References
- Baume LJ. Cephalo-facial growth patterns and the functional adaptation of die temporomandibular joint structures. Transactions of the European Orthodontic Society, Edinburgh 1969, 45th Congress
- Durkin JF, Heeley JD, Irwing JT. Temporomandibular function and dysfunction, G Zarb, GE Carlsson. Munksgaard, Copenhagen 1979; 43–95
- Kantomaa T, Tuominen M, Pirttiniemi P, Rönning O. Weaning and the histology of the mandibular condyle in the rat. Acta Anat 1992; 144: 311–5
- McDevitt WE. Functional anatomy of the masticatory system. Wright, London 1989
- Mizoguchi I, Nakamura M, Takahashi I, Sasamo Y, Kagayama M, Mitani H. Presence of chondroid bone on rat mandibular condylar cartilage. An immunohistochemical study. Anat Embryol 1993; 187: 9–15
- Beresford WA. Chondroid bone, secondary cartilage and metaplasia. Urban and Schwarzenberg, Baltimore 1981
- Vinkka-Puhakka H, Thesleff I. Initiation of secondary cartilage in the mandible of the Syrian hamster in the absence of muscle function. Arch Oral Biol 1993; 38: 49–54
- Moss ML. Functional analysis of human mandibular growth. J Prosthet Dent 1960; 10: 1149–59
- Copray JCVM, Jansen HWB, Duterloo HS. Effects of compressive forces on proliferation and matrix synthesis in mandibular condylar cartilage of the rat in vitro. Arch Oral Biol 1985; 30: 299–304
- Ayad S, Marriott A, Morgan K, Cummings C, Kwan APL, Mould AP. Mammalian cartilage collagens: identification of their forms in vivo. Methods of cartilage research, A Maroudas, K Kuettner. Academic Press, London 1990; 33–6
- Eyre DR. The collagens of articular cartilage. Sem Arthritis Rheumatism 1991; 21: 2–ll, Suppl 2
- van der Rest M, Mayne R. Structure and function of collagen types, R Mayne, RE Burgeson. Academic Press Inc., New York 1987; 195–221
- Kwan APL, Cummings CE, Chapman JA, Grant ME. Macromolecular structure of chicken type X collagen in vitro. J Cell Biol 1991; 114: 597–604
- Kielty CM, Kwan APL, Holmes DF, Schor SL, Grant ME. Type X collagen: a product of hypertrophic chondrocytes. Biochem J 1985; 227: 545–54
- Kirsch T, Swoboda B, von der Mark K. Ascorbate independent differentiation of human chondrocytes in vitro: simultaneous expression of types I and X collagen and matrix mineralization. Differentiation 1992; 52: 89–100
- Ayad S, Evans HB, Weiss JB, Holt PJL. Type VI collagen, but not type V collagen is present in cartilage. Coll Rel Res 1984; 4: 165–8
- Poole CA, Ayad S, Gilbert RT. Chondrons from articular cartilage. V. Immunohistochemical evaluation of type VI collagen organization in isolated chondrons by light, confocal and electron microscopy. J Cell Sci 1992; 1101–10
- Maslen CL, Glanville RW. The molecular basis of Marfan syndrome. DNA Cell Biol 1993; 12: 561–72
- Ramirez F, Pereira L, Zhang H, Lee B. The fibrillin-Marfan syndrome connection. Bioessays 1993; 15: 589–94
- Sakai LY, Keene DR, Engvall E. Fibrillin, a new 350-kD glycoprotein, is a component of extracellular microfibrils. J Cell Biol 1986; 103: 2499–509
- Ronzière MC, Ricard-Blum S, Tiollier J, Hartmann DJ, Garrone R, Herbage D. Comparative analysis of collagens solubilized from human fetal, and normal and osteoarthritic adult articular cartilage, with emphasis on type VI collagen. Biochim Biophys Acta 1990; 1038: 222–30
- Keene DR, Sakai LY, Burgeson RE. Human bone contains type III collagen, type VI collagen and fibrillin: type III collagen is present on specific fibers that may mediate attachment of tendons, ligaments and periosteum to calcified bone cortex. J Histochem Cytochem 1991; 39: 59–69
- Kielty CM, Cummings C, Whittaker SP, Shuttleworth CA, Grant ME. Isolation and ultrastructural analysis of microfibrillar structures from fetal bovine elastic tissues. Relative abundance and supramolecular architecture of type VI collagen assemblies and fibrillin. J Cell Sci 1991; 99: 797–807
- Copray JCVM, Jansen HWB, Duterloo HS. The role of biomechanical factors in mandibular condylar cartilage growth and remodeling in vitro. Developmental aspects of temporomandibular joint disorders, DS Carlson, JA McNamara, Jr, KA Ribbens. University of Michigan, Ann Arbor (MI) 1984; 235–70
