REFERENCES
- Woo S. L.-Y., Wang C. W., Newton P. O., Lyon R. M.. 1990. The response of ligaments to stress deprivation and stress enhancement-biomechanical studies. Knee Ligaments: Structure, Function, Injury and Repair, D., Daniel, W. H., Akeson, J. J., O'Conner, pp. 337–350, New York, Raven Press
- Benjamin M., Ralphs J. R.. 1998. Fibrocartilage in tendons and ligaments—an adaptation to compressive load. J. Anat.. 193: 481–494. [PUBMED], [INFOTRIEVE]
- Chiquet M.. 1999. Regulation of extracellular matrix gene expression by mechanical stress. Matrix Biol.. 18: 417–426. [PUBMED], [INFOTRIEVE], [CROSSREF]
- Schechtman H., Bader D. L.. 1997. In vitro fatigue of human tendons. J. Biomech.. 30: 829–835. [PUBMED], [INFOTRIEVE], [CROSSREF]
- Birk D. E., Hahn R. A., Linsenmayer C. Y., Zycband E. I.. 1996. Characterization of fibril segments from chicken embryo cornea, dermis and tendon. Matrix Biol.. 15: 111–118. [PUBMED], [INFOTRIEVE], [CROSSREF]
- Birk D. E., Trelstad R. L.. 1986. Extracellular compartments in tendon morphogenesis: Collagen fibril, bundle and macroaggregate formation. J. Cell Biol.. 103: 231–240. [PUBMED], [INFOTRIEVE], [CROSSREF]
- Hukins D. W.L., Aspden R. M.. 1985. Composition and properties of connective tissues. Trends Biochem. Sci.. 10: 260–264. [CROSSREF]
- O'Brien M.. 1997. Structure and metabolism of tendons. Scand. J. Med. Sci. Sport.. 7: 55–61
- Evanko S. P., Vogel K. G.. 1990. Ultrastructure and proteoglycan composition in the developing fibrocartilaginous region of bovine tendon. Matrix. 10: 420–436. [PUBMED], [INFOTRIEVE]
- Alexander R. McN., Dimery N. J.. 1985. The significance of sesamoids and retroarticular processes for the mechanics of joints. J. Zool., (London). 205: 371–375
- Vogel K. G., Koob T. J.. 1989. Structural specialization in tendons under compression. Int. Rev. Cytol.. 115: 267–293. [PUBMED], [INFOTRIEVE]
- Scott P. G., Nakano T., Dodd C. M.. 1997. Isolation and characterization of small proteoglycans from different zones of the porcine knee meniscus. Biochim. Biophys. Acta. 1336: 254–262. [PUBMED], [INFOTRIEVE]
- Scott J. E.. 1995. Extracellular matrix, supramolecular organisation and shape. J. Anat.. 187: 259–269. [PUBMED], [INFOTRIEVE]
- Iozzo R. V., Murdoch A. D.. 1996. Proteoglycans of the extracellular environment: Clues from the gene and protein side offer novel perspectives in molecular diversity and function. FASEB J.. 10: 598–614. [PUBMED], [INFOTRIEVE]
- Hedbom E., Heinegård D.. 1989. Interaction of a 59-kDa connective tissue matrix protein with collagen I and collagen II. J. Biol. Chem.. 264: 6898–6905. [PUBMED], [INFOTRIEVE]
- Birk D. E., Nurminskaya M. V., Zycband E. I.. 1995. Collagen fibrillogenesis in situ: Fibril segments undergo post-depositional modifications resulting in linear and lateral growth during matrix development. Dev. Dyn.. 202: 229–243. [PUBMED], [INFOTRIEVE]
