• 基本信息
    导师姓名: 刘伟 学科代码: 100210
    性别: 学科名称: 外科学
    培养单位: 附属第九人民医院 三级学科 整形
    导师类型: 博士生导师 专业领域名称: 外科学 专业学位
    联系方式: liuwei_md@126.com 专业领域代码: 105111
    邮编: 200011 邮箱地址: liuwei_md@yahoo.com.cn
  • 研究方向 (点击浏览详细信息)
  • 社会任职
     
    上海市整形外科研究所副所长,中华整形外科杂志编委,中国生物医学工程学会组织工程分会副主任委员,中国生物材料委员会委员,中国解剖学会再生医学分会副主任委员,国际组织工程与再生医学学会(TERMIS) Member at large, Biomaterials 和 Journal of Tissue Engineering and Regenerative Medicine杂志编委, Tissue Engineering”杂志特刊编辑。Scar Club学术委员会委员, Founding Member of Global Scar Society, Fellow of Interntional Union Society of Biomeaterials Science and Technology
  • 科研项目
    项目编号项目名称课题来源起止年月批准经费承担职责
    31870967模拟肌腱发育时空调控机制促进组织工程肌腱胶原合成与重塑国家自然基金面上项目 2019-01~2022-12 59万元  课题负责人
    2018YFC1105800生物力学调控组织再生核心技术研发及其临床应用转化科技部2018年国家重点研发计划 2018-09~2021-07 1173万元  课题负责人
    81671921基于全基因组、转录组和甲基化测序的瘢痕疙瘩易感基因探索研究2017年国家自然科学基金面上项目 2017-01~2020-12 52万元  课题负责人
    20150202828瘢痕诊断分类及危险评估的临床研究 瘢痕诊断分类及危险评估的临床研究 瘢痕诊断分类及危险评估的临床研究 瘢痕诊断分类及危险评估的临床研究2015年国家卫计委公益性行业基金 2015-06~2018-12 23万元  课题参与人
    31470943肌腱细胞外基质和拓扑结构诱导人脂肪干细胞成肌腱分化的实验研究国家自然基金面上项目 2015-01~2018-12 90万元  课题负责人
    2012AA020507结构类组织的组织工程构建技术与产品研发科技部863 2012-01~2015-12 1200万元  课题负责人
    31170937模拟肌腱细胞形态和力学微环境诱导ASC 成肌腱分化及机制国家自然科学基金 2012-01~2015-12 60万元  课题负责人
    81071590细胞形态和力学刺激在皮肤成纤维细胞向肌腱细胞转分化中的作用及其分子机制国家自然科学基金 2011-01~2014-12 35万元  课题负责人
    30872694阻断转化生长因子-beta 效应联合干细胞移植促进伤口皮肤再生国家自然基金委,面上项目 2009-01~2011-12 34万元  课题负责人
    2006AA02A127组织工程肌腱体外构建及产品研制与开发科技部863 2006-12~2010-12 450万元  课题负责人
    2005CB522703生物力学调节细胞分化和促进工程化组织形成的机理科技部973子课题 2005-10~2010-09 450万元  课题负责人
  • 学术论文
    作者论文标题期刊名出版年卷期页码
      瘢痕疙瘩发生和发展的整体观机制探讨  组织工程与重建外科  2018  14(4):181-183 
    Li Q, Zhang W, Zhou G, Cao Y,, Zhang ZY.   Demineralized bone matrix-based microcarrier scaffold favors vascularized large bone regeneration in vivo in a rat model.  J Biomater Appl.  2018  33(2):182-195. 
      中国瘢痕疙瘩临床治疗推荐指南  中国整形美容外科杂志  2018  29(5):前插1-5 
    Deng J, Shi Y, Gao Z, Zhang W, Wu X, Cao W,  Inhibition of Pathological Phenotype of Hypertrophic Scar Fibroblasts Via Coculture with Adipose-Derived Stem Cells.   Tissue Eng Part A.  2018  24(5-6):382-393. 
    Zhou K, Feng B, Wang W, Jiang Y, Zhang W, Zhou G, Jiang T, Cao Y,  Nanoscaled and microscaled parallel topography promotes tenogenic differentiation of ASC and neotendon formation in vitro.  Int J Nanomedicine.  2018  4;13:3867-3881. 
    Wang W, Deng D, Wang B, Zhou G, Zhang W, Cao Y, Zhang P,  Comparison of Autologous, Allogeneic, and Cell-Free Scaffold Approaches for Engineered Tendon Repair in a Rabbit Model-A Pilot Study.  Tissue Eng Part A,   2017  2017 DOI: 10.1089/ten.tea.2016.0447 
    Liu K, Gao Z, Zhou G, Zhang W, Wu X,  Characterization of Smad3 knockout mouse derived skin cells.  In Vitro Cell Dev Biol Anim.  2017  ;53(5):458-466 
    Lin X, Wang W, Zhang W, Zhang Z, Zhou G, Cao Y,  Hyaluronic acid coating enhances biocompatibility of non-woven PGA scaffold and cartilage formation.  Tissue Eng Part C,  2017  23(2):86-97.  
