Top

Surgical and Radiologic Anatomy

Published in:

Open Access 01-03-2021 | Review

Sphenoidal artery: review of the literature and analysis of a dissected arterially injected fetal orbit

Authors: E. Leon Kier, Amit Mahajan, Gerald J. Conlogue

Published in: Surgical and Radiologic Anatomy | Issue 3/2021

Abstract

Purpose

The sphenoidal artery is considered a component of the complex and dangerous arterial anastomoses of the human orbitocranial region, particularly with the advent of interventional neuroimaging. The objective of this publication was to analyze the various descriptions of the sphenoidal artery in the literature as related to relevant photographs of a dissected arterially injected fetal middle cranial fossa and orbit.

Methods

Publications dealing with middle meningeal-ophthalmic arterial anastomoses, focusing on the sphenoidal artery, were reviewed. A relevant dissection of a fetal specimen was analyzed.

Results

The literature dealing with the sphenoidal artery is at times not in agreement. The nomenclature and anatomy of its passage through the superior orbital fissure or Hyrtl canal have variable descriptions. Photographs of the skull base of a dissected arterially injected fetal specimen show bilateral prominent orbital branches of the middle meningeal arteries. These branches entered both orbits in a course similar to the diagrammatic representations of the sphenoidal artery, and give rise to several major intraorbital arteries. This study provides the only photographic image in the literature of this variation in a human fetal anatomic dissection.

Conclusions

Review of the literature dealing with the sphenoidal artery shows inconsistent nomenclature and conflicting descriptions of its anastomotic connections, and varying evolutionary and embryologic theories. Analysis of the dissected fetal skull base indicates that the sphenoidal artery is not a distinct artery but just a middle meningeal orbital arterial branch, an important component of the complex and dangerous arterial anastomoses of the human orbitocranial region.

Bonasia S, Smajda S, Ciccio G, Robert T (2020) Stapedial artery: from embryology to different possible adult configurations. AJNR Am J Neuroradiol 41(10):1768–1776. https://doi.org/10.3174/ajnr.A6738CrossRefPubMed

Bonasia S, Smajda S, Ciccio G, Robert T (2020) Middle meningeal artery: anatomy and variations. AJNR Am J Neuroradiol 41(10):1777–1785. https://doi.org/10.3174/ajnr.A6739CrossRefPubMed

Chanmugam PK (1936) Note on an unusual ophthalmic artery associated with other abnormalities. J Anat 70:580–581PubMedPubMedCentral

Clay C, Vignaud J (1971) Vascularisation de l’orbite. Encyclopedie Medico-Chirugicale (Paris) 10:1–12

Diamond M (1991) Homologies of the meningo-orbitalarteries of humans: a reappraisal. J Anat 178:223–241PubMedPubMedCentral

Ducasse A, Delattre J, Flamenta J, Hureau J (1984) The arteries of the lacrimal gland. Anat Clin 6:287–293CrossRef

Ducasse A, Segal A, Delattre J, Burette A, Flament J (1985) La participation de l’artere carotide externe a la vascularisation orbitaire. J Fr Ophtalmol 8(4):333–339PubMed

Erdogmus S, Govsa F (2005) Importance of the anatomic features of the lacrimal artery for orbital approaches. J Craniofac Surg 16(6):957–964CrossRef

Erturk M, Kayalioglu G, Govsa F, Varol T, Osguri T (2005) The cranio-orbital foramen, the groove on the lateral wall of the human orbit, and the orbital branch of the middle meningeal. Clin Anat 10(1):79–84

10.

Gailloud P, Gregg L, San Millán Ruiz D (2009) Developmental anatomy, angiography, and clinical implications of orbital arterial variations involving the stapedial artery. Neuroimaging Clinics of NA 19:169–179CrossRef

11.

Georgiou C, Cassell MD (1992) The foramen meningo-orbitale and its relationship to the development of the ophthalmic artery. J Anat 180:119–125PubMedPubMedCentral

12.

Gregg L, San Millán D, Orru’ E, Tamargo R, Gailloud P (2016) Ventral and dorsal persistent primitive ophthalmic arteries. Oper Neurosurg (Hagerstown) 12(2):141–152CrossRef

13.

Harvey JC, Howard MA (1945) A rare type of anomalous ophthalmic artery in a Negro. Anat Rec 92:87–90CrossRef

14.

Hayreh SS (1964) The orbital vessels of rhesus monkeys. Exp Eye res 3:16–30CrossRef

15.

Hayreh SS, Dass R (1962) The ophthalmic artery. I. Origin and intra-cranial and intra-canalicular course. Br J Ophthal 46(2):65–98CrossRef

16.

Konishi M, Kikuchi M (1996) Development variations of the R. anastomoticus cum a. lacrimali. Kaibogaku Zasshi 71(5):541–550PubMed

17.

Lasjaunias P, Vignaud J, Hasso AN (1975) Maxillary artery blood supply to the orbit: normal and pathological aspects. Neuroradiology 9:87–97CrossRef

18.

