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Hemorrhagic Stroke
Review
Towards the Clinical utility of CFD for assessment of intracranial aneurysm rupture – a systematic review and novel parameter-ranking tool
  1. Li Liang1,
  2. David A Steinman2,
  3. Olivier Brina1,
  4. Christophe Chnafa2,
  5. Nicole M Cancelliere1,
  6. Vitor M Pereira1,3
  1. 1 Division of Neuroradiology, Department of Medical Imaging, Toronto Western Hospital, University of Toronto, Toronto, Ontario, Canada
  2. 2 Department of Mechanical and Industrial Engineering, University of Toronto, Toronto, Ontario, Canada
  3. 3 Division of Neurosurgery, Department of Surgery, Toronto Western Hospital, University of Toronto, Toronto, Ontario, Canada
  1. Correspondence to Li Liang, Faculty of Medicine, University of Toronto, Toronto, ON M5S1A8 , Canada; danny.liang{at}mail.utoronto.ca

Abstract

Background Intracranial aneurysms (IAs) are vascular dilations on cerebral vessels that affect between 1%–5% of the general population, and can cause life-threatening intracranial hemorrhage when ruptured. Computational fluid dynamics (CFD) has emerged as a promising tool to study IAs in recent years, particularly for rupture risk assessment. However, despite dozens of studies, CFD is still far from clinical use due to large variations and frequent contradictions in hemodynamic results between studies.

Purpose To identify key gaps in the field of CFD for the study of IA rupture, and to devise a novel tool to rank parameters based on potential clinical utility.

Methods A Pubmed search identified 231 CFD studies for IAs. Forty-six studies fit our inclusion criteria, with a total of 2791 aneurysms. For included studies, study type, boundary conditions, solver resolutions, parameter definitions, geometric and hemodynamic parameters used, and results found were recorded.

Data synthesis Aspect ratio, aneurysm size, low wall shear stress area, average wall shear stress, and size ratio were the parameters that correlate most strongly with IA rupture.

Limitations Significant differences in parameter definitions, solver spatial and temporal resolutions, number of cycles between studies as well as frequently missing information such as inlet flow rates were identified. A greater emphasis on prospective studies is also needed.

Conclusions Our recommendations will help increase standardization and bridge the gaps in the CFD community, and expedite the process of making CFD clinically useful in guiding the treatment of IAs.

  • aneurysm
  • blood flow
  • hemorrhage
  • stroke
  • technology

https://doi.org/10.1136/neurintsurg-2018-014246

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    Footnotes

    • Contributors LL devised the study, acquired and analyzed data, and contributed to the writing. DAS and VMP devised the study and contributed to the writing. OB analyzed data and contributed to the writing. CC and NMC contributed to the writing. All authors have read and approved the final manuscript.

    • Funding This work was supported by grant G-16-00012564 from the Heart & Stroke Foundation of Canada. VMP acknowledges the support of the Brain and Spine Research Group and the Medical Imaging Department at the University of Toronto. DAS acknowledges support from a Heart and Stroke Foundation Mid-Career Investigator award.

    • Competing interests None declared.

    • Patient consent Not required.

    • Provenance and peer review Not commissioned; externally peer reviewed.