血小板源性生长因子基因修饰的人工复合皮移植大鼠创面效果观察

Observation of the grafting of platelet-derived growth factor gene-modified artificial composite skin on rat wounds

目的观察血小板源性生长因子B(PDGFB)基因修饰的人工复合皮移植大鼠创面后的效果。方法构建PDGFB真核表达质粒,在脂质体介导下转染大鼠成纤维细胞。分别构建复合皮1(角质形成细胞+猪脱细胞真皮基质+PDGFB基因转染的成纤维细胞)和复合皮2(角质形成细胞+猪脱细胞真皮基质+未转染的成纤维细胞),移植于大鼠背部全层皮肤缺损创面,相应设为转染组、未转染组(各18只)。以不作皮肤移植的8只大鼠全层皮肤缺损创面为对照组。术后2周观察大鼠创面移植皮片存活情况。术后2、4、6周观察大鼠创面大体情况,计算创面收缩率,并取创面组织标本进行组织学观察。结果(1)术后2周,转染组大鼠中皮片完全存活者14只、部分存活者3只、未存活者1只;未转染组大鼠中皮片完全存活者10只、部分存活者4只、未存活者4只。(2)术后2周,对照组创面结痂。术后6周转染组移植皮片表面光滑,有弹性,抗磨擦性强,愈合效果优于其他两组。(3)术后2、4、6周,对照组大鼠创面收缩率均高于其他两组,转染组创面收缩率低于未转染组(P<0.05)。(4)术后2周转染组移植皮片内可见较多毛细血管分布;6周时表皮细胞分化达7～10层,纤维排列致密整齐,毛细血管分布均匀。结论用含PDGFB基因的人工复合皮移植修复创面,可明显提高创面愈合质量。

Objective To observe the effects of the grafting of a platelet-derived growth factor gene-modified artificial composite skin on rat wounds with full thickness defect. Methods Platelet derived growth factor-B (PDGF-B) eukaryotic expression plasmid was constructed, and the fibroblasts were transfected with it by liposome mediation. Artificial composite skins 1 and 2 were constructed respectively. The skin1 was composed of keratinocyte, porcine acellular dermal matrix and PDGF-B gene-transfected fibroblasts while the skin 2 contained keratinocyte, porcine acellular dermal matrix and fibroblasts. The two kinds of composite skin were grafted onto wounds on the rat back to form composite skin group 1 (C1) and 2 (C2), respectively, with 18 rats in each group. Eight rats with wounds without treatment served as control (C) group. The survival rate of the composite skin was observed at 2 post-operative weeks (POWs). The rat wounds were examined grossly on 2, 4 and 6 POWs for the calculation of wound contraction rate. Wound tissue samples were harvested for histological examination. Results (1) Up to 2 POWs, 14 grafts in C1 group survived completely, 3 with partial survival and 1 failure. In C2 group, 10 skin grafts survived completely, 4 with partial survival and 4 failures.(2) A scab was formed in the wound at 2 POW in C group. The surface of the grafted skin in C1 group was smooth, elastic, and showed good anti-friction properly, and it was better in quality compared with that in other two groups at 6 POW. (3) The wound contraction rate of the grafts in C group of rats was higher than that in C1 and C2 groups at 2, 4 and 6 POWs, while that in C1 was lower than that in C2 group. (4) Capillary formation was more intense in the grafted skins in C1 group at 2 POWs, and the epithelia differentiated well into 7 to 10 layers of epithelial cells with compact and orderly arrangement and evenly distributed fibrous tissue at 6 POWs. Conclusion Repair of the wound with artificial composite skin containing PDGF-B gene could improve the quality of wound healing.