Anatomical study of the carotid‐trigeminal interface: The missing link in the trigeminovascular system?

Anatomical study of the carotid‐trigeminal interface: The missing link in the trigeminovascular system?

The trigeminal system is considered a prominent actor in brain nociceptive innervation. The trigeminovascular system is mainly composed of pseudounipolar neurons located within the trigeminal ganglion, whose dendrites originate in cerebral blood vessels. Anatomical studies demonstrating anatomical c...

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Bibliographic Details
Published in:Journal of anatomy Vol. 241; no. 6; pp. 1303 - 1309
Main Authors: Terrier, Louis‐Marie, Bergemer, Anne‐Marie, Destrieux, Christophe, Maldonado, Igor Lima
Format: Journal Article
Language:English
Published: Oxford Wiley Subscription Services, Inc 01-12-2022
Subjects:
Anatomy
Axons
Blood vessels
Cadavers
Carotid artery
Dendrites
Fibers
Filaments
Innervation
internal carotid artery
Ophthalmic nerve
Pain perception
sympathetic nervous system
Trigeminal ganglion
Trigeminal nerve
trigeminal system
trigeminovascular system
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Summary:The trigeminal system is considered a prominent actor in brain nociceptive innervation. The trigeminovascular system is mainly composed of pseudounipolar neurons located within the trigeminal ganglion, whose dendrites originate in cerebral blood vessels. Anatomical studies demonstrating anatomical continuity between perivascular fibers and the trigeminal system are lacking. This issue is addressed in this study. Eleven cadaveric heads obtained from a body donation program were fixed in formalin. We performed a microanatomical study of the cavernous carotid‐trigeminal interface and a histological examination of the tissue bridges crossing the virtual space between the medial aspect of the trigeminal ganglion and ophthalmic nerve and the lateral aspect of the cavernous segment of the internal carotid artery. Very strong adhesion was observed between the horizontal segment of the artery and the ophthalmic nerve in all specimens. The virtual space in this interface was crossed by a web of delicate filaments. Histological examination demonstrated the presence of nerve fibers in all samples. In this study, the carotid‐trigeminal interface has been described in greater detail than ever before and could provide insight into disorders related to the trigeminovascular system. As the present results do not allow the exact nature of the axons to be affirmed, further investigation is necessary. Very strong adhesion was observed between the horizontal segment of the carotid artery and the ophthalmic nerve in all specimens. The virtual space in this interface was crossed by a web of delicate filaments. Histological examination demonstrated the presence of nerve fibers in all samples.
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ISSN:0021-8782
1469-7580
DOI:10.1111/joa.13765