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Biofluid Mechanics Principles and Applications 1st Edition by Ali Ostadfar ISBN 0128024089 9780128024089

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Biofluid Mechanics Principles and Applications 1st Edition Ali Ostadfar Digital Instant Download

Author(s): Ali Ostadfar
ISBN(s): 9780128024089, 0128024089
Edition: 1
File Details: PDF, 31.67 MB
Year: 2016
Language: english
SKU: EB-5601480 Category: Tag:

Biofluid Mechanics Principles and Applications 1st Edition by Ali Ostadfar – Ebook PDF Instant Download/Delivery: 0128024089, 9780128024089
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Product details:

ISBN 10: 0128024089 
ISBN 13: 9780128024089
Author: Ali Ostadfar

Biofluid Mechanics is a throrough reference to the entire field. Written with engineers and clinicians in mind, this book covers physiology and the engineering aspects of biofluids. Effectively bridging the gap between engineers’ and clinicians’ knowledge bases, the text provides information on physiology for engineers and information on the engineering side of biofluid mechanics for clinicians. Clinical applications of fluid mechanics principles to fluid flows throughout the body are included in each chapter.

All engineering concepts and equations are developed within a biological context, together with computational simulation examples as well. Content covered includes; engineering models of human blood, blood rheology in the circulation system and problems in human organs and their side effects on biomechanics of the cardiovascular system. The information contained in this book on biofluid principles is core to bioengineering and medical sciences.

  • Comprehensive coverage of the entire biofluid mechanics subject provides you with an all in one reference, eliminating the need to collate information from different sources
  • Each chapter covers principles, needs, problems, and solutions in order to help you identify potential problems and employ solutions
  • Provides a novel breakdown of fluid flow by organ system, and a quick and focused reference for clinicians

Biofluid Mechanics Principles and Applications 1st Table of contents:

Chapter 1. Fluid Mechanics and Biofluids Principles
Abstract
1.1 Introduction
Chapter Summary
Problems
1.2 Fundamentals of Fluid Mechanics
Chapter Summary
Problems
1.3 Hematology and Blood Rheology
Chapter Summary
Problems
References
Chapter 2. Macrocirculation System
Abstract
2.1 Introduction
2.2 Pulsatile Flow Properties
2.3 Arteries
2.4 Veins
2.5 Vascular Bifurcations and Branches
2.6 Blood Flow Through Curved Vessels
2.7 Mechanical and Elasticity Properties of Vessels
2.8 Atherosclerosis Characteristics
2.9 Blood Flow Through Stenosis
Chapter Summary
Problems
References
Chapter 3. Microcirculation System
Abstract
3.1 Introduction
3.2 Arterioles and Blood Flow Aspects
3.3 Capillaries
3.4 Venules
3.5 Fahraeus and Fahraeus–Lindqvist Effects
3.6 Mass Transport in Tissue
3.7 Porosity, Tortuosity and Permeability
3.8 Governing Equations in Porous Media
3.9 Fluid Transport in Poroelastic Media
Chapter Summary
Problems
References
Chapter 4. Biofluid Dynamics in Human Organs
Abstract
4.1 Heart and Cardiovascular System
4.2 Lung and Respiratory System
4.3 Kidney and Urinary System
4.4 Gastrointestinal System
4.5 Liver
4.6 Brain
4.7 Joints
4.8 Intraocular System
4.9 Reproductive System
4.10 Endocrine System Biofluids
Chapter Summary
Problems
References
Chapter 5. Biofluid Flow in Artificial, Assistive and Implantable Devices
Abstract
5.1 Blood Pumps and Artificial Heart
5.2 Prosthetic Heart Valves
5.3 Artificial Lung
5.4 Artificial Kidney and Hemodialysis Machine
5.5 Artificial Vessels and Grafts
5.6 Stent
Chapter Summary
Problems
References
Chapter 6. Physical Injury to Blood
Abstract
6.1 Geometry and Cell Membrane of Red Blood Cell
6.2 Mechanical Properties and Deformation of RBC
6.3 Hemolysis Characterization
6.4 Hemolysis in Needles and Grafts
6.5 Hemolysis and Hemodialysis Process
6.6 Hemolysis in Oxygenation and Lung Machines
6.7 Hemolysis in TAH and Artificial Heart Valves
6.8 Collection, Storage and Transportation of Whole Blood
Chapter Summary
Problems
References
Chapter 7. Reaction of Blood and Biomaterials
Abstract
7.1 Immune System
7.2 Coagulation and Thrombosis
7.3 Rolling Adhesion and Effect of Forces
7.4 Biocompatibility and Biomaterials
Chapter Summary
Problems
References
Chapter 8. Real Time Measurement Techniques of Biofluids
Abstract
8.1 Introduction
8.2 Measurement of Temperature
8.3 Measurement of Flow Rate and Volume of Blood
8.4 Measurement of Blood Pressure and Sound
8.5 Measurement of the Respiratory System
8.6 Medical Imaging Systems
Chapter Summary
Problems
References
Chapter 9. Tissue Engineering of Cardiovascular System
Abstract
9.1 Introduction
9.2 Tissue Engineering of Blood Vessels
9.3 Tissue Engineering of Heart and Heart Valves

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Tags: Ali Ostadfar, Biofluid Mechanics