Journal of Life Science (생명과학회지)

Korean Society of Life Science (한국생명과학회)
권호 표지

Chondrocyte Culture from Epiphyseal Plate and its Morphological Changes in Autologous Implants of Rabbit

토끼 성장판 연골세포 배양과 자가 이식편에서의 형태학적인 변화

  • 양영철 (인제대학교 의과대학 해부학교실) ;
  • 정해일 (인제대학교 의과대학 해부학교실 인제대학교 의과대학 정형외과학교실) ;
  • 최장석 (인제대학교 의과대학 해부학교실 인제대학교 의과대학 정형외과학교실)
  • Published : 2000.08.01
Download PDF
⟨ Previous Next ⟩

Abstract

We tried to establish the culture method of the chondrocyte isolated from the epiphyseal cartilage and to investigate morphological changes of chondrocyte cultured with enzyme-digested costal cartilage, the perichondrium and experimentally damaged meniscus of rabbit. De novo chondrocyte pellets were prepared from epiphyseal plates by culturing isolated epiphyseal chondrocytes from 4 week. old rabbits. We morphologically assessed the cartilage formation of the chondrocyte culture with enzyme-digested costal carilage, the perichondrial culture, the cultured chondrocytes transplants into experimentally damaged meniscus of rabbits, the perichondrial culture, the cultured chondrocytes transplants into experimentally damaged meniscus of rabbit. In the 24 days, the epiphyseal chondrocytes maintained the typical phenotypes of the partial nodular cell formation. The 30 days cryopreserved chondrocytes showed abnormal and irregular shape. In the type II collagen added culture, the chondrocytes showed expanded rough endoplasmic reticulum and small and large round-like vesicles of processes. In the type IV collagen added culture, the chondrocytes showed large perinuclear vaculoes and abundant well-developed rough endoplasmic reticulum of processes. In the culture with enzyme- digested costal cartilage and the perichondrial culture, the chondrocytes showed a few swelling rough endoplasmic reticulum and vacuoles. The cultured epiphyseal chondrocytes maintained typical phenotype and the chondrocytes were grown faster and maintained more typical phenotype in the type II and IV collagen added culture. The transformed chondrocytes secreted abundant extracellular matrix in the type II collagen added culture, and showed processes in the type IV collagen added culture. The perichondrial chondrocytes were grown faster and their implants were able to transplant. The cultured chondrocytes transplanted into experimentally damaged meniscus were adapted between the meniscus tissues. And the immunocyto-chemical reaction of the type II collagen of the chondrocytes were found to be maintained. The chondrocytes cultured cartilage. The chondrocytes secreted abundantly. The cultured chondrocytes transplanted into experimentally damaged meniscus changed immature cells into enlarged mature cells with extracellular secretion.

