Biomedical engineering and design handbook

Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product. A State-of-the-Art Guide to Biomedical Engineering and Design Fundamentals and Applications The two-volume Biomedical Engineering and Design Handbook, Second Edition offers unsurpassed coverage of the entire biomedical engineering field, including fundamental concepts, design and development processes, and applications. This landmark work contains contributions on a wide range of topics from nearly 80 leading experts at universities, medical centers, and commercial and law firms. Volume 1 focuses on the basics of biomedical engineering, including biomedical systems analysis, biomechanics of the human body, biomaterials, and bioelectronics. Filled with more than 500 detailed illustrations, this superb volume provides the foundational knowledge required to understand the design and development of innovative devices, techniques, and treatments. Volume 1 covers: Modeling and Simulation of Biomedical Systems Bioheat Transfer Physical and Flow Properties of Blood Respiratory Mechanics and Gas Exchange Biomechanics of the Respiratory Muscles Biomechanics of Human Movement Biomechanics of the Musculoskeletal System Biodynamics Bone Mechanics Finite Element Analysis Vibration, Mechanical Shock, and Impact Electromyography Biopolymers Biomedical Composites Bioceramics Cardiovascular Biomaterials Dental Materials Orthopaedic Biomaterials Biomaterials to Promote Tissue Regeneration Bioelectricity Biomedical Signal Analysis Biomedical Signal Processing Intelligent Systems and Bioengineering BioMEMS

Biomechanical Systems Analysis Modeling & Simulation of Biomedical Systems Biomechanics of the Human Body Biofluid Mechanics Bioheat Transfer Physical and Flow Properties of Blood Cardiovascular Biomechanics Respiratory Mechanics and Gas Exchange Biomechanics of Nasal Breathing Biomechanics of Human Movement Biomechanics of the Musculoskelatal System Biodynamics Bones Mechanics Finite Element Analysis Vibration, Mechanical Shock, and Impact Biomaterials Biopolymers Biocomposites Bioceramics Cardiovascular BiomaterialsDental BiomaterialsBiomaterials to Promote Tissue RegenerationBioelectronicsBioelectricity and Its MovementBiomedical Signal AnalysisBiomedical Signal ProcessingBiomedical Sensors

Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product. A State-of-the-Art Guide to Biomedical Engineering and Design Fundamentals and Applications The two-volume Biomedical Engineering and Design Handbook, Second Edition, offers unsurpassed coverage of the entire biomedical engineering field, including fundamental concepts, design and development processes, and applications. This landmark work contains contributions on a wide range of topics from nearly 80 leading experts at universities, medical centers, and commercial and law firms. Volume 2 provides timely information on breakthrough developments in medical device design, diagnostic equipment design, surgery, rehabilitation engineering, prosthetics design, and clinical engineering. Filled with more than 400 detailed illustrations, this definitive volume examines cutting-edge design and development methods for innovative devices, techniques, and treatments. Volume 2 covers: Medical Product Design FDA Medical Device Requirements Cardiovascular Devices Design of Respiratory Devices Design of Artificial Kidneys Design of Controlled-Release Drug Delivery Systems Sterile Medical Device Package Development Design of Magnetic Resonance Systems Instrumentation Design for Ultrasonic Imaging The Principles of X-Ray Computed Tomography Nuclear Medicine Imaging Instrumentation Breast Imaging Systems Surgical Simulation Technologies Computer-Integrated Surgery and Medical Robotics Technology and Disabilities Applied Universal Design Design of Artificial Arms and Hands for Prosthetic Applications Design of Artificial Limbs for Lower Extremity Amputees Wear of Total Knee and Hip Joint Replacements Home Modification Design Intelligent Assistive Technology Rehabilitators Risk Management in Healthcare Technology Planning for Healthcare Institutions Healthcare Facilities Planning Healthcare Systems Engineering Enclosed Habitat Life Support

Medical Device Design Software Tools for Problem-Solving Safety and Liability Issues in Medical Device Design FDA Medical Device Requirements Design of Cardiovascular Devices Design of Respiratory Devices Design of Artificial Kidneys Design of Controlled Release Drug Delivery Systems Sterile Medical Device Package Development Diagnostic Equipment Design Design of Magnetic Resonance Systems Instrumentation Design for Ultrasonic Imaging Design of Medical X-Ray Systems Principles of X-Ray Computed Tomography PET Instrumentation Design Nuclear Medicine Imaging Instrumentation Breast Imaging Systems Design Therapy & Surgery Reproductive Bioengineering Numerical Simulation of a Thermal-Based Therapy Design Process for Emerging Surgical Technologies Medical Imagery for Computer-Aided Surgery Computer Integrated Surgery and Medical Robotics Rehabilitation Engineering and Prosthetics Design Applied Universal Design Design of Artificial Arms & Hands Design of Artificial Limbs for Lower Extremity Amputees Engineering Aspects of Artificial Hips Design of Knee Replacements Home Modification Design Wheeled Mobility Design Rehabilitators Clinical Engineering Technology Planning for Health Care Institutions Health Care Facilities Planning Dept/Program Management International Safety Standards and Regulations

