Bioimpedance and bioelectricity basics /

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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...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Grimnes, Sverre (Autor), Martinsen, �rian (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam : Academic Press, 2014.
Edición:3rd edition.
Temas:
Electrophysiology.
Impedance, Bioelectric.
Electrophysiological Phenomena
Electric Impedance
Electrophysiology
�Electrophysiologie.
Imp�edance bio�electrique.
Processus �electrophysiologiques.
SCIENCE > Life Sciences > Biochemistry.
Impedance, Bioelectric
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Bioimpedance and Bioelectricity Basics; Copyright; Contents; 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 Experiment2.3 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 Properties4.4 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 Metals7.4 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 Explanatory9.2 Equations, Laws, and Equivalent Circuits; 9.3 Data Calculation and Presentation; 9.4 Statistical Methods for Bioimpedance Analysis; 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.

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