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Physical crosslinking of collagen fibers: Comparison of ultraviolet irradiation and dehydrothermal treatment

Journal of biomedical materials research, v.29 no.11, 1995년, pp.1373 - 1379  

Weadock, Kevin S. (Orthopaedic Research Laboratory, Division of Orthopaedic Surgery, University of Medicine and Dentistry of New Jersey, Robert Wood Johnson Medical School, New Brunswick, New Jersey) ,  Miller, Edward J. (Department of Biochemistry and Molecular Genetics, University of Alabama at Birmingham, Birmingham, Alabama) ,  Bellincampi, Lisa D. (Orthopaedic Research Laboratory, Division of Orthopaedic Surgery, University of Medicine and Dentistry of New Jersey, Robert Wood Johnson Medical School, New Brunswick, New Jersey) ,  Zawadsky, Joseph P. (Orthopaedic Research Laboratory, Division of Orthopaedic Surgery, University of Medicine and Dentistry of New Jersey, Robert Wood Johnson Medical School, New Brunswick, New Jersey) ,  Dunn, Michael G. (Orthopaedic Research Laboratory, Division of Orthopaedic Surgery, University of Medicine and Dentistry of New Jersey, Robert Wood Johnson Medical School, New Brunswick, New Jersey

Abstract AI-Helper 아이콘AI-Helper

AbstractThe strength, resorption rate, and biocompatibility of collagenous biomaterials are profoundly influenced by the method and extent of crosslinking. We compared the effects of two physical crosslinking methods, ultraviolet irradiation (UV) (254 nm) and dehydrothermal (DHT) treatment, on the m...

참고문헌 (28)

  1. 1 M. G. Dunn ,“ Biomechanics of ligament reconstruction ,” Ligaments of the Knee , A. J. Tria , Jr. (ed.), Churchill Livingstone , New York , 1995 , Chapter 13 ,pp. 275 – 286 . 

  2. 2 Y. P. Kato , M. G. Dunn , J. P. Zawadsky , A. J. Tria , and F. H. Silver ,“ Regeneration of Achilles tendon with a collagen tendon prosthesis: Results of a one year implantation study ,” J. Bone Jt. Surg. , 73A , 561 – 574 ( 1991 ). 

  3. 3 M. G. Dunn , A. J. Tria , J. R. Bechler , R. S. Ochner , J. P. Zawadsky , Y. P. Kato , and F. H. Silver ,“ Anterior cruciate ligament reconstruction using a composite collagenous prosthesis. A biomechanical and histologic study in rabbits ,” Am. J. Sports Med. , 20 , 507 – 515 ( 1992 ). 

    상세보기

  4. 4 M. G. Dunn , P. N. Avasarala , and J. P. Zawadsky ,“ Optimization of extruded collagen fibers for ACL reconstruction ,” J. Biomed. Mater. Res. , 27 , 1545 – 1552 ( 1993 ). 

  5. 5 M. G. Dunn , J. B. Liesch , M. L. Tiku , and J. P. Zawadsky .“ Development of fibroblast‐seeded ligament analogs for ACL reconstruction ,” J. Biomed. Mater. Res. 29 , 1363 – 1371 , 1995 . 

  6. 6 M. E. Nimni , D. Cheung , B. Strates , M. Kodama , and K. Sheik ,“ Bioprosthesis derived from cross‐linked and chemically modified collagenous tissues ,” in Collagen, Vol. III: Biotechnology , M. E. Nimni (ed.), CRC Press , Florida , 1988 ,pp. 1 – 37 . 

  7. 7 K. Stenzel , T. Miyata , and A. L. Rubin ,“ Collagen as a biomaterial ,” Ann. Rev. Biophys. Bioeng. , 3 , 231 – 250 ( 1974 ). 

  8. 8 M. Chvapil , R. L. Kronenthal , and W. van Winkle ,“ Medical and surgical applications of collagen ,” Int. Rev. Conn. Tiss. Res. , 6 , 1 – 61 ( 1973 ). 

  9. 9 M. Chvapil ,“ Reconstituted collagen ,” In Biology of Collagen , A. Viidik and J. Vuust (eds.), New York , Academic Press , 1980 ,pp. 313 – 323 . 

  10. 10 D. T. Cheung , N. Perelman , E. C. Ko , and M. E. Nimni ,“ Mechanism of crosslinking of proteins by glutaraldehyde. III. Reaction with collagen in tissues ,” Connect. Tissue Res. , 13 , 109 – 115 ( 1985 ). 

