RF / Microwave Interaction with Biological Tissues
RF / Microwave Interaction with Biological Tissues
Kotsuka, Youji; Rosen, Arye; Vander Vorst, Andre
John Wiley & Sons Inc
02/2006
344
Dura
Inglês
9780471732778
15 a 20 dias
676
Descrição não disponível.
Preface. Introduction.
1 Fundamentals of Electromagnetics.
1.1 RF and Microwave Frequency Ranges.
1.2 Fields.
1.3 Electromagnetics.
1.4 RF and Microwave Energy.
1.5 Penetration in Biological Tissues and Skin Effect.
1.6 Relaxation, Resonance, and Display.
1.7 Dielectric Measurements.
1.8 Exposure.
References.
Problems.
2 RF/Microwave Interaction Mechanisms in Biological Materials.
2.1 Bioelectricity.
2.2 Tissue Characterization.
2.3 Thermodynamics.
2.4 Energy.
References.
Problems.
3 Biological Effects.
3.1 Absorption.
3.2 Nervous System.
3.3 Cells and Membranes.
3.4 Molecular Level.
3.5 Low-Level Exposure and ELF Components.
3.6 Ear, Eye, and Heart.
3.7 Influence of Drugs.
3.8 Nonthermal, Microthermal, and Isothermal Effects.
3.9 Epidemiology Studies.
3.10 Interferences.
3.11 Radiation Hazards and Exposure Standards.
References.
Problems 150
4 Thermal Therapy.
4.1 Introduction to Thermotherapy.
4.2 Heating Principle.
4.3 Hyperthermia.
4.4 Method of 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.
5.3 Fundamental Principle.
5.4 Fundamental Theory of EM Wave Absorbers.
5.5 Application of EM Absorber.
5.6 EM Wave Absorbers Based on Equivalent Transformation Method of Material Constant.
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.
6.3 Antennas.
6.4 RF and Microwave Ablation.
6.5 Perfusion Chamber.
6.6 RF Gastroesophageal Reflux Disease.
6.7 Endometrial Ablation.
6.8 Microwave Measurement Techniques: Examples.
6.9 Future Research.
References.
Problems.
Index.
1 Fundamentals of Electromagnetics.
1.1 RF and Microwave Frequency Ranges.
1.2 Fields.
1.3 Electromagnetics.
1.4 RF and Microwave Energy.
1.5 Penetration in Biological Tissues and Skin Effect.
1.6 Relaxation, Resonance, and Display.
1.7 Dielectric Measurements.
1.8 Exposure.
References.
Problems.
2 RF/Microwave Interaction Mechanisms in Biological Materials.
2.1 Bioelectricity.
2.2 Tissue Characterization.
2.3 Thermodynamics.
2.4 Energy.
References.
Problems.
3 Biological Effects.
3.1 Absorption.
3.2 Nervous System.
3.3 Cells and Membranes.
3.4 Molecular Level.
3.5 Low-Level Exposure and ELF Components.
3.6 Ear, Eye, and Heart.
3.7 Influence of Drugs.
3.8 Nonthermal, Microthermal, and Isothermal Effects.
3.9 Epidemiology Studies.
3.10 Interferences.
3.11 Radiation Hazards and Exposure Standards.
References.
Problems 150
4 Thermal Therapy.
4.1 Introduction to Thermotherapy.
4.2 Heating Principle.
4.3 Hyperthermia.
4.4 Method of 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.
5.3 Fundamental Principle.
5.4 Fundamental Theory of EM Wave Absorbers.
5.5 Application of EM Absorber.
5.6 EM Wave Absorbers Based on Equivalent Transformation Method of Material Constant.
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.
6.3 Antennas.
6.4 RF and Microwave Ablation.
6.5 Perfusion Chamber.
6.6 RF Gastroesophageal Reflux Disease.
6.7 Endometrial Ablation.
6.8 Microwave Measurement Techniques: Examples.
6.9 Future Research.
References.
