Stapes |
Malleus
Tensor Tympani
Incus
Stapedius
Labyrinth
Stapes
Auditory Canal
Tympanic Membrane
(Ear Drum)
Eustachian Tube
Tympanic cavity
Bones and muscles in the tympanic cavity in the middle ear
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Frontal view of stapes (A), and view from below (B).
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Details |
Latin |
Stapes |
Precursor |
2nd branchial arch |
Articulations |
Incudostapedial joint |
Identifiers |
Gray's |
p.1045 |
MeSH |
A09.246.397.247.806 |
TA |
A15.3.02.033 |
FMA |
52751 |
Anatomical terms of bone |
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This article is one of a series documenting the anatomy of the |
Human ear |
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Middle ear
- Tympanic membrane
- Ossicles
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Inner ear
- Vestibules
- Cochlea
- Semicircular canals
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See also
- Development of the ears
- Anatomical terminology
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The stapes is a bone in the middle ear of humans and other mammals which is involved in the conduction of sound vibrations to the inner ear. The stirrup-shaped small bone is on and transmits these to the oval window, medially. The stapes is the smallest and lightest named bone in the human body, and is so-called because of its resemblance to a stirrup (Latin: Stapes).
Contents
- 1 Structure
- 1.1 Development
- 1.2 Animals
- 1.3 Variation
- 2 Function
- 3 Clinical relevance
- 4 History
- 5 References
- 6 External links
Structure
See also: Ossicles
The size of the stapes, compared with a 10-cent euro coin.
The stapes is the third bone of the three ossicles in the middle ear. The stapes is a stirrup-shaped bone, and the smallest in the human body. It rests on the oval window, to which it is connected by an annular ligament. The stapes is described as having a base, resting on the oval window, as well as a head that articulates with the incus. These are connected by anterior and posterior limbs (Latin: crura).[1]:862 The stapes articulates with the incus through the incudostapedial joint.[2] The stapes is the smallest bone in the human body, and measures roughly 3 x 2.5mm, greater along the head-base span.[3]
Development
The stapes develops from the second pharyngeal arch during the sixth to eighth week of embryological life. The central cavity of the stapedius is due to the presence embryologically of the stapedial artery, which later regresses.[2][4]
Animals
See also: Evolution of mammalian auditory ossicles
The stapes is one of three ossicles in mammals. In non-mammalian four-legged animals, the bone homologous to the stapes is usually called the columella; however, in reptiles, either term may be used. In fish, the homologous bone is called the hyomandibular, and is part of the gill arch supporting either the spiracle or the jaw, depending on the species. The equivalent term in amphibians is the pars media plectra.[2][5]:481–482
Variation
The stapes appears to be relatively constant in size in different ethnic groups.[6] In 0.01-0.02% of people, the stapedial artery does not regress, and persists in the central foramen.[7] In this case, a pulsatile sound may be heard in the affected ear, or there may be no symptoms at all.[8] Rarely, the stapes may be completely absent.[9][10]:262
Function
Main article: Hearing
Situated between the incus and the inner ear, the stapes transmits sound vibrations from the incus to the oval window, a membrane-covered opening to the inner ear. The stapes is also stabilized by the stapedius muscle, which is innervated by the facial nerve.[1]:861–863
Clinical relevance
Otosclerosis is a congenital or spontaneous-onset disease characterized by abnormal bone remodeling in the inner ear. Often this causes the stapes to adhere to the oval window, which impedes its ability to conduct sound, and is a cause of conductive hearing loss. Clinical otosclerosis is found in about 1% of people, although it is more common in forms that do not cause noticeable hearing loss. Otosclerosis is more likely in young age groups, and females.[11] Two common treatments are stapedectomy, the surgical removal of the stapes and replacement with an artificial prosthesis, and stapedotomy, the creation of a small hole in the base of the stapes followed by the insertion of an artificial prosthesis into that hole.[12] :661 Surgery may be complicated by a persistent stapedial artery, fibrosis-related damage to the base of the bone, or obliterative otosclerosis, resulting in obliteration of the base.[7][10] :254–262
History
The stapes, as first described by Giovanni Filippo Ingrassia
(Labeled M, bottom right).
