Abstract: Objective To investigate the prognosis of residual shunt after surgical repair in infants. Methods We selected 407consecutive infant patients (255 males and 152 females) with venticular septal defects(VSD) between January 2008 and June 2008 in Shanghai Children’s Medical Center, Shanghai Jiaotong University. Of the patients, 273 were less than 1 yearold, 88 were 12 yearsold, and 46 were 23 years old. All of whom underwent surgical repair of the ventricular septal defect with autologous pericardial defect treated by glutaraldehyde. Results Of the 407 patients, 29 had residual ventricular septal defects, there was no significant difference among age groups in the rate of residual shunts (χ2=0.054,P=0.973).Twentynine patients were followedup,and in the followup period of 1.5 months to 2 years postsurgery, 26 patients had spontaneous closure, while the other 3 patients did not heal. None of the patients needed reoperation. There was no significant difference amongage groups or type of ventricular septal defect in the rate of residual shunts (χ2=1.035,P=0.596). Conclusions Postsurgical residual ventricular septal defects smaller than 0.4 cm will close spontaneously in most infants.
Primary human hepatocytes (PHH) are the gold standard of in vitro human liver model for drug screening. However, a problem of culturing PHH in vitro is the rapid decline of cytochrome P450 (CYP450) activity, which plays an important role in drug metabolism. In this study, thermo-responsive culture dishes were used to explore the conditions for murine embryonic 3T3-J2 fibroblasts to form cell sheet. Based on the cell sheet engineering technology, a three-dimensional (3D) “sandwich” co-culture system of 3T3-J2 cell sheet/PHH/collagen gel was constructed. The tissue structure and protein expression of the model section were observed by hematoxylin eosin staining and immunofluorescence staining respectively. Phenacetin and bupropion were used as substrates to determine the activity of CYP450. The contents of albumin and urea in the system were determined by enzyme linked immunosorbent assay (ELISA). The results showed that the complete 3T3-J2 cell sheet could be obtained when the cell seeding density was 1.5×106 /dish (35 mm dish) and the incubation time at low temperature was 60 min. Through cell sheet stacking, a 3D in vitro liver model was developed. Compared with the two-dimensional (2D) model, in the 3D model, the cell-cell and cell-matrix connections were tighter, the activities of cytochrome P450 CYP1A2 and cytochrome P450 CYP2B6 were significantly increased, and the secretion levels of albumin and urea were increased. These indexes could be maintained stably for 21 d. Therefore, cell sheet stacking is helpful to improve the level of liver function of 3D liver model. This model is expected to be used to predict the metabolism of low-clearance drugs in preclinical, which is of great significance for drug evaluation and other studies.
ObjectiveTo summarize the research progress of surgical technique and immunosuppressive regimen of abdominal wall vascularized composite allograft transplantation in animals and clinical practice. MethodsThe literature on abdominal wall transplantation at home and abroad in recent years was extensively reviewed and analyzed. ResultsThis review includes animal and clinical studies. In animal studies, partial or total full-thickness abdominal wall transplantation models have been successfully established by researchers. Also, the use of thoracolumbar nerves has been described as an important method for functional reconstruction and prevention of long-term muscle atrophy in allogeneic abdominal wall transplantation. In clinical studies, researchers have utilized four revascularization techniques to perform abdominal wall transplantation, which has a high survival rate and a low incidence of complications. ConclusionAbdominal wall allotransplantation is a critical reconstructive option for the difficulty closure of complex abdominal wall defects. Realizing the recanalization of the nerve in transplanted abdominal wall to the recipient is very important for the functional recovery of the allograft. The developments of similar research are beneficial for the progress of abdominal wall allotransplantation.
Objective To investigate surgical strategy for the treatment of muscular ventricular septal defect (MVSD) in infants with multiple ventricular septal defects(VSD). Methods Clinical data of 46 infants with multiple VSD who underwent surgical repair in Shanghai Children’s Medical Center from January 2010 to April 2012 were retrospectively analyzed. There were 24 males and 22 females with their age of 8±6 months and body weight of 6.1±1.9 kg. All the patients received one-stage surgical repair,among whom MVSD of 10 patients was not found and repaired during the surgery. MVSD was repaired by surgical suture in 19 patients,hybrid repair under direct vision in 12 patients,and hybrid repair via the right ventricle in 5 patients. All the patients were regularly followed up after discharge by chest X-ray,ECG and color Doppler echocardiography to observe the closure of MVSD and the presence of residual shunt. Results All the 46 patients with multiple VSD survived their surgery without perioperative death. Three patients undergoing hybrid repair under direct vision received delayed sternal closure. One patient undergoing hybrid repair under direct vision had postoperative cardiac dysfunction. All the 46 patients were followed up for 1-17 months. Twenty-three patients had residual shunt of varying degrees during follow-up,and most of the MVSD of patients with residual shunt were <4 mm,who were receiving further follow-up and evaluation. Conclusion Appropriate surgical strategies can be applied according to specific surgical views during the operation for the treatment of MVSD in infants with multiple VSD,and satisfactory clinical outcomes can be achieved.
Abstract: Objective To investigating the variance of nuclear factorkappa B(NF-κB),inflammatory factor and polymorphonuclear cells(PMNs) in lung, our study infer the role of PMNs infiltration and early activity of NF-κB in empirical study of lung injury in deep hypothermia and circulatory arrest. Our study also guess the possible mechanism of action in order to provide a more excellent program for lung protection. Methods Twelve immature pigs were randomly divided into two groups,there are six pigs in each group,one group was normothermic parallel circulation(control group),the other was deep hypothermia and circulatory arrest(DHCA, experimental group),we obtain lung tissue and venous blood from pigs to measure the variances of NF-κB by immunohistochemistry and inflammatory factor by enzymelinked immunosorbent assay(ELISA) at different time. Results The expression of NF-κB of the lung tissue specimen was negative before parallel circulation in both groups, there was no brown dyed cell nucleus and the variation was no statistically difference in two groups. The expression of NF-κB reached it‘s peak at half an hour of ischemia reperfusion, and most of the brown dyed cell nucleus were PMNs, then the expression of NF-κB decreased in the experimental group. The lung tissue specimens were all weakly negative at the time points after parallel circulation and there was no statistical difference among them. But the content of inflammatory factor increased gradually from half an hour of ischemia reperfusion to two hour of ischemia reperfusion, which reached their peak at two hour of ischemia reperfusion.There was significance variances at the content of tumor necrosis factor-α(TNF-α) at one hour of ischemia reperfusion, while at one and a half hour of ischemia reperfusion. There was significance variance at the content of interleukin-8 and interleukin-6 in the experimental group. While in the control group, there was statistically difference before and after parallel circulation, but there was no statistically difference among the time points after parallel circulation. Conclusion The early activity of NF-κB may have an important role in lung injury of DHCA,treatments aim directly at NF-κB may provide an important strategy for lung injury of DHCA.