Objective To summarize the experience of open heart operation on neonates with critical and complex congenital heart diseases and evaluate the methods of perioperative management. Methods From May 2001 to January 2003, 12 patients of neonates with congenital heart diseases underwent emergency operation. Their operating ages ranged from 6 to 30 days, the body weights were 2.8 to 4.5 kg. Their diagnoses included D-transposition of the great arteries in 4 cases, ventricular septal defect with atrial septal defect in 5 cases, complete atrioventricular septal defect, obstructed supracardiac total anomalous pulmonary venous drainage and cardiac rhabdomyomas in 1 case respectively. 12 cases were operated under moderate or deep hypothermic cardiopulmonary bypass. Results All cases were observed in ICU for 2-11 days and discharged 7-19 days after operation. The postoperative complications included low cardiac output, mediastinal infection, respiratory distress syndrome, systemic capillary leak syndrome and acute renal failure. All cases were cured and the follow-up (from 6 months to 2 years) showed satisfactory outcome. Conclusion A particular cardiopulmonary bypass and proper perioperative management is very important to ensure the successful outcome. Peritoneal dialysis is an effective and safe method for treating acute renal failure after cardiac operation in neonates.
Objective To summarize the experience of surgical treatment of congenital heart diseases through right axillary mini-thoracotomy and analyse related problems. Methods Two hundred and twenty-four patients of congenital heart diseases underwent open heart surgery under cardiopulmonary bypass (CPB) through a right axillary mini-thoracotomy(3rd or 4th intercostal). Among them repair of ventricular septal defect (VSD) in 168, repair of atrial septal defect (ASD) in 48, total correction of tetralogy of Fallot (TOF) in 6, double-outlet right ventricular in 1 and Ebstein syndrome in 1. Results There was 1 postoperative death (0.45%), the cause of death was acute pulmonary edema. Postoperative complication occurred in thirteen cases (5.8%). There were no significant changes in CPB time, aortic cross clamping time, ventilating time and hospital stay days between right axillary minithoracotomy and median sternotomy at the same period (Pgt;0. 05), but the bleeding volume both intraoperative and postoperative in the patients of right axillary mini-thoracotomy were significantly less than those in the patients of median sternotomy (Plt;0. 01). Two hundred and fourteen patients were followed up (follow-up time from 2 months to 7 years), 3 of them had early mild cardiac function insufficiency(ejection fractionlt;0. 50), small residual shunt were found in 2 patients after VSD operation and the others recovered satisfactorily. Conclusion There were merits in right axillary mini-thoracotomy approach for treatment of properly selected congenital heart diseases; safe and reliable, low operative bleeding volume, and good results of aesthetics. But the use of this incision for repair of TOF and more complex congenital heart diseases should be careful.
Objective To confirm the changes of pulmonary artery pressure, neo pulmonary artery stenosis and reoperation in children with unilateral absence of pulmonary artery (UAPA) undergoing pulmonary artery reconstruction. Methods The clinical data of the infants with UAPA undergoing pulmonary artery reconstruction in our hospital from February 19, 2019 to April 15, 2021 were analyzed. Changes in pulmonary artery pressure, neo pulmonary artery stenosis and reoperation were followed up. Results Finally 5 patients were collected, including 4 males and 1 female. The operation age ranged from 13 days to 2.7 years. Cardiac contrast-enhanced CT scans were performed in all children, and 2 patients underwent pulmonary vein wedge angiography to confirm the diagnosis and preoperative evaluation. Preoperative transthoracic echocardiography and intraoperative direct pulmonary arterial pressure measurement indicated that all 5 children had pulmonary hypertension, with a mean pulmonary arterial pressure of 31.3±16.0 mm Hg. Pulmonary arterial pressure decreased immediately after pulmonary artery reconstruction to 16.8±4.2 mm Hg. The mean follow-up time was 18.9±4.7 months. All 5 patients survived during the follow-up period, and 1 patient had neo pulmonary artery stenosis or even occlusion and was re-operated. Conclusion Pulmonary artery reconstruction can effectively alleviate the pulmonary hypertension in children with UAPA. The patency of the neo pulmonary artery should be closely followed up after surgery, and re-pulmonary angioplasty should be performed if necessary.
