Foramen spinosum explained

The foramen spinosum is a small open hole in the greater wing of the sphenoid bone that gives passage to the middle meningeal artery and vein, and the meningeal branch of the mandibular nerve (sometimes it passes through the foramen ovale instead).

The foramen spinosum is often used as a landmark in neurosurgery due to its close relations with other cranial foramina. It was first described by Jakob Benignus Winslow in the 18th century.

Structure

The foramen spinosum is a small foramen in the greater wing of the sphenoid bone of the skull.^[1] It connects the middle cranial fossa (superiorly), and infratemporal fossa (inferiorly).^[2]

Contents

The foramen transmits the middle meningeal artery and vein, and sometimes the meningeal branch of the mandibular nerve (it may pass through the foramen ovale instead).

Relations

The foramen is situated just anterior to the sphenopetrosal suture. It is located posterolateral to the foramen ovale, and anterior to the sphenoidal spine.

A groove for the middle meningeal artery and vein extends anterolaterally from the foramen.

Variation

The foramen spinosum varies in size and location. The foramen is rarely absent, usually unilaterally, in which case the middle meningeal artery enters the cranial cavity through the foramen ovale.^[3] It may be incomplete, which may occur in almost half of the population. Conversely, in a minority of cases (less than 1%), it may also be duplicated, particularly when the middle meningeal artery is also duplicated.^[4]

The foramen may pass through the sphenoid bone at the apex of the spinous process, or along its medial surface.

Development

In the newborn, the foramen spinosum is about 2.25 mm long and in adults about 2.56 mm. The width of the foramen variesfrom 1.05 mm to about 2.1 mm in adults.^[5] The average diameter of the foramen spinosum is 2.63 mm in adults.^[6] It is usually between 3 and 4 mm away from the foramen ovale in adults.^[7]

The earliest perfect ring-shaped formation of the foramen spinosum was observed in the eighth month after birth and the latest seven years after birth in a developmental study of the foramen rotundum, foramen ovale and foramen spinosum. The majority of the foramina in the skull studies were round in shape. The sphenomandibular ligament, derived from the first pharyngeal arch and usually attached to the spine of the sphenoid bone, may be found attached to the rim of the foramen.^[8]

Animals

In other great apes, the foramen spinosum is found not in the sphenoid, but in parts of the temporal bone such as the squamous part, found at the sphenosquamosal suture, or absent.^[9]

Function

The foramen spinosum permits the passage of the middle meningeal artery, middle meningeal vein, and the meningeal branch of the mandibular nerve.^[10]

Clinical significance

Due to its distinctive position, the foramen is used as an anatomical landmark during neurosurgery. As a landmark, the foramen spinosum reveals the positions of other cranial foramina, the mandibular nerve and trigeminal ganglion, foramen ovale, and foramen rotundum. It may also be relevant in achieving haemostasis during surgery, such as for ligation of the middle meningeal artery.^[11] This may be useful in trauma surgery to reduce bleeding into the neurocranium, or for removal of the pyramidal process of the palatine bone.

History

The foramen spinosum was first described by the Danish anatomist Jakob Benignus Winslow in the 18th century. It is so-named because of its relationship to the spinous process of the greater wing of the sphenoid bone. However, due to incorrectly declining the noun, the literal meaning is "hole full of thorns" (Latin: foramen spinosum). The correct, but unused name would, in fact, be Latin: foramen spinae.

See also

• Foramina of skull

External links

• – "Osteology of the Skull: Internal Surface of Skull"
• – "Schematic view of key landmarks of the infratemporal fossa."
• Anatomy of the Skull – 27. Foramen spinosum

Notes and References

1. Book: Sinnatamby, Chummy S. . Last's Anatomy . 2011 . 978-0-7295-3752-0 . 12th .
2. Book: Moore, Keith L. . Clinically Oriented Anatomy . Dalley . Arthur F. . Agur . Anne M. R. . Wolters Kluwer . 2018 . 978-1-4963-4721-3 . 8th . 841-844.
3. Encyclopedia: Illustrated Encyclopedia of Human Anatomic Variation: Opus V: Skeletal Systems: Cranium – Sphenoid Bone . Illustrated Encyclopedia of Human Anatomic Variation . 2006-04-10.
4. Krayenbühl. Niklaus. Isolan, Gustavo Rassier. Al-Mefty, Ossama. 2 August 2008. The foramen spinosum: a landmark in middle fossa surgery. Neurosurgical Review. 31. 4. 397–402. 10.1007/s10143-008-0152-6. 18677523. 37126697.
5. Lang J, Maier R, Schafhauser O . Postnatal enlargement of the foramina rotundum, ovale et spinosum and their topographical changes . Anatomischer Anzeiger . 1984 . 351–87 . 156 . 5 . 6486466.
6. Yanagi S . Developmental studies on the foramen rotundum, foramen ovale and foramen spinosum of the human sphenoid bone . The Hokkaido Journal of Medical Science . 1987 . 485–96 . 62 . 3 . 3610040.
7. Book: Barral. Jean-Pierre. https://www.sciencedirect.com/science/article/pii/B9780702031007500124. Manual Therapy for the Cranial Nerves. Croibier. Alain. 2009-01-01. Churchill Livingstone. 2009. 978-0-7020-3100-7. 51–57. en. 9 - Manipulation of the plurineural orifices. 10.1016/B978-0-7020-3100-7.50012-4.
8. Book: Ort, Bruce Ian Bogart, Victoria. Elsevier's integrated anatomy and embryology. 2007. Elsevier Saunders. Philadelphia, Pa.. 978-1-4160-3165-9. Elsevier’s Integrated Anatomy and Embryology.
9. Braga . J. . Crubézy . E. . Elyaqtine . M. . 10.1002/(SICI)1096-8644(199812)107:4<387::AID-AJPA2>3.0.CO;2-Y . The posterior border of the sphenoid greater wing and its phylogenetic usefulness in human evolution . American Journal of Physical Anthropology . 107 . 4 . 387–399 . 1998 . 9859876 .
10. Book: Drake, Richard L.. Gray's anatomy for students. 2005. Elsevier/Churchill Livingstone. Philadelphia. 978-0-8089-2306-0. Vogl, Wayne . Tibbitts, Adam W.M. Mitchell . illustrations by Richard . Richardson, Paul .
11. Book: Kawase, Takeshi. https://www.sciencedirect.com/science/article/pii/B9781416056546000386. Meningiomas. Saunders. 2010. 978-1-4160-5654-6. 495–501. 38 - Petroclival Meningiomas: Middle Fossa Anterior Transpetrosal Approach. 10.1016/B978-1-4160-5654-6.00038-6.