- Rosenberg L. C., Choi H. U., Tang L., Johnson T. L., Pal S., Webber C., Reiner A., Poole A. R.. 1985. Isolation of dermatan sulphate proteoglycans from mature bovine articular cartilages. J. Biol. Chem.. 260: 6304–6313. [PUBMED], [INFOTRIEVE]
- Oldberg Å., Antonsson P., Lindblom K., Heinegård D.. 1989. A collagen-binding 59 kDa protein (fibromodulin) is structurally related to the small interstitial proteoglycans PG-S1 and PG-S2 (decorin). EMBO J.. 8: 2601–2604. [PUBMED], [INFOTRIEVE]
- Merrilees M. J., Flint M. H.. 1980. Ultrastructural study of tension and pressure zones in a rabbit flexor tendon. Am. J. Anat.. 157: 87–106. [PUBMED], [INFOTRIEVE]
- Gillard G. C., Reilly H. C., Bell-Booth P. G., Flint M. H.. 1979. The influence of mechanical forces on the glycosaminoglycans content of the rabbit flexor digitorum profundus tendon. Connect. Tissue Res.. 7: 37–46. [PUBMED], [INFOTRIEVE]
- Koob T. J., Vogel K. G.. 1987. Site-related variations in glycosaminoglycan content and swelling properties of bovine flexor tendon. J. Orthop. Res.. 5: 414–424. [PUBMED], [INFOTRIEVE]
- Perez-Castro A. V., Vogel K. G.. 1999. In situ expression of collagen and proteoglycan genes during development of fibrocartilage in bovine deep flexor tendon. J. Orthop. Res.. 17: 139–148. [PUBMED], [INFOTRIEVE]
- Vogel K. G., Meyers A. B.. 1999. Proteins in the tensile region of adult bovine deep flexor tendon. Clin. Orthop. Relat. Res.. 367S: 344–355. [CROSSREF]
- Reid T., Flint M. H.. 1974. Changes in glycosaminoglycan content of healing rabbit tendon. J. Embryol. Exp. Morphol.. 31: 489–495. [PUBMED], [INFOTRIEVE]
- Woo S. L-Y., Ritter M. A., Amiel D., Sanders T. M., Gomez M. A., Kuei S. C., Garfin S. R., Akeson W. H.. 1980. The biomechanical and biochemical properties of swine tendons—Long term effects of exercise of exercise on the digital extensors. Connect. Tissue Res.. 7: 177–183. [PUBMED], [INFOTRIEVE]
- Feitosa V. L.C., Vidal B. C., Pimentel E. R.. 2002. Optical anisotropy of a pig tendon under compression. J. Anat.. 200: 105–111. [PUBMED], [INFOTRIEVE], [CROSSREF]
- Feitosa V. L.C., Esquisatto M. A.M., Joazeiro P. P., Gomes L., Felisbino S. L., Pimentel E. R.. 2002. Variations in the glycosaminoglycan content, swelling properties and morphological aspects of different regions of the superficial digital flexor tendon of pigs. Cell. Mol. Biol.. 48: 359–367
- Curwin S. L., Vailas A. C., Wood J.. 1988. Immature tendon adaptation to strenuous exercise. J. Appl. Physiol.. 65: 2297–2301. [PUBMED], [INFOTRIEVE]
- Curwin S. L., Roy R. R., Vailas A. C.. 1994. Regional and age variation in growing tendon. J. Morphol.. 221: 309–320. [PUBMED], [INFOTRIEVE]