Problems.
Index.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
fundamentals; engineering; book; clinical; biological; applications; effects; developments; therapeutic; cardiology; discover new; readers; detection; cancer; present; authors; khfrequency ranges; interaction
Preface. Introduction.
1 Fundamentals of Electromagnetics.
1.1 RF and Microwave Frequency Ranges.
1.2 Fields.
1.3 Electromagnetics.
1.4 RF and Microwave Energy.
1.5 Penetration in Biological Tissues and Skin Effect.
1.6 Relaxation, Resonance, and Display.
1.7 Dielectric Measurements.
1.8 Exposure.
References.
Problems.
2 RF/Microwave Interaction Mechanisms in Biological Materials.
2.1 Bioelectricity.
2.2 Tissue Characterization.
2.3 Thermodynamics.
2.4 Energy.
References.
Problems.
3 Biological Effects.
3.1 Absorption.
3.2 Nervous System.
3.3 Cells and Membranes.
3.4 Molecular Level.
3.5 Low-Level Exposure and ELF Components.
3.6 Ear, Eye, and Heart.
3.7 Influence of Drugs.
3.8 Nonthermal, Microthermal, and Isothermal Effects.
3.9 Epidemiology Studies.
3.10 Interferences.
3.11 Radiation Hazards and Exposure Standards.
References.
Problems 150
4 Thermal Therapy.
4.1 Introduction to Thermotherapy.
4.2 Heating Principle.
4.3 Hyperthermia.
4.4 Method of 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.
5.3 Fundamental Principle.
5.4 Fundamental Theory of EM Wave Absorbers.
5.5 Application of EM Absorber.
5.6 EM Wave Absorbers Based on Equivalent Transformation Method of Material Constant.
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.
6.3 Antennas.
6.4 RF and Microwave Ablation.
6.5 Perfusion Chamber.
6.6 RF Gastroesophageal Reflux Disease.
6.7 Endometrial Ablation.
6.8 Microwave Measurement Techniques: Examples.
6.9 Future Research.
References.
Problems.
Index.
1 Fundamentals of Electromagnetics.
1.1 RF and Microwave Frequency Ranges.
1.2 Fields.
1.3 Electromagnetics.
1.4 RF and Microwave Energy.
1.5 Penetration in Biological Tissues and Skin Effect.
1.6 Relaxation, Resonance, and Display.
1.7 Dielectric Measurements.
1.8 Exposure.
References.
Problems.
2 RF/Microwave Interaction Mechanisms in Biological Materials.
2.1 Bioelectricity.
2.2 Tissue Characterization.
2.3 Thermodynamics.
2.4 Energy.
References.
Problems.
3 Biological Effects.
3.1 Absorption.
3.2 Nervous System.
3.3 Cells and Membranes.
3.4 Molecular Level.
3.5 Low-Level Exposure and ELF Components.
3.6 Ear, Eye, and Heart.
3.7 Influence of Drugs.
3.8 Nonthermal, Microthermal, and Isothermal Effects.
3.9 Epidemiology Studies.
3.10 Interferences.
3.11 Radiation Hazards and Exposure Standards.
References.
Problems 150
4 Thermal Therapy.
4.1 Introduction to Thermotherapy.
4.2 Heating Principle.
4.3 Hyperthermia.
4.4 Method of 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.
5.3 Fundamental Principle.
5.4 Fundamental Theory of EM Wave Absorbers.
5.5 Application of EM Absorber.
5.6 EM Wave Absorbers Based on Equivalent Transformation Method of Material Constant.
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.
6.3 Antennas.
6.4 RF and Microwave Ablation.
6.5 Perfusion Chamber.
6.6 RF Gastroesophageal Reflux Disease.
6.7 Endometrial Ablation.
6.8 Microwave Measurement Techniques: Examples.
6.9 Future Research.
References.
Problems.
Index.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.