Biomedical Engineering and Design Handbook, Volume 1 /

A state-of-the-art guide to the fundamentals of biomedical engineering, covering the biomechanics of the human body, biomaterials, and bioelectronics. The two-volume Biomedical Engineering and Design Handbook offers you unsurpassed coverage of the entire biomedical engineering field, including the f...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Kutz, Myer (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York, N.Y. : McGraw-Hill Education, [2009].
Edición:2nd edition.
Temas:
Biomedical engineering > Handbooks, manuals, etc.
Medical instruments and apparatus > Design and construction > Handbooks, manuals, etc.
Biomedical engineering.
Medical instruments and apparatus > Design and construction.
Electronic books.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • A. ABOUT THE EDITOR
  • B. VISION STATEMENT
  • C. PREFACE
  • D. PREFACE TO THE FIRST EDITION
  • Acknowledgments
  • 1. MODELING OF BIOMEDICAL SYSTEMS
  • COMPARTMENTAL MODELS
  • ELECTRICAL ANALOG MODELS OF CIRCULATION
  • MECHANICAL MODELS
  • MODELS WITH MEMORY AND MODELS WITH TIME DELAY
  • ARTIFICIAL NEURAL NETWORK MODELS
  • FUZZY LOGIC
  • MODEL VALIDATION
  • 2. HEAT TRANSFER APPLICATIONS IN BIOLOGICAL SYSTEMS
  • INTRODUCTION
  • FUNDAMENTAL ASPECTS OF BIOHEAT TRANSFER
  • BIOHEAT TRANSFER MODELING
  • TEMPERATURE,THERMAL PROPERTY, AND BLOOD FLOW MEASUREMENTS
  • HYPERTHERMIA TREATMENT FOR CANCERS AND TUMORS
  • 3. PHYSICAL AND FLOW PROPERTIES OF BLOOD
  • PHYSIOLOGY OF THE CIRCULATORY SYSTEM
  • PHYSICAL PROPERTIES OF BLOOD
  • BLOOD FLOW IN ARTERIES
  • BLOOD FLOW IN VEINS
  • BLOOD FLOW IN THE MICROCIRCULATION
  • BLOOD FLOW IN THE HEART
  • ANALOG MODELS OF BLOOD FLOW
  • ACKNOWLEDGMENT
  • 4. RESPIRATORY MECHANICS AND GAS EXCHANGE
  • ANATOMY
  • MECHANICS OF BREATHING
  • VENTILATION
  • ELASTICITY
  • VENTILATION, PERFUSION, AND LIMITS
  • AIRWAY FLOW, DYNAMICS, AND STABILITY
  • 5. BIOMECHANICS OF THE RESPIRATORY MUSCLES
  • INTRODUCTION
  • THE RESPIRATORY MUSCLES
  • MECHANICS PERFORMANCE OF RESPIRATORY MUSCLES
  • MODELS OF CHEST WALL MECHANICS
  • 6. BIOMECHANICS OF HUMAN MOVEMENT
  • WHY STUDY HUMAN MOVEMENT?
  • FORWARD VERSUS INVERSE DYNAMICS
  • TOOLS FOR MEASURING HUMAN MOVEMENT
  • ANALYSIS OF HUMAN MOTION: AN INVERSE DYNAMICS APPROACH
  • CONCLUDING REMARKS
  • 7. BIOMECHANICS OF THE MUSCULOSKELETAL SYSTEM
  • INTRODUCTION
  • MECHANICAL PROPERTIES OF SOFT TISSUE
  • BODY-SEGMENTAL DYNAMICS
  • MUSCULOSKELETAL GEOMETRY
  • MUSCLE ACTIVATION AND CONTRACTION DYNAMICS
  • DETERMINING MUSCLE FORCE
  • MUSCLE, LIGAMENT, AND JOINT-CONTACT FORCES
  • 8. BIODYNAMICS: A LAGRANGIAN APPROACH
  • MOTIVATION
  • THE SIGNIFICANCE OF DYNAMICS
  • THE BIODYNAMIC SIGNIFICANCE OF THE EQUATIONS OF MOTION
  • THE LAGRANGIAN (AN ENERGY METHOD) APPROACH
  • INTRODUCTION TO THE KINEMATICS TABLE METHOD
  • BRIEF DISCUSSION
  • IN CLOSING
  • 9. BONE MECHANICS
  • INTRODUCTION
  • COMPOSITION OF BONE
  • BONE AS A HIERARCHICAL COMPOSITE MATERIAL
  • MECHANICAL PROPERTIES OF CORTICAL BONE
  • MECHANICAL PROPERTIES OF TRABECULAR BONE
  • MECHANICAL PROPERTIES OF TRABECULAR TISSUE MATERIAL
  • CONCLUDING REMARKS
  • ACKNOWLEDGMENTS
  • 10. FINITE-ELEMENT ANALYSIS
  • INTRODUCTION
  • GEOMETRIC CONCERNS
  • MATERIAL PROPERTIES
  • BOUNDARY CONDITIONS
  • CASE STUDIES
  • CONCLUSIONS
  • 11. VIBRATION, MECHANICAL SHOCK, AND IMPACT
  • INTRODUCTION
  • PHYSICAL MEASUREMENTS
  • MODELS AND HUMAN SURROGATES
  • COUNTERMEASURES.
