Mandibular symphysis

(Redirected from Symphysis menti)

In human anatomy, the facial skeleton of the skull the external surface of the mandible is marked in the median line by a faint ridge, indicating the mandibular symphysis (Latin: symphysis menti) or line of junction where the two lateral halves of the mandible typically fuse in the first year of life (6–9 months after birth).[1] It is not a true symphysis as there is no cartilage between the two sides of the mandible.

Mandibular symphysis
Anterior view of mandible, showing mandibular symphysis (red broken line)
Medial surface of the left half of the mandible, dis-articulated from the right side at the mandibular symphysis
Details
Identifiers
Latinsymphysis mandibulae
TA98A02.1.15.004
TA2838
FMA75779
Anatomical terms of bone

This ridge divides below and encloses a triangular eminence, the mental protuberance, the base of which is depressed in the center but raised on either side to form the mental tubercle. The lowest (most inferior) end of the mandibular symphysis — the point of the chin — is called the "menton".[2][3]

It serves as the origin for the geniohyoid and the genioglossus muscles.

Other animals

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Humpback skeleton showing the flexible "slingshot" symphysis present in baleen whales
 
Skull and jaws of the "tetralophodont gomphothere" Tetralophodon longirostris, a proboscidean demonstrating mandibular symphysis elongation

Solitary mammalian carnivores that rely on a powerful canine bite to subdue their prey have a strong mandibular symphysis, while pack hunters delivering shallow bites have a weaker one.[4] When filter feeding, the baleen whales, of the suborder Mysticeti, can dynamically expand their oral cavity in order to accommodate enormous volumes of sea water. This is made possible thanks to its mandibular skull joints, especially the elastic mandibular symphysis which permits both dentaries to be rotated independently in two planes. This flexible jaw, which made the titanic body sizes of baleen whales possible, is not present in early whales and most likely evolved within Mysticeti.[5]

Many primitive proboscideans belonging to the group Elephantiformes have a greatly elongated mandibular symphysis. This was lost in many later groups, including modern elephants.[6]

References

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  This article incorporates text in the public domain from page 172 of the 20th edition of Gray's Anatomy (1918)

Notes

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  1. ^ Becker, Marshall Joseph (Apr 1986). "Mandibular symphysis (medial suture) closure in modern Homo sapiens: Preliminary evidence from archaeological populations". American Journal of Physical Anthropology. 69 (4): 499–501. doi:10.1002/ajpa.1330690409. ISSN 0002-9483. Retrieved 2023-12-10.
  2. ^ "Menton". The Free Dictionary. Retrieved 1 November 2016.
  3. ^ Phulari, Basavaraj Subhashchandra (2013). An atlas on cephalometric landmarks (1st ed.). New Delhi: Jaypee Brothers Medical Publishers. p. 174. ISBN 9789350903247.
  4. ^ Therrien, François (2005). "Mandibular force profiles of extant carnivorans and implications for the feeding behaviour of extinct predators". Journal of Zoology. 267 (3): 249. doi:10.1017/S0952836905007430.
  5. ^ Fitzgerald 2012
  6. ^ Li, Chunxiao; Deng, Tao; Wang, Yang; Sun, Fajun; Wolff, Burt; Jiangzuo, Qigao; Ma, Jiao; Xing, Luda; Fu, Jiao (2023-08-16). Longer mandible or nose? Co-evolution of feeding organs in early elephantiforms (Report). Paleontology. doi:10.1101/2023.08.15.553347.

Sources

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