A State-of-the-Art Guide to Biomedical Engineering and Design Fundamentals and Applications The two-volume Biomedical Engineering and Design Handbook, Second Edition offers unsurpassed coverage of the entire biomedical engineering field, including fundamental concepts, design and development processes, and applications. This landmark work contains contributions on a wide range of topics from nearly 80 leading experts at universities, medical centers, and commercial and law firms. Volume 1 focuses on the basics of biomedical engineering, including biomedical systems analysis, biomechanics of the human body, biomaterials, and bioelectronics. Filled with more than 500 detailed illustrations, this superb volume provides the foundational knowledge required to understand the design and development of innovative devices, techniques, and treatments. Volume 2 provides timely information on breakthrough developments in medical device design, diagnostic equipment design, surgery, rehabilitation engineering, prosthetics design, and clinical engineering. Filled with more than 400 detailed illustrations, this definitive volume examines cutting-edge design and development methods for innovative devices, techniques, and treatments. Volume 1 covers: Modeling and Simulation of Biomedical Systems Bioheat Transfer Physical and Flow Properties of Blood Respiratory Mechanics and Gas Exchange Biomechanics of the Respiratory Muscles Biomechanics of Human Movement Biomechanics of the Musculoskeletal System Biodynamics Bone Mechanics Finite Element Analysis Vibration, Mechanical Shock, and Impact Electromyography Biopolymers Biomedical Composites Bioceramics Cardiovascular Biomaterials Dental Materials Orthopaedic Biomaterials Biomaterials to Promote Tissue Regeneration Bioelectricity Biomedical Signal Analysis Biomedical Signal Processing Intelligent Systems and Bioengineering BioMEMS Volume 2 covers: Medical Product Design FDA Medical Device Requirements Cardiovascular Devices Design of Respiratory Devices Design of Artificial Kidneys Design of Controlled-Release Drug Delivery Systems Sterile Medical Device Package Development Design of Magnetic Resonance Systems Instrumentation Design for Ultrasonic Imaging The Principles of X-Ray Computed Tomography Nuclear Medicine Imaging Instrumentation Breast Imaging Systems Surgical Simulation Technologies Computer-Integrated Surgery and Medical Robotics Technology and Disabilities Applied Universal Design Design of Artificial Arms and Hands for Prosthetic Applications Design of Artificial Limbs for Lower Extremity Amputees Wear of Total Knee and Hip Joint Replacements Home Modification Design Intelligent Assistive Technology Rehabilitators Risk Management in Healthcare Technology Planning for Healthcare Institutions Healthcare Facilities Planning Healthcare Systems Engineering Enclosed Habitat Life Support

