- Title: Subtitle
- Abstract WP161: Computational Fluid Dynamics Using SAMMPRIS CT Angiography Quantifies Pro-Atherogenic Shear Stress Linked With Post-Stenotic Flow Vortices
- Creators
- David S Liebeskind - Neurovascular Imaging Rsch Core and UCLA Stroke Cntr, Los Angeles, CADaniel Wefers - Neurovascular Imaging Rsch Core and UCLA Stroke Cntr, Los Angeles, CATristan Honda - Neurovascular Imaging Rsch Core and UCLA Stroke Cntr, Los Angeles, CAFabien Scalzo - Neurovascular Imaging Rsch Core and UCLA Stroke Cntr, Los Angeles, CAGeorge A Cotsonis - Emory Univ, Atlanta, GAHarry J Cloft - Mayo Clinic, Rochester, MNOsama O Zaidat - Mercy St. Vincent Med Cntr, Toledo, OHDavid J Fiorella - Stony Brook Univ Med Cntr, Stony Brook, NYColin P Derdeyn - Univ of Iowa, Iowa City, IAMarc I Chimowitz - Med Univ of South Carolina, Charleston, SCEdward Feldmann - Univ of Massachusetts-Baystate Health, Springfield, MANaoki Kaneko - Neurovascular Imaging Rsch Core and UCLA Stroke Cntr, Los Angeles, CAJason D Hinman - Neurovascular Imaging Rsch Core and UCLA Stroke Cntr, Los Angeles, CA
- Resource Type
- Abstract
- Publication Details
- Stroke (1970), Vol.50(Suppl_1)
- DOI
- 10.1161/str.50.suppl_1.WP161
- ISSN
- 0039-2499
- eISSN
- 1524-4628
- Language
- English
- Date published
- 02/2019
- Academic Unit
- Neurosurgery; Radiology; Neurology; Iowa Neuroscience Institute
- Record Identifier
- 9984071720002771
Abstract
Abstract WP161: Computational Fluid Dynamics Using SAMMPRIS CT Angiography Quantifies Pro-Atherogenic Shear Stress Linked With Post-Stenotic Flow Vortices
Stroke (1970), Vol.50(Suppl_1)
02/2019
DOI: 10.1161/str.50.suppl_1.WP161
Details
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