Red Blood Cells and Microvasculature
ORAL · T07 · ID: 677511
Presentations
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Multiscale, Cell-Resolved Simulations of Red Blood Cells in Macroscale Flows with Cell-Cell Interactions
ORAL
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Publication: Rydquist, Grant, and Mahdi Esmaily. "A cell-resolved, Lagrangian solver for modeling red blood cell dynamics in macroscale flows." Journal of Computational Physics 461 (2022): 111204.
Presenters
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Grant J Rydquist
Cornell University
Authors
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Grant J Rydquist
Cornell University
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Mahdi Esmaily
Cornell University
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The effects of the endothelial surface layer on red blood cell partitioning, deformation, and penetration of that layer
ORAL
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Publication: Triebold, Carlson, and Jared Barber. "Dependence of red blood cell dynamics in microvessel bifurcations on the endothelial surface layer's resistance to flow and compression." Biomechanics and Modeling in Mechanobiology (2022): 1-26.
Triebold, Carlson, and Jared Barber. "The Effect of the Endothelial Surface Layer on Cell-Cell Interactions in Microvessel Bifurcations." In preparation.Presenters
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Jared Barber
Indiana University - Purdue University
Authors
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Jared Barber
Indiana University - Purdue University
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Carlson Triebold
Point Loma Nazarene University
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Cell Distributions and Segregation During Blood Flow within Straight and Serpentine Vascular Geometries in Sickle Cell Disease and Iron Deficiency Anemia
ORAL
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Publication: Caruso, Christina, et al. "Pathologic mechanobiological interactions between red blood cells and endothelial cells directly induce vasculopathy in iron deficiency anemia." Iscience 25.7 (2022): 104606.
Presenters
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Xiaopo Cheng
University of Wisconsin - Madison
Authors
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Xiaopo Cheng
University of Wisconsin - Madison
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Christina Caruso
Emory University School of Medicine
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Wilbur A Lam
Emory University School of Medicine
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Michael D Graham
University of Wisconsin - Madison
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In vivo and in silico red blood cell lingering and partitioning in the microcirculation
ORAL
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Publication: Kihm, A., Quint, S., Laschke, M. W., Menger, M. D., John, T., Kaestner, L., & Wagner, C. (2021). Lingering dynamics in microvascular blood flow. Biophysical journal, 120(3), 432-439.
Rashidi Y., Simionato G., Zhou Q., John T., Kihm A., Krüger T., Kaestner L.,
Laschke M., Menger M., Wagner C., and Darras A., (2022). Red Blood Cell lingering modifies partitioning in
micro-circulation, in preparationPresenters
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Alexis Darras
Univ des Saarlandes
Authors
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Alexis Darras
Univ des Saarlandes
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Yazdan Rashidi
Experimental Physics, Saarland University
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Greta Simionato
Institute for Clinical and Experimental Surgery, Saarland University
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Thomas John
Saarland University, Experimental physics, Saarland University
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Lars Kaestner
Theoretical Medicine and Biosciences, Saarland University
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Matthias Laschke
Institute for Clinical and Experimental Surgery, Saarland University
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Michael Menger
Institute for Clinical and Experimental Surgery, Saarland University
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Christian Wagner
Saarland University, Univ des Saarlandes
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Cell accumulation, trapping, and oscillation in a patient-specific microcirculation network under flow
ORAL
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Publication: Physics of Fluids 34, 041912 (2022); https://doi.org/10.1063/5.0088342
Presenters
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Jifu Tan
Northern Illinois University
Authors
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Kacper Ostalowski
Northern Illinois University
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Jifu Tan
Northern Illinois University
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Simulating malaria-infected blood in arterial flow to quantify changes in cell margination and immune suppression
ORAL
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Presenters
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Christina E Rice
University of Michigan
Authors
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Christina E Rice
University of Michigan
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Ronald G Larson
University of Michigan
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Numerical analysis of red blood cells suspension and platelets margination in curved microvessels
ORAL
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Presenters
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Mojtaba Amir Aslan Pour
University of South Florida
Authors
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Wenbin Mao
University of South Florida
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Mojtaba Amir Aslan Pour
University of South Florida
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Margination of discoidal micro-sized particles in blood flow
ORAL
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Presenters
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Chih-Tang Liao
Academia Sinica
Authors
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Chih-Tang Liao
Academia Sinica
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Wei Chien
Italian Institute of Technology
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Yeng-Long Chen
Institute of Physics, Academia Sinica
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Intravital Microscopy to Continuum In Silico Simulation of Flow-mediated Transport in Blood Clot Neighborhoods
ORAL
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Presenters
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Chayut Teeraratkul
University of Colorado, Boulder
Authors
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Chayut Teeraratkul
University of Colorado, Boulder
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Maurizio Tomaiuolo
Wills Eye Hospital, Pennsylvania
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Timothy J Stalker
Department of Medicine, Thomas Jefferson University
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Debanjan Mukherjee
University of Colorado Boulder, Paul M Rady Department of Mechanical Engineering, University of Colorado Boulder
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Dynamics and shape transitions of red blood cells in time-dependent capillary flow
ORAL
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Publication: https://doi.org/10.1016/j.bpj.2021.12.009
Presenters
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Steffen M Recktenwald
Saarland University
Authors
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Steffen M Recktenwald
Saarland University
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Katharina Graessel
University of Bayreuth
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Felix Maurer
Saarland University
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Thomas John
Saarland University, Experimental physics, Saarland University
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Stephan Gekle
University of Bayreuth
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Christian Wagner
Saarland University, Univ des Saarlandes
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Blood flows in capillary networks
ORAL
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Presenters
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Antoine G Morente
University of British Columbia, Department of Mathematics, University of British Columbia
Authors
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Antoine G Morente
University of British Columbia, Department of Mathematics, University of British Columbia
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Anirudh Asuri Mukundan
Department of Mathematics, University of British Columbia
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Aashish Goyal
University of British Columbia, Department of Chemical and Biological Engineering, University of British Columbia
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anthony wachs
University of British Columbia
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The influence of the endothelial surface layer on the motion of red blood cells
ORAL
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Presenters
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Ying Zhang
Brandeis University
Authors
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Ying Zhang
Brandeis University
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Thomas G Fai
Brandeis University
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