Dynamics Of Blood Cell Suspensions In Microflows
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Dynamics of Blood Cell Suspensions in Microflows
Author | : Annie Viallat,Manouk Abkarian |
Publsiher | : CRC Press |
Total Pages | : 476 |
Release | : 2019-12-09 |
Genre | : Medical |
ISBN | : 9781315395128 |
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Blood microcirculation is essential to our bodies for the successful supply of nutrients, waste removal, oxygen delivery, homeostasis, controlling temperature, wound healing, and active immune surveillance. This book provides a physical introduction to the subject and explores how researchers can successfully describe, understand, and predict behaviours of blood flow and blood cells that are directly linked to these important physiological functions. Using practical examples, this book explains how the key concepts of physics are related to blood microcirculation and underlie the dynamic behavior of red blood cells, leukocytes, and platelets. This interdisciplinary book will be a valuable reference for researchers and graduate students in biomechanics, fluid mechanics, biomedical engineering, biological physics, and medicine. Features: The first book to provide a physical perspective of blood microcirculation Draws attention to the potential of this physical approach for novel applications in medicine Edited by specialists in this field, with chapter contributions from subject area specialists
Dynamics of Blood Cell Suspensions in Microflows
Author | : Annie Viallat,Manouk Abkarian |
Publsiher | : CRC Press |
Total Pages | : 457 |
Release | : 2019-12-09 |
Genre | : Medical |
ISBN | : 9781315395135 |
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The first book to provide a physical perspective of blood microcirculation Draws attention to the potential of this physical approach for novel applications in medicine Edited by specialists in this field, with chapter contributions from subject area specialists
Biomechanics of the Aorta
Author | : T. Christian Gasser,Stéphane Avril,John A. Elefteriades |
Publsiher | : Elsevier |
Total Pages | : 636 |
Release | : 2024-06-18 |
Genre | : Science |
ISBN | : 9780323954853 |
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Biomechanics of the Aorta: Modelling for Patient Care is a holistic analysis of the aorta towards its biomechanical description. The book addresses topics such as physiology, clinical imaging, tissue and blood flow modeling, along with knowledge that is needed in diagnostics, aortic rupture prediction, assist surgical planning, and more. It encompasses a wide range of topics from the basic sciences (Vascular biology, Continuum mechanics, Image analysis) to clinical applications, as well as describing and presenting computational studies and experimental benches to mimic, understand and propose the best treatment of aortic pathologies. The book begins with an introduction to the fundamental aspects of the anatomy, biology and physiopathology of the aorta and proceeds to present the main computational fluid dynamic studies and biomechanical and mechanobiological models developed over the last decade. With approaches, methodologies and findings from contributors all over the world, this new volume in the Biomechanics of Living Organs series will increase understanding of aortic function as well as improve the design of medical devices and clinical interventions, including surgical procedures. Represents a comprehensive means for those involved in the aortic research and the related developments in the industry Introduces the most recent imaging technologies to characterize factors, such as aortic geometry, mechanical properties of the aortic tissue, and the local cellular activity in the vessel wall Synthesizes advances in vascular biomechanics, medical imaging and computational finite element fluid and solid models to increase understanding of aorta function
Biological Flow in Large Vessels
Author | : Valerie Deplano,Jose-Maria Fullana,Claude Verdier |
Publsiher | : John Wiley & Sons |
Total Pages | : 259 |
Release | : 2022-06-01 |
Genre | : Science |
ISBN | : 9781119986591 |
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This book examines recent methods used for blood flow modeling and associated in vivo experiments, conducted using experimental data from medical imaging. Different strategies are proposed, from small-scale models to complex 3D modeling using modern computational codes. The geometries are wide-ranging and deal with the narrowing and widening of sections (stenoses, aneurysms), bifurcations, geometries associated with prosthetic elements, and even cases of vessels with smaller dimensions than those of the blood cells circulating in them. Biological Flow in Large Vessels provides answers to the question of how medical and biomechanical knowledge can be combined to address clinical problems. It offers guidance for further development of numerical models, as well as experimental protocols applied to clinical research, with tools that can be used in real-time and at the patient's bedside, for decision-making support, predicting the progression of pathologies, and planning personalized interventions.
Erythrocyte Mechanics and Blood Flow
Author | : Giles R. Cokelet,Herbert J. Meiselman,Donald E. Brooks |
Publsiher | : Unknown |
Total Pages | : 312 |
Release | : 1980 |
Genre | : Medical |
ISBN | : UOM:39015000259344 |
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Preparation of Space Experiments
Author | : Vladimir Pletser |
Publsiher | : BoD – Books on Demand |
Total Pages | : 245 |
Release | : 2020-09-02 |
Genre | : Technology & Engineering |
ISBN | : 9781789851380 |
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This book explains how researchers design, prepare, develop, test and fly their science experiments on microgravity platforms before sending them to space. All preparation phases are explained and presented, including aircraft parabolic flights as part of spaceflight preparation. Twenty international authors, all experts in their own microgravity research field, contribute to chapters describing their experience to prepare experiments before space flights. Fields covered are Physical Sciences and Life Sciences. Physical Sciences covers fluid physics (vibration effects on diffusion; red blood cell dynamics; cavitation in microgravity; capillary driven flows) and material sciences (electromagnetic levitator onboard International Space Station). Life Sciences includes human physiology (sampling earlobe blood; human cardiovascular experiments; tumours in space) and neurophysiology (dexterous manipulation of objects in weightlessness).
Computer Simulation Study of Collective Phenomena in Dense Suspensions of Red Blood Cells under Shear
Author | : Heinrich Krüger |
Publsiher | : Springer Science & Business Media |
Total Pages | : 169 |
Release | : 2012-07-18 |
Genre | : Science |
ISBN | : 9783834823755 |
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The rheology of dense red blood cell suspensions is investigated via computer simulations based on the lattice Boltzmann, the immersed boundary, and the finite element methods. The red blood cells are treated as extended and deformable particles immersed in the ambient fluid. In the first part of the work, the numerical model and strategies for stress evaluation are discussed. In the second part, the behavior of the suspensions in simple shear flow is studied for different volume fractions, particle deformabilities, and shear rates. Shear thinning behavior is recovered. The existence of a shear-induced transition from a tumbling to a tank-treading motion is demonstrated. The transition can be parameterized by a single quantity, namely the effective capillary number. It is the ratio of the suspension stress and the characteristic particle membrane stress. At the transition point, a strong increase in the orientational order of the red blood cells and a significant decrease of the particle diffusivity are observed. However, the average cell deformation shows no signature of the transition.
Computational Blood Cell Mechanics
Author | : Ivan Cimrak,Iveta Jancigova |
Publsiher | : CRC Press |
Total Pages | : 287 |
Release | : 2018-09-06 |
Genre | : Mathematics |
ISBN | : 9781351378673 |
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Simulating blood cells for biomedical applications is a challenging goal. Whether you want to investigate blood flow behavior on the cell scale, or use a blood cell model for fast computational prototyping in microfluidics, Computational Blood Cell Mechanics will help you get started, and show you the path forward. The text presents a step-by-step approach to cell model building that can be adopted when developing and validating models for biomedical applications, such as filtering and sorting cells, or examining flow and deformations of individual cells under various conditions. It starts with basic building-blocks that, together, model the red blood cell membrane according to its physical properties, before moving on to discuss several issues that may pose problems along the way, and finally leads to suggestions on how to set up computational experiments. More details available at www.compbloodcell.eu