Abstract
The temporomandibular joint (TMJ) is the most unique and complex joint in the body. The anatomy of the TMJ varies among mammals depending upon masticatory requirements. Masticatory system function demands that the mandible be capable not only of opening and closing but also of forward, backward, and lateral movements and combinations thereof. In humans, the TMJ is described as a ginglymoarthrodial type of diarthrotic joint. This means that it is not only capable of rotation (movement around a single axis) but also translation (movement around more than one axis at a time). This chapter will provide a review of the growth and development of structures of the masticatory system with special emphasis upon the osseous components.
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References
Auvenshine RC. Relationship between structure and function in the development of the squamosal mandibular joint in rats. Unpublished dissertation, on file at LSU, Medical School, School of Graduate Studies. 1976.
Auvenshine RC. Anatomy of the airway: an overview. Sleep Med Clin. 2010;5:45–7.
Bi W, Deng J, Zhang Z, Behringer R, de Crombrugghe B. Sox9 is required for cartilage formation. Nat Genet. 1999;22:85–9.
Costen J. A syndrome of ear and sinus symptoms dependent upon disturbed function of the temporomandibular joint. Ann Otol Rhinol Laryngol. 1997;106:805–19.
Drachman D, Sokoloff L. The role of movement in embryonic joint development. Dev Biol. 1966;14:401–20.
Edwards J, Jones H, Jones H. The formation of human synovial joint cavities: a possible role for hyaluronan and CD44 in altered interzone cohesion. J Anat. 1994;185(Pt2):355–67.
Fortuna G, Di Lorenzo M, Pollio A. Complex oral sensitivity disorder: a reappraisal of current classification of burning mouth syndrome. Oral Dis. 2013;19(7):730–2.
Hamburger V, Balaban M. Observations and experiments on spontaneous rhythmical behavior in the chick embryo. Dev Biol. 1963;7:533–45.
Humphrey T. The development of mouth opening and related reflexes involving the oral area of human fetuses. Ala J Med Sci. 1968;5:126–57.
Klasser G, Epstein J, Villines D. Diagnostic dilemma: the enigma of an oral burning sensation. J Can Dent Assoc. 2011;B146:77.
Lim RY. The hyoid bone syndrome. Otolaryngol Head Neck Surg. 1982;90(2):198–200.
Mendez MD. Ossification of mandible. Houston, TX. 2017a.
Mendez MD. Process of cavitation. Houston, TX. 2017b.
Merida-Velasco J, Rodriguez-Vazquez J, Jimenez-Collado J. Meckelian articular complex. Eur Arch Biol. 1990;101:447–53.
Merida-Velasco J, Rodriguez-Vazquez J, Merida-Velasco J, Sanchez-Montesinos I, Espin-Ferra J, Jimenez-Collado J. Development of the Human Temporomandibular Joint. Anat Rec. 1999;255:20–33.
Moffett B. The morphogenesis of the temporomandibular joint. Am J Orthod. 1966;52:401–15.
Moore KL, Persaud T. The developing human: clinically oriented embryology. Philadelphia: Saunders Elsevier; 2008.
Murray P, Drachman D. The role of movement in the development of joints and related structures: the head and neck in the chick embryo. J Embryol Exp Morpholog. 1969;22:349–71.
Nanci A. Ten cate’s oral histology: development, structure, and function. 7th ed. St. Louis: Mosby Elsevier; 2008.
Narayanan C, Fox M, Hamburger V. Prenatal development of spontaneous and evoked activity in the rat. Behaviour. 1971;40(1):100–33.
Nowlan N, Murphy P, Prendergast P. A dynamic pattern of mechanical stimulation promotes ossification in avian embryonic long bones. J Biomech. 2008;41:249–58.
Okeson J. Bell’s oral and facial pain. 7th ed. Chicago: Quintessence; 2014.
Pacifici M, Koyama E, Shibukawa Y. Cellular and molecular mechanisms of synovial joint and articular cartilage formation. Ann N Y Acad Sci. 2006;1068:74–86.
Perry HT, Xu Y, Forbes DP. The embryology of the temporomandibular joint. Cranio. 1985;3(2):125–32.
Petrovic A. Mechanisms and regulation of mandibular condylar growth. Acta Morphol Neerl-Scand. 1972;10:25–34.
Pitsillides A. The role of hyaluronan in joint cavitation. In: Archer C, Caterson B, Benjamin M, Ralphs J, editors. Biology of the synovial joint. Singapore: Harwood Academic Publishers; 1999. p. 41–62.
Pitsillides AA. Early effects of embryonic movement: ‘a shot out of the dark’. J Anat. 2006;208:417–31.
QuBayer D, Stenger T. Trigeminal neuralgia: an overview. Oral Surg Oral Med Oral Pathol. 1979;48(5):393–9.
Robinson P, Davis J, Fraser J. The hyoid syndrome: a pain in the neck. Ann Otol Rhinol Laryngol. 2013:159–62.
Sadler T. Langman’s medical embryology. Baltimore: Lippincott Williams & Wilkins; 2000.
Shea C, Rolfe R, Murphy P. The importance of foetal movement for co-ordinated cartilage and bone development in utero. Bone Joint Res. 2015;4(7):105–16.
Sperber G. Craniofacial embryology. 4th ed. Cambridge: Wright; 1989.
Stern N, Jackson-Menaldi C, Rubin A. Hyoid bone syndrome: a retrospective review of 84 patients treated with triamcinolone acetonide injections. 2013
The Stages of Human Embryonic Development. Retrieved 2017, from The Virtual Human Embryo: http://virtualhumanembryo.lsuhsc.edu (2012)
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Auvenshine, R.C. (2018). Embryology of the Masticatory System. In: Gremillion, H., Klasser, G. (eds) Temporomandibular Disorders. Springer, Cham. https://doi.org/10.1007/978-3-319-57247-5_1
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