Lasjaunias P, Michotey P, Vignaud J, Clay C (1975) Vascularization of the orbit. II. Radio-anatomy of the arterial vascularization of the orbit with the exception of the trunk of the ophthalmic artery. Ann Radiol (Paris) 18(2):181–194

19.

Lasjaunias P, Brismar J, Moret J, Theron J (1978) Recurrent cavernous branches of the ophthalmic artery. Acta Radiol Diagnosis 19(4):553–560CrossRef

20.

Lasjaunias P, Merland JJ, Theron J, Moret J (1977) Dural vascularization of the middle fossa. J Neuroradiol 4:361–384PubMed

21.

Macchi V, Regoli M, Bracco S, Nicoletti C, Morra A, Porzionato A, De Caro R, Bertelli E (2016) Clinical anatomy of the orbitomeningeal foramina: variational anatomy of the canals connecting the orbit with the cranial cavity. Surg Radiol Anat 38(2):165–177. https://doi.org/10.1007/s00276-015-1530-8CrossRefPubMed

22.

Martins C, Yasuda A, Campero A, Ulm AJ, Tanriover N, Rhoton A Jr (2005) Microsurgical anatomy of the dural arteries. Neurosurgery 56:211–251CrossRef

23.

Merland J, Bories J, Djindjian R (1977) Dural blood supply of the anterior cranial fossa. J Neuroradiology 4:337–359

24.

Moret J, Lasjaunias P, Vignaud J, Clay C (1976) La vascularisationde la glande lacrymale: radio-anatomie normale. Bull Soc d’Ophtal France 76(9):803–804

25.

Moret J, Lasjaunias P, Theron J, Merland JJ (1977) The middle meningeal artery. Its contribution to the vascularisation of the orbit. J Neuroradiol 4:225–248PubMed

26.

Perrini P, Cardia A, Fraser K, Lanzino G (2007) A microsurgical study of the anatomy and course of the ophthalmic artery and its possibly dangerous anastomoses. J Neurosurg 106:142–150CrossRef

27.

Pretterklieber M, Krammer EB (1996) Sphenoidal artery, ramus orbitalis persistens and pterygospinosus muscle—a unique cooccurrence of first branchial arch anomalies in man. Acta Anat 155:136–144CrossRef

28.

Regoli M, Bertelli E (2017) The revised anatomy of the canals connecting the orbit with the cranial cavity. Orbit 36(2):110–117. https://doi.org/10.1080/01676830.2017.1279662CrossRefPubMed

29.

Royle G (1973) A groove in the lateral wall of the orbit. J Anat 115(3):461–465PubMedPubMedCentral

30.

Shimada K, Kaneko Y, Sato I, Ezure H, Murakami G (1995) Classification of the ophthalmic artery that arises from the middle meningeal artery in Japanese adults. Okajimas Folia Anat Jpn 72:163–176CrossRef

31.

Terminology FCA (1998) Terminilogia Anatomica. International Anatomical Terminology. Thieme, Stuttgart-New York

32.

Toma N (2016) Anatomy of the ophthalmic artery: embryological consideration. Neurol Med Chir (Tokyo) 56(10):585–591. https://doi.org/10.2176/nmc.ra.2015-0324CrossRef

33.

Vignaud J, Clay C, Aubin M (1972) Orbital angiography. Radiol Clin NA 10:39–61

34.

Vignaud J, Hasso AN, Lasjaunias P, Clay C (1974) Orbital vascular anatomy and embryology. Radiology 111:617–626CrossRef

35.

Willinsky R, Lasjaunias P, Berenstein A (1987) Intracavernous branches of the internal carotid artery (ICA). Comprehensive review of their variations. Surg Radiol Anat 9:201–215CrossRef

36.

Yoon J, Pather N (2016) The orbit: a re-appraisal of the surgical landmarks of the medial and lateral walls. Clin Anat 29(8):998–1010. https://doi.org/10.1002/ca.22787CrossRefPubMed

Title: Sphenoidal artery: review of the literature and analysis of a dissected arterially injected fetal orbit
Authors: E. Leon Kier
Amit Mahajan
Gerald J. Conlogue
Publication date: 01-03-2021
Publisher: Springer Paris
Published in: Surgical and Radiologic Anatomy / Issue 3/2021
Print ISSN: 0930-1038
Electronic ISSN: 1279-8517
DOI: https://doi.org/10.1007/s00276-020-02663-9

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Sphenoidal artery: review of the literature and analysis of a dissected arterially injected fetal orbit

Abstract

Purpose

Methods

Results

Conclusions

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

Purpose

Methods

Results

Conclusions

Please log in to get access to this content

Other articles of this Issue 3/2021

Anatomy of peripancreatic arteries and pancreaticoduodenal arterial arcades in the human pancreas: a cadaveric study

Anatomic variations of the superficial temporal artery

High prevalence of a linear valve-like structure on CT at the pulmonary artery terminus of patent ductus arteriosus in adult patients, mimicking endarteritis

Dual origin of vertebral artery and intimal relationship with spontaneous artery dissection: a case report and systematic review

Right vertebral artery entering the third transverse foramen diagnosed by magnetic resonance angiography: a report of two cases

An unusual anatomic variation of the Posterior Descending Coronary Artery