ObjectiveTo study the protective effect of hepatocyte growth factor(HGF) on grafted mucous membrane of transplanted small bowel.MethodsTotal small bowel transplantation was made in inbred Wistar (RT1k) rats heterotopically,either total parenteral nutrition (control group,n=10) or hepatocyte growth factor supplemented TPN (HGF group,n=10) was given to the recipients from the 2nd day to the 10th day postoperatively. Morphological parameters of the transplanted intestinal mucosa, such as mucosal villous height, villous width, crypt depth, mucosal thickness and villous surface area were observed. Variation of ultrastructure of transplanted epithelial cells was observed. Composition of mucosal protein and DNA content were tested. ResultsComparison between HGF group and the control group were as follows. Mucosal villous height (298.79±22.31) μm vs (176.45±14.62) μm, P=0.001, villous width (107.46±12.34) μm vs (74.20±16.85) μm, P=0.004, crypt depth (104.56±11.17) μm vs (74.45±8.34) μm, P=0.000 5, mucosal thickness (409.53±35.83) μm vs (259.38±24.65) μm, P=0.003, and villous surface area (0.101±0.011) mm2 vs (0.041±0.005) mm2, P=0.001 were found significantly increased in HGF group compared with control group, there were no obvious difference decrease as compared to pretransplant parameters.Mucosal protein composition was higher in HGF group than that in control group (89.65±9.28) mg/g wet wt vs (53.73±11.45) mg/g wet wt, P=0.012, baseline (92.64±10.52) mg/g wet wt, nearly equal to baseline; DNA composition was also high in HGF group (0.89±0.09) mg/g wet wt vs (0.51±0.06) mg/g wet wt, P=0.008, baseline (0.91±0.09) mg/g wet wt. Nearly normal ultrastructure of the graft was maintained in HGF group, atrophied microvilli and broken mitochondrial crista were observed in control group.ConclusionHepatocyte growth factor can improve mucosal structure, preserve enterocyte ultrastructure of isograft after small bowel transplantation in rat.
To overcome the disadvantages of the artificial materials, to design pedicled demucosal small intestinal sheet to repair full-thickness abdominal wall defect. Methods The porcine model of full-thickness abdominal wall defect by resecting 10 cm × 7 cm abdominal wall tissue (from skin to peritoneum) in 20 female animals, which were randomizedto jejunum and ileum sheet groups(n=10). Defect of abdominal wall were repaired with pedicled demucosal jejunum/ileum sheet respectively and immediate spl it-thickness free skin grafting. The general condition was observed and the tension strength of the repaired abdominal wall was measured 30 days postoperatively. In another 5 models, defect was repaired with pedicled demucosal small intestinal sheets and immediate spl it-thickness free skin grafting. The histological change and tissue thickness of the pedicled demucosal small intestinal sheet, spl it-thickness free skin graft and the repaired abdominal wall were observed and measured respectively after 30 days of operation. Results The operations were successful and no operative death occurred in all animals. All pedicled demucosal small intestinal sheets primarily healed to the edge of defected abdominal walls. Neither infection nor wound dehiscence occurred. All the spl it-thickness free skin grafting were successful. Regeneration of the intestinal mucosa occurred 4 days to 5 days postoperatively in 3 animals (2 of jejunum sheet group and 1 of ileum sheet group) at the initial stage andwere successfully treated. No postoperative herniation occurred in all animals. The cel iac pressure of herniation of the repaired abdominal wall jejunum/ileum sheet was (24.8 ± 3.4) kPa in jejunum sheet group and (21.3 ± 2.8) kPa in ileum sheet group, and the difference was significant (P lt; 0.01). No rupture of the repaired abdominal wall occurred in jejunum and ileum sheet groups when the cel iac pressure was 40 kPa. Before repairing the abdominal wall defects, there was a l ittle residual mucosal tissue on the surface of all pedicled demucosal small intestinal sheets. At the 30th day after operation, conspicuous hyperplasia and thickening occurred in all parts of tissue of the repaired abdominal walls and the residual mucosal tissue disappeared completely. Conclusion Because of simple operation, satisfactory achievement ratio, good effect, no important compl ication, and no use of expensive prosthetic materials, it is a feasible method to repair the full-thickness abdominal wall defect with pedicled demucosal small intestinal sheet.
Objective To investigate the effect of FLEEOX regiment on nutritional status of advanced gastric cancer patients after neoadjuvant chemotherapy. Methods Forty-eight cases of advanced gastric cancer patients from December 2010 to October 2011 in this hospital were included into. The indexes of body composition and the blood related nutritional indicators before and after neoadjuvant chemotherapy were determined. Results After neoadjuvant chemotherapy,the body weight,intracellular fluid,body mass index,protein,body fat,body cell mass,and arm circumference mildly decreased;extracellular fluid,body water content,inorganic salts,bone mineral content,non-fat group,skeletal muscle,and arm muscle circumference mildly increased,but the differences were not statistically significant (P>0.05). The blood albumin,prealbumin,total protein,transferrin,and lymphocytes decreased at different degrees down,but the differences were not statistically significant (P>0.05). Conclusion Patients have no obvious changes in nutritional status during chemotherapy of FLEEOX regiment.