参考文献/References:
[1]Liu XL,Lee PY,Ho CM,et al. Silver nanoparticles mediate differential responses in keratinocytes and fibroblasts during skin wound healing.Chem Med Chem,2010,5(3):468-475.
[2]刘雪来,黄格元.纳米生物材料在创伤修复中的研究与应用.中华外科杂志,2013,51(8):748-752.
[3]高鹏,刘雪来.表皮干细胞:从基础到临床.中国微创外科杂志,2014,14(9):854-857.
[4]胡康洪,姚颖.三维细胞培养技术的研究与应用.医学分子生物学杂志,2008,5(2):185-188.
[5]Schutte M,Fox B,Baradez MO,et al.Rat primary hepatocytes show enhanced performance and sensitivity to acetaminophen during three-dimensional culture on a polystyrene scaffold designed for routine use.Assay Drug Dev Technol,2011,9(5):475-486.
[6]Rheinwald JG,Green H.Formation of a keratinizing epithelium in culture by a cloned cell line derived from a teratoma.Cell,1975,6(3):317-330.
[7]Rheinwald JG,Green H.Serial cultivation of strains of human epidermal keratinocytes:the formation of keratinizing colonies from single cells.Cell,1975,6(3):331-343.
[8]李政.角朊细胞培养技术最新进展.国外医学生物医学工程分册,2003,26(4):184-187.
[9]Gauvin R,Larouche D,Marcoux H,et al.Minimal contraction for tissue-engineered skin substitutes when matured at the air-liquid interface.J Tissue Eng Regen Med,2013,7(6):452-460.
[10]Fatimah SS,Chua K,Tan GC,et al.Organotypic culture of human amnion cells in air-liquid interface as a potential substitute for skin regeneration.Cytotherapy,2013,15(8):1030-1041.
[11]Gauvin R,Larouche D,Marcoux H,et al.Minimal contraction for tissue-engineered skin substitutes when matured at the air-liquid interface.J Tissue Eng Regen Med,2013,7(6):452-460.
[12]Sarkar SD,Farrugia BL,Dargaville TR,et al.Chitosan-collagen scaffolds with nano/microfibrous architecture for skin tissue engineering.J Biomed Mater Res A,2013,101(12):3482-3492.
[13]Gautam S,Chou CF,Dinda AK,et al.Surface modification of nanofibrous polycaprolactone/gelatin composite scaffold by collagen type I grafting for skin tissue engineering.Mater Sci Eng C Mater Biol Appl,2014,34:402-409.
[14]Knight E,Murray B,Carnachan R,et al.Alvetex: polystyrene scaffold technology for routine three dimensional cell culture.Methods Mol Biol,2011,695:323-340.
[15]Sharma R,Barakzai SZ,Taylor SE,et al.Epidermal-like architecture obtained from equine keratinocytes in three-dimensional cultures.J Tissue Eng Regen Med,2013 Jul 30.[Epub ahead of print]
[16]Simon KA,Park KM,Mosadegh B,et al.Polymer-based mesh as supports for multi-layered 3D cell culture and assays.Biomaterials,2014,35(1):259-268.
[17]Elsayed M,Merkel OM.Nanoimprinting of topographical and 3D cell culture scaffolds.Nanomedicine (Lond),2014,9(2):349-366.
[18]Liu YZ,Lü XP,Pan ZX,et al.Establishment of a novel method for primary culture of normal human cervical keratinocytes.Chin Med J (Engl),2013,126(17):3344-3347.
[19]Weber LM,Hayda KN,Anseth KS.Cell-matrix interactions improve beta-cell survival and insulin secretion in three-dimensional culture.Tissue Eng Part A,2008,14(12):1959-1968.
[20]Campisi G,Giannola LI,Fucarino A,et al.Medium-term culture of primary oral squamous cell carcinoma in a three-dimensional model:effects on cell survival following topical 5-fluororacile delivery by drug-loaded matrix tablets.Curr Pharm Des,2012,18(34):5411-5420.(收稿日期:2014-07-23)