Biofluids: Red Blood Cell Dynamics and Clotting
ORAL · R23 ·
Presentations
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The flow of red blood cells in stenosed microvessels and the influence of red blood cells on wall-bounded rolling motion of microparticles
ORAL
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Authors
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Koohyar Vahidkhah
- Rutgers University
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Peter Balogh
- Rutgers University
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Prosenjit Bagchi
- Rutgers University
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Reduced-order models of the coagulation cascade
ORAL
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Authors
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Kirk B. Hansen
- University of California, Berkeley
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Shawn C Shadden
- University of California, Berkeley
- Univ of California - Berkeley
- University of California Berkeley
- University of California - Berkeley
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Mesoscopic Modeling of Blood Clotting: Coagulation Cascade and Platelets Adhesion
ORAL
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Authors
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Alireza Zarif Khalili Yazdani
- Brown University
- Division of Applied Mathematics, Brown University
- Brown Univ
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Zhen Li
- Brown University
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George Karniadakis
- Brown University
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Effect of Strain Rate on the Deformation of Red Blood Cells Entering a Constriction
ORAL
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Authors
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Jordan Mancuso
- Dept. Chemical Engineering, University of California Davis
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William Ristenpart
- Dept. Chemical Engineering, University of California Davis
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Chaotic dynamics of red blood cells in oscillating shear flow
ORAL
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Authors
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Prosenjit Bagchi
- Rutgers University
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Daniel Cordasco
- Rutgers University
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Mechanosensing Dynamics of Red blood Cells
ORAL
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Authors
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Jiandi Wan
- Rochester Institute of Technology
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Shape Recovery of Elastic Red Blood Cells from Shear Flow Induced Deformation in Three Dimensions
ORAL
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Authors
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Yan Peng
- Old Dominion University
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John Gounley
- Old Dominion University
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A simple model to understand the role of membrane shear elasticity and stress-free shape on the motion of red blood cells in shear flow
ORAL
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Authors
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Annie Viallat
- AMU- CNRS
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Manouk Abkarian
- Université Montpellier CNRS
- CBS, Montpellier, France
- University Montpellier 2
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Jules Dupire
- Microfactory company
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Quantification of hydrodynamic factors influencing cell lateral migration
ORAL
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Authors
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Stephanie Nix
- Akita Prefectural Univ
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Yohsuke Imai
- Tohoku University
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Takuji Ishikawa
- Tohoku University
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Coarse-grained theory to predict red blood cell migration in pressure-driven flow at zero Reynolds number
ORAL
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Authors
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Qin M. Qi
- Stanford University
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Vivek Narsimhan
- Massachusetts Institute of Technology
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Eric Shaqfeh
- Stanford University
- Stanford Univ
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Experimental comparison of mammalian and avian blood flow in microchannels
ORAL
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Authors
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Kathryn Fink
- Univ of California - Berkeley
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Dorian Liepmann
- Univ of California - Berkeley
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Patient-specific modeling and analysis of dynamic behavior of individual sickle red blood cells under hypoxic conditions
ORAL
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Authors
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Xuejin Li
- Brown University
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E. Du
- Florida Atlantic University
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Zhen Li
- Brown University
- Division of Applied Mathematics, Brown University, USA
- Division of Applied Mathematics, Brown University
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Yu-Hang Tang
- Brown University
- Division of Applied Mathematics, Brown University, USA
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Lu Lu
- Brown University
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Ming Dao
- Massachusetts Institute of Technology
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George Karniadakis
- Brown University
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