Standard Handbook of Biomedical Engineering & Design
by: Myer Kutz
Abstract: Biomedical Engineers’ Handbook combines engineering principles with biological systems, assisting designers to develop products that monitor psychological functions and to assist in the diagnosis and treatment of patients. This is the first handbook on the subject to address fully all major topics in the field, providing the reader with the most comprehensive single-source handbook to the subject ever published.
Full details
Table of Contents
- A. PREFACE
- 1. MODELING AND SIMULATION OF BIOMEDICAL SYSTEMS
- 2. BIOHEAT TRANSFER
- 3. PHYSICAL AND FLOW PROPERTIES OF BLOOD
- 4. RESPIRATORY MECHANICS AND GAS EXCHANGE
- 5. BIOMECHANICS OF HUMAN MOVEMENT
- 6. BIOMECHANICS OF THE MUSCULOSKELETAL SYSTEM
- 7. BIODYNAMICS: A LAGRANGIAN APPROACH
- 8. BONE MECHANICS
- 9. FINITE-ELEMENT ANALYSIS
- 10. VIBRATION, MECHANICAL SHOCK, AND IMPACT
- 11. BIOPOLYMERS
- 12. BIOMEDICAL COMPOSITES
- 13. BIOCERAMICS
- 14. CARDIOVASCULAR BIOMATERIALS
- 15. ORTHOPEDIC BIOMATERIALS
- 16. BIOMATERIALS TO PROMOTE TISSUE REGENERATION
- 17. BIOELECTRICITY AND ITS MEASUREMENT
- 18. BIOMEDICAL SIGNAL ANALYSIS
- 19. MEDICAL PRODUCT DESIGN
- 20. CARDIOVASCULAR DEVICES
- 21. DESIGN OF RESPIRATORY DEVICES
- 22. DESIGN OF CONTROLLED-RELEASE DRUG DELIVERY SYSTEMS
- 23. STERILE MEDICAL DEVICE PACKAGE DEVELOPMENT
- 24. DESIGN OF MAGNETIC RESONANCE SYSTEMS
- 25. INSTRUMENTATION DESIGN FOR ULTRASONIC IMAGING
- 26. THE PRINCIPLES OF X-RAY COMPUTED TOMOGRAPHY
- 27. NUCLEAR MEDICINE IMAGING INSTRUMENTATION
- 28. BREAST IMAGING SYSTEMS: DESIGN CHALLENGES FOR ENGINEERS
- 29. COMPUTER-INTEGRATED SURGERY AND MEDICAL ROBOTICS
- 30. TECHNOLOGY AND DISABILITIES
- 31. APPLIED UNIVERSAL DESIGN
- 32. DESIGN OF ARTIFICIAL ARMS AND HANDS FOR PROSTHETIC APPLICATIONS
- 33. DESIGN OF ARTIFICIAL LIMBS FOR LOWER EXTREMITY AMPUTEES
- 34. HOME MODIFICATION DESIGN
- 35. REHABILITATORS
- 36. CLINICAL ENGINEERING OVERVIEW
- 37. TECHNOLOGY PLANNING FOR HEALTH CARE INSTITUTIONS
- 38. AN OVERVIEW OF HEALTH CARE FACILITIES PLANNING
- 39. DEPARTMENT/PROGRAM MANAGEMENT
- A. ABOUT THE EDITOR
Tools & Media
Expanded Table of Contents
- A. PREFACE
- 1. MODELING AND SIMULATION OF BIOMEDICAL SYSTEMS
- 2. BIOHEAT TRANSFER
- 3. PHYSICAL AND FLOW PROPERTIES OF BLOOD
- 4. RESPIRATORY MECHANICS AND GAS EXCHANGE
- 5. BIOMECHANICS OF HUMAN MOVEMENT
- 6. BIOMECHANICS OF THE MUSCULOSKELETAL SYSTEM
- 7. BIODYNAMICS: A LAGRANGIAN APPROACH
- 8. BONE MECHANICS
- 9. FINITE-ELEMENT ANALYSIS
- 10. VIBRATION, MECHANICAL SHOCK, AND IMPACT
- 11. BIOPOLYMERS
- 12. BIOMEDICAL COMPOSITES
- 13. BIOCERAMICS
- 14. CARDIOVASCULAR BIOMATERIALS
- 15. ORTHOPEDIC BIOMATERIALS
- 16. BIOMATERIALS TO PROMOTE TISSUE REGENERATION
- 17. BIOELECTRICITY AND ITS MEASUREMENT
- 18. BIOMEDICAL SIGNAL ANALYSIS
-
19.
