Bioimpedance and Bioelectricity Basics-3판

Description:
Bioimpedance and Bioelectricity Basics, 3rd Edition paves an easier and more efficient way for people seeking basic
knowledge about this discipline. This book's focus is on systems with galvanic contact with tissue, with specific
detail on the geometry of the measuring system. Both authors are internationally recognized experts in the field. The
highly effective, easily followed organization of the second edition has been retained, with a new discussion of state-
of-the-art advances in data analysis, modelling, endogenic sources, tissue electrical properties, electrodes,
instrumentation and measurements. This book provides the basic knowledge of electrochemistry, electronic engineering,
physics, physiology, mathematics, and model thinking that is needed to understand this key area in biomedicine and
biophysics.
● Covers tissue immittance from the ground up in an intuitive manner, supported
with figures and examples
● New chapters on electrodes and statistical analysis
● Discusses in detail dielectric and electrochemical aspects, geometry and
instrumentation as well as electrical
engineering concepts of network theory, providing a cross-disciplinary resource for engineers, life scientists, and
physicists
Table of Contents
Copyright
Preface to the Third Edition
Acknowledgments
Tips to the Reader
Chapter 1. Introduction
1.1. What Is Bioimpedance and Biopermittivity?
1.2. What Is Bioelectricity?
1.3. How Are the Quantities of Bioimpedance and Bioelectricity Measured and Controlled?
1.4. Models
1.5. What Are the Applications of Bioimpedance and Bioelectricity?
1.6. Some Unsolved Basic Problems
1.7. Who Is Working with Bioimpedance and Bioelectricity?
Chapter 2. Electrolytics
2.1. Ionic and Electronic DC Conduction
2.2. Basic Electrolytic DC Experiment
2.3. Bulk Electrolytic DC Conductance
2.4. Particle Migration and Diffusion
2.5. Electrokinetics
2.6. Problems
Chapter 3. Dielectrics
3.1. Polarization in a Uniform Dielectric
3.2. Basic Capacitor Experiment
3.3. Complex Variables and Material Constants
3.4. AC Polarization and Relaxation in a Uniform Dielectric
3.5. Interfacial Polarization
3.6. Basic Membrane Experiment
3.7. Basic Suspension Experiment
3.8. Dispersion and Dielectric Spectroscopy
3.9. Problems
Chapter 4. Passive Tissue Electrical Properties
4.1. Basic Biomaterials
4.2. Tissue and Organs
4.3. Special Electrical Properties
4.4. Problems
Chapter 5. Excitable Tissue and Bioelectric Signals
5.1. Cell Polarization
5.2. Action Potential
5.3. The Neuron
5.4. Axon Transmission
5.5. Receptors
5.6. Problems
Chapter 6. Geometrical Analysis
6.1. Volume Conductors
6.2. Sphere Sources, Ideal Three-Dimensional Models
6.3. Line Sources, Ideal Two-Dimensional Models
6.4. Signal Transfer
6.5. Finite Element Method
6.6. Imaging, Electrical Impedance Tomography
6.7. Duality of Dielectric and Conductor Theory
6.8. Problems
Chapter 7. Electrodes
7.1. Electrode Pair
7.2. Single Electrode
7.3. Electrode Metals
7.4. Contact Electrolytes
7.5. Electrode Double Layer
7.6. DC Potentials, No Current Flow
7.7. Basic Experiment with DC Current Flow
7.8. Faraday's Law of Electrolysis
7.9. Electrode Polarization
7.10. Multiple Electrode Systems
7.11. Electrode Terminology
7.12. Electrode Designs
7.13. Vulnerable Electrode Technology
7.14. Problems
Chapter 8. Instrumentation and Measurements
8.1. General Network Theory, the Black-Box
8.2. Signals and Measurement, Noise
8.3. Amplifiers, Bridges, Analyzers
8.4. Nonlinear Phenomena
8.5. Problems
Chapter 9. Data and Models
9.1. Models, Descriptive and Explanatory
9.2. Equations, Laws, and Equivalent Circuits
9.3. Data Calculation and Presentation
9.4. Statistical Methods for Bioimpedance Analysis1
9.5. More Data Analysis Methods
9.6. Problems
Chapter 10. Selected Applications
10.1. Heart as a Bioelectric Source (ECG)
10.2. Other Organs as Bioelectric Sources
10.3. Electrodermal Activity, Psychophysiology
10.4. Other Skin Applications
10.5. Impedance Plethysmography
10.6. Impedance Cardiography
10.7. Imaging of Lungs
10.8. Body Composition
10.9. Defibrillation and Electroshock
10.10. Electrosurgery
10.11. Cell Suspensions
10.12. Implanted Active Thoracic Devices
10.13. Electrotherapy
10.14. Nonmedical Applications
10.15. Discoveries, Innovations
10.16. Electrical Safety
Chapter 11. History of Bioimpedance and Bioelectricity
11.1. Electrocardiogram-Heart Muscle Activity
11.2. Electroencephalogram-Brain, Nervous Tissue
11.3. Electrodermal Activity-Skin, Sweat Activity
11.4. Kenneth S. Cole (1928a,b Papers)
11.5. Peter Debye (1929 Book)
11.6. Hugo Fricke (1932 Paper)
11.7. Kenneth S. Cole (1932 Paper)
11.8. Kenneth S. Cole (1940 Paper)
11.9. Kenneth S. Cole and Robert H. Cole (1941 Paper)
11.10. Herman Paul Schwan (1915?005)
11.11. Surface Potentials Generated by a Bioelectric Source in a Volume Conductor
Chapter 12. Appendix
12.1. Vectors and Scalars, Complex Numbers
12.2. Equivalent Circuit Equations
12.3. Global Symbols (Table 12.1)
References
Index