The stapes is commonly described as having been discovered by the professor Giovanni Filippo Ingrassia in 1546 at the University of Naples,[13] although this remains the nature of some controversy, as Ingrassia's description was published posthumously in his 1603 anatomical commentary In Galeni librum de ossibus doctissima et expectatissima commentaria. Spanish anatomist Pedro Jimeno is first to have been credited with a published description, in Dialogus de re medica (1549).[14] The bone is so-named because of its resemblance to a stirrup (Latin: Stapes), an example of a late Latin word, probably created in mediaeval times from "to stand" (Latin: stapia), as stirrups did not exist in the early Latin-speaking world.[15]
References
- ^ a b Drake, Richard L.; Vogl, Wayne; Tibbitts, Adam W.M. Mitchell; illustrations by Richard; Richardson, Paul (2005). Gray's anatomy for students. Philadelphia: Elsevier/Churchill Livingstone. ISBN 978-0-8089-2306-0.
- ^ a b c Chapman, SC (Jan 1, 2011). "Can you hear me now? Understanding vertebrate middle ear development.". Frontiers in bioscience (Landmark edition) 16: 1675–92. PMID 21196256.
- ^ aWengen, DF; Nishihara, S; Kurokawa, H; Goode, RL (April 1995). "Measurements of the stapes superstructure.". The Annals of otology, rhinology, and laryngology 104 (4 Pt 1): 311–6. PMID 7717624.
- ^ Rodriguez-Vazquez, J. F. (August 2005). "Development of the stapes and associated structures in human embryos". Journal of Anatomy 207 (2): 165–173. doi:10.1111/j.1469-7580.2005.00441.x.
- ^ Romer, Alfred Sherwood; Parsons, Thomas S (1977). The Vertebrate Body. Philadelphia, PA: Holt-Saunders International. ISBN 0-03-910284-X.
- ^ Arensburg, B.; Harell, M.; Nathan, H. (February 1981). "The human middle ear ossicles: Morphometry, and taxonomic implications". Journal of Human Evolution 10 (2): 199–205. doi:10.1016/S0047-2484(81)80018-8.
- ^ a b Mutlu, C; da Costa, SS; Paparella, MM; Schachern, PA (1998). "Clinical-histopathological correlations of pitfalls in middle ear surgery.". European archives of oto-rhino-laryngology : official journal of the European Federation of Oto-Rhino-Laryngological Societies (EUFOS) : affiliated with the German Society for Oto-Rhino-Laryngology - Head and Neck Surgery 255 (4): 189–94. PMID 9592676.
- ^ Silbergleit, R; Quint, DJ; Mehta, BA; Patel, SC; Metes, JJ; Noujaim, SE (Mar 2000). "The persistent stapedial artery.". AJNR. American journal of neuroradiology 21 (3): 572–7. PMID 10730654.
- ^ REIBER, M; SCHWABER, M (February 1997). "Congenital absence of stapes and facial nerve dehiscence". Otolaryngology - Head and Neck Surgery 116 (2): 278–278. doi:10.1016/S0194-5998(97)70343-7.
- ^ a b Tympanoplasty, Mastoidectomy, and Stapes Surgery. Georg Thieme Verlag. 2008. ISBN 978-1-282-86537-2.
- ^ Menger, D.J.; Tange, R.A. (April 2003). "The aetiology of otosclerosis: a review of the literature". Clinical Otolaryngology and Allied Sciences 28 (2): 112–120. doi:10.1046/j.1365-2273.2003.00675.x.
- ^ Hall, Arthur C. Guyton, John E. (2005). Textbook of medical physiology (11th ed.). Philadelphia: W.B. Saunders. ISBN 978-0-7216-0240-0.
- ^ Dispenza, F; Cappello, F; Kulamarva, G; De Stefano, A (October 2013). "The discovery of stapes.". Acta otorhinolaryngologica Italica : organo ufficiale della Società italiana di otorinolaringologia e chirurgia cervico-facciale 33 (5): 357–9. PMID 24227905.
