The Role of Hemodynamics in Intracranial Bifurcation Arteries after Aneurysm Treatment with Flow-Diverter Stents

A P Narata; F S de Moura; I Larrabide; C M Perrault; F Patat; R Bibi; S Velasco; A-C Januel; C Cognard; R Chapot; A Bouakaz; C A Sennoga; A Marzo

doi:10.3174/ajnr.A5471

The Role of Hemodynamics in Intracranial Bifurcation Arteries after Aneurysm Treatment with Flow-Diverter Stents

AJNR Am J Neuroradiol. 2018 Feb;39(2):323-330. doi: 10.3174/ajnr.A5471. Epub 2017 Nov 23.

Authors

A P Narata¹, F S de Moura², I Larrabide³, C M Perrault⁴, F Patat⁵, R Bibi⁶, S Velasco⁷, A-C Januel⁸, C Cognard⁸, R Chapot⁹, A Bouakaz⁵, C A Sennoga⁵, A Marzo⁴

Affiliations

¹ From the University Hospital of Tours (A.P.N., R.B.), Tours, France ana-paula.narata@chu-tours.fr.
² Engineering, Modeling, and Applied Social Sciences Center (F.S.d.M.), Federal University of ABC, Santo André, Brazil.
³ PLADEMA-CONICET (I.L.), Universidad Nacional del Centro de la Provincia de Buenos Aires, Tandil, Argentina.
⁴ Mechanical Engineering Department, INSIGNEO Institute for in Silico Medicine (C.M.P., A.M.), University of Sheffield, Sheffield, United Kingdom.
⁵ UMR "Imagerie et Cerveau," Inserm U930 (F.P., A.B., C.A.S.), Université Francois Rabelais, Tours, France.
⁶ From the University Hospital of Tours (A.P.N., R.B.), Tours, France.
⁷ University Hospital of Poitiers (S.V.), Poitiers, France.
⁸ University Hospital of Toulouse (A.-C.J., C.C.), Toulouse, France.
⁹ Alfried Krupp Krankenhaus (R.C.), Essen, Germany.

Abstract

Background and purpose: Treatment of intracranial bifurcation aneurysms with flow-diverter stents can lead to caliber changes of the distal vessels in a subacute phase. This study aims to evaluate whether local anatomy and flow disruption induced by flow-diverter stents are associated with vessel caliber changes in intracranial bifurcations.

Materials and methods: Radiologic images and demographic data were acquired for 25 patients with bifurcation aneurysms treated with flow-diverter stents. Whisker plots and Mann-Whitney rank sum tests were used to evaluate if anatomic data and caliber changes could be linked. Symmetry/asymmetry were defined as diameter ratio 1 = symmetric and diameter ratio <1 = asymmetric. Computational fluid dynamics was performed on idealized and patient-specific anatomies to evaluate flow changes induced by flow-diverter stents in the jailed vessel.

Results: Statistical analysis identified a marked correspondence between asymmetric bifurcation and caliber change. Symmetry ratios were lower for cases showing narrowing or subacute occlusion (medium daughter vessel diameter ratio = 0.59) compared with cases with posttreatment caliber conservation (medium daughter vessel diameter ratio = 0.95). Computational fluid dynamics analysis in idealized and patient-specific anatomies showed that wall shear stress in the jailed vessel was more affected when flow-diverter stents were deployed in asymmetric bifurcations (diameter ratio <0.65) and less affected when deployed in symmetric anatomies (diameter ratio ∼1.00).

Conclusions: Anatomic data analysis showed statistically significant correspondence between caliber changes and bifurcation asymmetry characterized by diameter ratio <0.7 (P < .001). Similarly, computational fluid dynamics results showed the highest impact on hemodynamics when flow-diverter stents are deployed in asymmetric bifurcations (diameter ratio <0.65) with noticeable changes on wall sheer stress fields. Further research and clinical validation are necessary to identify all elements involved in vessel caliber changes after flow-diverter stent procedures.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Aged
Cerebrovascular Circulation*
Female
Hemodynamics / physiology*
Humans
Hydrodynamics
Intracranial Aneurysm / therapy*
Male
Middle Aged
Models, Cardiovascular
Stents / adverse effects*