组织工程与重建外科杂志
組織工程與重建外科雜誌
조직공정여중건외과잡지
JOURNAL OF TISSUE ENGINEERING AND RECONSTRUCTIVE SURGERY
2014年
2期
61-68
,共8页
吴巍%段惠川%张文杰%曹谊林
吳巍%段惠川%張文傑%曹誼林
오외%단혜천%장문걸%조의림
表皮组织工程%纳米纤维电纺膜%明胶%聚己内酯
錶皮組織工程%納米纖維電紡膜%明膠%聚己內酯
표피조직공정%납미섬유전방막%명효%취기내지
Epidermis skin engineering%Electrospun nanofibrous membrane%Gelatin%Polycaprolactone
目的:观察明胶/聚己内酯(GT/PCL)纳米纤维电纺膜应用于表皮组织工程的可行性。方法测定HaCaT细胞(人类表皮细胞系)与电纺膜的生物相容性,并对于接种细胞前后该膜片的机械性能进行评价。应用CCK-8法检测细胞增殖情况。体内研究检测GT/PCL纳米纤维电纺膜构建的组织工程化表皮修复裸鼠皮肤缺损的效果。结果 HaCaT细胞能够在膜片上很好地附着和增殖,该膜片具有良好的生物相容性。机械性能测试显示,该膜片具有足够的力学特性以用于移植。体内研究表明,应用GT/PCL纳米纤维电纺膜构建的组织工程化表皮能够修复裸鼠的皮肤缺损。结论GT/PCL纳米纤维电纺膜是一种适合构建组织工程化表皮的支架材料。
目的:觀察明膠/聚己內酯(GT/PCL)納米纖維電紡膜應用于錶皮組織工程的可行性。方法測定HaCaT細胞(人類錶皮細胞繫)與電紡膜的生物相容性,併對于接種細胞前後該膜片的機械性能進行評價。應用CCK-8法檢測細胞增殖情況。體內研究檢測GT/PCL納米纖維電紡膜構建的組織工程化錶皮脩複裸鼠皮膚缺損的效果。結果 HaCaT細胞能夠在膜片上很好地附著和增殖,該膜片具有良好的生物相容性。機械性能測試顯示,該膜片具有足夠的力學特性以用于移植。體內研究錶明,應用GT/PCL納米纖維電紡膜構建的組織工程化錶皮能夠脩複裸鼠的皮膚缺損。結論GT/PCL納米纖維電紡膜是一種適閤構建組織工程化錶皮的支架材料。
목적:관찰명효/취기내지(GT/PCL)납미섬유전방막응용우표피조직공정적가행성。방법측정HaCaT세포(인류표피세포계)여전방막적생물상용성,병대우접충세포전후해막편적궤계성능진행평개。응용CCK-8법검측세포증식정황。체내연구검측GT/PCL납미섬유전방막구건적조직공정화표피수복라서피부결손적효과。결과 HaCaT세포능구재막편상흔호지부착화증식,해막편구유량호적생물상용성。궤계성능측시현시,해막편구유족구적역학특성이용우이식。체내연구표명,응용GT/PCL납미섬유전방막구건적조직공정화표피능구수복라서적피부결손。결론GT/PCL납미섬유전방막시일충괄합구건조직공정화표피적지가재료。
Objective To investigate the feasibility of a modified gelatin and polycaprolactone (GT/PCL) electrospun nanofibrous membrane for epidermis engineering. Methods The biocompatibility of the membrane was evaluated by seeding HaCaT cells (human keratinocyte cell line) on the membrane and the mechanical properties of the membrane were determined before and after seeding HaCaT cells. Cell proliferation assay was tested by CCK-8 kit. Then the outcome of GT/PCL membranes repairing skin defects in the nude mouse was investigated. Results The cell proliferation assay showed good attachment and proliferation of HaCaT cells on the membranes and demonstrated good biocompatibility of the membranes. The membranes were strong enough to be transplanted confirming by mechanical test. Further in vivo transplantation studies revealed that engineered epidermis with GT/PCL membranes are able to repair skin defects of the nude mouse. Conclusion The modified GT/PCL electronspun nanofibrous membrane is a kind of suitable scaffold for epidermis engineering.
