (ASO), in order to provide better operation and decrease the mortality rate. Methods We enrolled 208 ASO patients including 157 males and 51 females at Fu Wai Hospital between January 1, 2001 and December 31, 2007. The age ranged from 6 h to 17 years with the median age of 90 d and the weight ranged from 3 kg to 43 kg with the median weight of 5 kg. Among the patients, 127 had transposition of great artery (TGA) with ventricular septal defect (VSD), and 81 patients had TGA with intact ventricular septum (IVS) or with the diameter of VSD smaller than 5 mm. Coronary anatomy was normal (1LCX2R) in 151 patients and abnormal in the rest including 15 patients with single coronary artery, 6 with intramural and 36 with inverse coronary artery. Preoperative, perioperative and postoperative clinical data of all patients were collected to establish a database which was then analyzed by univariate analysis and multivariate logistic regression analysis to find out the risk factors formortality in ASO. Results There were 24 perioperative deaths (11.54%) in which 12 died of postoperative infection with multiple organ failure (MOF), 10 died of low cardiac output syndrome, 1 died of pulmonary hypertension, and 1 died of cerebral complications. Among them, 20 patients (18.30%) died in early years from 2001 to 2005, while only 4 (4.00%) died in the time period from 2006 to 2007, which was a significant decrease compared with the former period (Plt;0.05). The univariate analysis revealed that cardiopulmonary bypass (CPB) time was significantly longer in the death group than in the survival group(236±93 min vs. 198±50 min, P=0.002), and occurrence of major coronary events (33.3% vs. 2.2%, P=0.000) and unusual coronary artery patterns(33.3% vs. 6.5%,P=0.000) were much more in the death group than in the survival group. Multivariate logistic regression analysis showed that early year of [CM(159mm]operation (OR=7.463, P=0.003), unusual coronary artery patterns (OR=6.303,P=0.005) and occurrence of majorcoronary events (OR=17.312, P=0.000) were independent predictors for perioperative mortality. Conclusion The ASO can be performed with low perioperative mortality in our hospital currently. Occurrence of major coronary events, unusual coronary artery patterns and year of surgery before 2006 are independent predictors for perioperative mortality.
摘要:目的:回顧性研究大動脈轉換術同時進行主動脈弓矯治的I期手術治療完全性大動脈錯位或TaussigBing合并主動脈弓畸形的早中期效果。方法:2000年1月至2008年12月,連續對26例存在主動脈弓畸形的完全性大動脈錯位或TaussigBing畸形的小嬰兒進行了I期手術矯治,其中完全性大動脈錯位13例(TGA/VSD 11例,TGA/IVS 2例),TaussigBing 13例;主動脈弓畸形中主動脈弓中斷(A型)7例,CoA19例,6例伴有冠狀動脈異常類型。平均手術年齡(28±35) d,lt;2個月占62%,手術平均體重為(4.19±1.15) kg。在深低溫停循環或深低溫低流量下進行主動脈弓畸形矯治,采用自身組織直接吻合擴大或重建弓,伴有弓部發育不良者補片擴大成形。伴有冠狀動脈畸形者在大動脈轉換手術中冠狀動脈移植方法予改良處理。〖HTH〗結果〖HTSS〗:手術住院死亡3例(11.5%),死因與冠脈移植無關。平均插管時間102 h,監護室時間平均8 d。術后早期生存者主動脈瓣上壓力階差gt;30 mm Hg有2例,主動脈瓣反流輕度2例。單因素分析中伴有冠狀動脈異常類型者與術后早期死亡或并發癥的風險相關,多因素分析示其與手術年齡、肺動脈高壓、術前FS、主動脈阻斷時間、術后血清乳酸水平相關。隨訪期3個月~7年,無死亡,術后5年實際生存率為88.5%(95% 可信度范圍CI 76%~96%),術后1年、5年無需介入干預或手術分別為91.4%、87%。結論:TGA和TaussigBing伴有主動脈弓畸形者I 期進行大動脈轉換術和主動脈弓畸形矯治早中期效果良好,早期手術并發癥和死亡的風險因素為年齡偏大,肺高壓嚴重,把握手術時機是手術成功要則之一。Abstract: Objective: The study was to evaluate earlymid term results after onestage arterial switch operation (ASO) associated with aortic arch repair for D Transposition of the great arteries (DTGA) and TaussigBing Anomaly with arch abnormally in infant. 〖WTHZ〗Methods〖WTBZ〗: Between January 2000 and December 2008, a primary operation including aortic arch repair through a midline sternotomy was performed in 26 patients, 13 patients with DTGA and 13 TaussigBing. Most patients (62%) underwent operation during the first two months. The repair of arch was accomplished under deep hypothermic circulatory arrest or low flow, employing a wide pericardial patch to reconstruction of arch in some patients or direct ananstomosis. Results: There were 3 (11.5%) hospital deaths. The high risk factors for early mortality and morbidity were unsuitable reconstructed arch, higher age, severe pulmonary hypertension and longer aortic crossclamp time. There were no late deaths. Actuarial 5year survival was 88.5% (95% CI 70% to 96%). Actuarial freedom from overall reintervention, reoperation among operative survivors was 91.4% at 1 year and 87% at 5 years, respectively. Conclusion: the singlestage repair for DTGA and TaussigBing with aortic arch abnormally is suitable choice for infant, and followup of operative survivors is favorable. Optimal operative time was as sooner as possible.