    Shi Y, Zhou K, Zhang W, Zhang Z, Zhou G, Cao Y,  Microgrooved topographical surface directs tenogenic lineage specific differentiation of mouse tendon derived stem cells.  Biomed Mater.   2017  12(1):015013.  
    Shi Y, Xiong Y, Jiang Y, Zhang Z, Zhou G, Zhang W, Cao Y, He J,  Conditional tenomodulin overexpression favors tenogenic lineage differentiation of transgenic mouse derived cells.   Gene.  2017  598:9-19. 
    Deng J, Shi Y, Gao Z, Zhang W, Wu X, Cao W,  Inhibition of Pathological Phenotype of Hypertrophic Scar Fibroblasts Via Coculture with Adipose-Derived Stem Cells   Tissue Eng Part A,  2017  2017 DOI: 10.1089/ten.tea.2016.0550 
    Jiang Y, Shi Y, He J, Zhang Z, Zhou G, Zhang W, Cao Y,  Enhanced tenogenic differentiation and tendon-like tissue formation by tenomodulin overexpression in murine mesenchymal stem cells.   J Tissue Eng Regen Med.   2016  2016 Apr 21. doi: 10.1002/term 
    Wang W, Qu M, Xu L, Wu X, Gao Z, Gu T, Zhang W, Ding X,, Chen YL  Sorafenib exerts an anti-keloid activity by antagonizing TGF-β/Smad and MAPK/ERK signaling pathways.   J Mol Med (Berl).  2016  94(10):1181-1194.  
    Wang W, Li J, Wang K, Zhang Z, Zhang W, Zhou G, Cao Y, Ye M, Zou H,  Induction of predominant tenogenic phenotype in human dermal fibroblasts via synergistic effect of TGF-β and elongated cell shape.   Am J Physiol Cell Physiol.   2016  310(5):C357-72. 
    Wang W, He J, Feng B, Zhang Z, Zhang W, Zhou G, Cao Y, Fu W,  Aligned nanofibers direct human dermal fibroblasts to tenogenic phenotype in vitro and enhance tendon regeneration in vivo.   Nanomedicine (Lond).  2016  11(9):1055-72. 
    Lin X, Shi Y, Cao Y,  Recent progress in stem cell differentiation directed by material and mechanical cues.   Biomed Mater.   2016  ;11(1):014109.  
    Huang J, Lin X, Shi Y,  Tissue engineering and regenerative medicine in basic research: a year in review of 2014.  Tissue Eng Part B Rev  2015  21(2):167-76 
    Lin X, Huang J, Shi Y,  Tissue engineering and regenerative medicine in applied research: a year in review of 2014.  Tissue Eng Part B  2015  ;21(2):177-86 
    Wang W, He A, Zhang Z, Zhang W, Zhou G, Cao Y,  Induction of transient tenogenic phenotype of high-density cultured human dermal fibroblasts.  Connect Tissue Res  2015  56(4):288-99 
    Xiong Y, He J, Zhang W, Zhou G, Cao Y,  Retention of the stemness of mouse adipose-derived stem cells by their expansion on human bone marrow stromal cell-derived extracellular matrix.  Tissue Eng Part A.  2015  21(11-12):1886-94 
    Wang X, Gao Z, Wu X, Zhang W, Zhou G,  Inhibitory effect of TGF-β peptide antagonist on the fibrotic phenotype of human hypertrophic scar fibroblasts.  Pharm Biol  2015  2:1-9 
    , Burdick JA, van Osch GJ.  egulation Policy on Tissue Engineering and Regenerative Medicine in Asian-Pacific Region.  Tissue Eng Part A.  2015  21(23-24):2779-80. 
