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Current Neurovascular Research

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ISSN (Print): 1567-2026
ISSN (Online): 1875-5739

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Research Article

Basilar Apex Aneurysms in the Setting of Carotid Artery Stenosis: Case Series and Angiographic Anatomic Study

Author(s): Mihael D. Rosenbaum, Daniel M. Heiferman, Osama A. Raslan, Brendan Martin, Jose F. Dominguez, Paula M. de la Peña, William W. Ashley, Jordan D. Rosenblum and Anand V. Germanwala*

Volume 16, Issue 1, 2019

Page: [12 - 18] Pages: 7

DOI: 10.2174/1567202616666190129150403

Price: $65

Abstract

Background: Intracranial aneurysms (IAs) are life-threatening lesions known within the literature to be found incidentally during routine angiographic workup for carotid artery stenosis (CAS). As IAs are associated with vascular shear stress, it is reasonable to expect that altered flow demands within the anterior circulation, such as with CAS, increase compensatory flow demands via the Circle of Willis (COW) and may induce similar stress at the basilar apex.

Objective: We present a series of nine unruptured basilar apex aneurysms (BAA) with CAS and a comparative radiographic analysis to BAA without CAS.

Methods: Twenty-three patients with BAA were retrospectively identified using records from 2011 to 2016. CAS by North American Symptomatic Carotid Endarterectomy Trial (NASCET) criteria, morphology of BAA, competency of COW, and anatomic relationships within the posterior circulation were examined independently by a neuroradiologist using angiographic imaging.

Results: Nine (39%) of the twenty-three BAA patients had CAS, with six having stenosis ≥50%. Four (67%) of the patients with ≥50% CAS demonstrated aneurysm flow angles contralateral to the side with highest CAS. Additionally, the angle between the basilar artery (BA) trajectory and aneurysm neck was observed to be smaller in patients with ≥50% CAS (61 vs 74 degrees). No significant differences in COW patency, posterior circulation morphology, and degree of stenosis were observed.

Conclusion: Changes in the cervical carotid arteries may lead to blood flow alterations in the posterior circulation that increase the propensity for BAA formation. Posterior circulation imaging can be considered in CAS patients to screen for BAA.

Keywords: Basilar artery, intracranial aneurysm, posterior circulation, carotid artery stenosis, Circle of Willis (COW), lesions.

