An Improved Coarse-Grained Model to Accurately Predict Red Blood Cell Morphology and Deformability
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Publication:5141313
DOI10.1007/978-3-030-42428-2_5zbMath1453.92095OpenAlexW3063254193MaRDI QIDQ5141313
Robert Flower, Nadeeshani Maheshika Geekiyanage, Emilie Sauret, Yuantong T. Gu
Publication date: 18 December 2020
Published in: Computational Biomechanics for Medicine (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/978-3-030-42428-2_5
morphologynumerical modellingshape factorcoarse-grainingred blood celldiscocytedeformabilityelongation indexmorphology indexoptical tweezers stretching
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Cites Work
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- Short note on the bending models for a membrane in capsule mechanics: comparison between continuum and discrete models
- Systematic coarse-graining of spectrin-level red blood cell models
- Atomistic-continuum model for probing the biomechanical properties of human erythrocyte membrane under extreme conditions
- Multiscale modelling of erythrocytes in Stokes flow
- Probing red blood cell mechanics, rheology and dynamics with a two-component multi-scale model
- Numerical Investigation of Motion and Deformation of a Single Red Blood Cell in a Stenosed Capillary
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