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These materials are available for nonprofit educational use. This repository is allowed by copyright disclaimer under title 17, Appendix E, section 107 of the United States Copyright Act. Under this statute, allowance is made for “fair use” for purposes such as criticism, comment, news reporting, teaching, scholarship, and research. As defined, fair use specifically applies to this repository.

  • Bailey AJ. Collagen Changes in Dupuytren’s Disease. Dupuytren’s Dis. Pathobiochemistry Clin. Manag., 1994, p. 37–48. (PDF)
  • Bazin S, Le Lous M, Duance VC, Sims TJ, Bailey AJ, Gabbiani G, et al. Biochemistry and histology of the connective tissue of Dupuytren’s disease lesions. Eur J Clin Invest 1980;10:9–16. (PDF)
  • Buckingham B, Reiser KM. Relationship between the content of lysyl oxidase-dependent cross-links in skin collagen, nonenzymatic glycosylation, and long-term complications in type I diabetes mellitus. J Clin Invest 1990;86:1046–54. (PDF)
  • Hanyu T, Tajima T, Takagi T, Sasaki S, Fujimoto D, Isemura M, et al. Biochemical studies on the collagen of the palmar aponeurosis affected with Dupuytren’s disease. Tohoku J Exp Med 1984;142:437–43. (PDF)
  • Isdale AH. The ABC of the diabetic hand–advanced glycosylation end products, browning and collagen. Br J Rheumatol 1993;32:859–61. (PDF)
  • Ji X, Tian F, Tian L. Identification and function analysis of contrary genes in Dupuytren’s contracture. Mol Med Rep 2015:482–8. (PDF)
  • Kozma EM, Olczyk K, Wisowski G, Glowacki A, Bobinski R, Kozma EM, et al. Alterations in the extracellular matrix proteoglycan profile in Dupuytren’s contracture affect the palmar fascia. J Biochem 2005;137:463–76. (PDF)
  • Notbohm H, Mosler S, Hoch J. Thermal Stability and Fibrillogenesis of Collagen from Tissue of Patients with Dupuytren’s Disease. Dupuytren’s Dis. Pathobiochemistry Clin. Manag., 1994, p. 202–12. (PDF)