- Matsuda J. J., Zernicke R. F., Vailas A. C., Pedrini V. A., Pedrini-Mille A., Maynard J. A.. 1986. Structural and mechanical adaptation of immature bone to strenuous exercise. J. Appl. Physiol.. 60: 2028–3034. [PUBMED], [INFOTRIEVE]
- Ghetie V., Chitescu S., Cotofan V., Hillebrand A., 1981; Atlas de Anatomia de las Aves Domésticas. pp. 18–137, Zaragoza and Madrid, Acribia-Paraninfo
- Koch T.. 1973. Locomotion system. Anatomy of the Chicken and Domestic Birds, B. H., Skold, L., DeVires, pp. 6–65, Ames: Iowa, The Iowa State University Press
- Schechtman H., Bader D. L.. 2002. Fatigue damage of human tendons. J. Biomech.. 35: 347–353. [PUBMED], [INFOTRIEVE], [CROSSREF]
- Tohyama H., Yasuda K.. 2000. The effects of stress enhancement on the extracellular matrix and fibroblasts in the patellar tendon. J. Biomech.. 35: 559–565. [CROSSREF]
- Crevier N., Pourcelot P., Denoix J., Geiger D., Bortolussi C., Ribot X., Sanaa M.. 1996. Segmental variations of in vitro mechanical properties in equine superficial digital flexor tendons. Am. J. Vet. Res.. 57: 1111–1117. [PUBMED], [INFOTRIEVE]
- Buchanan C. I., Marsh R. L.. 2001. Effects of long-term exercise on the biomechanical properties of the achilles tendon of guinea fowl. J. Appl. Physiol.. 90: 164–171. [PUBMED], [INFOTRIEVE]
- Carpenter J. E., Flanagan C. L., Thomopoulos S. T., Yian E. H., Soslowsky L. J.. 1998. The effects of overuse combined with intrinsic or extrinsic alterations in an animal model of rotator cuff tendinosis. Am. J. Sports Med.. 26: 801–807. [PUBMED], [INFOTRIEVE]
- Stegemann H., Stalder K.. 1967. Determination of hydroxyproline. Clin. Chim. Acta. 18: 267–273. [PUBMED], [INFOTRIEVE], [CROSSREF]
- Michelacci Y. M., Horton D.S. P.Q.. 1989. Proteoglycans from the cartilage of young hammerhead shark Sphyrna lewini. Comp. Biochem. Physiol. B—Biochem. Mol. Biol.. 92: 651–658. [CROSSREF]
- Farndale R. W., Buttle D. J., Barret A. J.. 1986. Improved quantitation and discrimination of sulphated glycosaminoglycans by use of dimethylmethylene blue. Biochim. Biophys. Acta. 883: 173–177. [PUBMED], [INFOTRIEVE]
- Dietrich C. P., Dietrich S. M.C.. 1976. Electrophoretic behaviour of acidic mucopolysaccharides in diamine buffer. Anal. Biochem.. 70: 645–647. [PUBMED], [INFOTRIEVE], [CROSSREF]
- Heinegård D., Sommarin Y.. 1987. Isolation and characterization of proteoglycans. Methods Enzymol.. 144: 319–372
- Bradford M. M.. 1976. A rapid and sensitive method for the quantification of microgram quantities of protein utilizing the principle of protein-dye binding. Anal. Biochem.. 72: 248–254. [PUBMED], [INFOTRIEVE]
- Zingales B.. 1984. Analysis of protein by sodium dodecyl sulfatepolyacrylamide gel electrophoresis. Genes and antigens of parasites, C. M., Morel, pp. 357–363, (Fiocruz, Rio de Janeiro).