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.
ObjectiveTo evaluate the effects of anatomic correction for congenitally corrected transposition of the great arteries (ccTGA) and 10-year follow-up.MethodsFrom January 2008 to December 2018, 48 patients with ccTGA who underwent anatomic correction were reviewed. There were 29 males and 19 females with age of 39.2 (3-91) months. The cohort was divided into two groups: a biventricular anatomic correction group (39 patients) and a 1.5 ventricular anatomic correction group (9 patients). They were followed for in-hospital mortality, late mortality, long-term survival, freedom from reoperation, and heart function.ResultsThere were 3 early deaths and 2 early re-intervention in the biventricular anatomic correction group, but no death and only one re-intervention in the 1.5 ventricular anatomic correction group. Compared with the biventricular anatomic correction group, the operation time, tracheal intubation and ICU time were significantly reduced or shortened in the 1.5 ventricular anatomic correction group (P<0.05). The patients were followed up for 0.5-10.4 years. Four patients were lost. Two patients died in the biventricular anatomic correction group, and two patients received re-intervention. The 1-year, 5-year and 10-year survival rate was 88.2%, 84.0%, and 84.0%, respectively. There was no death or intervention in the 1.5 ventricular anatomic correction group. The quality of life of the other patients in the medium-term follow-up was satisfactory. Only 2 patients were classified as grade Ⅲ in cardiac function, and the other patients were classified as grade Ⅰ-Ⅱ.ConclusionAccording to the different anatomic characteristics of ccTGA, the individualized strategy of anatomic correction can achieve satisfactory surgical results, and the medium-term quality of life was good. Especially, 1.5 ventricular anatomic correction may obtain better therapeutic effects because of its lower operative mortality and less postoperative complications.
Abstract: Objective?To evaluate clinical experiences and long-term outcome of morphologic left ventricle (mLV) retraining for congenitally corrected transposition of the great arteries (cCTGA). Methods From May 2005 to May 2011, 24 patients with cCTGA anomaly underwent left ventricle retraining by means of pulmonary artery banding in Fu Wai Hospital. There were 13 males and 11 females with their age of 0.17-22.00 (3.73±4.35) years and body weight of 5.10-61.00(15.71±10.95)kg. Major concomitant malformations included tricuspid valve insufficiency (TR)in 23 patients (mild in 11 patients, moderate in 7 patients, severe in 5 patients), restrictive ventricular septal defect in 18 patients, atrial septal defect in 5 patients, patent foramen ovale in 5 patients, patent ductus arteriosus in 4 patients, mild pulmonary stenosis in 5 patients, and aortic coarctation in 1 patient. All the patients were preoperatively diagnosed by echocardiography, cardiovascular angiography or cardiac catheterization. The mLV end diastolic diameter (mLVEDD) was 8-32(21.56±6.60)mm, posterior wall thickness of mLV was 2-7 (4.29±1.52)mm , mLV to morphologic right ventricle (mRV) pressure ratio (mLV/mRV) was 0.12-0.65 (0.41±0.12). Pulmonary artery banding operation was performed through upper partial sternotomy or median sternotomy without circulatory arrest. Results The mLV/mRV pressure ratio reached to 0.57-0.93 (0.76±0.10) under direct pressure monitoring after surgery. There was no in-hospital death in this group. Echocardiography before discharge showed that the structure and function of the two ventricles were good, the interventricular septum moved partially towards mRV, mLVEDD was increased slightly, and there was a tendency of reduced TR. Postoperative follows-up was from 1 to 35 months, and there was no late death during follow-up. All the patients were in good general condition with stable vital signs and New York Heart Association (NYHA) classⅠ-Ⅱ. The mLVEDD was 14-40 (26.17±7.11) mm, posterior wall thickness of mLV was 4-9 (4.95±1.44)mm, mLV/mRV pressure ratio was 0.52-0.98 (0.72±0.16) , and TR was significantly decreased. Fourteen patients successfully underwent staged complete double-switch procedure. Conclusion Left ventricle retraining is a safe and effective method to train mLV for cCTGA patients. Pressure load and posterior wall thickness of mLV are increased, mLV cavity is dilated, and TR is significantly reduced after the surgery.