- ^ Mudry, Albert (April 2013). "Disputes Surrounding the Discovery of the Stapes in the Mid 16th Century". Otology & Neurotology 34 (3): 588–592. doi:10.1097/MAO.0b013e31827d8abc.
- ^ Harper, Douglas. "Stapes (n.)". Online Etymology Dictionary. Retrieved 27 December 2013.
External links
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Wikimedia Commons has media related to Stapes. |
- "3-D Virtual Models of the Human Temporal Bone and Related Structures". Eaton Peabody Laboratory of Auditory Physiology. Retrieved January 2010.
This article uses anatomical terminology; for an overview, see anatomical terminology.
Anatomy of hearing and balance
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|
Outer ear |
- Auricle
- helix
- antihelix
- tragus
- antitragus
- incisura anterior auris
- earlobe
- Ear canal
- Auricular muscles
- Eardrum
|
|
Middle ear |
Tympanic cavity |
- Medial structures
- oval window
- round window
- secondary tympanic membrane
- prominence of facial canal
- promontory of tympanic cavity
- Posterior structures
- mastoid cells
- aditus to mastoid antrum
- pyramidal eminence
|
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Ossicles |
- Malleus
- superior ligament
- lateral ligament
- anterior ligament
- Incus
- superior ligament
- posterior ligament
- Stapes
- Muscles
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Eustachian tube |
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|
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Inner ear/
(membranous labyrinth,
bony labyrinth) |
Auditory system/
Cochlear labyrinth |
General cochlea |
- Vestibular duct
- Helicotrema
- Tympanic duct
- Modiolus
- Cochlear cupula
|
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Perilymphatic space |
- Perilymph
- Cochlear aqueduct
|
|
Cochlear duct /
scala media |
- Reissner's/vestibular membrane
- Basilar membrane
- Reticular membrane
- Endolymph
- Stria vascularis
- Spiral ligament
- Organ of Corti
- Tectorial membrane
- Sulcus spiralis
- Spiral limbus
|
|
Cells |
- Claudius cell
- Boettcher cell
|
|
|
Vestibular system/
Vestibular labyrinth |
Vestibule |
- Utricle
- Saccule
- Kinocilium
- Otolith
- Vestibular aqueduct
- endolymphatic duct
- endolymphatic sac
- Canalis reuniens
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|
Semicircular canals |
- Superior semicircular canal
- Posterior semicircular canal
- Horizontal semicircular canal
- Ampullary cupula
- Ampullae
|
|
|
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Index of the ear
|
|
Description |
- Anatomy
- Physiology
- Development
|
|
Disease |
- Congenital
- Other
- Symptoms and signs
- Tests
|
|
Treatment |
|
|
|
Bones in the human skeleton
|
|
Axial skeleton |
Skull |
Neurocranium |
- occipital
- parietal
- frontal
- temporal
- sphenoid
- ethmoid
|
|
Face |
- nasal
- maxilla
- lacrimal
- zygomatic
- palatine
- inferior nasal conchae
- vomer
- mandible
- hyoid
|
|
Ear |
|
|
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Thorax |
|
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Vertebral column |
- vertebrae
- Sacrum
- Tailbone
|
|
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Appendicular |
Shoulder |
- collarbone
- shoulder blade
|
|
Arm |
|
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Hand |
- carpals (scaphoid, lunate bone, triquetral, pisiform, trapezium, trapezoid, capitate, hamate)
- metacarpals
- phalanges (prox, int, dist)
|
|
Pelvis |
|
|
Leg |
- Thighbone
- Kneecap
- Calfbone
- Shinbone
|
|
Foot |
- tarsals
- heelbone
- anklebone
- navicular
- cuneiform
- cuboid
- metatarsals
- phalanges
- proximal
- intermediate
- distal
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Index of bones and cartilage
|
|
Description |
- Anatomy
- bones
- skull
- face
- neurocranium
- compound structures
- foramina
- upper extremity
- torso
- pelvis
- lower extremity
- Physiology
- Development
- Cells
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Disease |
- Congenital
- Neoplasms and cancer
- Trauma
- Other
- Symptoms and signs
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|
Treatment |
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