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.
ObjectiveTo evaluate the mid-term outcomes between tricuspid valve detachment (TVD) and non-detachment (NTVD) for ventricular septal defect (VSD).Methods The patients who underwent perimembranous VSD repair in the Department of Cardiovascular Surgery, West China Hospital from 2015 to 2020 were included. According to the surgical method, the patients were divided into a TVD group and a NTVD group. The clinical data of the two groups were compared.Results Totally 538 patients were included in the study. There were 240 patients in the TVD group, including 121 males and 119 females, with an average age of 3.85±8.42 years and an average weight of 14.12±12.97 kg. There were 298 patients in the NTVD group, including 149 males and 149 females, with an average age of 4.42±9.36 years and an average weight of 14.87±12.51 kg. There was no statistical difference in the age, weight, sex, preoperative New York Heart Association (NYHA) classification or tricuspid regurgitation (TR) degree between the two groups (P>0.05). Median follow-up was 30 (23, 40) months in the TVD group, and 29 (23, 41) months in the NTVD group (P=0.600). After operation, one patient in each group developed third-degree atrioventricular block and recovered to sinus rhythm before discharge (P=0.848). No pacemaker was needed. There was no statistical difference in the length of stay (P=0.054), mortality (P=1.000), in-hospital reoperation (P=0.199), or follow-up reoperation (P=0.505). More than 98% of patients in both groups had postoperative TR less than moderate (P=0.926). At the last follow-up, only 7 (2.9%) patients in the TVD group were detected trivial residual shunting, and 14 (4.7%) in the NTVD group (P=0.289). No one needed to have reoperation because of residual VSD. The TVD group showed less TR during the follow-up (P=0.019).Conclusion TVD is an alternative technique which can be safely used in the closure of VSD, especially in technologically mature medical center. Appropriate tricuspid valve detachment for those hard-to-expose VSDs does not result in poorer tricuspid valve function or higher risk of atrioventricular block, and might reduce the incidence of residual shunting.
Objective To discuss the methods and results of the surgical treatment of apical muscular ventricular septal defects (VSD) , in order to improve the surgical outcome of this disease. Methods The clinical data of 29 patients with apical muscular VSD of Fuwai hospital through Jan. 1999 to July 2004 were analyzed retrospectively. The apical VSDwere repaired via 4 different approaches: right atrium, apical right ventriculotomy, apical left ventriculotomy and the incision of the outflow tract of right ventricle combined with apical left ventriculotomy. The operative outcomes between different approaches were analyzed and compared. Results There were 2 perioperative deaths (6. 9%). One patient repaired via apical left ventriculotomy died of low cardiac output syndrome, the other died intraoperatively from endocardial fibroelastosis, which was confirmed by myocardial biopsy. There were residual VSD in 4 (13. 8%) patients, who were repaired via the right atrium, which did not necessitate reoperation. Other patients were discharged uneventfully. Follow up was completed {n 11 patients and extended 2 to 34 months, none of the 6 survivors had apical ventricular aneurysms. Conclusions The operative outcome of patients with apical VSD is satisfactory although the incidence of residual VSD is higher. The intraoperative transesophageal echocardiography (TEE) should be performed routinely. Surgical approach should be chosen on the actual site of the VSD at operation. Try to repair the VSD via the right atrium as possible, via the apical right ventrieulotomy if needed and try to avoid left ventriculotomy.
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.
