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 investigate the possibility of creation of tissue engineered heart valve leaflets in vitro . Methods Aorta were obtained from 9 hybrid young pigs. The endothelial cell, fibroblast and smooth muscle cells were isolated and cultured to get enough cell. The expanded fibroblast, smooth muscle cell,and endothelial cells were seeded on the polymers sequentially. The cell polymer constructs were sent for scanning electron microscopy(SEM) examination after cultured for 7, 14, and 28 days. Histological examination were performed after the cell polymer constructs cultured for 28 days. Results SEM showed that the number of cells on the polymers increased as the culture time prolonged, with the formation of matrix. After 28 days, there were a great number of cells and large amount of matrix on the scaffolds. The confluent cell had covered a large area of the polymers. Hematoxylin and eosin(HE) stain showed large amount of cells attached to the polymers. Conclusion With the viability of the cultured cellular scaffolds,it is possible to create tissue engineered heart valve leaflets in vitro.
ObjectiveTo study the changes of levels of α subunits of stimulatory (Gsα) and inhibitory guanine nucleotide binding protein (Giα) in newborn guinea pig (0 2 days old) myocardium undergoing global ischemic reperfusion, and influences on the changes by St.Thomas Ⅱ and cold blood cardioplegic solution.MethodsThirty newborn guinea pigs were randomly assigned to three groups. GroupⅠ ( n = 10): the newborn hearts suffered by hypothermic global ischemia; group Ⅱ( n =10): the newborn hearts arrested by St. Thomas Ⅱ , and group Ⅲ ( n = 10): the newborn hearts arrested by cold blood cardioplegic solution. Levels of Gsα and Giα were investigated with Western blot analysis.ResultsNo differences of levels of Gsα and Giα were found in three groups before ischemia ( P gt;0.05). The level of Gsα after ischemia was significantly decreased than before ischemia in groupⅠand group Ⅱ ( P lt; 0 01), whereas no pronounced changes in group Ⅲ ( P gt;0.05) were noted after ischemia. The level of Gsα in group Ⅲ was not significantly changed after reperfusion compared with before ischemia( P gt;0 05), and it was much higher than those in groupⅠand group Ⅱ ( P lt; 0 01). Level of Giα was found not markedly changed in group Ⅲ after reperfusion compared with that before ischemia, but was notable higher in groupⅠand group Ⅱ( P lt;0.01). ConclusionsSignificant decrease of level of Gsα, whereas marked increase of level of Giα are found in myocardium of newborn guinea pig undergoing hypothermic (20℃) ischemic reperfusion. No impact of St. Thomas Ⅱ on these changes is verified, but recovery to the level of Gsα and Giα before ischemia is achieved by cold blood cardioplegic solution after ischemia and reperfusion. Unbalance between Gsα and Giα is the one of the mechanisms of ischemic reperfusion injury for immature myocardium.
目的:评价先天性心脏病(CHD)不同病变类型在64层螺旋CT(64-MDCT)三维重建图像上的表现及显示效果。方法:回顾性分析36例CHD患者的64-MDCT资料,分别在轴位、冠状、矢状位及容积再现(VR)重组图像上观察病变,统计分析不同重组图像显示总体病变及房、室间隔缺损效果有无差异。结果:36例患者共有病变59处,轴位、冠状及矢状位图像在发现病变(59处,100.0%;57处,96.6%;53处,89.8%)及室间隔缺损显示(显示效果评分:41、38及39分)方面无明显差异(P>0.05),但轴位图像显示房间隔缺损明显优于冠、矢状位图像(显示效果评分:19、13及12分)(P<0.05)。VR图像与轴位及冠、矢状位图像显示心外大血管病变效果无差异P>0.05)。不同类型病变在轴位,冠、矢状位及VR图像上表现特征不尽相同,而不同重组图像有各自优势显示的病变类型。结论:64-DCT三维重建图像能够很好地显示先心病各种类型病变,了解不同重建图像上病变表现特征及显示效果有利于做出准确、全面的诊断。
Objective To explore the application effect of 3D printed heart models in the training of young cardiac surgeons, and evaluate their application value in surgical simulation and skill improvement. MethodsEight young cardiac surgeons were selected form West China Hospital as the trainees. Before training, the Hands-On Surgical Training-Congenital Heart Surgery (HOST-CHS) operation scores of the 8 cardiac surgeons were obtained after operating on 2 pig heart models of ventricular septal defect (VSD). Subsequently, simulation training was conducted on a 3D printed peri-membrane VSD heart model for 6 weeks, once a week. After the training, all trainees completed 2 pig heart VSD repair surgeries. The improvement of doctors’ skills was evaluated through survey questionnaires, HOST-CHS scores, and operation time after training. ResultsBefore the training, the average HOST-CHS score of the 8 trainees was 52.2±6.3 points, and the average time for VSD repair was 54.7±7.1 min. During the 6-week simulation training using 3D printed models, the total score of HOST-CHS for the 8 trainees gradually increased (P<0.001), and the time required to complete VSD repair was shortened (P<0.001). The trainees had the most significant improvement in scores of surgical cognition and protective awareness. The survey results showed that trainees were generally very satisfied with the effectiveness of 3D model simulation training. Conclusion The 3D printed VSD model demonstrates significant application advantages in the training of young cardiac surgeons. By providing highly realistic anatomical structures, 3D models can effectively enhance surgeons’ surgical skills. It is suggested to further promote the application of 3D printing technology in medical education, providing strong support for cultivating high-quality cardiac surgeons.