목차
Biomedical Engineering Fundamentals
SECTION I
Physiologic Systems
Herbert F. Voigt
1 An Outline of Cardiovascular Structure and Function
Daniel J. Schneck 1-1
2 Endocrine System
Derek G. Cramp, Ewart R. Carson 2-1
3 Nervous System
Evangelia Micheli- Tzanakou, Anette Nievies 3-1
4 Vision System
George D. Steffen 4-1
5 Auditory System
Ben M. Clopton, Herbert F. Voigt 5-1
6 Gastrointestinal System
Berj 1. Bardakjian 6-1
7 Respiratory System
Arthur T. Johnson, Christopher G. Lausted, Joseph D. Bronzino 7-1
SECTION II
Physiological Modeling, Simulation, and Control
Joseph L. Palladino
8 Modeling Strategies and Cardiovascular Dynamics
Joseph 1. Palladino, Gary M. Drzewiecki, Abraham Noordergraaf 8-1
9 Compartmental Models of Physiologic Systems
Claudio Cobelli, Giovanni Sparacino, Andrea Caumo, Maria Pia Saccomani,
Gianna Maria Toffolo 9-1
10 Cardiovascular Models and Control
Fernando Casas, William D. Timmons 10-1
11 Respiratory Models and Control
Chi-Sang Poon 11-1
12 Neural Networks for Physiological Control
James J. Abbas 12-1
13 Methods and Tools for Identification of Physiologic
Systems
Vasilis Z. Marmarelis 13-1
14 Autoregulating Windkessel Dynamics May Cause Low Frequency Oscillations
Gary M. Drzewiecki, John K-J. Li, Abraham Noordergraaf 14-1
15 External Control of Movements
Dejan B. Popovic, Mirjana B. Popovic 15-1
16 The Fast Eye Movement Control System
John D. Enderle 16-1
17 A Comparative Approach to Analysis and Modeling of Cardiovascular
Function
John K-]. Li, Ying Zhu, Abraham Noordergraaf 17-1
18 Cardiopulmonary Resuscitation: Biomedical and Biophysical Analyses
Gerrit]. Noordergraaf, Johnny T. Ottesen, Gert]. Scheffer, Wil H.A. Schilders,
Abraham Noordergraaf 18-1
SECTION III
Bioelectric Phenomena
William M. Smith
19 Basic Electrophysiology
Roger C. Barr 19-1
20 Volume Conductor Theory
Robert Plonsey 20-1
21 The Electrical Conductivity of Tissues
Bradley]. Roth 21-1
22 Membrane Models
Anthony Varghese 22-1
23 Computational Methods and Software for Bioelectric Field Problems
Christopher R. Johnson 23-1
24 Principles of Electrocardiography
Edward J. Berbari 24-1
25 Principles of Electromyography
Kaj-Age Henneberg 25-1
26 Principles of Electroencephalography
Joseph D. Bronzino 26-1
27 Biomagnetism
Jaakko Malmivuo 27-1
28 Electrical Stimulation of Excitable Systems ,
Dominique M. Durand 28-1
SECTION IV
N euroengineering
Daniel J. DiLorenzo, CedricF. Walker, Ross Davis
29 History and Overview of Neural Engineering
Daniel]. DiLorenzo, Robert E. Gross 29-1
30 Electrical Stimulation of the Central Nervous System
Warren M. Grill 30-1
31 Transcutaneous FES for Ambulation: The Parastep System
Daniel Graupe 31-1
32 Comparing Electrodes for Use as Cortical Control Signals: Tiny Tines,
Tiny Wires, or Tiny Cones on Wires: Which Is Best?
