Biomedical Engineering HandbookCRC Press, 28 dic 1999 - 1656 pagine Category Biomedical Engineering Subcategory Contact Editor: Stern |
Sommario
An Outline of Cardiovascular Structure and Function Daniel J Schneck | 2-1 |
Principles of Electroencephalography Joseph D Bronzino 151 | 7-18 |
Endocrine System Derek G Cramp Ewart R Carson | 14-2 |
Nervous System Evangelia MicheliTzanakou | 14-3 |
Electric Stimulation of Excitable Tissue Dominique M Durand 7 1 | 16-7 |
Biomechanics Introduction Daniel J Schneck III1 | 17-23 |
Heart Valve Dynamics Aijt P Yoganathan Jack D Lemmon Jeffrey T Ellis 291 | 17-23 |
Biomaterials | 18-14 |
Introduction Craig S Henriquez II1 | 52-8 |
Imaging | 55-20 |
Volume Conductor Theory Robert Plonsey | 58-9 |
Introduction Karen M Mudry VII1 | 59-17 |
Magnetic Resonance Imaging | 63-2 |
Nuclear Medicine | 64-1 |
Ultrasound | 65-16 |
Magnetic Resonance Microscopy Xiaohong Zhou G Allan Johnson 661 | 66-1 |
Roland N Pittman 311 | 31-1 |
Introduction Joon B Park IV1 | 36-15 |
An Updated Overview | 41-7 |
Vision System George Stetten | 42-4 |
TissueDerived Biomaterials Collagen | 42-15 |
Auditory System Ben M Clopton Francis A Spelman | 43-5 |
The Gastrointestinal System Berj L Bardakjian | 43-6 |
Soft Tissue Replacements | 43-19 |
Respiratory System Arthur T Johnson Christopher G Lausted Joseph D Bronzino | 44-7 |
Hard Tissue Replacements | 44-23 |
Mechanics and Deformability of Hematocytes Richard E Waugh Robert M Hochmuth 321 | 44-32 |
The Venous System Artin A Shoukas Carl F Rothe 331 | 44-33 |
Preservation Techniques for Biomaterials Robin Coger Mehmet Toner 45 1 | 46-7 |
Biomedical Sensors | 46-23 |
Cardiac Pacing Historical Highlights Leslie A Geddes HP11 | 51-11 |
Biomedical Signal Analysis | 2-13 |
The Electrical Conductivity of Tissues Bradley J Roth 101 | 66-10 |
Membrane Models Anthony Varghese 111 | 66-11 |
Numerical Methods for Bioelectric Field Problems Christopher R Johnson 121 | 66-12 |
PositronEmission Tomography PET | 67-17 |
Electrical Impedance Tomography D C Barber 681 | 69-1 |
Principles of Electrocardiography Edward J Berbari 131 | 69-13 |
Principles of Electromyography KajAge Henneberg 141 | 69-14 |
Medical Instruments and Devices | 69-25 |
Implantable Stimulators for Neuromuscular Control Primoz Strojnik P Hunter Peckham 781 | 69-26 |
Edward Schuck 871 | 87-1 |
Recording of Action Potentials Leslie A Geddes HP31 | 88-11 |
Biologic Effects of Nonionizing Electromagnetic Fields Introduction Charles Polk IX1 | 3-13 |
Maria A Stuchly 901 | 90-1 |
Therapeutic Applications of LowFrequency Sinusoidal and Pulsed Electric and Magnetic Fields Charles Polk 911 | 91-1 |
In Vivo and In Vitro Experimental Results Edward Elson 921 | 92-1 |
Altre edizioni - Visualizza tutto
Parole e frasi comuni
acid action potential activity alloy amplitude analysis aortic applications arterial axis axon Bajpai basilar membrane Bioceramics biodegradable bioelectric biologic Biomaterials Biomech Biomechanics Biomed Biomedical Engineering bone cement calcium capillary carbon cardiac cartilage ceramics chemical clinical cochlea collagen components composite CRC Press deformation density devices effect elastic electrical electrode equation extracellular femoral fibers FIGURE fixation flow fluid frequency function human hydroxyapatite implant increase interface ions joint layer leaflets linear load lubrication lymphatics material matrix measured membrane metal method mitral modulus molecules muscle myocardium nerve neurons optical Orthop oxygen pacemaker Physiol physiologic polymeric polymers porous pressure prostheses protein receptor region resistance response sarcomere sensors shown in Fig signal solution stimulation strain stress structure studies surface sutures synovial synovial fluid synovial joint Table techniques temperature tissue vascular velocity ventricle ventricular viscoelastic vitro vivo voltage volume conductor wear