ObjectiveTo explore the effect of skeletonized left internal mammary artery (LIMA) in coronary artery bypass grafting (CABG). MethodsA total of 122 patients who underwent pure CABG were recruited in the study in the First Affiliated Hospital of China Medical University between January and April 2013. There were 77 males and 45 females with age of 41-76(62.8±10.5) years. They were randomly assigned to received CABG with skeletonized LIMAs (group A, 60 patients) or pedicle LIMAs (the group B, 62 patients) by random digital table. LIMAs were all anastomosised to the left anterior descending artery. ResultsThere was one patient failure in harvesting LIMA process in the group A and B respectively, and they were changed to saphenous vein grafts and excluded from the criteria. There were 2 and 3 patients of postoperative myocardial infarction in the group A and in the group B respectively, with incidence rate of 3.4% and 4.9% respectively (P > 0.05). One patient died in each group during hospitalization with hospital mortality rates of 1.7% and 1.6% respectively (P > 0.05). Complications such as mediastinal infection occurred zero and one patient in the group A and in the group B respectively (P > 0.05). LIMA harvesting time of the group A was statistically longer than that of the group B (30.7±7.2 min vs. 17.2±5.6 min, P < 0.05). In six months of follow-up after surgery, coronary CT showed patency rate of LIMA in the group A and in the group B was 96.8% and 100.0% respectively (P > 0.05). ConclusionThe recent effect of skeletonized LIMA as graft material in CABG is satisfactory.
目的探讨成人法洛四联症(tetralogy of fallot,TOf)的体外循环(cardiaopulmonary bypass,CPB)管理策略。 方法回顾性分析2008年1月至2012年12月广东省人民医院收治TOf患者112例的临床资料,其中男51例、女61例,年龄17~49(26.8±11.3)岁。2例行右心室流出道疏通术,余为TOf根治术。CPB降温至中度或深度低温、采用中至低流量灌注。通过CPB开始时放自体血、加大预充液量等调整CPB中红细胞压积(HCT)维持在0.25至术前水平的1/2,持续给予6-氨基己酸、超滤、使用血液回收机等综合措施进行血液保护。心肌保护采用冷高钾含血或晶体心脏停搏液间断灌注,同时运用开放前温血灌注、术野充弥CO2辅助心腔排气等措施提高心肌保护效果。调控CPB中血氧分压,以术前氧分压水平开始CPB、逐渐增加到150 mm Hg左右,并维持至CPB血流复温再进一步升高,以减少全身各组织器官的再氧合损伤。 结果CPB时间60~272(127.5±31.5)min,主动脉阻断时间22~146(78.3±20.4)min,住ICU时间19~1 465(96.9±19.0)h,住院时间12~84(26.2±1.4)d。二次开胸止血12例,胸腔积液9例,急性肾功衰竭2例,乳糜胸2例;死亡4例,其中术后重度低心排血量综合征3例、多器官功能衰竭1例,住院死亡率3.6%。 结论成人TOf的CPB需要特别关注血液保护、心肌保护及减少再氧合损伤,以降低并发症、提高手术效果。
Objective To identify clinical risk factors for early major adverse cardiovascular events (MACEs) following surgical correction of supravalvar aortic stenosis (SVAS). Methods Patients who underwent SVAS surgical correction between 2002 and 2019 in Beijing and Yunnan Fuwai Cardiovascular Hospitals were included. The patients were divided into a MACEs group and a non-MACEs group based on whether MACEs concurring during postoperative hospitalization or within 30 days following surgical correction for SVAS. Their preoperative, intraoperative, and postoperative clinical data were collected for multivariate logistic regression. Results This study included 302 patients. There were 199 males and 103 females, with a median age of 63.0 (29.2, 131.2) months. The incidence of early postoperative MACEs was 7.0% (21/302). The multivariate logistic regression model identified independent risk factors for early postoperative MACEs, including ICU duration (OR=1.01, 95%CI 1.00-1.01, P=0.032), intraoperative cardiopulmonary bypass (CPB) time (OR=1.02, 95%CI 1.01-1.04, P=0.014), aortic annulus diameter (OR=0.65, 95%CI 0.43-0.97, P=0.035), aortic sinus inner diameter (OR=0.75, 95%CI 0.57-0.98, P=0.037), and diameter of the stenosis (OR=0.56, 95%CI 0.35-0.90, P=0.016). Conclusion The independent risk factors for early postoperative MACEs include ICU duration, intraoperative CPB time, aortic annulus diameter, aortic sinus inner diameter, and diameter of the stenosis. Early identification of high-risk populations for MACEs is beneficial for the development of clinical treatment strategies.