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DOI: 10.1055/s-0045-1806854
Critical Procedural Anatomy of High-Risk External Carotid Artery–Internal Carotid Artery Anastomoses
Funding The authors did not receive any specific funding for this manuscript.
Abstract
Transarterial embolization of external carotid artery (ECA) branches is increasingly performed for the management of epistaxis, preoperative embolization of head and neck tumors, treatment of dural arteriovenous fistulas, and, more recently, for the treatment of chronic subdural hematoma. As new indications for ECA embolization in the management of conditions like chronic subdural hematoma continue to be identified, it is imperative that interventionalists understand the presence of intricate anastomoses between the extracranial and intracranial arterial systems, which confer significant procedural risks. Failure to account for these connections can result in devastating complications such as stroke, blindness, or cranial nerve injury due to nontarget embolization. This review examines the key anatomical territories of ECA–internal carotid artery anastomoses: the orbital region, petrous-cavernous region, and upper cervical region. These areas, often involving embryological remnants or collateral channels that enlarge in response to pathology, represent potential conduits for inadvertent embolization. We discuss the importance of preprocedural angiography to document anastomosis locations, embolic material selection, special considerations in the context of pathology, and techniques to mitigate risks. Specific considerations for each anatomical region are discussed, with a focus on critical anastomoses, embolization risks, and prevention strategies.
Publication History
Article published online:
31 March 2025
© 2025. Thieme. All rights reserved.
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References
- 1 Bhatia KD, Lee H, Kortman H. et al. Endovascular management of intracranial dural arteriovenous fistulas: transarterial approach. AJNR Am J Neuroradiol 2022; 43 (03) 324-331
- 2 Willems PWA, Farb RI, Agid R. Endovascular treatment of epistaxis. AJNR Am J Neuroradiol 2009; 30 (09) 1637-1645
- 3 Lazzaro MA, Badruddin A, Zaidat OO, Darkhabani Z, Pandya DJ, Lynch JR. Endovascular embolization of head and neck tumors. Front Neurol 2011; 2: 64
- 4 Davies JM, Knopman J, Mokin M. et al; EMBOLISE Investigators. Adjunctive middle meningeal artery embolization for subdural hematoma. N Engl J Med 2024; 391 (20) 1890-1900
- 5 Geibprasert S, Pongpech S, Armstrong D, Krings T. Dangerous extracranial-intracranial anastomoses and supply to the cranial nerves: vessels the neurointerventionalist needs to know. AJNR Am J Neuroradiol 2009; 30 (08) 1459-1468
- 6 Lv X, Jiang C, Zhang J, Li Y, Wu Z. Complications related to percutaneous transarterial embolization of intracranial dural arteriovenous fistulas in 40 patients. AJNR Am J Neuroradiol 2009; 30 (03) 462-468
- 7 Lv X, Jiang C, Li Y, Liu L, Liu J, Wu Z. The limitations and risks of transarterial Onyx injections in the treatment of grade I and II DAVFs. Eur J Radiol 2011; 80 (03) e385-e388
- 8 Djindjian R, Merland JJ. Super-Selective Arteriography of the External Carotid Artery. Berlin: Springer; 1978
- 9 Lasjaunias P, Berenstein A, ter Brugge KG. Surgical Neuroangiography. 2nd ed.. Berlin: Springer; 2001
- 10 Kagetsu NJ, Berenstein A, Choi IS. Interventional radiology of the extracranial head and neck. Cardiovasc Intervent Radiol 1991; 14 (06) 325-333
- 11 Duffis EJ, Gandhi CD, Prestigiacomo CJ. et al; Society for Neurointerventional Surgery. Head, neck, and brain tumor embolization guidelines. J Neurointerv Surg 2012; 4 (04) 251-255
- 12 Ota T. Functional arterial anatomy of the cranial base. Stroke Vasc Intervent Neurol 2023; 3 (03) e000633
- 13 Hayreh SS. Orbital vascular anatomy. Eye (Lond) 2006; 20 (10) 1130-1144
- 14 Perrini P, Cardia A, Fraser K, Lanzino G. A microsurgical study of the anatomy and course of the ophthalmic artery and its possibly dangerous anastomoses. J Neurosurg 2007; 106 (01) 142-150
- 15 Berenstein A, Lasjaunias P, Kricheff II. Functional anatomy of the facial vasculature in pathologic conditions and its therapeutic application. AJNR Am J Neuroradiol 1983; 4 (02) 149-153
- 16 Akdemir Aktaş H, Ergun KM, Tatar İ, Arat A, Hayran KM. Evaluation of the anastomoses between the ophthalmic artery and the middle meningeal artery by superselective angiography. Surg Radiol Anat 2020; 42 (11) 1355-1361
- 17 Fantoni M, Eliezer M, Serrano F. et al. High frequency of ophthalmic origin of the middle meningeal artery in chronic subdural hematoma. Neuroradiology 2020; 62 (05) 639-644
- 18 Crimmins M, Banihashemi MA, Gobin YP, Knopman J, Patsalides A. Endovascular management of tumors of the head, neck, and spine. In: Lanzer P. ed. PanVascular Medicine. Springer; 2016: 1-48
- 19 Haw CS, terBrugge K, Willinsky R, Tomlinson G. Complications of embolization of arteriovenous malformations of the brain. J Neurosurg 2006; 104 (02) 226-232
- 20 Michalinos A, Zogana S, Kotsiomitis E, Mazarakis A, Troupis T. Anatomy of the ophthalmic artery: a review concerning its modern surgical and clinical applications. Anat Res Int 2015; 2015: 591961
- 21 Lasjaunias P, Moret J, Mink J. The anatomy of the inferolateral trunk (ILT) of the internal carotid artery. Neuroradiology 1977; 13 (04) 215-220
- 22 Osborn AG. The vidian artery: normal and pathologic anatomy. Radiology 1980; 136 (02) 373-378
- 23 Takeuchi M, Kuwayama N, Kubo M, Umemura K, Hirashima Y, Endo S. Vidian artery as a collateral channel between the external and occluded internal carotid arteries – case report. Neurol Med Chir (Tokyo) 2005; 45 (09) 470-471
- 24 Perez Perez VH, Hernesniemi J, Small JE. Anatomy of the great posterior radiculomedullary artery. AJNR Am J Neuroradiol 2019; 40 (12) 2010-2015
- 25 Namba K, Niimi Y, Song JK, Berenstein A. Use of Dyna-CT angiography in neuroendovascular decision-making. A case report. Interv Neuroradiol 2009; 15 (01) 67-72