Preface Preface to the First Edition Part 1 Biomedical Systems Analysis Chapter 1. Modeling of Biomedical Systems Narender P. Reddy Part 2 Biomechanics of the Human Body Chapter 2. Heat Transfer Applications in Biological Systems Liang Zhu Chapter 3. Physical and Flow Properties of Blood David Elad and Shmuel Einav Chapter 4. Respiratory Mechanics and Gas Exchange James B. Grotberg Chapter 5. Biomechanics of the Respiratory Muscles Anat Ratnovsky, Pinchas Halpern, and David Elad Chapter 6. Biomechanics of Human Movement Kurt T. Manal and Thomas S. Buchanan Chapter 7. Biomechanics of the Musculoskeletal System Marcus G. Pandy, Jonathan S. Merritt, and Ronald E. Barr Chapter 8. Biodynamics: A Lagrangian Approach Donald R. Peterson and Ronald S. Adrezin Chapter 9. Bone Mechanics Tony M. Keaveny, Elise F. Morgan, and Oscar C. Yeh Chapter 10. Finite-Element Analysis Michael D. Nowak Chapter 11. Vibration, Mechanical Shock, and Impact Anthony J. Brammer and Donald R. Peterson Chapter 12. Electromyography as a Tool to Estimate Muscle Forces Qi Shao and Thomas S. Buchanan Part 3 Biomaterials Chapter 13. Biopolymers Christopher Batich and Patrick Leamy Chapter 14. Biomedical Composites Arif Iftekhar Chapter 15. Bioceramics David H. Kohn Chapter 16. Cardiovascular Biomaterials Roger W. Snyder and Michael N. Helmus Chapter 17. Dental Biomaterials Roya Zandparsa Chapter 18. Orthopedic Biomaterials Michele J. Grimm Chapter 19. Biomaterials to Promote Tissue Regeneration Nancy J. Meilander, Hyung-jung Lee, and Ravi V. Bellamkonda Part 4 Bioelectronics Chapter 20. Bioelectricity and Its Measurement Bruce C. Towe Chapter 21. Biomedical Signal Analysis Jit Muthuswamy Chapter 22. Biomedical Signal Processing Hsun-Hsien Chang and Jose M. F. Moura Chapter 23. Biosensors Bonnie Pierson and Roger J. Narayan Chapter 24. Bio Micro Electro Mechanical Systems-BioMEMS Technologies Teena James, Manu Sebastian Mannoor, and Dentcho Ivanov Index Footnote ch09fn1 ch09fn2 Biomedical Engineering and Design Handbook, Volume II Copyright Page Dedication Contents Contributors Vision Statement Preface Preface to the First Edition Part 1 Medical Device Design Chapter 1. Medical Product Design James P. O'Leary Chapter 2. FDA Medical Device Requirements Robert Klepinski Chapter 3. Overview of Cardiovascular Devices Kenneth L. Gage and William R.Wagner Chapter 4. Design of Respiratory Devices David M. Shade and Arthur T. Johnson Chapter 5. Design of Artificial Kidneys Narender P. Reddy Chapter 6. Design of Controlled-Release Drug Delivery Systems Steve I. Shen, Shilditya Bhattacharya, Bhaskara R. Jasti, and Xiaoling Li Chapter 7. Sterile Medical Device Package Development Patrick J. Nolan Part 2 Diagnostic Equipment Design Chapter 8. Design of Magnetic Resonance Systems Daniel J. Schaefer Chapter 9. Instrumentation Design for Ultrasonic Imaging Kai E. Thomenius Chapter 10. The Principles of X-Ray Computed Tomography Peter Rockett and Ge Wang Chapter 11. Nuclear Medicine Imaging Instrumentation Mark Madsen Chapter 12. Breast Imaging Systems: Design Challenges for Engineers Mark B. Williams and Laurie L. Fajardo Part 3 Surgery Chapter 13. Surgical Simulation Technologies M. Cenk Cavusoglu Chapter 14. Computer-Integrated Surgery and Medical Robotics Russell Taylor and Leo Joskowicz Part 4 Rehabilitation Engineering and Prosthetics Design Chapter 15. Technology and Disabilities Albert M. Cook Chapter 16. Applied Universal Design Ronald S. Adrezin Chapter 17. Home Modification Design Blair A. Rowley Chapter 18. Intelligent Assistive Technology Julie S. Weber, Martha Pollack, Brett Clippingdale, and Mark Hodges Chapter 19. Rehabilitators David J. Reinkensmeyer Chapter 20. The Design of Artificial Arms and Hands for Prosthetic Applications Richard F. Weir and Jonathon W. Sensinger Chapter 21. Design of Artificial Limbs for Lower Extremity Amputees M. Barbara Silver-Thorn Chapter 22. Wear of Total Hip and Knee Joint Replacements Mohsen Mosleh and Jorge F. Arinez Part 5 Clinical Engineering Chapter 23. Clinical Engineering Overview Alfred Dolan Chapter 24. Risk Management in Clinical Engineering Alfred Dolan and Stan Mastrangelo Chapter 25. Technology Planning for Health Care Institutions John M. Smith and Daniela Crivianu-Gaita Chapter 26. An Overview of Health Care Facilities Planning John Michael Currie Chapter 27. Healthcare Systems Engineering Sandra K. Garrett and Barrett S. Caldwell Chapter 28. Enclosed Habitat Life Support Tom Filburn, Joe Genovese, and John Graf Index Footnote foot1 foot2 foot3 foot4 foot5 foot6 foot7 foot8 foot9 foot10 foot11 foot12 foot13 foot14 foot15 foot16 foot17 foot18 foot19 foot20 foot21 foot22 foot23 foot24 foot25 foot26 foot27 foot28 foot29 foot30 foot31 foot32 foot33 foot34 foot35 foot36 foot37 foot38 foot39 foot40 foot41 foot42 foot43 foot44 foot45 foot46 foot47 foot48 foot49 foot50