    Deng D, Wang W, Wang B, Zhang P, Zhou G, Zhang WJ, Cao Y,  Repair of Achilles tendon defect with autologous ASCs engineered tendon in a rabbit model.  Biomaterials  2014  35(31):8801-9 
    Xiong Y, He J, Zhang W, Zhou G, Cao Y,  Potent Osteogenesis and Chondrogenesis of CD34-Enriched Mouse Adipose-Derived Stem Cells.  J Med Bio Eng  2014  34:230-237 
    Deng D,, Cheema U, Mudera V, Hadjipanayi E, Brown RA.   Less is more: new biomimetic approach to control spatial and temporal cell loading for tissue engineering.  J Biomed Mater Res A.  2014  102(11):4108-17 
    Liu K, Gao Z, Wu X, Zhou G, Zhang WJ, Yang X,  Knocking out Smad3 favors allogeneic mouse fetal skin development in adult wounds.  Wound Repair Regen.  2014  ;22(2):265-71 
    Qu M, Song N, Chai G, Wu X,  Pathological niche environment transforms dermal stem cells to keloid stem cells: A hypothesis of keloid formation and development.  Med Hypotheses.  2013  81(5):807-12 
    Chen B, Wang B, Zhang WJ, Zhou G, Cao Y,  Macromolecular Crowding Effect on Cartilaginous Matrix Production: A Comparison of Two-Dimensional and Three-Dimensional Models  Tissue Eng Part C  2013  19(8):586-95 
    , Burdick JA, van Osch GJ.  Plant-derived recombinant human collagen: a strategic approach for generating safe human ECM-based scaffold.  Tissue Eng Part A  2013  19(13-14):1489-90 
    He J, Duan H, Xiong Y, Zhang W, Zhou G, Cao Y,  Potent osteogenesis and chondrogenesis of CD34-enriched mouse adipose-derived stem cells  Mol Med Rep  2013  7(4):1111-6 
    Wang W, Deng D, Li J,  Elongated cell morphology and uniaxial mechanical stretch contribute to physical attributes of niche environment for MSC tenogenic differentiation.  Cell Biol Int  2013  37(7):755-60 
    Chen B, Wang B, Zhang WJ, Zhou G, Cao Y,  In vivo tendon engineering with skeletal muscle derived cells in a mouse model  Biomaterials  2012  33(26):6086-97 
    Xia L, Liu Q, Zhang W, Zhou G, Cao Y,  Enhanced proliferation and functions of in vitro expanded human hair follicle outer root sheath cells by low oxygen tension culture  Tissue Eng Part C Methods  2012  18(8):603-13 
    Zhang Y, Li J, Zhu J, Zhou G, Zhang WJ, Cao Y,  Enhanced cartilage formation by inhibiting cathepsin K expression in chondrocytes expanded in vitro.   Biomaterials  2012  33(30):7394-404 
    Yuan J, Cao Y,  Biomimetic scaffolds: implications for craniofacial regeneration  J Craniofac Surg  2012  23(1):294-7 
    Song N, Wu X, Gao Z, Zhou G, Zhang WJ,  Enhanced expression of membrane transporter and drug resistance in keloid fibroblasts  Hum Pathol  2012  43(11):2024-32 
    Jiang Y, Liu H, Li H, Wang F, Cheng K, Zhou G, Zhang W, Ye M, Cao Y,, Zou H.  A proteomic analysis of engineered tendon formation under dynamic mechanical loading in vitro.  Biomaterials.  2011  32(17):4085-95. 
    Xia L, Liu Q, Zhou G, Zhang W, Cao Y,  A proteomic analysis of engineered Mouse out root sheath cells cultured on E-cadherin-coated dishes exhibit neuronal cell morphology  Asia-Pacific J Chem Eng ING  2011  6: 816–822 
    , Wu X, Gao Z.  New potential antiscarring approaches.  Wound Repair Regen.  2011  19 Suppl 1:s22-31 
    Zhu J, Li J, Wang B, Zhang WJ, Zhou G, Cao Y,  Enhanced proliferation capacity of The regulation of phenotype of cultured tenocytes by microgrooved surface structure.  Biomaterials.  2010  31(27):6952-6958 
    Hu K, Shi H, Zhu J, Deng D, Zhou G, Zhang W, Cao Y,  Compressed collagen gel as the scaffold for skin engineering.  Biomed Microdevices.  2010  12(4):627-35. 
    Gao Z, Wu X, Song N, Zhang L,  Engineering human neo-tendon tissue in Differential expression of growth differentiation factor-9 in keloids  Burns  2010  36(8):1289-95 
      Engineered in vitro models of tumor angiogenesis: introduction to a new special issue format of Tissue Engineering.  Tissue Eng Part A.  2010  16(7):2129-31. 
    Xu L, Cao D,, Zhou G, Zhang WJ, Cao Y.   Engineered in vitro models of tumor angiogenesis: introduction to a new In vivo engineering of a functional tendon sheath in a hen model.  Tissue Eng Part A.  2010  31(14):3894-902. 
    Zhang Y, Wang B, Zhang WJ, Zhou G, Cao Y,  Enhanced proliferation capacity of porcine tenocytes in low O(2) tension culture.  Biotechnol Lett.  2010  32(2):181-7. 
    Deng D,, Xu F, Yang Y, Zhou G, Zhang WJ, Cui L, Cao Y.  Engineering human neo-tendon tissue in vitro with human dermal fibroblasts under static mechanical strain.  Biomaterials  2009  30(35):6724-30.