Keywords

References

  1. J. Bone Joint Surg. v.80B Autologous perichondral tissue for meniscal replacement. Bruns, J.;J. Kahrs;J. Kampen;P. Behrens;W. Plitz
  2. J. Orthop. Res. v.15 Chondrocyte trans plantstion to articular carticular cartilage explants in vitro. Chen, A. C.;J. P. Nagrampa;R. M. Schingl;L. M. Lottman;R. L. Sah
  3. J. Orthop. Res. v.8 Reimplantation of growth plate chondrocyte into growth plate defects in sheep. Foster, B. K.;A. L. Hansen;G. J. Gibson;J. J. Hopwood;G. F. Binn;O. W. Wiebkin
  4. J. Cell Biol. v.112 Gene expression and extracellular matrix ultrastructure of a mineralizing chondrocyte cell culture system. Gerstenfeld, L. C.;W. J. Landis
  5. Arch. Biochem. Biophys. v.314 Modulation of extracelllular matrix gene expression in bovine high-density chondrocyte cultures by ascorbic acid and enzymatic resuspension. Hering, T. M.;J. Koller;T. D. Huynh;J. B. Varelas;L. J. Sandell
  6. Acta. Anatomica v.157 Light and Electron Microscopy of Stage-Specific Features of the Transdifferentiation of Mouse Meckel's Cartilage Chondrocytes in vitro. Ishizeki,K.;T. Chida;H. Yamamoto;T. Nawa
  7. Arthroscopy v.12 Chondrocyte transplantation [see comments] Jackson, D. W.;T. M. Simon
  8. J. Pediatr. Orthop. B v.7 Reimplantation of growth plate chondrocyte cultures in central growth plate defects: Part II. Surgical experimentation in rabbits. Jouve, J. L.;V. Mottet;J. Cottalorda;P. Frayssinet;P. Petit;G. Bollini
  9. J. Pediatr. Orthop. B v.7 Reimplantation of growth plate chondrocyte cultures in central growth plate defects: Part I. Characterization of cultures. Jouve, J. L.;V. Mottet;J. Cottalorda;P. Frayssinet;G. Bollini
  10. Biochim. Biophys Acta v.1053 Fetal bovine serum inhibits chondrocyte collagenase producrion: interleukin 1 reverses this effect. Kandel, R. A.;K. P. Pritzker;G. B. Mills;T. F. Cruz
  11. Clin. Orthop. v.268 The repair of fullthickness articular cartilage defects. Immune responses to reparative tissue formed by allogeneic growth plate chondrocyte implants. Kawabe, N.;M. Yoshinao
  12. Scand. J. Pheumatol. v.20 Responses of normal and rheumatic human articular chondrocytes cultureed under various experimental conditions in agarose. Ostensen, M.;O. P. Veiby;R. Raiss;A. Hagan;J. Pahle
  13. Yonsei Med. J. v.35 Chondrocyte allograft transplantation for damaged growth plate reconstruction. Park, J. S.;J. I. Ahn;D. L. Oh
  14. Arthritis Rheum v.37 Formation of nodular strutures resembling mature articular cartilage in long-term primary cultures of human fetal epiphyseal chondrocytes on a hydrogel substrate. Reginato, A. M.;R. V. Iozzo;S. A. Jimenez
  15. Orthopade. v.26 Cartilage cell transplantation. Experimental principles and clinical applications. Rudert, M.;C. J. Wirth
  16. J. Orthop. Res. v.14 Recombinant human bone morphogenetic protein-2 maintains the articular chondrocyte phenotype in long term culture. Sailor, L. Z.;R. M. Hewick;E. A. Morris
  17. Orthopedics v.20 Human articular cartilage storage in cell culture medium: guidelines for storage of tresh osteochondral allografts. Sammarco, V. J.;R. Gorab;R. Miller;P. J. Brooks
  18. J. Orthop. Res. v.7 Cryopreserved articular chondrocytes grow in culture, maintain cartilage phenotype, and synthesize matix components. Schachar, N.;M. Nagao;T. Matsuyama;D. McAllister;S. Ishii
  19. Biomaterials v.16 Chondrocyte betaviour within different types of collagen gel in vitro. Schuman, L.;P. Buma;D. Versleyen;B. de Man;P. M. van der Kraan;W. B. van den Berg;G. N. Homminga
  20. Cell. Biol. Inter. v.21 Merke. Integrin expression and collagen type II implicated in maintenance of chondrocyte shape in monolayer culture: An immunomorphological study. Shakibaei, M.;P. de Souza;H. J.
  21. Acta. Orthop. Scacd. v.66 Culture of chondrocytes in alginate and collagen carrier gels. van Susante, J. L.;P. Buma;G. J. van Osch;D. Versleyen;P. M. van der Kraan;W. B. van der Berg;G. N. Homminga
  22. Nature v.267 Relationship between cell shape and type of collagen synthesised as chondrocytes lose their cartilage phenotype in culture. von der Mark;K. V. Gauss;H. Mark;P. Muller