Ossicles

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Ossicles
Blausen 0330 EarAnatomy MiddleEar.png
Auditory ossicles: Malleus, incus and stapes
Details
Latin Ossicula auditus,
ossicula auditoria
Identifiers
MeSH A09.246.397.247
Dorlands
/Elsevier
Ossicles
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TH {{#property:P1694}}
TE {{#property:P1693}}
FMA 52750
Anatomical terms of bone
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The ossicles (also called auditory ossicles) are three bones in either middle ear that are among the smallest bones in the human body. They serve to transmit sounds from the air to the fluid-filled labyrinth (cochlea). The absence of the auditory ossicles would constitute a moderate-to-severe hearing loss. The term "ossicle" literally means "tiny bone" and, though the term may refer to any small bone throughout the body, it typically refers to the malleus, incus, and stapes (hammer, anvil, and stirrup) of the middle ear.

Structure

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Anatomy of the three ossicles.

The ossicles are, in order from the eardrum to the inner ear (from superficial to deep): the malleus, incus, and stapes, terms that in Latin are translated as "the hammer, anvil, and stirrup".

Development

Studies have shown that ear bones in mammal embryos are attached to the dentary, which is part of the jaw. These are ossified portions of cartilage—called Meckel's cartilage—that are attached to the jaw. As the embryo develops, the cartilage hardens to form bone. Later in development, the bone structure breaks loose from the jaw and migrates to the inner ear area. The structure is known as the middle ear, and is made up of the stapes, incus, malleus, and tympanic membrane. These correspond to the columella, quadrate, articular, and angular structures in the amphibian, bird or reptile jaw. For this reason, researchers believe that mammals and reptiles share a common ancestry.[2]

Evolution

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Function

As sound waves vibrate the tympanic membrane (eardrum), it in turn moves the nearest ossicle, the malleus, to which it is attached. The malleus then transmits the vibrations, via the incus, to the stapes, and so ultimately to the membrane of the fenestra ovalis, the opening to the vestibule of the inner ear.

Sound traveling through the air is mostly reflected when it comes into contact with a liquid medium; only about 1/30 of the sound energy moving through the air would be transferred into the liquid.[3] Think about the abrupt cessation of sound that occurs on a busy summer's day at the pool when you submerge your head underwater. This is because the relative incompressibility of a liquid presents resistance to the force of the sound waves traveling through the air. The ossicles give the eardrum a mechanical advantage via lever action and a reduction in the area of force distribution; the resulting vibrations would be much weaker if the sound waves were transmitted directly from the outer ear to the oval window. This reduction in the area of force application allows a large enough increase in pressure to transfer most of the sound energy into the liquid. The increased pressure will compress the fluid found in the cochlea and transmit the stimulus. Thus, the presence of the ossicles to concentrate the force of the vibrations improves the sensitivity to sound and is a form of impedance matching.

However, the extent of the movements of the ossicles is controlled (and constricted) by two muscles attached to them (the tensor tympani and the stapedius). It is believed that these muscles can contract to dampen the vibration of the ossicles, in order to protect the inner ear from excessively loud noise (theory 1) and that they give better frequency resolution at higher frequencies by reducing the transmission of low frequencies (theory 2) (see acoustic reflex). These muscles are more highly developed in bats and serve to block outgoing cries of the bats during echolocation (SONAR).

Clinical relevance

Occasionally the joints between the ossicles become rigid. One condition, otosclerosis, results in the fusing of the stapes to the oval window. This reduces hearing and may be treated surgically.

History

There is some doubt as to the discoverers of the auditory ossicles and several anatomists from the early 16th century have the discovery attributed to them with the two earliest being Alessandro Achillini and Jacopo Berengario da Carpi.[4] Several sources, including Eustachi and Casseri,[5] attribute the discovery of the malleus and incus to the anatomist and philosopher Achillini.[6] The first written description of the malleus and incus was by Berengario da Carpi in his Commentaria super anatomia Mundini (1521),[7] although he only briefly described two bones and noted their theoretical association with the transmission of sound.[8] Niccolo Massa's Liber introductorius anatomiae[9] described the same bones in slightly more detail and likened them both to little hammers.[8] A much more detailed description of the first two ossicles followed in Andreas Vesalius' De humani corporis fabrica[10] in which he devoted a chapter to them. Vesalius was the first to compare the second element of the ossicles to an anvil although he offered the molar as an alternative comparison for its shape.[11] The first published description of the stapes came in Pedro Jimeno's Dialogus de re medica (1549)[12] although it had been previously described in public lectures by Giovanni Filippo Ingrassia at the University of Naples as early as 1546.[13]

The term ossicle derives from ossiculum, a diminutive of "bone" (Latin: os; genitive ossis).[14] The malleus gets its name from Latin malleus, meaning "hammer",[15] the incus gets its name from Latin incus meaning "anvil" from incudere meaning "to forge with a hammer",[16] and the stapes gets its name from Modern Latin "stirrup," probably an alteration of Late Latin stapia related to stare "to stand" and pedem, an accusative of pes "foot", so called because the bone is shaped like a stirrup – this was an invented Modern Latin word for "stirrup," for which there was no classical Latin word, as the ancients did not use stirrups.[17]

Additional images

See also

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References

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  2. Meng, Jin. "The Journey From Jaw to Ear." Biologist. vol. 50. (2003) p. 154-158.
  3. Hill, R.W., Wyse, G.A. & Anderson, M. (2008). Animal Physiology, 2nd ed..
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  5. Alidosi, GNP. I dottori Bolognesi di teologia, filosofia, medicina e d'arti liberali dall'anno 1000 per tutto marzo del 1623, Tebaldini, N., Bologna, 1623. http://gallica.bnf.fr/ark:/12148/bpt6k51029z/f35.image#
  6. Lind, L. R. Studies in pre-Vesalian anatomy. Biography, translations, documents, American Philosophical Society, Philadelphia, 1975. p.40
  7. Jacopo Berengario da Carpi,Commentaria super anatomia Mundini, Bologna, 1521. https://archive.org/details/ita-bnc-mag-00001056-001
  8. 8.0 8.1 O'Malley, C.D. Andreas Vesalius of Brussels, 1514–1564. Berkeley: University of California Press, 1964. p. 120
  9. Niccolo Massa, Liber introductorius anatomiae, Venice, 1536. p.166. http://reader.digitale-sammlungen.de/en/fs1/object/display/bsb10151904_00001.html
  10. Andreas Vesalius, De humani corporis fabrica. Johannes Oporinus, Basle, 1543.
  11. O'Malley, C.D. Andreas Vesalius of Brussels, 1514–1564. Berkeley: University of California Press, 1964. p. 121
  12. Pedro Jimeno, Dialogus de re medica, Johannes Mey, Valencia, 1549. https://archive.org/details/dialogusderemed00jimegoog
  13. A Mudry, Disputes surrounding the discovery of the stapes in the mid 16th century., Otology and Neurotology, 2013 Apr;34(3):588-92.
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External links

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