ObjectiveTo assess the safety and efficacy of a new surgical strategy, perventricular device closure, for the treatment of subarterial ventricular septal defect (VSD). MethodsThirty-nine patients younger than 10 years with subarterial VSD who received surgical repair in West China Hospital from November 2010 to May 2012 were included in this study. There were 18 male and 21 female patients with their age of 5.9±3.2 years. Perventricular device closure was performed with eccentric device under the guidance of transesophageal echocardiography (TEE). Residual shunt, valvular regurgitation (including aortic regurgitation)and arrhythmias during perioperative period and follow-up were analyzed. ResultsThirty-three patients successfully received perventricular device closure, and 6 patients received conversion to open surgical repair. Postoperative ICU stay was 2.2±0.8 days, and length of hospital stay was 4.8±1.8 days. Major postoperative complications included residual shunt and mild or less aortic regurgitation. Mean follow-up duration was 7±2 months. No obvious arrhythmia, moderate or severe valvular regurgitation was observed during follow-up. ConclusionPerventricular device closure is safe, efficacious and minimally invasive for the treatment of subarterial VSD in pediatric patients with suitable anatomic characteristics with good mid-term results.
ObjectiveTo assess clinical results of single aortic cusp replacement with bovine pericardium for children with ventricular septal defect (VSD) and severe aortic regurgitation (AR). MethodsClinical data of 42 children with VSD and severe AR who underwent single aortic cusp replacement with bovine pericardium in Wuhan Asia Heart Hospital from March 2006 to September 2009 were retrospectively analyzed. There were 28 male and 14 female patients with their age of 2-14 (9.0±3.6) years. All the patients were in NYHA class Ⅱ. ResultsNo early mortality or major morbidity was recorded. Intraoperative transesophageal echocardiography showed successful repair with normal coaptation of the aortic leaflets in all the patients. AR grade was less than mild in all the patients with peak aortic valve pressure gradients of 14.2±2.8 mm Hg. All the patients were discharged from the hospital within 11 postoperative days without any adverse symptom,and were followed up for 32-72 (50±16) months. During follow-up,all the patients were in NYHA class I. There were 17 patients without AR,21 patients with mild AR and 4 patients with moderate AR. The peak aortic valve pressure gradient was 12.4±3.2 mm Hg. None of the patients died or required reoperation,and structural valve degeneration was not observed during follow-up. ConclusionSingle aortic cusp replacement with bovine pericardium can produce good hemodynamics and midterm results for children with VSD and severe AR.
Surgical treatment of complete transposition of great arteries with ventricular septal defect and pulmonary stenosis (TGA/VSD,PS) consists of Rastelli procedure, Lecompte procedure, Nikaidoh procedure, Yamagishi procedure and Ross-Konno switch procedure. Rastelli procedure and Lecompte procedure cause less myocardial lesion but more late complications. Nikaidoh procedure and Yamagishi procedure achieve better anatomical repair but involve more myocardial lesion. Ross-Konno switch procedure has a narrow surgical indication. So for patients with TGA/VSD,PS, different surgical methods should be used according to surgical indications and individual conditions. In this paper, the advantages and disadvantages, indication, contraindication, outcome and prospect of them are reviewed.
Objective To summarize the characteristics of children diagnosed with secondary subaortic stenosis after the surgical closure for ventricular septal defect and explore its potential mechanism. Methods We retrospectively collected patients aged from 0 to 18 years, who underwent ventricular septal defect closure and developed secondary subaortic stenosis, and subsequently received surgical repair from 2008 to 2019 in Fuwai Hospital. Their surgical details, morphological features of the subaortic stenosis, and the follow-up information were analyzed. Results Six patients, including 2 females and 4 males, underwent the primary ventricular septal defect closure at the median age of 9 months (ranging from 1 month to 3 years). After the first surgery, patients were diagnosed with secondary subaortic stenosis after 2.9 years (ranging from 1 to 137 months). Among them, 2 patients underwent the second surgery immediately after diagnosis, and the other 4 patients waited 1.2 years (ranging from 6 to 45 months) for the second surgery. The most common type of the secondary subaortic stenosis after ventricular septal defect closure was discrete membrane, which located underneath the aortic valve and circles as a ring. In some patients, subaortic membrane grew along with the ventricular septal defect closure patch. During the median follow-up of 8.1 years (ranging from 7.3 to 8.9 years) after the sencond surgery, all patients recovered well without any recurrence of left ventricular outflow tract obstruction. Conclusion Regular and persistent follow-up after ventricular septal defect closure combining with or without other cardiac malformation is the best way to diagnose left ventricular outflow tract obstruction in an early stage and stop the progression of aortic valve regurgitation.
