| Edition |
Second edition |
| Description |
1 online resource : illustrations |
| Series |
Artech House engineering in medicine and biology library
|
|
Artech House engineering in medicine & biology series.
|
| Bibliography |
Includes bibliographical references and index |
| Contents |
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 |
|
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 |
|
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 |
|
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 |
|
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 |
|
5.4 Nonidealities in Stress-Strain Characterization |
| Local Note |
eBooks on EBSCOhost EBSCO eBook Subscription Academic Collection - North America |
| Subject |
Biomedical engineering.
|
| Indexed Term |
Medicine & Nursing |
|
Medizin |
|
Médecine et services infirmiers |
|
Nursing & ancillary services |
|
Krankenpflege und Krankenpflegehilfe |
|
Soins infirmiers et services auxiliaires |
|
Biomedical engineering |
|
Biomedizinische Technik |
|
Génie biomédical |
| Genre/Form |
Electronic books.
|
| Other Form: |
Print version: Madihally, Sundararajan V. Principles of Biomedical Engineering, Second Edition Norwood : Artech House,c2019 9781630817114 |
| ISBN |
9781630817121 (electronic bk.) |
|
1630817120 (electronic bk.) |
|
9781630817114 |
|
1630817112 |
|
