1[1]Sato M,Kikuchi T,Asazuma T,et al.Glycosaminoglycan accumulation in primary culture of rabbit intervertebral disc cells.Spine,2001,26:2653-2660
2[2]An HS,Thonar EJ,Masuda K.Biological repair of intervertebral disc.Spine,2003,28:S86 -92
3[3]Moon SH,Gilbertson LG,Nishida K,et al.Human intervertebral disc cells are genetically modifiable by adenovirus-mediated gene transfer:implications for the clinical management of intervertebral disc disorders.Spine,2000,25:2573-2579
4[4]Paul R,Haydon RC,Cheng H,et al.Potential use of Sox9 gene therapy for intervertebral degenerative disc disease.Spine,2003,28:755-763
5[5]Sakai D,Mochida J,Yamamoto Y,et al.Transplantation of mesenchymal stem cells embedded in Atelocollagen gel to the intervertebral disc:a potential therapeutic model for disc de generation.Biomaterials,2003,24:3531-3541
6[6]Risbud MV,Albert TJ,Guttapalli A,et al.Differentiation of mesenchymal stem cells towards a nucleus pulposus -like phenotype in vitro:implications for cell-based transplantation therapy.Spine,2004,29:2627 -2632
7[7]Crevensten G,Walsh AJ,Ananthakrishnan D,et al.Intervertebral disc cell therapy for regeneration:mesenchymal stem cell implantation in rat intervertebral discs.Ann Biomed Eng,2004,32:430-434
8[8]Gruber HE,Leslie K,Ingram J,et al.Cell-based tissue engineering for the intervertebral disc:in vitro studies of human disc cell gene expression and matrix production within selected cell carriers.Spine J,2004,4:44-55
9[9]Sakai D,Mochida J,Iwashina T,et al.Atelocollagen for culture of human nucleus pulposus cells forming nucleus pulposus-like tissue in vitro:influence on the proliferation and proteoglycan production of HNPSV-1 cells.Biomaterials,2006,27:346-353
10[10]Mwale F,Iordanova M,Demers CN,et al.Biological evaluation of chitosan salts cross-linked to genipin as a cell scaffold for disk tissue engineering.Tissue Eng,2005,11:130-140