Multiscale Modeling of Vascular Dynamics of Micro- and Nano-particles: Application to Drug Delivery System

✍ Scribed by Huilin Ye, Zhiqiang Shen, Ying Li

Publisher: IOP Publishing
Year: 2020
Tongue: English
Leaves: 112
Series: IOP Concise Physics
Category: Library

No coin nor oath required. For personal study only.

✦ Synopsis

Recent advances witness the potential to employ nanomedicine and game-changing methods to deliver drug molecules directly to diseased sites.

To optimize and then enhance the efficacy and specificity, the control and guidance of drug carriers in vasculature has become crucial. Current bottlenecks in the optimal design of drug carrying particles are the lack of knowledge about the transport of particles, adhesion on endothelium wall and subsequent internalization into diseased cells. To study the transport and adhesion of particle in vasculature, the authors have made great efforts to numerically investigate the dynamic and adhesive motions of particles in the blood flow. This book discusses the recent achievements from the establishment of fundamental physical problem to development of multiscale model, and finally large scale simulations for understanding transport of particle-based drug carriers in blood flow.

✦ Table of Contents

PRELIMS.pdf
Preface
Acknowledgements
Author biographies
Huilin Ye
Zhiqiang Shen
Ying Li
Symbols
CH001.pdf
Chapter 1 Background
1.1 Blood flow in human vasculature
1.2 Vascular targeting and margination of particles in blood flow
1.3 Adhesion of particles on endothelium wall
References
CH002.pdf
Chapter 2 Numerical methods: fluid–structure interaction and adhesive dynamics
2.1 Fluid–structure interaction
2.1.1 Plasma dynamics: lattice Boltzmann method
2.1.2 Coarse-grained model for blood cells and particles
2.1.3 Immersed boundary method
2.2 Adhesive dynamics
2.3 Validation of numerical method
2.3.1 Validation of red blood cell model
2.3.2 Validation of red blood cell suspension
References
CH003.pdf
Chapter 3 Anomalous vascular dynamics of nanoworms within blood flow
3.1 Motivation
3.2 Experimental and computational results
3.2.1 Experiment
3.2.2 Computational results
References
CH004.pdf
Chapter 4 Adhesion behavior of a single cell on the endothelial wall
4.1 Introduction
4.2 Computational model
4.3 Results and discussion
4.3.1 Four types of motion and demargination
4.3.2 Effect of particle stiffness on the formation of bonds and adhesive force
4.3.3 Phase diagram and scaling relationship
References
CH005.pdf
Chapter 5 Localization of soft particles: margination and adhesion
5.1 Introduction
5.2 Physical problem and computational method
5.2.1 Physical problem
5.3 Results and discussion
5.3.1 Margination of elastic MPs without adhesion
5.3.2 Adhesion effect on localization of elastic MPs at the wall
5.3.3 Adhesion behavior of elastic MPs
5.3.4 Mechanism of localization of elastic MPs under adhesion
References
CH006.pdf
Chapter 6 Shape-dependent transport of micro-particles in blood flow: from margination to adhesion
6.1 Introduction
6.2 Computational model setup
6.3 Results and discussion
6.3.1 Margination of MPs without adhesion
6.3.2 Margination of MPs with adhesion
6.3.3 Mechanism of adhesion effect on margination behavior
References
CH007.pdf
Chapter 7 Conclusion and perspective
References
APP1.pdf
Chapter

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