Hemodynamic impingement and the initiation of intracranial side-wall aneurysms

Authors

Gerald J. Riccardello, Rutgers New Jersey Medical School
Abhinav R. Changa, Rutgers New Jersey Medical School
Fawaz Al-Mufti, Rutgers Robert Wood Johnson Medical School at New Brunswick
I. Paul Singh, Icahn School of Medicine at Mount Sinai
Chirag Gandhi, New York Medical College
Max Roman, Newark College of Engineering
Charles J. Prestigiacomo, University of Cincinnati College of Medicine

Document Type

Article

Publication Date

6-1-2018

Abstract

Objective: The natural history intracranial aneurysms (IA) remains poorly understood despite significant morbidity and mortality associated with IA rupture. Hemodynamic impingement resulting in elevations in wall shear stress and wall shear stress gradient (WSSG) has been shown to induce aneurysmal remodeling at arterial bifurcations. We investigate the hemodynamic environment specific to side-wall pre-aneurysmal vasculature. We hypothesize that fluid impingement and secondary flow patterns play a role in side-wall aneurysm initiation. Methods: Eight side-wall internal carotid artery aneurysms from the Aneurisk repository were identified. Pre-aneurysmal vasculature was algorithmically reconstructed. Blood flow was simulated with computational fluid dynamic simulations. An indicator of isolated fluid impingement energy was developed by insetting the vessel surface and calculating the impinging component of the fluid dynamic pressure. Results: Isolated fluid impingement was found to be elevated in the area of aneurysm initiation in 8/8 cases. The underlying fluid flow for each area of initiation was found to harbor secondary flow patterns known as Dean’s vortices, the result of changes in momentum imparted by bends in the internal carotid artery (ICA). Conclusion: Isolated fluid impingement and secondary flow patterns may play a major role in the initiation of side-wall aneurysm initiation. We are unable to determine if this role is through direct or indirect mechanisms but hypothesize that elevations in isolated fluid impingement mark areas of cerebral vasculature that are at risk for aneurysm initiation. Thus, this indicator provides vascular locations to focus future study of side-wall aneurysm initiation.

Identifier

85042099612 (Scopus)

Publication Title

Interventional Neuroradiology

External Full Text Location

https://doi.org/10.1177/1591019918754380

e-ISSN

23852011

ISSN

15910199

PubMed ID

29444617

First Page

288

Last Page

296

Issue

3

Volume

24

Recommended Citation

Riccardello, Gerald J.; Changa, Abhinav R.; Al-Mufti, Fawaz; Singh, I. Paul; Gandhi, Chirag; Roman, Max; and Prestigiacomo, Charles J., "Hemodynamic impingement and the initiation of intracranial side-wall aneurysms" (2018). Faculty Publications. 8644.
https://digitalcommons.njit.edu/fac_pubs/8644