Abstract
The ankle joint is important in human balance and gait, being responsible for transferring the body weight to the foot and performing motions which are essential to gait. Owing to its rigidity, it maintains body balance, and owing to its flexibility, it provides a comfortable, smooth, and nearly effortless human gait. The ankle joint is a synovial hinge joint that is made up of the articulation of three bones, comprising three articulations: the talocrural joint, the subtalar joint, and the distal tibiofibular syndesmosis. Therefore, it is much more than a simple hinge joint because of its unique design. In this chapter the functional and anatomical characteristics of the ankle joint will be discussed.
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Anderson KJ, LeCocq JF (1954) Operative treatment of the injury to the fibular collateral ligament of the ankle. J Bone Joint Surg Am 36:825–832
Attarian DE, McCrackin HJ, DeVito DP, McElhaney JH, Garrett WE Jr (1985) Biomechanical characteristics of human ankle ligaments. Foot Ankle 6:54–58
Barnett CH, Napier JR (1952) The axis of rotation at the ankle joint in man: its influence upon the form of the talus and the mobility of the fibula. J Anat 86:1–9
Bonnin JG (1970) Injuries to the ankle (facsimile of the 1950 edition. Hafner Publishing, Darien
Cailliet R (1997) Foot and ankle pain, 3rd edn. F.A. Davis, Philadelphia
Deland JT, Morris GD, Sung IH (2000) Biomechanics of the ankle joint. A perspective on total ankle replacement. Foot Ankle Clin 5:747–759
Ferran NA, Maffulli N (2006) Epidemiology of sprains of the lateral ankle ligament complex. Foot Ankle Clin N Am 11:659–662
Floyd RT, Thompson CW (2004) Manual of structural kinesiology, 15th edn. McGraw-Hill, Boston
Fong DT-P, Hong Y, Chan L-K, Yung PS-H, Chan K-M (2007) A systematic review on ankle injury and ankle sprain in sports. Sports Med 37:73–94
Hastad K, Larsson LG, Lindholm A (1959) Clearance of radiosodium after local deposit in the Achilles tendon. Acta Chir Scand 116:251–255
Hertel J (2002) Functional anatomy, pathomechanics, and pathophysiology of lateral ankle instability. J Athl Train 37:364–375
Hicks JH (1953) The mechanics of the foot. I The joints. J Anat 87:345–357
Hootman JM, Dick R, Agel J (2007) Epidemiology of collegiate injuries for 15 sports: summary and recommendations for injury prevention initiatives. J Athl Train 42:311–319
Jorza LG, Kannus P (1997) Human tendons: anatomy, physiology and pathology. Human kinetics, Champaigne
Lundberg A (1989) Kinematics of the ankle and foot: in vivo roentgen stereophotogrammetry. Acta Orthop Scand 60(Suppl 233):1–24
Lundberg A, Goldie I, Kalin B, Selvik G (1989a) Kinematics of the ankle/foot complex: plantar flexion and dorsiflexion. Foot Ankle 9:194–200
Lundberg A, Svensson OK, Nemeth G, Selvik G (1989b) The axis of rotation of the ankle joint. J Bone Joint Surg Br 71:94–99
Maffulli N (1999) Rupture of the Achilles tendon. J Bone Joint Surg Am 81:1019–1036
Magee DJ (2002) Orthopedic physical assessment, 4th edn. Saunders, Philadelphia
Makhani JS (1962) Lacerations of the lateral ligaments of the ankle. J Int Coll Surg 38:454–466
Miller CD, Shelton WR, Barrett GR, Savoie FH, Dukes AD (1995) Deltoid and syndesmosis ligament injury of the ankle without fracture. Am J Sports Med 23:746–750
Ogilvie-Harris DJ, Reed SC, Hedman TP (1994) Disruption of the ankle syndesmosis: biomechanical study of the ligamentous restraints. Arthroscopy 10:558–560
Rasmussen O (1985) Stability of the ankle joint. Analysis of the function and traumatology of the ankle ligaments. Acta Orthop Scand Suppl 211:1–75
Renstrom PAFH, Konradsen L (1997) Ankle ligament injuries. Br J Sports Med 31:11–20
Rodgers M (1988) Dynamic biomechanics of the normal foot and ankle during walking and running. Phys Ther 68:1822–1830
Sammarco GJ, Tablante EB (1998) Foot and ankle in dance. In: Sataloff RT, Brandfonbrener AG, Lederman RJ (eds) Performing arts medicine, 2nd edn. Singular Publishing Group, San Diego, pp 301–320
Sammarco GJ, Burstein AH, Frankel VH (1973) Biomechanics of the ankle: a kinematic study. Orthop Clin North Am 4:75–96
Sarrafian SK (1993) Anatomy of the foot and ankle: descriptive, topographic, functional, 2nd edn. J.B. Lippincott Company, Philadelphia
Siegler S, Block J, Schneck CD (1988) The mechanical characteristics of the collateral ligaments of the human ankle joint. Foot Ankle 8:234–242
Standring S (2009) Gray’s anatomy, 40th edn. Churchill Livingstone, Edinburgh
Stauffer RN, Chao EY, Brewster RC (1977) Force and motion analysis of the normal, diseased, and prosthetic ankle joint. Clin Orthop Relat Res 127:189–196
Stiehl JB (1991a) Anthropomorphic studies of the ankle joint. In: Stiehl JB (ed) Inman’s Joints of the ankle. Williams and Wilkins, Baltimore, pp 1–6
Stiehl JB (1991b) Biomechanics of the ankle joint. In: Stiehl JB (ed) Inman’s joints of the ankle. Williams and Wilkins, Baltimore, pp 39–63
Thomas RH, Daniels TR (2003) Ankle arthritis. J Bone Joint Surg Am 85-A:923–936
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Bozkurt, M., Apaydin, N., Gursoy, S., Tubbs, S. (2014). Functional Anatomy of the Ankle . In: Doral, M., Karlsson, J. (eds) Sports Injuries. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-36801-1_277-1
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DOI: https://doi.org/10.1007/978-3-642-36801-1_277-1
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