Philip R. Kennedy 32-1
33 Development of a Multi-Functional 22-Channel Functional Electrical
Stimulator for Paraplegia
Ross Davis, T. Houdayer, T. Johnston, B. Smith, R. Betz, A. Barriskill 33-1
34 An Implantable Bionic Network of Injectable Neural Prosthetic
Devices: The Future Platform for Functional Electrical Stimulation and Sensing to Restore Movement and Sensation
Joe Schulman, Phil Mobley, James Wolfe, Ross Davis, Isabel Arcos 34-1
35 Visual Prostheses
Robert]. Greenberg 35-1
36 Interfering with the Genesis and Propagation of Epileptic Seizures by
N euromodulation
Ana Luisa Velasco, Francisco Velasco, Fiacro Jimenez, Marcos Velasco 36-1
37 Transcranial Magnetic Stimulation of Deep Brain Regions
Yiftach Roth, Abraham Zangen 37-1
SECTION V
Biomaterials
Joyce Y. Wong
38 Metallic Biomaterials
Joon B. Park, Young Kon Kim 38-1
39 Ceramic Biomaterials
W C. Billotte 39-1
40 Polymeric Biomaterials
Hai Bang Lee, Gilson Khang, Jin Ho Lee 40-1
41 Composite Biomaterials
Roderic S. Lakes 41-1
42 Biodegradable Polymeric Biomaterials: An Updated Overview
Chih-Chang Chu 42-1
43 Biologic Biomaterials: Tissue-Derived Biomaterials (Collagen)
Shu- Tung Li 43-1
44 Soft Tissue Replacements
K.B. Chandran, K.].L. Burg, S. W Shalaby 44-1
45Hard Tissue Replacements
Sang-Hyun Park, Adolfo Llinas, Vijay K. Goel, J.e. Keller 45-1
46Controlling and Assessing Cell-Biomaterial Interactions at the Micro
and Nanoscale: Applications in Tissue Engineering
Jessica Kaufman, Joyce Y. Wong, Catherine Klapperich 46-1
SECTION VI
Biomechanics
Donald R. Peterson
47 Mechanics of Hard Tissue
J. Lawrence Katz 47-1
48 Musculoskeletal Soft Tissue Mechanics
Richard 1. Lieber, Thomas J. Burkholder 48-1
49 Joint-Articulating Surface Motion
KentonR. Kaufma1(l,Kai-NanAn 49-1
50 Joint Lubrication
Michael J. Furey 50-1
51 Analysis of Gait
Roy B. Davis, III, Sylvia Ounpuu, Peter A. DeLuca 51-1
52 Mechanics of Head/Neck
Albert 1. King, David e. Viano 52-1
53 Biomechanics of Chest and Abdomen Impact
David e. Viano, Albert 1. King 53-1
54 Cardiac Biomechanics
Andrew D. McCulloch 54-1
55 Heart Valve Dynamics
Ajit P. Yoganathan, Jack D. Lemmon, Jeffrey T. Ellis 55-1
56 Arterial Macrocirculatory Hemodynamics
Baruch B. Lieber - 56-1
57 Mechanics of Blood Vessels
Thomas R. Canfield, Philip B. Dobrin 57-1
58 The Venous System
Artin A. Shoukas, Carl F. Rothe 58-1
59 Mechanics, Molecular Transport, and Regulation in
the Microcirculation
Aleksander S. Popel, Roland N. Pittman 59-1
60 Mechanics and Deformability of Hematocytes
Richard E. Waugh, Robert M. Hochmuth 60-1
61 Mechanics of Tissue/Lymphatic Transport
Geert w: Schmid-Schonbein, Alan R. Hargens 61-1
62 Modeling in Cellular Biomechanics
Alexander A. Spector, Roger Tran-Son- Tay 62-1
63 Cochlear Mechanics
Charles R. Steele, Gary J. Baker, Jason A. Tolomeo, Deborah E. Zetes- Tolomeo 63-1
64 Vestibular Mechanics
Wallace Grant 64-1
65Exercise Physiology
Arthur T. Johnson, Cathryn R. DooZy 65-1
66Factors Affecting Mechanical Work in Humans
Ben F. Hurley, Arthur T. Johnson 66-1
I SECTION VII
Rehabilitation Engineering
Charles J. Robinson
67 Rehabilitation Engineering, Science, and Technology
Charles J. Robinson 67-1
68 Orthopedic Prosthetics and Orthotics in Rehabilitation
Marilyn Lord, Alan Turner-Smith 68-1
69 Wheeled Mobility: Wheelchairs and Personal Transportation
Rory A. Cooper 69-1
70 Externally Powered and Controlled Orthoses and Prostheses
Dejan B. Popovic 70-1
71 Sensory Augmentation and Substitution
Kurt A. Kaczmarek 71-1
72 Augmentative and Alternative Communication
Barry Romich, Gregg Vanderheiden, Katya Hill 72-1
73 Measurement Tools and Processes in Rehabilitation Engineering
George V Kondraske 73-1
74 Rehabilitation Engineering Technologies: Principles of Application
Douglas Hobson, Elaine Trefler 74-1
SECTION VIII
Human Performance Engineering
George V. Kondraske
75 The Elemental Resource Model for Human Performance
George V Kondraske 75-1
76 Measurement of Neuromuscular Performance Capacities
Susan S. Smith 76-1
77 Measurement of Sensory-Motor Control Performance Capacities:
Tracking Tasks
Richard D. Jones 77-1
78 Measurement of Information-Processing Subsystem Performance Capacities
George V Kondraske, Paul J. Vasta 78-1
79 High-Level Task Analysis: Cognitive Components
Kenneth J. Maxwell 79-1
80 Task Analysis and Decomposition: Physical Components
Sheik N. Imrhan 80-1
81 Human-Computer Interaction Design
Kenneth]. Maxwell 81-1
82 Applications of Human Performance Measurements to Clinical Trials
to Determine Therapy Effectiveness and Safety
Pamela]. Hoyes Beehler, Karl Syndulko 82-1
83 Applications of Quantitative Assessment of Human Performance in Occupational Medicine
Mohamad Parnianpour 83-1
84 Human Performance Engineering Design and Analysis Tools
Paul J. Vasta, George v: Kondraske 84-1
85 Human Performance Engineering: Challenges and Prospects for the
Future
George v: Kondraske 85-1
SECTION IX
Ethics
Joseph D. Bronzino
86 Beneficence, Nonmaleficence, and Medical Technology
Joseph D. Bronzino 86-1
87 Ethical Issues Related to Clinical Research
Joseph D. Bronzino 87-1
Index I-I