ObjectiveTo compare early clinical outcomes between systemic-pulmonary shunts (SPS) and right ventricular to pulmonary artery connection (RV-PA connection) for patients with pulmonary atresia and ventricular septal defect (PA/VSD), and investigate early management strategies for these 2 different palliative procedures. MethodsWe retrospectively analyzed clinical data of 89 PA/VSD patients who underwent SPS or RV-PA connection in Fu Wai Hospital from January 2009 to December 2011. According to different surgical procedures, all the 89 patients were divided into 2 groups. In SPS group, there were 59 patients including 35 males and 24 females with their median age of 25 months (4 months to 8 years). In RV-PA connection group, there were 30 patients including 19 males and 11 females with their median age of 24 months (28 days to 7 years and 2 months). Early clinical outcomes including mechanical ventilation time, length of ICU stay, morbidity, reexploration, improvement of oxygen saturation (SO2) and mortality were compared between the 2 groups. ResultsAmong 59 patients in SPS group, 3 patients (5.1%) died postoperatively. There was no in-hospital death among 30 patients in RV-PA connection group. The improvement of percentage of SO2 of RV-PA connection group was significantly higher than that of SPS group (31.7% vs. 22.2%, P < 0.05). There was no statistical difference in length of ICU stay (3.6±2.5 days vs. 4.2±5.1 days, P > 0.05), mechanical ventilation time (34.8±33.5 hours vs. 44.3±39.6 hours, P > 0.05), postoperative morbidity (37.3% vs. 30.0%, P > 0.05) or reexploration rate (15.3% vs. 6.7%, P > 0.05) between SPS group and RV-PA connection group. Incidence of serious postoperative complications of SPS group was signi-ficantly higher than that of RV-PA connection group (25.4% vs. 6.7%, P < 0.05). ConclusionEarly clinical outcomes of RV-PA connection is better than SPS for PA/VSD patients including greater SO2 improvement and lower mortality. Mid-term and long-term clinical results as well as larger study samples are needed for better evaluation.
ObjectiveTo compare the outcome between two nutrition support methods, total enteral nutrition (TEN) and enteral nutrition combined with parenteral nutrition, in infants after ventricular septal defect (VSD) repair operation. MethodsWe retrospectively analyzed the clinical data of 76 infants who underwent VSD repair operation in Xinhua Hospital in 2012 year. There were 46 males and 35 females aged 1.6-11.9 (5.5±2.5) months. Nutrition support was started from the first day after operation. There were 35 patients in the group A with TEN 60 kcal/(kg·d), and 41 patients in the group B with both enteral nutrition at 30 kcal/(kg·d) and parenteral nutrition at 30 kcal/(kg·d). ResultsThere was no statistical difference between two groups in demography data and preoperative clinical indicators. The number of patients suffered abdominal distension and gastric retention was more in the group A (22.9% vs. 4.9%, 68.6% vs. 2.4%, P<0.05). There was no difference in diarrhea. The completion of nutrition support in the group A was worse than that in the group B. In the group A, only 40% of the goal calorie was finished on the first and the second day after operation. It was improved until the third day, and the goal calorie could be finished on the seventh day. In the group B, the nutrition support method could be finished on the first day. The prealbumin level in the group B was significantly higher on the third, fifth and seventh day (P<0.05). The blood urea nitrogen (BUN) level in the two groups on the first day after operation was higher than that before operation (P<0.05), and persisted in the group A, while decreased to the normal level gradually in the group B. Following up to discharge, the weight was higher and the length of stay was shorter in the group B (P<0.05). There was no statistical difference in the cost of hospitalization between the two groups (P>0.05). ConclusionThe nutrition support method, enteral nutrition combined with parenteral nutrition, is better than TEN for infants after VSD repair operation.