- Blum B., Beier H., Gross H. J.. 1987. Improved silver staining of plant proteins, RNA and DNA in polyacrylamide gels. Electrophoresis.. 8: 93–99
- Nurminskaya M. V., Birk D. E.. 1996. Differential expression of fibromodulin mRNA associated with tendon fibril growth: Isolation and characterization of a chicken fibromodulim cDNA. Biochem. J.. 317: 785–789. [PUBMED], [INFOTRIEVE]
- Lauder R. M., Huckerby T. N., Nieduszynski I. A.. 1996. The structure of the keratan sulphate chains attached to fibromodulin isolated from articular cartilage. Eur. J. Biochem.. 242: 402–409. [PUBMED], [INFOTRIEVE], [CROSSREF]
- Antonsson P., Heinegård D., Oldberg Å. 1993. Structure and deduced amino acid sequence of the human fibromodulin gene. Biochim. Biophys. Acta. 1174: 204–206. [PUBMED], [INFOTRIEVE]
- Kurita K., Shinomura T., Ujita M., Zako M., Kida D., Iwata H., Kimata K.. 1996. Occurrence of PG-Lb, a leucine-rich small chondroitin/dermatan sulphate proteoglycan in mammalian epiphyseal cartilage: Molecular cloning and sequence analysis of the mouse cDNA. Biochem. J.. 318: 909–914. [PUBMED], [INFOTRIEVE]
- Krull N. B., Gressner A. M.. 1992. Differential expression of keratan sulfate proteoglycans fibromodulin, lumican and aggrecan in normal and fibrotic rat-liver. FEBS Lett.. 312: 47–52. [PUBMED], [INFOTRIEVE], [CROSSREF]
- Li W., Vergnes J., Cornuet P. K., Hassell J. R.. 1992. cDNA clone to chick corneal chondroitin/dermatan sulfate proteoglycan reveals identify to decorin. Arch. Biochem. Biophys.. 296: 190–197. [PUBMED], [INFOTRIEVE], [CROSSREF]
- Day A. A., McQuillan C. I., Termine J. D., Young M. R.. 1987. Molecular cloning and sequence analysis of the cDNA for small proteoglycan II of bovine bone. Biochem. J.. 248: 801–805. [PUBMED], [INFOTRIEVE]
- Fisher L. W., Hawkins G. R., Tuross N., Termine J. D.. 1987. Purification and partial characterization of small proteoglycans I and II, bone sialoproteins I and II, and osteonectin from the mineral compartment of developing human bone. J. Biol. Chem.. 262: 9702–9708. [PUBMED], [INFOTRIEVE]
- Scholzen T., Solursh M., Suzuki S., Reiter R., Morgan J. L., Buchberg A. M., Siracusa L. D., Iozzo R. V.. 1994. The murine decorin. Complete cDNA cloning, genomic organization, chromosomal assignment and expression during organogenesis and tissue differentiation. J. Biol. Chem.. 269: 28270–28281. [PUBMED], [INFOTRIEVE]
- Kokenyesi R., Woessner J. F.. 1989. Purification and characterization of a small dermatan sulphate proteoglycan implicated in the dilatation of the rat uterine cervix. Biochem. J.. 260: 413–419. [PUBMED], [INFOTRIEVE]
- Beiguelman B.. 1994. A análise da variância. Curso Prático de Bioestatística, F. A.M., Duarte, pp. 153–181, São Paulo, Revista Brasileira de Genética, Ribeirão Preto
- Ker R. F., Alexander R., McN., Bennett M. B.. 1988. Why are mammalian tendons so thick?. J. Zool. (London). 216: 309–324
- Hayashi K.. 1996. Biomechanical studies of the remodeling of knee joint tendons and ligaments. J. Biomech.. 29: 707–716. [PUBMED], [INFOTRIEVE], [CROSSREF]
- Viidik A.. 1996. Tendons and ligaments. Extracellular Matrix. Tissue Function, W. D., Comper, pp. 303–327, MelbourneAustralia, Harwood Academic Publishers
- Gathercole L., Keller A.. 1991. Crimp morphology in the fibre forming collagens. Matrix. 11: 214–234. [PUBMED], [INFOTRIEVE]
- Mass D. P., Tuel R. J., Labarbera M., Greenwald D. P.. 1993. Effects of constant mechanical tension on the healing of rabbit flexor tendons. Clin. Orthop. Relat. Res.. 296: 301–306
