Unraveling the Vascular Fate of Deformable Circulating Tumor Cells Via a Hierarchical Computational Model
Published 2019 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Unraveling the Vascular Fate of Deformable Circulating Tumor Cells Via a Hierarchical Computational Model
Authors
Keywords
Lattice–Boltzmann method, Immersed Boundary method, Cell mechanics
Journal
Cellular and Molecular Bioengineering
Volume -, Issue -, Pages -
Publisher
Springer Science and Business Media LLC
Online
2019-07-29
DOI
10.1007/s12195-019-00587-y
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Towards Exascale Lattice Boltzmann computing
- (2019) S. Succi et al. COMPUTERS & FLUIDS
- Deciphering the relative contribution of vascular inflammation and blood rheology in metastatic spreading
- (2018) Hilaria Mollica et al. Biomicrofluidics
- Simulating Engineering Flows through Complex Porous Media via the Lattice Boltzmann Method
- (2018) Vesselin Krastev et al. Energies
- Cell Stiffness Governs Its Adhesion Dynamics on Substrate Under Shear Flow
- (2018) Huilin Ye et al. IEEE TRANSACTIONS ON NANOTECHNOLOGY
- Mesoscopic modelling and simulation of soft matter
- (2018) Ulf D. Schiller et al. Soft Matter
- Shear rate dependent margination of sphere-like, oblate-like and prolate-like micro-particles within blood flow
- (2018) Huilin Ye et al. Soft Matter
- Predicting different adhesive regimens of circulating particles at blood capillary walls
- (2017) A. Coclite et al. Microfluidics and Nanofluidics
- Effects of flowing RBCs on adhesion of a circulating tumor cell in microvessels
- (2016) L. L. Xiao et al. Biomechanics and Modeling in Mechanobiology
- Strongly Accelerated Margination of Active Particles in Blood Flow
- (2016) Stephan Gekle BIOPHYSICAL JOURNAL
- Validation of an immersed thick boundary method for simulating fluid–structure interactions of deformable membranes
- (2016) J. Sigüenza et al. JOURNAL OF COMPUTATIONAL PHYSICS
- A physical sciences network characterization of circulating tumor cell aggregate transport
- (2015) Michael R. King et al. AMERICAN JOURNAL OF PHYSIOLOGY-CELL PHYSIOLOGY
- Flow of a circulating tumor cell and red blood cells in microvessels
- (2015) Naoki Takeishi et al. PHYSICAL REVIEW E
- Effect of tube diameter and capillary number on platelet margination and near-wall dynamics
- (2015) Timm Krüger RHEOLOGICA ACTA
- Deformability of Tumor Cells versus Blood Cells
- (2015) Josephine Shaw Bagnall et al. Scientific Reports
- If Cell Mechanics Can Be Described by Elastic Modulus: Study of Different Models and Probes Used in Indentation Experiments
- (2014) Nataliia Guz et al. BIOPHYSICAL JOURNAL
- A novel microchannel-based device to capture and analyze circulating tumor cells (CTCs) of breast cancer
- (2014) REZA RIAHI et al. INTERNATIONAL JOURNAL OF ONCOLOGY
- White blood cell margination in microcirculation
- (2014) Dmitry A. Fedosov et al. Soft Matter
- Deformation and dynamics of red blood cells in flow through cylindrical microchannels
- (2014) Dmitry A. Fedosov et al. Soft Matter
- Multiscale modeling and uncertainty quantification in nanoparticle-mediated drug/gene delivery
- (2013) Ying Li et al. COMPUTATIONAL MECHANICS
- An unstructured solver for simulations of deformable particles in flows at arbitrary Reynolds numbers
- (2013) S. Mendez et al. JOURNAL OF COMPUTATIONAL PHYSICS
- Size-selective collection of circulating tumor cells using Vortex technology
- (2013) Elodie Sollier et al. LAB ON A CHIP
- On the near-wall accumulation of injectable particles in the microcirculation: smaller is not better
- (2013) Tae-Rin Lee et al. Scientific Reports
- Multiscale model of platelet translocation and collision
- (2012) Weiwei Wang et al. JOURNAL OF COMPUTATIONAL PHYSICS
- Modern lattice Boltzmann methods for multiphase microflows
- (2011) G. Falcucci et al. IMA JOURNAL OF APPLIED MATHEMATICS
- Effects of curvature and cell–cell interaction on cell adhesion in microvessels
- (2010) W. W. Yan et al. Biomechanics and Modeling in Mechanobiology
- A Multiscale Red Blood Cell Model with Accurate Mechanics, Rheology, and Dynamics
- (2010) Dmitry A. Fedosov et al. BIOPHYSICAL JOURNAL
- Efficient and accurate simulations of deformable particles immersed in a fluid using a combined immersed boundary lattice Boltzmann finite element method
- (2010) T. Krüger et al. COMPUTERS & MATHEMATICS WITH APPLICATIONS
- Blood Flow and Cell-Free Layer in Microvessels
- (2010) DMITRY A. FEDOSOV et al. MICROCIRCULATION
- Microdevice for the isolation and enumeration of cancer cells from blood
- (2009) Swee Jin Tan et al. BIOMEDICAL MICRODEVICES
- Effects of erythrocyte deformability and aggregation on the cell free layer and apparent viscosity of microscopic blood flows
- (2009) Junfeng Zhang et al. MICROVASCULAR RESEARCH
- Flow-induced clustering and alignment of vesicles and red blood cells in microcapillaries
- (2009) J. L. McWhirter et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Lattice Boltzmann across scales: from turbulence to DNA translocation
- (2008) S. Succi EUROPEAN PHYSICAL JOURNAL B
Create your own webinar
Interested in hosting your own webinar? Check the schedule and propose your idea to the Peeref Content Team.
Create NowBecome a Peeref-certified reviewer
The Peeref Institute provides free reviewer training that teaches the core competencies of the academic peer review process.
Get Started