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Biomedical Engineering Fundamentals - Joseph D. Bronzino, Donald R. Peterson

Biomedical Engineering Fundamentals

Buch | Hardcover
1560 Seiten
2006
Crc Press Inc (Verlag)
978-0-8493-2121-4 (ISBN)
CHF 249,65 inkl. MwSt
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Presents a survey of the major areas that constitute modern biomedical engineering. Beginning with an overview of physiology and physiological modeling, simulation, and control, this book explores bioelectric phenomena, biomaterials, biomechanics, rehabilitation and human performance engineering, and ethical issues.
Over the last century,medicine has come out of the “black bag” and emerged as one of the most dynamic and advanced fields of development in science and technology. Today, biomedical engineering plays a critical role in patient diagnosis, care, and rehabilitation. As such, the field encompasses a wide range of disciplines, from biology and physiology to informatics and signal processing. Reflecting the enormous growth and change in biomedical engineering during the infancy of the 21st century, The Biomedical Engineering Handbook enters its third edition as a set of three carefully focused and conveniently organized books. The first installment, Biomedical Engineering Fundamentals provides a concise survey of the major areas that constitute modern biomedical engineering. Beginning with an overview of physiology and physiological modeling, simulation, and control, the book explores bioelectric phenomena, biomaterials, biomechanics, rehabilitation and human performance engineering, and ethical issues. Preeminent experts from around the world share their expertise with many new and updated chapters representing state-of-the-art technologies and practices. A new section on neuroengineering rounds out the coverage.

With sharp focus and authoritative coverage, Biomedical Engineering Fundamentals is an ideal introduction for anyone new to the field, a convenient reference for seasoned professionals, and a valuable introductory textbook.

