Enhanced descriptions from Syndetics:

Category
Biomedical Engineering
Subcategory

Contact Editor: Stern

Table of contents provided by Syndetics

• Section I Physiologic Systems
• Introduction
• 1 An Outline of Cardiovascular Structure and Function
• 2 Endocrine System
• 3 Nervous System
• 4 Vision System
• 5 Auditory System
• 6 The Gastrointestinal System
• 7 Respiratory System
• Historical Perspectives 1 Cardiac Pacing - Historical Highlights
• Section II Bioelectric Phenomena
• Introduction
• 8 Basic Electrophysiology
• 9 Volume Conductor Theory
• 10 The Electrical Conductivity of Tissues
• 11 Membrane Models
• 12 Numerical Methods for Bioelectric Field Problems
• 13 Principles of Electrocardiography
• 14 Principles of Electromyography
• 15 Principles of Electroencephalography
• 16 Biomagnetism
• 17 Electric Stimulation of Excitable Tissue
• Section III Biomechanics
• Introduction
• 18 Mechanics of Hard Tissue
• 19 Mechanics of Blood Vessels
• 20 Joint-Articulating Surface Motion
• 21 Joint Lubrication
• 22 Musculoskeletal Soft Tissue Mechanics
• 23 Mechanics of Head/Neck
• 24 Biomechanics of Chest and Abdomen Impact
• 25 Analysis of Gait
• 26 Exercise Physiology
• 27 Factors Affecting Mechanical Work in Humans
• 28 Cardiac Biodynamics
• 29 Heart Valve Dynamics
• 30 Arterial Macrocirculatory Hemodynamics
• 31 Mechanics and Transport in the Microcirculation
• 32 Mechanics and Deformability of Hematocytes
• 33 The Venous System
• 34 Mechanics of Tissue/Lymphatic Transport
• 35 Cochlear Mechanics
• 36 Vestibular Mechanics
• Section IV Biomaterials
• Introduction
• 37 Metallic Biomaterials
• 38 Ceramic Biomaterials
• 39 Polymeric Biomaterials
• 40 Composite Biomaterials
• 41 Biodegradable Polymeric Biomaterials: An Updated Overview
• 42 Biologic Biomaterials: Tissue-Derived Biomaterials (Collagen)
• 43 Soft Tissue Replacements
• 43.1 Blood Interfacing Implants
• 43.2 Non-Blood-Interfacing Implants for Soft Tissues
• 44 Hard Tissue Replacements
• 44.1 Bone Repair and Joint Implants
• 44.2 Dental Implants: The Relationship of Materials Characteristics to Biologic Properties
• 45 Preservation Techniques for Biomaterials
• 46 Hip Joint Prosthesis Fixation--Problems and Possible Solutions
• Section V Biomedical Sensors
• Introduction
• 47 Physical Measurements
• 48 Biopotential Electrodes
• 49 Electrochemical Sensors
• 50 Optical Sensors
• 51 Bioanalytic Sensors
• Historical Perspectives 2 The Elecrocardiograph
• Section VI Biomedical Signal Analysis
• Introduction
• 52 Biomedical Signals: Origin and Dynamic Characteristics; Frequency-Domain Analysis
• 53 Digital Biomedical Signal Acquisition and Processing
• 54 Compression of Digital Biomedical Signals
• 55 Time-Frequency Signal Representations for Biomedical Signals
• 56 Wavelet (Time-Scale) Analysis in Biomedical Signal Processing
• 57 High-Order Spectral Analysis
• 58 Neural Networks in Biomedical Signal Processing
• 59 Complexity, Scaling, and Fractals in Biomedical Signals
• 60 Future Directions: Biomedical Signal Processing and Networked Multimedia Communications
• Section VII Imaging
• Introduction
• 61 X-Ray
• 61.1 X-Ray Equipment
• 61.2 X-Ray Projection Angiography
• 61.3 Mammography
• 62 Computed Tomography
• 62.1 Instrumentation
• 62.2 Reconstruction Principles
• 63 Magnetic Resonance Imaging
• 63.1 Acquisition and Processing
• 63.2 Hardware/Instrumentation
• 63.3 Functional MRI
• 63.4 Chemical-Shift Imaging: An Introduction to Its Theory and Practice
• 64 Nuclear Medicine
• 64.1 Instrumentation
• 64.2 SPECT (Single-Photon Emission Computed Tomography)
• 65 Ultrasound
• 65.1 Transducers
• 65.2 Ultrasonic Imaging
• 65.3 Blood Flow Measurement Using Ultrasound
• 66 Magnetic Resonance Microscopy
• 67 Positron-Emission Tomography (PET)
• 67.1 Radiopharmaceuticals
• 67.2 Instrumentation
• 68 Electrical Impedance Tomography
• 69 Medical Applications of Virtual Reality Technology
• Section VIII Medical Instruments and Devices
• Introduction
• 70 Biopotential Amplifiers
• 71 Noninvasive Arterial Blood Pressure and Mechanics
• 72 Cardiac Output Measurement
• 73 Bioelectric Impedance Measurements
• 74 Respiration
• 75 Clinical Laboratory: Separation and Spectral Methods
• 76 Clinical Laboratory: Nonspectral Methods and Automation
• 77 Implantable Cardiac Pacemakers
• 78 Implantable Stimulators for Neuromuscular Control
• 79 External Defibrillators
• 80 Implantable Defibrillators
• 81 Electrosurgical Devices
• 82 Mechanical Ventilation
• 83 Parenteral Infusion Devices
• 84 Essentials of Anesthesia Delivery
• 85 Biomedical Lasers
• 86 Noninvasive Optical Monitoring
• 87 Medical Instruments and Devices Used in the Home
• 88 Virtual Instrumentation
• Historical Perspectives 3 Recording of Action Potentials
• Section IX Biologic Effects of Nonionizing Electromagnetic Fields
• Introduction
• 89 Dielectric Properties of Tissues
• 90 Low-Frequency Magnetic Fields: Dosimetry, Cellular, and Animal Effects
• 91 Therapeutic Applications of Low-Frequency Sinusoidal and Pulsed Electric and Magnetic Fields
• 92 Biologic Effects of Radiofrequency and Microwave Fields: In Vivo and In Vitro Experimental Results
• 93 Radio Frequency Hyperthermia in Cancer Therapy
• 94 Electroporation of Cells and Tissues
• Appendix A Basics of Blood Gas Instrumentation
• Index