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RF/microwave interaction with biological tissues

Record Type:	Language materials, printed : Monograph/item
Title/Author:	RF/microwave interaction with biological tissues/ Andr�e Vander Vorst, Arye Rosen, Youji Kotsuka.
Author:	Vorst, A. vander
other author:	Rosen, Arye.
Published:	Hoboken, N.J. :John Wiley & Sons : : c2006.,
Description:	1 online resource (xiii, 330 p.) :ill. :
Notes:	"Wiley-Interscience."
Subject:	Radio waves - Physiological effect. -
Online resource:	http://ieeexplore.ieee.org/xpl/bkabstractplus.jsp?bkn=5201916
ISBN:	9780471752059

RF/microwave interaction with biological tissues
Vorst, A. vander1935-

RF/microwave interaction with biological tissues[electronic resource] /Andr�e Vander Vorst, Arye Rosen, Youji Kotsuka. - Hoboken, N.J. :John Wiley & Sons :c2006. - 1 online resource (xiii, 330 p.) :ill. - Wiley series in microwave and optical engineering. - Wiley series in microwave and optical engineering..

"Wiley-Interscience."

Includes bibliographical references and index.

Cover Contents Preface Introduction 1 Fundamentals of Electromagnetics 1.1 RF and Microwave Frequency Ranges 1.2 Fields 1.3 Electromagnetics 1.3.1 Electric Field and Flux Density 1.3.2 Magnetic Field and Flux Density 1.3.3 Electromagnetic Field 1.3.4 Electromagnetic Wave 1.3.5 Antennas and Near Field 1.4 RF and Microwave Energy 1.4.1 Power and Energy 1.4.2 Influence of the Waveform 1.4.3 Blackbody Radiation 1.5 Penetration in Biological Tissues and Skin Effect 1.6 Relaxation, Resonance, and Display 1.6.1 Relaxation in Dielectrics 1.6.2 Resonance Absorption 1.6.3 Cole Cole Display 1.7 Dielectric Measurements 1.7.1 RF Measurements 1.7.2 Microwave Measurements 1.7.3 Liquids 1.7.4 Applicators 1.8 Exposure References Problems 2 RF/Microwave Interaction Mechanisms in Biological Materials 2.1 Bioelectricity 2.1.1 Fundamentals 2.1.2 Cells and Nerves 2.1.3 Bioelectric Phenomena 2.2 Tissue Characterization 2.2.1 Ionization and Nonionization 2.2.2 Dielectric Characterization 2.2.3 Dielectric Dispersion in Tissues 2.2.4 Measurements 2.3 Thermodynamics 2.4 Energy References Problems 3 Biological Effects 3.1 Absorption 3.1.1 Fundamentals 3.1.2 Dosimetry and SAR 3.1.3 Thermal Considerations 3.2 Nervous System 3.2.1 General Description 3.2.2 Effects on Brain and Spinal Cord 3.2.3 Blood Brain Barrier 3.2.4 Influence of Parameters of Microwave Exposure 3.2.5 Nervous System