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.
ObjectiveTo evaluate clinical results of left ventricular retraining followed by double switch operation (DSO) for patients with congenitally corrected transposition of the great arteries (CCTGA) and a deconditioned morphologically left ventricle (mLV).
MethodsClinical data of 14 patients with CCTGA and a deconditioned mLV who underwent surgical therapy in Fu Wai Hospital from May 2005 to May 2011 were retrospectively analyzed. There were 8 male and 6 female patients with their age of 2.5-72.0 (34.4±24.0) months and body weight of 5.1-23.0 (12.7±4.9) kg. Preoperative diagnosis was confirmed by echocardiography, angiography or cardiac catheterization. Major concomitant anomalies included tricuspid regurgitation (TR) in 13 patients, restrictive ventricular septal defect in 10 patients, atrial septal defect or patent foramen ovale in 7 patients, mild pulmonary valve stenosis in 4 patients, patent ductus arteriosus in 4 patients, and third-degree atrioventricular block in 1 patient. All the patients underwent first-stage morphologic left ventricular retraining under general anesthesia followed by second-stage atrial switch and arterial switch operations (DSO) under cardiopulmonary bypass with the interval of 0.67-34.0(10.23±9.47)months.
ResultsAfter the first-stage morphologic left ventricular retraining, there was no postoperative complication or death. During follow-up, mLV end-diastolic diameter (mLVEDd) and posterior wall thickness of mLV were significantly larger than preoperative parameters (P < 0.05). The interventricular septum moved partially towards morphologically right ventricle (mRV). TR degree was significantly decreased, the pressure gradient across the pulmonary artery band was significantly increased (P < 0.05), and left ventricular ejection fraction (LVEF) was not statistically different from preoperative LVEF. And mLV/mRV pressure ratio was significantly increased (P < 0.05). After the second-stage DSO, 2 patients died with the in-hospital mortality of 14.3% (2/14). The causes of death included serious arrhythmia, circulatory collapse and sudden death. Early postoperative complications included pulmonary infection in 6 patients, atrial arrhythmias in 2 patients, pleural effusion in 2 patients, pneumothorax in 1 patient, diaphragmatic paralysis cured by diaphragm placation in 1 patient, respiratory tract hemorrhage in 1 patient, mild aortic insufficiency in 1 patient, peritoneal dialysis for 1 patient, extracorporeal membrane oxygenation for 1 patient, and tracheal intubation for a second time for 1 patient. All the 12 patients who were discharged alive were followed up for 2 to 8 years. One patient died during follow-up with the late mortality of 8.33% (1/12), and the cause of death was serious arrhythmia and circulatory collapse. Eight patients were in New York Heart Association (NYHA) classⅠ, and 3 patients were in NYHA class Ⅱ. Major late complications included left ventricular dysfunction in 3 patients, moderate aortic valve regurgitation in 3 patients, and moderate mitral valve regurgitation in 1 patient.
ConclusionShort-term clinical results of left ventricular retraining followed by DSO for patients with CCTGA and a deconditioned mLV are satisfactory, and its middleand long-term results need further follow-up. But postoperative left ventricular dysfunction and new-onset aortic valve regurgitation deserve more attention.
