Objective To study the allograft effect of two kinds of tissue engineered oral mucosa lamina proprias on skin fullthickness wounds. Methods The cultured Wistar rat oral mucosa fibroblasts (OMF) were incorporated into collag en or chitosancollagen to construct the tissue engineered oral mucosa laminaproprias, and then the OMFs were labeled with BrdU. The fullthickness round skin defects were made with a round knife (diameter, 0.8 cm) on the backs of 36 Wistar rats (2125 weeks old), which were divided into 2 experimental groups: the fibroblastpopulated collagen lattices (FPCL) group (grafted by FPCLs) and the fibroblastpopulated chitosan collagen lattices (FPCCL) group (grafted by FPCCLs), and the control group (only covered with gauges). All the wounds were observed by the naked eyes or the light microscope, and were measured 4, 7, 14, and 21 days postoperatively. Results There were no infection during the wound healing period. At 7 days after the grafting, the wounds in the 3 groups were covered by scab and/or gauze; at 14 days, the gauze and scab on the wounds in the three groups were all replaced by the new epidermis naturally except one scab each in the FPCCL group and the control groups,which was replaced at 17 days.All the centers of the new epidermis were measurable as the pink red points. At 21 days, all the new skins were smooth without hairs, and their color was similar to the normal one. At 4, 7, and 14 days,there was an indication that the wound diameters became significantly smaller in the three groups; but after the 14th day, there was no significant indication of this kind. At 7 days, the wound diameter in the FPCL group was significantly smaller than that in the FPCCL group and the control group (Plt;0.01). Under the lightmicroscope, at 4 days postoperatively, the decayed tissue on the surfaces of the recipient wounds in the FPCL group and the FPCCL group was separated from the lower granular tissue in which there were many inflammatory cells, fibroblasts, and new vessels. There was a similar-phenomenon in the control group. Each skin wound in the three groups was only partly keratinocyted at 7 days postoperativel y. The recipient wounds were wholly keratinocyted with when rete ridges observed at 14 and 21 days, but in the control group the wounds were keratinocyted with no rete ridges. Fibers in the new dermis were thin. The OMFs with Brdu appeared in the granular tissue and new dermis at 4, 7, 14, and 21 days postoperatively, which could be illustr ated by the immunohistochemical staining. The positive OMFs and the granular tissue joined in the repair of the skin defe cts without any allergic reaction during the period of the wound healing. Conclusion The oral mucosa fibroblasts as the new seed cells can join i n the repair of the skin defects effectively and feasibly. The fibroblastpopul ated collagen lattices and the fibroblastpopulated chitosan collagen lat tices can repair skin defects effectively and feasibly, too. And the quality of the new skins was better in the two experimental groups than in the control group.
Objective To investigate the growth of the tissue engineered mucosa after its heterotransplantation. Methods The epithelial cells and fibroblasts were isolated from a postoperative tissue of the 3month patient with labialcleft. The epithelial cells and fibroblasts were separately seeded on the polylactic/glycolic acid copolymer membrane, and then they were exposed to the air-liquid interface. Seven volunteer patients, whose traumatic beds were repaired with the tissue engineered oral mucosa. The biopsy tissue from one of the seven patients was observed under light icroscope 18 and 30 days after transplantation, respectively. Results The tissue engineered oral mucosa having 5-6 layers anticytoeratin staining positively cells in the epithelial layer and 3-7 layers anti-Cytoeratin staining negatively cells in the subepithelial layer grew well after the he terotransplantation. No differ ence could be found between the transplanting and normal areas. At 18 days, the epithelial layer and lamina propria grew well and the fibroblasts were found; at 30 days, collagen was obviously observed. The structures in both the transplanting and the normal areas were similar. Conclusion The tissue engineered oral mucosa can grow well after the heterotransplantation.