Modeling and Simulation 3.3 Cells and Membranes 3.4 Molecular Level 3.5 Low-Level Exposure and ELF Components 3.5.1 Microwave Syndrome 3.5.2 Low-Level Pulsed Exposure 3.5.3 ELF Components 3.6 Ear, Eye, and Heart 3.7 Influence of Drugs 3.8 Nonthermal, Microthermal, and Isothermal Effects 3.8.1 Microwaves as a Trigger 3.8.2 Entropy 3.9 Epidemiology Studies 3.10 Interferences 3.11 Radiation Hazards and Exposure Standards 3.11.1 Standards and Recommendations 3.11.2 Tissue Phantoms and SAR Measurements 3.11.3 Computational Methods for SAR Evaluation 3.11.4 Exposure of Body to Cell Phone and Base Station References Problems 4 Thermal Therapy 4.1 Introduction to Thermotherapy 4.2 Heating Principle 4.2.1 Foundations of Dielectric Heating Principle 4.2.2 RF Dielectric Heating Applicator 4.2.3 Microwave Dielectric Heating 4.2.4 Foundation of Inductive Heating Principle 4.2.5 Actual Inductive Heating Applicator 4.2.6 Detailed Theory of RF Dielectric Heating 4.2.7 Detailed Theory of Microwave Dielectric Heating 4.2.8 Detailed Theory of Inductive Heating 4.3 Hyperthermia 4.3.1 Biological Background of Hyperthermia 4.4 Method of Thermometry 4.4.1 Invasive Thermometry 4.4.2 Noninvasive Thermometry References Problems 5 EM Wave Absorbers Protecting Biological and Medical Environment 5.1 Foundation of EM Wave Absorbers 5.2 Classification of Wave Absorbers 5.2.1 Classification by Constituent Material 5.2.2 Classification by Structural Shape 5.3 Fundamental Principle 5.4 Fundamental Theory of EM Wave Absorbers 5.4.1 Single-Layer-Type Wave Absorber 5.4.2 Multilayer-Type Wave Absorber 5.4.3 Taper-Type Wave Absorber 5.5 Application of EM Absorber 5.5.1 Quarter-Wavelength-Type Wave Absorber 5.5.2 Single-Layer-Type Wave Absorber 5.5.3 Multilayer Wave Absorber 5.5.4 Pyramidal Wave Absorber 5.6 EM Wave Absorbers Based on Equivalent Transformation Method of Material Constant 5.6.1 Microwave Absorber with Multiholes 5.6.2 Weakly Magnetized Ferrite Absorber 5.6.3 Microwave Absorber with Surface-Printed Conductive Line Patterns 5.6.4 Integrated Circuit-Type Absorber 5.7 Method for Improving RF Field Distribution in a Small Room References Problems 6 RF/Microwave Delivery Systems for Therapeutic Applications 6.1 Introduction 6.2 Transmission Lines and Waveguides for Medical Applications 6.2.1 Coaxial Cable 6.2.2 Circular Waveguide 6.3 Antennas 6.3.1 Fundamentals 6.3.2 Antenna Configurations 6.4 RF and Microwave Ablation 6.4.1.