Physiologic Systems; Herbert F. Voigt
An Outline of Cardiovascular Structure and Function; Daniel J. Schneck
Endocrine System; Derek G. Cramp and Ewart R. Carson
Nervous System; Evangelia Micheli-Tzanakou and Annette Nievies
Vision System; George D. Stetten
Auditory System; Ben M. Clopton and Herbert F. Voigt
Gastrointestinal System; Berj L. Bardakjiari
Respiratory System; Arthur T. Johnson, Christopher G. Lausted, Joseph D. Bronzino
Physiological Modeling, Simulation, and Control; Joseph L. Palladino
Modeling Strategies and Cardiovascular Dynamics; Joseph L. Palladino, Gary M. Drzewiecki, and Abraham Noordergraaf
Compartmental Models of Physiologic Systems; Claudio Cobelli, Giovanni Sparacino,Maria Pia Saccomani, Gianna Maria Toffolo, and Andrea Caumo
Cardiovascular Models and Control; William D. Timmons
Respiratory Models and Control; Chi-Sang Poon
Neural Networks for Physiological Control; James J. Abbas
Methods and Tools for Identification of Physiologic Systems; Vasilis Z. Marmarelis
Autoregulating Windkessel Dynamics May Cause Low Frequency Oscillations; Gary Drzewiecki, John K-J. Li, and Abraham Noordergraaf
External Control of Movements; Dejan B. Popović and Mirjana B. Popović
The Fast Eye Movement Control System; John Denis Enderle
A Comparative Approach to Analysis and Modeling of Cardiovascular Function; John K-J. Li, Ying Zhu, and Abraham Noordergraaf
Cardiopulmonary Resuscitation: Biomedical and Biophysical Analyses; Gerrit J. Noordergraaf, Johnny T. Ottesen, Gert Jan Scheffer,Wil H.A. Schilders, and Abraham Noordergraaf
Bioelectric Phenomena; William Smith
Basic Electrophysiology; Roger C. Barr
Volume Conductor Theory; Robert Plonsey
The Electrical Conductivity of Tissues; Bradley J. Roth
Membrane Models; Anthony Varghese
Numerical Methods for Bioelectric Field Problems; Christopher R. Johnson
Principles of Electrocardiography; Edward J. Berbari
Principles of Electromyography; Kaj-Åge Henneberg
Principles of Electroencephlography; Joseph D. Bronzino
Biomagnetism; Jaakko Malmivuo
Electrical Stimulation of Excitable Systems; Dominique M. Durand
Neuroengineering; Daniel J. DiLorenzo, Cedric F. Walker, and Ross Davis
History and Overview of Neural Engineering; Daniel DiLorenzo and Robert E. Gross
Electrical Stimulation of the Central Nervous System; Warren M. Grill
Transcutaneous FES for Ambulation: The Parastep System; Daniel Graupe
Comparing Electrodes for Use as Cortical Control Signals: Tiny Tines, Tiny Wires, or Tiny Cones on Wires: Which is Best? Philip R. Kennedy
Development of a Multi-Functional 22-Channel Functional Electrical Stimulator for Paraplegia; Ross Davis, T. Houdayer, T. Johnston, B. Smith, R. Betz, and A. Barriskill
An Implantable Bionic Network of Injectable Neural Prosthetic Devices: The Future Platform for Functional Electrical Stimulation and Sensing to Restore Movement and Sensation; J. Schulman, P. Mobley, J.Wolfe, R. Davis, and I. Arcos
Visual Prostheses; Robert J. Greenberg
Interfering with the Genesis and Propagation of Epileptic Seizures by Neuromodulation; Ana Luisa Velasco, Francisco Velasco, Fiacro Jiménez, and Marcos Velasco
Transcranial Magnetic Stimulation of Deep Brain Regions; Yiftach Roth and Abraham Zangen
Biomaterials; Joyce Y. Wong
Metallic Biomaterials; Joon B. Park and Young Kon Kim
Ceramic Biomaterials; W.C. Billotte
Polymeric Biomaterials; Hai Bang Lee, Gilson Khang, and Jin Ho Lee
Composite Biomaterials; Roderic S. Lakes
Biodegradable Polymeric Biomaterials: An Updated Overview; Chih-Chang Chu
Biologic Biomaterials: Tissue-Derived Biomaterials (Collagen); Shu-Tung Li
Soft Tissue Replacements; K.B. Chandran, K.J.L. Burg, and S.W. Shalaby
Hard Tissue Replacements; S-H. Park, A. Llinás, V.K. Goel, and J.C. Keller
Controlling and Assessing Cell–Biomaterial Interactions at the Micro- and Nanoscale: Applications in Tissue Engineering; Jessica Kaufman, Joyce Y.Wong, and Catherine Klapperich
Biomechanics; Donald R. Peterson
Mechanics of Hard Tissue; J. Lawrence Katz
Musculoskeletal Soft Tissue Mechanics; Richard L. Lieber, and Thomas J. Burkholder
Joint-Articulating Surface Motion; Kenton R. Kaufman, and Kai-Nan An
Joint Lubrication; Michael J. Furey
Analysis of Gait; Roy B. Davis, III, Sylvia Õunpuu, and Peter A. DeLuca
Mechanics of Head/Neck; Albert I. King and David C. Viano
Biomechanics of Chest and Abdomen Impact; David C. Viano and Albert I. King
Cardiac Biomechanics; Andrew D. McCulloch
Heart Valve Dynamics; Ajit P. Yoganathan, Jack D. Lemmon, and Jeffrey T. Ellis
Arterial Macrocirculatory Hemodynamics; Baruch B. Lieber
Mechanics of Blood Vessels; Thomas R. Canfield and Philip B. Dobrin
The Venous System; Artin A. Shoukas and Carl F. Rothe
Mechanics, Molecular Transport, and Regulation in the Microcirculation; Aleksander S. Popel and Roland N. Pittman
Mechanics and Deformability of Hematocytes; Richard E.Waugh and Robert M. Hochmuth
Mechanics of Tissue/Lymphatic Transport; GeertW. Schmid-Schönbein and Alan R. Hargens
Modeling in Cellular Biomechanics; Alexander A. Spector and Roger Tran-Son-Tay
Cochlear Mechanics; Charles R. Steele, Gary J. Baker, Jason A. Tolomeo and Deborah E. Zetes-Tolomeo
Vestibular Mechanics; Wallace Grant
Exercise Physiology; Arthur T. Johnson and Cathryn R. Dooly
Factors Affecting Mechanical Work in Humans; Ben F. Hurley and Arthur T. Johnson
Rehabilitation Engineering; Charles J. Robinson
Rehabilitation Engineering, Science, and Technology; Charles J. Robinson
Orthopedic Prosthetics and Orthotics in Rehabilitation; Marilyn Lord and Alan Turner-Smith
Wheeled Mobility: Wheelchairs and Personal Transportation; Rory A. Cooper
Externally Powered and Controlled Orthoses and Prostheses; Dejan B. Popović
Sensory Augmentation and Substitution; Kurt A. Kaczmarek
Augmentative and Alternative Communication; Barry Romich, Gregg Vanderheiden, and Katya Hill
Measurement Tools and Processes in Rehabilitation Engineering; George V. Kondraske
Rehabilitation Engineering Technologies: Principles of Application; Douglas Hobson and Elaine Trefler
Human Performance Engineering; George V. Kondraske
The Elemental Resource Model for Human Performance; George V. Kondraske
Measurement of Neuromuscular Performance Capacities; Susan S. Smith
Measurement of Sensory-Motor Control Performance Capacities: Tracking Tasks; Richard D. Jones
Measurement of Information-Processing Subsystem Performance Capacities; George V. Kondraske and Paul J. Vasta
High-Level Task Analysis: Cognitive Components; Kenneth J. Maxwell
Task Analysis and Decomposition: Physical Components; Sheik N. Imrhan
Human–Computer Interaction Design; Kenneth J. Maxwell
Applications of Human Performance Measurements to Clinical Trials to Determine Therapy Effectiveness and Safety; Pamela J. Hoyes Beehler and Karl Syndulko
Applications of Quantitative Assessment of Human Performance in Occupational Medicine; Mohamad Parianpour
Human Performance Engineering Design and Analysis Tools; Paul J. Vasta and George V. Kondraske
Human Performance Engineering: Challenges and Prospects for the Future; George V. Kondraske
Ethics; Joseph D. Bronzino
Beneficence, Nonmaleficence, and Medical Technology; Joseph D. Bronzino
Ethical Issues Related to Clinical Research; Joseph D. Bronzino Index

Erscheint lt. Verlag 14.4.2006
Reihe/Serie The Biomedical Engineering Handbook, Fourth Edition
Zusatzinfo 613 equations; 174 Tables, black and white; 538 Illustrations, black and white
Verlagsort Bosa Roca
Sprache englisch
Maße 178 x 254 mm
Gewicht 2064 g
Themenwelt Medizin / Pharmazie
Technik Medizintechnik
ISBN-10 0-8493-2121-2 / 0849321212
ISBN-13 978-0-8493-2121-4 / 9780849321214
Zustand Neuware
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