MEDICAL PRODUCT DESIGN
- INTRODUCTION/OVERVIEW
- SCOPE
- QUALITIES OF SUCCESSFUL PRODUCT DESIGN
- CONCURRENT ENGINEERING
- GOALS
- TEAM/TALENT
- PLANNING/RESOURCES
- DEVELOPING USER NEEDS
- PRODUCT SPECIFICATIONS
- CONCEPT DEVELOPMENT
- CONCEPT EVALUATION
- ARCHITECTURE/SYSTEM DESIGN
- DETAIL DESIGN
- DESIGN FOR MANUFACTURE
- ROLLOUT
- PROCESS REVIEW
- PROTOTYPING
- TESTING
- DOCUMENTATION
- TOOLS
- REGULATORY ISSUES
- CLOSURE
- 20. CARDIOVASCULAR DEVICES
- 21. DESIGN OF RESPIRATORY DEVICES
-
22.
DESIGN OF CONTROLLED-RELEASE DRUG DELIVERY SYSTEMS
- PHYSICOCHEMICAL PROPERTIES OF DRUG
- ROUTES OF DRUG ADMINISTRATION
- PHARMACOLOGICAL AND BIOLOGICAL EFFECTS
- PRODRUG
- DIFFUSION-CONTROLLED DELIVERY SYSTEMS
- DISSOLUTION/COATING-CONTROLLED DELIVERY SYSTEMS
- BIODEGRADABLE/ERODIBLE DELIVERY SYSTEMS
- OSMOTIC PUMP
- ION EXCHANGE RESINS
- NEW MACROMOLECULAR DELIVERY APPROACHES
- CONCLUSION
- 23. STERILE MEDICAL DEVICE PACKAGE DEVELOPMENT
- 24. DESIGN OF MAGNETIC RESONANCE SYSTEMS
- 25. INSTRUMENTATION DESIGN FOR ULTRASONIC IMAGING
- 26. THE PRINCIPLES OF X-RAY COMPUTED TOMOGRAPHY
- 27. NUCLEAR MEDICINE IMAGING INSTRUMENTATION
- 28. BREAST IMAGING SYSTEMS: DESIGN CHALLENGES FOR ENGINEERS
- 29. COMPUTER-INTEGRATED SURGERY AND MEDICAL ROBOTICS
- 30. TECHNOLOGY AND DISABILITIES
- 31. APPLIED UNIVERSAL DESIGN
- 32. DESIGN OF ARTIFICIAL ARMS AND HANDS FOR PROSTHETIC APPLICATIONS
- 33. DESIGN OF ARTIFICIAL LIMBS FOR LOWER EXTREMITY AMPUTEES
- 34. HOME MODIFICATION DESIGN
- 35. REHABILITATORS
- 36. CLINICAL ENGINEERING OVERVIEW
- 37. TECHNOLOGY PLANNING FOR HEALTH CARE INSTITUTIONS
- 38. AN OVERVIEW OF HEALTH CARE FACILITIES PLANNING
-
39.
DEPARTMENT/PROGRAM MANAGEMENT
-
A.
ABOUT THE EDITOR
Book Details
Title: Standard Handbook of Biomedical Engineering & Design
Publisher: McGRAW-HILL: New York, Chicago, San Francisco, Lisbon, London, Madrid, Mexico City, Milan, New Delhi, San Juan, Seoul, Singapore, Sydney, Toronto
Copyright / Pub. Date: 2003 The McGraw-Hill Companies, Inc.
ISBN: 9780071356374
Authors:
Myer Kutz is the author of this McGraw-Hill Professional publication.
Description: Biomedical Engineers’ Handbook combines engineering principles with biological systems, assisting designers to develop products that monitor psychological functions and to assist in the diagnosis and treatment of patients. This is the first handbook on the subject to address fully all major topics in the field, providing the reader with the most comprehensive single-source handbook to the subject ever published.
Required field