- Kantomaa T, Tuominen M, Pirttiniemi P. Effect of mechanical forces on chondrocyte maturation and differentiation in the mandibular condyle of the rat. J Dent Res 1994; 73: 1150–6
- Salo L, Kantomaa T. Type II collagen expression in the mandibular condyle during growth adaptation: an experimental study in the rabbit. Calcif Tiss Int 1993; 52: 465–9
- Hoyland JA, Thomas JT, Donn R, Marriott A, Ayad S, BootHandford R. Distribution of type X collagen mRNA in normal and osteoarthritic human cartilage. Bone Mineral 1991; 15: 151–64
- Pringle JH, Primrose L, Talbot PC, Lauder I. In-situ hybridization demonstration of polyadenylated RNA sequences in formalin fixed paraffin embedded sections using a biotinylated oligonucleotide poly d(T) probe. J Pathol 1989; 158: 279–86
- Thomas JT, Cresswell CJ, Rash B, Nicolai H, Jones T, Solomon E. The human collagen X gene. Complete primary translated sequence and chromosomal localization. Biochem J 1991; 280: 617–23
- Walsh L, Freemont AJ, Hoyland JA. The effect of tissue decalcification on mRNA retention within bone for in-situ hybridization studies. Int J Exp Pathol 1993; 74: 237–41
- Ayad S, Marriott A, Morgan K, Grant ME. Bovine cartilage types VI and IX collagens. Biochem J 1989; 262: 753–61
- Shuttleworth CA, Berry L, Kielty CM. Microfibrillar components in dental pulp: presence of both type VI collagen- and fibrillin-containing microfibrils. Arch Oral Biol 1992; 37: 1079–84
- Marriott A, Ayad S, Grant ME. The synthesis of type X collagen by bovine and human growth-plate chondrocytes. J Cell Sci 1991; 99: 641–9
- LuValle P, Daniels K, Hay ED, Olsen BR. Type X collagen is transcriptionally activated and specifically localized during sternal cartilage maturation. Matrix 1992; 12: 404–13
- Silbermann M, von der Mark K. An immunohistochemical study of the distribution of matrical proteins in the mandibular condyles of neonatal mice. I. Collagens. J Anat 1990; 170: 11–22
- Schmid T, Linsenmayer T. Developmental acquisition of type X collagen in the embryonic chick tibiotarsus. Devel Biol 1985; 107: 373–81
- Nagamoto N, Iyama K, Kitaoka M, Ninomiya Y, Yoshioka H, Mizuta H. Rapid expression of collagen type X gene of non-hypertrophic chondrocytes in the grafted chick periosteum demonstrated by in situ hybridization. J Histochem Cytochem 1993; 41: 679–84
- Nerlich AG, Kirsch T, Wiest I, Betz P, von der Mark K. localization of collagen X in human fetal and juvenile articular cartilage and bone. Histochemistry 1992; 98: 275–81
- von der Mark K, Kirsch T, Nerlich A, Kuss A, Weseloh G, Gluckert K. Type X collagen synthesis in human osteoarthritic cartilage. Indication of chondrocyte hypertrophv. Arthr Rheum 1992; 35: 806–11
- Gannon JM, Walker G, Fischer M, Carpenter R, Thompson RJ, Jr, Oegema TR, Jr. Localization of type X collagen in canine growth plate and adult canine articular cartilage. J Orthop Res 1991; 9: 485–94
- Pacifici M, Golden EB, Adams SL, Shapiro IM. Cell hypertrophy and type X collagen synthesis in cultured articular chondrocytes. Exp Cell Res 1991; 192: 266–70
- Stephens M, Kwan AP, Bayliss MT, Archer CW. Human articular surface chondrocytes initiate alkaline phosphatase and type X collagen synthesis in suspension culture. J Cell Sci 1992; 103: 1111–6
- Dasculu A, Nevo Z, Korenstein R. The control of intracellular pH in cultured avian chondrocytes. J Physiol 1993; 461: 583–99
- Tuominen M, Kantomaa T, Pirttiniemi P. Effect of food consistency on the shape of the articular eminence and the mandible. An experimental study on the rabbit. Acta Odontol Scand 1993; 51: 65–72
- Keene DR, Engvall E, Glanville RE. Ultrastructure of type VI collagen in human skin and cartilage suggests an anchoring function for this filamentous network. J Cell Biol 1988; 107: 1995–2006
- Kielty CM, Berry L, Whittaker SP, Grant ME, Shuttleworth CA. Microfibrillar assemblies of fetal bovine skin. Developmental expression and relative abundance of type VI collagen and fibrillin. Matrix 1993; 13: 103–12