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|a Madihally, Sundararajan V.,
|e author.
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|a Principles of biomedical engineering /
|c Sundararajan V. Madihally.
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|a Second edition
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|a Norwood, MA :
|b Artech House,
|c [2020]
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300 |
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|a 1 online resource :
|b illustrations
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336 |
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|a text
|b txt
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|a Artech House engineering in medicine and biology library
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|a Online resource; title from PDF title page (viewed on March 09, 2020)
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|a Includes bibliographical references and index
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|a Intro -- Principles of Biomedical Engineering Second Edition -- Contents -- CHAPTER 1 Introduction -- 1.1 Overview -- 1.2 Roles of Bioengineers -- 1.3 History of Bioengineering -- 1.3.1 Development of Biomedical Imaging -- 1.3.2 Development of Dialysis -- 1.3.3 The Development of the Heart-Lung Machine -- 1.3.4 Other Devices -- 1.4 Sources for Information -- Problems -- Selected Bibliography -- CHAPTER 2 Biotransport -- 2.1 Overview -- 2.2 Fundamental Factors -- 2.2.1 Liquid Compartments -- 2.2.2 Solute Components -- 2.2.3 Components in the Gas Phase -- 2.2.4 Importance of pH
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|a 2.3 Diffusion-Mediated Transport -- 2.3.1 Free Diffusion -- 2.3.2 Facilitated Diffusion -- 2.3.3 Active Transport -- 2.4 Osmosis-Driven Transport -- 2.4.1 Osmolarity -- 2.4.2 Tonicity -- 2.4.3 Osmotic Pressure -- 2.5 Combined Osmosis and Pressure Gradient-Driven Transport -- 2.6 Transport of Macromolecules -- Problems -- References -- CHAPTER 3 Bioelectrical Phenomena -- 3.1 Overview -- 3.2 Membrane Potential -- 3.2.1 Nernst Equation -- 3.2.2 Donnan Equilibrium -- 3.2.3 Goldman Equation -- 3.3 Electrical Equivalent Circuit -- 3.3.1 Cell Membrane Conductance -- 3.3.2 Cell Membrane as a Capacitor
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|a 3.3.3 Resistance-Capacitance Circuit -- 3.3.4 Action Potential -- 3.4 Principles of Bioelectrodes -- 3.4.1 Electrode-Electrolyte Interface -- 3.4.2 Potential Monitoring Electrodes -- 3.4.3 Amperometric Devices -- 3.4.4 Intracellular Recording of Bioelectricity -- 3.5 Volume Conductors -- 3.5.1 Electric Field -- 3.5.2 Electrical Potential Energy -- 3.5.3 Conservation of Charge -- 3.5.4 Measuring Electrical Activity of Tissues: Example of Electrocardiogram -- 3.5.5 Biopotential Recording Practicalities -- Problems -- References -- Selected Bibliography -- CHAPTER 4 Biofluid Flow -- 4.1 Overview
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|a 4.2 Fluid Flow Characteristics -- 4.2.1 Conservation of Mass -- 4.2.2 Inertial and Viscous Forces -- 4.2.3 Conservation of Momentum -- 4.3 Nonidealities in Biological Systems -- 4.3.1 Oscillatory and Pulsating Flows -- 4.3.2 Alterations in Viscosity -- 4.3.3 Fluid Flow in Microelectromechanical Systems (MEMS) -- 4.4 Conservation of Energy -- 4.4.1 Different Energy Forms -- 4.4.2 Energy Balance in the Body -- 4.4.3 Energy Expenditure Calculations -- 4.5 Fluid Power -- 4.5.1 Power Calculations in a Cardiac Cycle -- 4.5.2 The Efficiency of a Pump -- 4.5.3 Pumps in Series and Parallel
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|a 4.6 Optimization Principle for Fluid Transport -- 4.6.1 Minimum Work of Circulation -- Problems -- References -- Selected Bibliography -- CHAPTER 5 Biomechanics -- 5.1 Overview -- 5.2 Conservation of Momentum in Solids -- 5.2.1 Different Forces Acting on the Body -- 5.2.2 Angular Motion -- 5.2.3 Impulse-Momentum Relation -- 5.2.4 Gait Analysis (Motion Analysis) -- 5.3 Ideal Stress-Strain Characteristics -- 5.3.1 Structural Parameters and Material Parameters -- 5.3.2 Axial Stress and Strain -- 5.3.3 Shear Stress -- 5.3.4 Bending -- 5.3.5 Torsion
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|a 5.4 Nonidealities in Stress-Strain Characterization
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|a "This updated and expanded second edition of an Artech House classic introduces readers to the importance of engineering in medicine. Transport of molecules, bioelectrical phenomena, principles of mass, momentum, and energy transport to the analysis of fluids and solids, biomechanical analysis, biomaterial selection, and imaging are discussed in detail. Readers learn about using living cells in developing therapies, biosensors, diagnostics, genomics, proteomic strategies, and model development. Key topics covered in this resource include basics of fluid mechanics, strength of materials, statics and dynamics, basic thermodynamics, electrical circuits, and material science. Many numerical problems are provided as examples and exercise problems are included. These problems facilitate in-depth understanding of engineering principles in the development of biomedical applications, cutting-edge technologies, and emerging challenges. Describing the role of engineering in medicine today, this complete volume covers a wide range of the most important topics in this burgeoning field. Moreover, readers will find a thorough treatment of standards and ethical considerations needed for exploring biomedical research and device development. Structured as a complete text for students with some engineering background, the book also serves as a valuable reference for professionals new to the bioengineering field."--Taken from back cover
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|b EBSCO eBook Subscription Academic Collection - Worldwide
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|a biomedical engineering.
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|a Biomedizinische Technik
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|a Génie biomédical
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|a Madihally, Sundararajan V.
|t Principles of Biomedical Engineering, Second Edition.
|d Norwood : Artech House, ©2019
|z 9781630817114
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