Objective To evaluate the effects of cryopreserved cultured allogenic dermal fibroblasts on angiogenesis and fibroplasia while artificial dermis grafting by spraying the cells on the graft bed.Methods Full thickness skin defect was made on the back of Wistar rat, fibroblasts mixed into fibrin glue (fibroblast group) and same amount fibrin glue (control group) were sprayed separately between the wound bed and artificial dermis in cell density of 1.0×105 cells/cm2 before the artificial dermis was grafted. On day 5 after grafting, the graft and surrounding tissue were examined histologically for angiogenesis and fibroplasia in the dermis and wound bed with hematoxylin eosin stain, VEGF antibody stain, Masson’s trichrome stain and India ink stain. Evans blue perfusion methodwas also used for detecting the angiogenesis quantitatively.Results In the fibroblast group, the angiogenesis of graft bed was significantly accelerated onday 5 after grafting; the numbers of the newly formed capillaries were 9.64±2.36/HP in the fibroblast group and 3.88±1.62/HP in the control group (P<0.05). And on day 10 after grafting the angiogenesis was accelerated not only in graft bed but also in the artificial dermis when compared with control group, the newly formed capillaries network was clearly observed in the artificial dermis. Otherwise, the synthesis of collagen was increased in the dermis on day 10 after grafting in the fibroblast group when compared with control group. The immunoreactivity of VEGF antibody in the fibroblast group also showed a ber expression than that in control group on day 5 after grafting, the numbers of positive cells were 46.04±8.90/HP in the fibroblast group and 30.08±7.76/HP in the control group(P<0.05).Conclusion Transplantation of cryopreserved dermal fibroblasts while artificial dermis grafting can accelerate the angiogenesis and fibroplasia in the artificial dermis and graft bed, thereby accelerate the formation of dermallike tissue in the artificial dermis.
OBJECTIVE To search an ideal carrier of transferred keratinocytes for transplantation. METHODS The transferred keratinocytes were seeded on the surfaces of the artificial dermis and the silicone membrane and cultured in vitro for 2 weeks. The growth of the keratinocytes was observed by microscope and scanning electron microscope. RESULTS The keratinocytes implanted on the artificial dermis began to rupture and died after 2 to 3 days. While the keratinocytes adhered well on the surface of silicone membrane with pseudopodia formation after 1 week under scanning electron microscope, and the cells kept normal morphological and proliferative properties 2 weeks later. CONCLUSION The silicone membrane can be applied as an useful carrier for the keratinocytes transplantation.