    상세보기

  11. 11 M. Chvapil , D. P. Speer , H. Holubec , T. A. Chvapil , and D. H. King ,“ Collagen fibers as a temporary scaffold for replacement of ACL in goats ,” J. Biomed. Mater. Res. , 27 , 313 – 325 ( 1993 ). 

  12. 12 L. H. Huang‐Lee , D. T. Cheung , and M. E. Nimni ,“ Biochemical changes and cytotoxicity associated with the degradation of polymeric glutaraldehyde derived crosslinks ,” J. Biomed. Mater. Res. , 24 , 1185 – 1201 ( 1990 ). 

  13. 13 I. V. Yannas and A. V. Tobolsky ,“ Crosslinking of gelatin by dehydration ,” Nature , 215 , 509 – 510 ( 1967 ). 

  14. 14 F. H. Silver , I. V. Yannas , and E. W. Salzman ,“ In vitro blood compatibility of glycosaminoglycan precipitated collagens ,” J. Biomed. Mater. Res. , 13 , 701 – 716 ( 1979 ). 

  15. 15 S. D. Gorham , N. D. Light , A. M. Diamond , M. J. Willins , A. J. Bailey , T. J. Wess , and N. J. Leslie ,“ Effect of chemical modifications on the susceptibility of collagen to proteolysis. II. Dehydrothermal crosslinking ,” Int. J. Biol. Macromol. , 14 , 129 – 136 ( 1992 ). 

    상세보기

  16. 16 M. C. Wang , G. D. Pins , and F. H. Silver ,“ Collagen fibres with improved strength for the repair of soft tissue injuries ,” Biomaterials , 15 , 507 – 512 ( 1994 ). 

    상세보기

  17. 17 K. S. Weadock , R. M. Olson , and F. H. Silver ,“ Evaluation of collagen crosslinking techniques ,” Biomat. Med. Dev. Art. OPrg. , 11 , 293 – 318 ( 1984 ). 

  18. 18 A. L. Rubin , R. R. Riggio , R. L. Nachman , G. H. Schwartz , T. Miyata , and K. H. Stenzel ,“ Collagen materials in dialysis and impplantation ,” Trans. Am. Soc. Artif. Intern. Org. , 14 , 169 – 174 ( 1968 ). 

  19. 19 E. J. Miller and R. K. Rhodes ,“ Preparation and characterization of the different types of collagen ,” Methods Enzymol , 82A , 33 – 64 ( 1982 ). 

  20. 20 M. G. Dunn , J. B. Liesch , S. H. Maxian , M. L. Tiku , and J. P. Zawadsky ,“ The tissue engineering approach to ligament reconstruction ,” Proc. Mater. Res. Soc. , 331 , 13 – 18 ( 1994 ). 

  21. 21 D. R. Cooper and R. J. Davidson ,“ The effect of ultraviolet irradiation on soluble collagen ,” Biochem. J. , 97 , 139 – 143 ( 1965 ). 

    상세보기

  22. 22 D. R. Cooper and R. J. Davidson ,“ The effect of ultraviolet irradiation on collagen‐fold formation ,” Biochem. J. , 98 , 655 – 660 ( 1966 ). 

    상세보기

  23. 23 E. Fujimori ,“ UV light‐induced change in collagen macromolecules ,” Biopolymers , 3 , 115 – 119 ( 1965 ). 

  24. 24 F. R. Noyes and E. S. Grood ,“ The strength of the anterior cruciate ligament in humans and rhesus monkeys ,” J. Bone Jt. Surg. , 58A , 1074 – 1082 ( 1976 ). 

  25. 25 Y. P. Kato , D. L. Christiansen , R. A. Hahn , S. J. Shieh , J. D. Goldstein , and F. H. Silver ,“ Mechanical properties of collagen fibers: A comparison of reconstituted and rat tail tendon fibers ,” Biomaterials , 10 , 38 – 42 ( 1989 ). 

  26. 26 Y. P. Kato and F. H. Silver ,“ Formation of continuous collagen fibres: Evaluation of biocompatibility and mechanical properties ,” Biomaterials , 11 , 169 – 175 ( 1990 ). 

  27. 27 A. K. Garg , R. A. Berg , and F. H. Silver ,“ Effect of proteoglycans on type I Collagen fibre formation ,” Biomaterials , 10 , 413 – 419 ( 1989 ). 

    상세보기

  28. 28 J. F. Cavallaro , P. D. Kemp , and K. H. Kraus ,“ Collagen fabrics as biomaterials ,” Biotech. Bioeng. , 43 , 781 – 791 ( 1994 ). 

    상세보기

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