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基本説明
Combines engineering principles with biological systems so designers can develop products that monitor psychological functions and assist in the diagnosis and treatment of patients.
Full Description
The dynamic field of biomedical engineering has not only changed the way we live,but has even inspired the creation of more than one popular TV series (The Bionic Man) and a number of sci-fi movies. And it has touched us in other ways as well -- it made a household name of artificial heart recipient Barney Clark. The Standard Handbook of Biomedical Engineering bridges the gap between engineering principles and biological systems. Over 40 experts from universities and medical centers throughout North America and Israel have produced a practical reference for the biomedical professional who is seeking to solve a wide range of engineering and design problems, whether to enhance a diagnostic or therapeutic technique, reduce the cost of manufacturing a medical instrument or prosthetic device, improve the daily life of a patient with a disability, or increase the effectiveness of a hospital department.Coverage includes not only fundamental principles but also numerous recent advances in this fast moving discipline. The Handbook offers a breadth and depth of biomedical engineering coverage unmatched in any other reference.
Contents
PART 1Transfer Chapter 3: Physical and Flow Properties of Blood Chapter 4: Respiratory Mechanics and Gas Exchange Chapter 5: Biomechanics of Human Movement Chapter 6: Biomechanics of the Musculoskeletal System Chapter 7: Biodynamics: A Lagrangian Approach Chapter 8: Bone Mechanics Chapter 9: Finite-Element Analysis Chapter 10: Vibration, Mechanical Shock, and Impact PART 3: BIOMATERIALS Chapter 11: Biopolymers Chapter 12: Biomedical Composites Chapter 13: Bioceramics Chapter 14: Cardiovascular Biomaterials Chapter 15: Orthopedic Biomaterials Chapter 16: Biomaterials to Promote Tissue Regeneration PART 4: BIOELECTRICITY Chapter 17: Bioelectricity and Its DEVICES AND DIAGNOSTIC INSTRUMENTATION Chapter 19: Medical Product Design Chapter 20: Cardiovascular Devices Chapter 21: Design of Respiratory Devices Chapter 22: Design of Controlled-Release Drug Delivery Systems Chapter 23: Sterile Medical Device Package Development Chapter 24: Design of Magnetic Resonance Systems Chapter 25: Instrumentation Design for Ultrasonic Imaging Chapter 26: The Principles of X-Ray Computed Tomography Chapter 27: Nuclear Medicine Imaging Instrumentation Chapter 28: Breast Imaging Systems: Design Computer-Integrated Surgery and Medical Robotics PART 7: REHABILITATION ENGINEERING Chapter 30: Technology and Disabilities Chapter 31: Applied Universal Design Chapter 32: Design of Artificial Arms and Hands for Prosthetic Applications Chapter 33: Design of Artificial Limbs for Lower Extremity Amputees Chapter 34: Home Modification Design Chapter 35: Rehabilitators PART 8: CLINICAL ENGINEERING Chapter 36: Clinical Engineering Overview Chapter 37: Technology Planning for Health Care Institutions Chapter 38: An Overview of Health Care Facilities Planning Chapter 39: Department/Program Management IndexNER(01): WOW
