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Facial bones
The fourteen bones that form the human facial skeleton
The fourteen facial bones. ( Neurocranium is shown in semi-transparent.)
  Blue: Vomer (1)
  Yellow: Maxilla (2)
  Purple: Mandible (1)
  Pink: Nasal bones (2)
  Red: Palatine bones (2)
  Bright blue: Lacrimal bones (2)
  Dark green: Zygomatic bones (2)
  Bright green: Inferior nasal concha (2)
Details
Part of Face, skeleton
Identifiers
Latinossa faciei, ossa facialia
MeSH D005147
TA2 356
Anatomical terms of bone

The facial skeleton comprises the facial bones that may attach to build a portion of the skull. [1] The remainder of the skull is the neurocranium.

In human anatomy and development, the facial skeleton is sometimes called the membranous viscerocranium, which comprises the mandible and dermatocranial elements that are not part of the braincase.

Structure

In the human skull, the facial skeleton consists of fourteen bones in the face: [1] [2]

Variations

Elements of the cartilaginous viscerocranium (i.e., splanchnocranial elements), such as the hyoid bone, are sometimes considered part of the facial skeleton. The ethmoid bone (or a part of it) and also the sphenoid bone are sometimes included, but otherwise considered part of the neurocranium. Because the maxillary bones are fused, they are often collectively listed as only one bone. The mandible is generally considered separately from the cranium.

Development

The facial skeleton is composed of dermal bone and derived from the neural crest cells (also responsible for the development of the neurocranium, teeth and adrenal medulla) or from the sclerotome, which derives from the somite block of the mesoderm. As with the neurocranium, in Chondricthyes and other cartilaginous vertebrates, they are not replaced via endochondral ossification.

Variation in craniofacial form between humans is largely due to differing patterns of biological inheritance. Cross-analysis of osteological variables and genome-wide SNPs has identified specific genes that control this craniofacial development. Of these genes, DCHS2, RUNX2, GLI3, PAX1 and PAX3 were found to determine nasal morphology, whereas EDAR impacts chin protrusion. [3]

Additional images

See also

References

  1. ^ a b Jinkins, J. Randy (2000). Atlas of Neuroradiologic Embryology, Anatomy, and Variants. Lippincott Williams & Wilkins. p. 458. ISBN  0-7817-1652-7. Retrieved 24 August 2017.
  2. ^ "Divisions of the Skeleton". U.S. National Cancer Institute's Surveillance, Epidemiology and End Results (SEER) Program. Archived from the original on 14 January 2009. Retrieved 24 August 2017.{{ cite web}}: CS1 maint: bot: original URL status unknown ( link)
  3. ^ Adhikari K, Fuentes-Guajardo M, Quinto-Sánchez M, Mendoza-Revilla J, Chacón-Duque JC, Acuña-Alonzo V, Gómez-Valdés J (2016). "A genome-wide association scan implicates DCHS2, RUNX2, GLI3, PAX1 and EDAR in human facial variation". Nature Communications. 7: 11616. Bibcode: 2016NatCo...711616A. doi: 10.1038/ncomms11616. PMC  4874031. PMID  27193062.

External links