  • 12. ELECTROMYOGRAPHY AS A TOOL TO ESTIMATE MUSCLE FORCES
  • INTRODUCTION: HOW TO ESTIMATE MUSCLE FORCES?
  • THE EMG SIGNAL
  • PROCESSING THE EMG SIGNAL
  • EMG-DRIVEN MODELS TO ESTIMATE MUSCLE FORCES
  • AN EXAMPLE
  • LIMITATIONS AND FUTURE DEVELOPMENT OF EMG-DRIVEN MODELS
  • 13. BIOPOLYMERS
  • INTRODUCTION
  • POLYMER SCIENCE
  • SPECIFIC POLYMERS
  • A NOTE ON TISSUE ENGINEERING APPLICATIONS
  • 14. BIOMEDICAL COMPOSITES
  • INTRODUCTION
  • CLASSIFICATION
  • CONSTITUENTS
  • PROCESSING
  • PHYSICAL PROPERTIES
  • FRACTURE AND FATIGUE FAILURE
  • BIOLOGIC RESPONSE
  • BIOMEDICAL APPLICATIONS
  • 15. BIOCERAMICS
  • INTRODUCTION
  • BIOINERT CERAMICS
  • BIOACTIVE CERAMICS
  • CERAMICS FOR TISSUE ENGINEERING AND BIOLOGICAL THERAPIES
  • SUMMARY
  • ACKNOWLEDGMENTS
  • 16. CARDIOVASCULAR BIOMATERIALS
  • INTRODUCTION
  • MATERIALS
  • TESTING
  • MATERIAL PROCESSING AND DEVICE DESIGN
  • 17. DENTAL BIOMATERIALS
  • INTRODUCTION: HISTORY OF DENTAL MATERIALS
  • METALS
  • CERAMICS
  • POLYMER MATERIALS
  • COMPOSITES
  • DENTAL IMPLANTS
  • MATERIALS SCIENCE: BIOLOGICAL ASPECTS
  • BIOCOMPATIBILITY OF DENTAL RESTORATIVE MATERIALS
  • BIOMATERIALS EVOLUTION: ATTACHMENT OF BIOMATERIALS TO TISSUE
  • NANOTECHNOLOGY IN DENTISTRY
  • 18. ORTHOPEDIC BIOMATERIALS
  • INTRODUCTION
  • NATURAL MATERIALS
  • ENGINEERED MATERIALS
  • CONCLUSION
  • 19. BIOMATERIALS TO PROMOTE TISSUE REGENERATION
  • BACKGROUND
  • STRUCTURAL COMPONENT
  • BIOCHEMICAL COMPONENT
  • CONCLUSIONS
  • ACKNOWLEDGMENTS
  • 20. BIOELECTRICITY AND ITS MEASUREMENT
  • INTRODUCTION
  • THE NATURE OF BIOELECTRICITY
  • ACTION EVENTS OF NERVE
  • VOLUME CONDUCTOR PROPAGATION
  • DETECTION OF BIOELECTRIC EVENTS
  • ELECTRICAL INTERFERENCE PROBLEMS IN BIOPOTENTIAL MEASUREMENT
  • BIOPOTENTIAL INTERPRETATION
  • ACKNOWLEDGMENT
  • 21. BIOMEDICAL SIGNAL ANALYSIS
  • INTRODUCTION
  • CLASSIFICATIONS OF SIGNALS AND NOISE
  • SPECTRAL ANALYSIS OF DETERMINISTIC AND STATIONARY RANDOM SIGNALS
  • SPECTRAL ANALYSIS OF NONSTATIONARY SIGNALS
  • PRINCIPAL COMPONENTS ANALYSIS
  • CROSS-CORRELATION AND COHERENCE ANALYSIS
  • CHAOTIC SIGNALS AND FRACTAL PROCESSES
  • 22. BIOMEDICAL SIGNAL PROCESSING
  • INTRODUCTION
  • GRAPH REPRESENTATION OF SIGNALS
  • OPTIMAL CLASSIFICATION ALGORITHM
  • EXAMPLES
  • CONCLUSION AND RESEARCH DIRECTIONS
  • ACKNOWLEDGMENT
  • 23. BIOSENSORS
  • INTRODUCTION
  • BIOLOGICAL SENSING MECHANISMS
  • TRANSDUCTION METHODS
  • MANUFACTURE OF BIOSENSORS
  • APPLICATIONS
  • CONCLUDING REMARKS
  • 24. BIO MICRO ELECTRO MECHANICAL SYSTEMS?BIOMEMS TECHNOLOGIES
  • INTRODUCTION
  • DESIGN OF BIOMEMS DEVICES
  • MEMS PROCESS STEPS
  • SURGICAL APPLICATIONS OF MEMS
  • MEMS IN DRUG-DELIVERY SYSTEMS
  • BIOELECTRIC INTERFACE DEVICES
  • APPLICATION OF BIOMEMS IN DIAGNOSTICS.

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