Objective To investigate the surgical indications and the mid and long term results of morphologic tricuspid valve replacement for corrected transposition of the great arteries(cTGA). Methods From September 1997 to September 2007, 18 cases with cTGA were treated in Fu Wai Hospital. There were 15 male and 3 female, aged from 16 to 51 years(33.3±12.8 years), and weighed from 47 to 90 kg(60.9±14.7 kg). There were 10 cases with isolated morphologic tricuspid valve insufficiency, 3 complicated with ventricular septal defect, 2 complicated with ventricular septal defect and pulmonary valve stenosis, 2 with morphologic tricuspid valve insufficiency after septal defect repair, and 1 with mechanical valve dysfunction after morphologic tricuspid valve replacement. The preoperative mean morphologic right ventricle ejection fraction was 562%±11.6%. Of the 18 cases, 12 were in grade Ⅱ and 6 were in grade Ⅲ according to New York Heart classification(NYHA).All the cases had undergone morphologic tricuspid valve replacement. Postoperative indices such as cardiac function and morphological right ventricle ejection fraction were followed up. Results One patient died of postoperative low cardiac output syndrome. Two had pervavlvular leak, which were cured by pervavlvular leak repair at 7th and 30th day after operation, respectively. Sixteen were followed up with a followup time of 57.0±407 months. There was no statistical significance between preoperative and postoperative mean morphologic right ventricle ejection fraction(52.8%±9.2% vs.56.2%±11.6%; t=2.062, Pgt;0.05). The followup showed that 12 were in NYHA grade Ⅰ or Ⅱ, and 4 were in NYHA grade Ⅲ. There was no statistical significance between preoperative and postoperative percentage of cases in NYHA grade Ⅲ(χ2=1.532,Pgt;0.05). Conclusion Morphologic tricuspid valve replacement can prevent the further damage to morphologic right ventricular function caused by morphologic tricuspid valve insufficiency. The mid and long term results were satisfying. During the followup, the morphologic right ventricle can function appropriately.
Objective To compare the early and mid-term results between Fontan operation and anatomic correction for congenitally corrected transposition of the great arteries (ccTGA). Methods The clinical data of 53 patients with ccTGA who underwent anatomic correction and Fontan operation from January 2009 to September 2021 in our hospital were reviewed, including 41 males and 12 females with a mean age of 55.02 (3-168) months. They were divided into an anatomic correction group (16 patients) and a Fontan operation group (37 patients) according to the operation. The hospitalization mortality, survival rate, postoperative complications, and free rate from re-intervention between the two groups were compared. Another 180 healthy children were recruited as a control group, and 14 children were matched with the propensity score matching method as a Fontan control group. The results of cardiopulmonary exercise testing (CPET) between the Fontan operation group and the Fontan control group were compared. Results There were 2 (12.5%) early deaths and 3 (18.8%) early re-intervention in the anatomic correction group, while 1 death and 2 re-intervention in the Fontan operation group. In addition, there were 9 patients (56.3%) in the anatomic correction group and 6 (16.2%) patients in the Fontan operation group suffering from arrhythmia after operation, respectively. Compared with the anatomic correction group, cardiopulmonary bypass time, aortic cross-clamping time, intubation time and ICU stay were significantly shortened in the Fontan operation group (P<0.05). CPET results showed that, percent predicted max VO2 in the Fontan operation group was lower than that in the Fontan control group (0.84±0.11 vs. 0.99±0.12, P<0.05). The patients were followed up for 0.5-126.0 months. Two patients were lost in the Fontan operation group. There was no death and 1 re-intervention in the anatomic correction group, while no death or re-intervention in the Fontan operation group. The 1-year, 5-year and 10-year transplant-free survival rate of the anatomic correction group and the Fontan operation group was 87.5%, 87.5%, 87.5% and 97.3%, 97.3%, 97.3%, respectively (P>0.05). The 48 patients were classified as grade Ⅰ-Ⅱ in cardiac function in the last follow-up. Conclusion There is no statistical difference in the transplant-free survival rate between the anatomic correction and the Fontan operation group. The postoperative complications in the Fontan operation group are decreased than those in the anatomic correction group. The Fontan operation is also a good choice, even though the patients with ccTGA meet the condition of the procedure of anatomic correction.