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[1]
Metaxa E, Tremmel M, Natarajan SK, et al. Characterization of critical hemodynamics contributing to aneurysmal remodeling at the basilar terminus in a rabbit model. Stroke 2010; 41(8): 1774-82.
[2]
Gao L, Hoi Y, Swartz DD, Kolega J, Siddiqui A, Meng H. Nascent aneurysm formation at the basilar terminus induced by hemodynamics. Stroke 2008; 39(7): 2085-90.
[3]
Meng H, Metaxa E, Gao L, et al. Progressive aneurysm development following hemodynamic insult. J Neurosurg 2011; 114(4): 1095-103.
[4]
Hoi Y, Gao L, Tremmel M, et al. In vivo assessment of rapid cerebrovascular morphological adaptation following acute blood flow increase. J Neurosurg 2008; 109(6): 1141-7.
[5]
Tutuncu F, Schimansky S, Baharoglu MI, et al. Widening of the basilar bifurcation angle: Association with presence of intracranial aneurysm, age, and female sex. J Neurosurg 2014; 121(6): 1401-10.
[6]
Dhar S, Tremmel M, Mocco J, et al. Morphology parameters for intracranial aneurysm rupture risk assessment. Neurosurgery 2008; 63(2): 185-97.
[7]
de Rooij NK, Velthuis BK, Algra A, Rinkel GJ. Configuration of the circle of Willis, direction of flow, and shape of the aneurysm as risk factors for rupture of intracranial aneurysms. J Neurol 2009; 256(1): 45-50.
[8]
Ho AL, Mouminah A, Du R. Posterior cerebral artery angle and the rupture of basilar tip aneurysms. PLoS One 2014; 9(10): e110946.
[9]
Sacco RL, Benjamin EJ, Broderick JP, et al. American heart association prevention conference IV prevention and rehabilitation of stroke. Risk factors. Stroke 1997; 28(7): 1507-17.
[10]
Jou LD, Shaltoni HM, Morsi H, Mawad ME. Hemodynamic relationship between intracranial aneurysm and carotid stenosis: Review of clinical cases and numerical analyses. Neurol Res 2010; 32(10): 1083-9.
[11]
Heman LM, Jongen LM, van der Worp HB, Rinkel GJ, Hendrikse J. Incidental intracranial aneurysms in patients with internal carotid artery stenosis: A CT angiography study and a metaanalysis. Stroke 2009; 40(4): 1341-6.
[12]
Cho YD, Jung KH, Roh JK, Kang HS, Han MH, Lim JW. Characteristics of intracranial aneurysms associated with extracranial carotid artery disease in South Korea. Clin Neurol Neurosurg 2013; 115(9): 1677-81.
[13]
Horikoshi T, Akiyama I, Yamagata Z, Sugita M, Nukui H. Magnetic resonance angiographic evidence of sex-linked variations in the circle of willis and the occurrence of cerebral aneurysms. J Neurosurg 2002; 96(4): 697-703.
[14]
Timaran CH, McKinsey JF, Schneider PA, Littooy F. Reporting standards for carotid interventions from the Society for Vascular Surgery. J Vasc Surg 2011; 53(6): 1679-95.
[15]
Velthuis BK, van Leeuwen MS, Witkamp TD, Ramos LM, Berkelbach van der Sprenkel JW, Rinkel GJ. Surgical anatomy of the cerebral arteries in patients with subarachnoid hemorrhage: Comparison of computerized tomography angiography and digital subtraction angiography. J Neurosurg 2001; 95(2): 206-12.
[16]
North American Symptomatic Carotid Endarterectomy Trial Collaborators. Barnett HJM, Taylor DW, Haynes RB, Sackett DL, Peerless SJ, Ferguson GG, Fox AJ, Rankin RN, Hachinski VC, Wiebers DO, Eliasziw M. Beneficial effect of carotid endarter-ectomy in symptomatic patients with high-grade carotid stenosis. N Engl J Med 1991; 325(7): 445-53.
[17]
Vlak MH, Algra A, Brandenburg R, Rinkel GJ. Prevalence of unruptured intracranial aneurysms, with emphasis on sex, age, comorbidity, country, and time period: A systematic review and meta-analysis. Lancet Neurol 2011; 10(7): 626-36.
[18]
Brott TG, Halperin JL, Abbara S, et al. ASA/ACCF/AHA/ AANN/AANS/ACR/ASNR/-CNS/SAIP/SCAI/SIR/SNIS/SVM/ SVS guideline on the manage-ment of patients with extracranial carotid and vertebral artery disease. Stroke 2011; 42(8): e464-540.
[19]
Greving JP, Wermer MJ, Brown RD Jr, et al. Development of the PHASES score for prediction of risk of rupture of intracranial aneurysms: A pooled analysis of six prospective cohort studies. Lancet Neurol 2014; 13(1): 59-66.
[20]
Chicoine MR. Intracranial aneurysm and carotid artery stenosis. South Med J 2006; 99(7): 703-4.
[21]
Borkon MJ, Hoang H, Rockman C, et al. Concomitant unruptured intracranial aneurysms and carotid artery stenosis: An institutional review of patients undergoing carotid revascularization. Ann Vasc Surg 2014; 28(1): 102-7.
[22]
Pappada G, Fiori L, Marina R, Vaiani S, Gaini SM. Management of symptomatic carotid stenoses with coincidental intracranial aneurysms. Acta Neurochir 1996; 138(12): 1386-90.
[23]
Kappelle LJ, Eliasziw M, Fox AJ, Barnett HJ. Small, unruptured intracranial aneurysms and management of symptomatic carotid artery stenosis. North american symptomatic carotid endarterectomy trial group. Neurology 2000; 55(2): 307-9.
[24]
Ballotta E, Da Giau G, Manara R, Baracchini C. Extracranial severe carotid stenosis and incidental intracranial aneurysms. Ann Vasc Surg 2006; 20(1): 5-8.
[25]
Griffiths PD, Worthy S, Gholkar A. Incidental intracranial vascular pathology in patients investigated for carotid stenosis. Neuroradiology 1996; 38(1): 25-30.
[26]
Kaspera W, Majchrzak H, Ladzinski P, Tomalski W. Color doppler sonographic evaluation of collateral circulation in patients with cerebral aneurysms and the occlusion of the brachiocephalic vessels. Neurosurgery 2005; 57(6): 1117-26.
[27]
Indo M, Oya S, Matsui T. Ruptured basilar tip aneurysm in a patient with bilateral internal carotid artery occlusion successfully treated with bilateral superficial temporal artery-middle cerebral artery anastomoses: Case report. World Neurosurg 2016; 86(512): e5-8.
[28]
Doberenz C, Paulus W, Reimers CD, Eicke BM. Volume flow rate evaluation in patients with obstructive arteriosclerotic disease. Cerebrovasc Dis 2004; 18(4): 312-7.
[29]
Shakur SF, Hrbac T, Alaraj A, et al. Effects of extracranial carotid stenosis on intracranial blood flow. Stroke 2014; 45(11): 3427-9.
[30]
Rhoton AL Jr. Aneurysms. Neurosurgery 2002; 51(4)(Suppl.): S121-58.
[31]
Yas¸argil MG. Microneurosurgery Stuttgart; New York Thieme Medical Publishers. New York: Georg Thieme Verlag 1987.

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