ISBN: 9780471752059

Standard No.: 10.1002/0471752053doi

Source: 9780471752059IEEEhttp://ieeexplore.ieee.orgSubjects--Topical Terms:

772076
Radio waves
--Physiological effect.Index Terms--Genre/Form:

554714
Electronic books.

LC Class. No.: QP82.2.R33 / V67 2006

Dewey Class. No.: 612/.01448

National Library of Medicine Call No.: 2006 D-251

RF/microwave interaction with biological tissues
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505 0 $a Cover Contents Preface Introduction 1 Fundamentals of Electromagnetics 1.1 RF and Microwave Frequency Ranges 1.2 Fields 1.3 Electromagnetics 1.3.1 Electric Field and Flux Density 1.3.2 Magnetic Field and Flux Density 1.3.3 Electromagnetic Field 1.3.4 Electromagnetic Wave 1.3.5 Antennas and Near Field 1.4 RF and Microwave Energy 1.4.1 Power and Energy 1.4.2 Influence of the Waveform 1.4.3 Blackbody Radiation 1.5 Penetration in Biological Tissues and Skin Effect 1.6 Relaxation, Resonance, and Display 1.6.1 Relaxation in Dielectrics 1.6.2 Resonance Absorption 1.6.3 Cole Cole Display 1.7 Dielectric Measurements 1.7.1 RF Measurements 1.7.2 Microwave Measurements 1.7.3 Liquids 1.7.4 Applicators 1.8 Exposure References Problems 2 RF/Microwave Interaction Mechanisms in Biological Materials 2.1 Bioelectricity 2.1.1 Fundamentals 2.1.2 Cells and Nerves 2.1.3 Bioelectric Phenomena 2.2 Tissue Characterization 2.2.1 Ionization and Nonionization 2.2.2 Dielectric Characterization 2.2.3 Dielectric Dispersion in Tissues 2.2.4 Measurements 2.3 Thermodynamics 2.4 Energy References Problems 3 Biological Effects 3.1 Absorption 3.1.1 Fundamentals 3.1.2 Dosimetry and SAR 3.1.3 Thermal Considerations 3.2 Nervous System 3.2.1 General Description 3.2.2 Effects on Brain and Spinal Cord 3.2.3 Blood Brain Barrier 3.2.4 Influence of Parameters of Microwave Exposure 3.2.5 Nervous System Modeling and Simulation 3.3 Cells and Membranes 3.4 Molecular Level 3.5 Low-Level Exposure and ELF Components 3.5.1 Microwave Syndrome 3.5.2 Low-Level Pulsed Exposure 3.5.3 ELF Components 3.6 Ear, Eye, and Heart 3.7 Influence of Drugs 3.8 Nonthermal, Microthermal, and Isothermal Effects 3.8.1 Microwaves as a Trigger 3.8.2 Entropy 3.9 Epidemiology Studies 3.10 Interferences 3.11 Radiation Hazards and Exposure Standards 3.11.1 Standards and Recommendations 3.11.2 Tissue Phantoms and SAR Measurements 3.11.3 Computational Methods for SAR Evaluation 3.11.4 Exposure of Body to Cell Phone and Base Station References Problems 4 Thermal Therapy 4.1 Introduction to Thermotherapy 4.2 Heating Principle 4.2.1 Foundations of Dielectric Heating Principle 4.2.2 RF Dielectric Heating Applicator 4.2.3 Microwave Dielectric Heating 4.2.4 Foundation of Inductive Heating Principle 4.2.5 Actual Inductive Heating Applicator 4.2.6 Detailed Theory of RF Dielectric Heating 4.2.7 Detailed Theory of Microwave Dielectric Heating 4.2.8 Detailed Theory of Inductive Heating 4.3 Hyperthermia 4.3.1 Biological Background of Hyperthermia 4.4 Method of Thermometry 4.4.1 Invasive Thermometry 4.4.2 Noninvasive Thermometry References Problems 5 EM Wave Absorbers Protecting Biological and Medical Environment 5.1 Foundation of EM Wave Absorbers 5.2 Classification of Wave Absorbers 5.2.1 Classification by Constituent Material 5.2.2 Classification by Structural Shape 5.3 Fundamental Principle 5.4 Fundamental Theory of EM Wave Absorbers 5.4.1 Single-Layer-Type Wave Absorber 5.4.2 Multilayer-Type Wave Absorber 5.4.3 Taper-Type Wave Absorber 5.5 Application of EM Absorber 5.5.1 Quarter-Wavelength-Type Wave Absorber 5.5.2 Single-Layer-Type Wave Absorber 5.5.3 Multilayer Wave Absorber 5.5.4 Pyramidal Wave Absorber 5.6 EM Wave Absorbers Based on Equivalent Transformation Method of Material Constant 5.6.1 Microwave Absorber with Multiholes 5.6.2 Weakly Magnetized Ferrite Absorber 5.6.3 Microwave Absorber with Surface-Printed Conductive Line Patterns 5.6.4 Integrated Circuit-Type Absorber 5.7 Method for Improving RF Field Distribution in a Small Room References Problems 6 RF/Microwave Delivery Systems for Therapeutic Applications 6.1 Introduction 6.2 Transmission Lines and Waveguides for Medical Applications 6.2.1 Coaxial Cable 6.2.2 Circular Waveguide 6.3 Antennas 6.3.1 Fundamentals 6.3.2 Antenna Configurations 6.4 RF and Microwave Ablation 6.4.1.
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