- Cribb A. M., Scott J. E.. 1995. Tendon response to tensile stress: An ultrastructural investigation of collagen: Proteoglycan interactions in stressed tendon. J. Anat.. 187: 423–428. [PUBMED], [INFOTRIEVE]
- Viidik A.. 1978. On the correlation between structure and mechanical function of soft connective tissues. Verh. Anat. Ges.. 72: 75–80. [PUBMED], [INFOTRIEVE]
- Nielsen H. M., Skalicky M., Viidik A.. 1998. Influence of physical exercise on aging rats: III. Life-long exercise modifies the aging changes of the mechanical properties of limb muscle tendons. Mech. Ageing Dev.. 100: 243–260. [PUBMED], [INFOTRIEVE], [CROSSREF]
- Woo S.L-Y., Gomez M. A., Amiel D., Ritter M. A., Gelberman R. H., Akeson W. H.. 1981. The effects of exercise on the biomechanical and biochemical properties of swine digital flexor tendons. J. Biomech. Eng.. 103: 51–56. [PUBMED], [INFOTRIEVE]
- Grodzinky A. J.. 1983. Electrochemical and physicochemical properties of connective tissue. CRC Crit. Rev. Biomed. Eng.. 9: 133–139
- Slack C., Flint M. H., Thompson B. M.. 1984. The effect of tensional load on isolated embryonic chick tendons in organ culture. Connect. Tissue Res.. 12: 229–247. [PUBMED], [INFOTRIEVE]
- Vogel K. G., Heinegård D.. 1985. Characterization of proteoglycans from adult bovine tendon. J. Biol. Chem.. 260: 9298–9306. [PUBMED], [INFOTRIEVE]
- Covizi D. Z., Felisbino S. L., Gomes L., Pimentel E. R., Carvalho H. F.. 2001. Regional adaptations in three rat tendons. Tissue & Cell. 33: 483–490. [CROSSREF]
- Carvalho H. F., Felisbino S. L.. 1999. Development of the pressurebearing tendon the bullfrog. Rana catesbeiana. Anat. Embryol.. 200: 55–64. [CROSSREF]
- Kuc I. M., Scott P. G.. 1997. Increased diameters of collagen fibrils precipitated in vitro in the presence of decorin from various connective tissues. Connect. Tissue Res.. 36: 287–296. [PUBMED], [INFOTRIEVE]
- Dunlevy J. R., Neame P. J., Vergnes J., Hassell J. R.. 1998. Identification of the n-linked oligosaccharide sites in chick corneal lumican and kerantocan that receive keratan sulfate. J. Biol. Chem.. 273: 9615–9621. [PUBMED], [INFOTRIEVE], [CROSSREF]
- Vilarta R., Vidal B. C.. 1989. Anisotropic and biomechanical properties of tendons modified by exercise and denervation: Aggregation and macromolecular order in collagen bundles. Matrix. 9: 55–61. [PUBMED], [INFOTRIEVE]
- Vogel K. G., Trotter J. A.. 1987. The effect of proteoglycans on the morphology of collagen fibrils formed in vitro. Collagen Relat. Res.. 7: 105–114
- Ezura Y., Chakravarti S., Oldberg Å., Chervoneva I., Birk D. E.. 2000. Differential expression of lumican and fibromodulin regulate collagen fibrillogenesis in developing mouse tendons. J. Cell Biol.. 151: 779–787. [PUBMED], [INFOTRIEVE], [CROSSREF]
- Vogel K. G., Paulsson M., Heinegård D.. 1984. Specific inhibition of type I and type II collagen fibrillogenesis by the small proteoglycan of tendon. Biochem. J.. 223: 587–597. [PUBMED], [INFOTRIEVE]
- Hocking A. M., Shinomura T., McQuillan D. J.. 1998. Leucine-rich repeat glycoproteins of the extracellular matrix. Matrix Biol.. 17: 1–19. [PUBMED], [INFOTRIEVE], [CROSSREF]
- Neame P. J., Kay C. J., McQuillan D. J., Beales M. P., Hassell J. R.. 2000. Independent modulation of collagen fibrillogenesis by decorin and lumican. Cell. Mol. Life Sci.. 57: 859–863. [PUBMED], [INFOTRIEVE], [CROSSREF]
- Silver F. H., Christiansen D. L., Snowhill P. B., Chen Y.. 2000. Role of storage on changes in the mechanical properties of tendon and selfassembled collagen fibers. Connect. Tissue Res.. 41: 155–164. [PUBMED], [INFOTRIEVE]