An introduction to biomedical optics:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York
Taylor & Francis
2007
|
| Schriftenreihe: | Series in optics and optoelectronics
3 |
| Schlagworte: | |
| Online-Zugang: | Table of contents only Publisher description Inhaltsverzeichnis |
| Beschreibung: | Includes bibliographical references and index |
| Beschreibung: | 602 S. graph. Darst. 25 cm |
| ISBN: | 9780750309387 0750309385 |
Internformat
MARC
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| 100 | 1 | |a Splinter, Robert |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a An introduction to biomedical optics |c R. Splinter, B. A. Hooper |
| 264 | 1 | |a New York |b Taylor & Francis |c 2007 | |
| 300 | |a 602 S. |b graph. Darst. |c 25 cm | ||
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| 490 | 1 | |a Series in optics and optoelectronics |v 3 | |
| 500 | |a Includes bibliographical references and index | ||
| 650 | 4 | |a Dispositifs électro-optiques | |
| 650 | 4 | |a Fibres optiques en médecine | |
| 650 | 4 | |a Génie biomédical | |
| 650 | 4 | |a Imagerie médicale | |
| 650 | 4 | |a Imagerie médicale - Appareils et matériel | |
| 650 | 4 | |a Lasers en médecine | |
| 650 | 4 | |a Optique | |
| 650 | 4 | |a Photothérapie | |
| 650 | 4 | |a Tomographie optique | |
| 650 | 4 | |a Optoelectronic devices | |
| 650 | 4 | |a Biomedicine | |
| 650 | 4 | |a Biotechnology | |
| 650 | 4 | |a Optical fibers in medicine | |
| 650 | 4 | |a Biomedical Technology | |
| 650 | 4 | |a Light | |
| 650 | 4 | |a Biophysics |x methods | |
| 650 | 4 | |a Optics | |
| 650 | 4 | |a Photobiology |x methods | |
| 650 | 0 | 7 | |a Biomedizinische Technik |0 (DE-588)4006882-1 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Photobiologie |0 (DE-588)4174474-3 |2 gnd |9 rswk-swf |
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Datensatz im Suchindex
| _version_ | 1804140799047237632 |
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| adam_text | SERIES IN OPTICS AND OPTOELECTRONICS AN INTRODUCTION TO BIOMEDICAL
OPTICS R SPLINTER ANALYTICA SCIENCES, INC. CONCORD, NORTH CAROLINA, USA
B A HOOPER ARETE ASSOCIATES ARLINGTON, VIRGINIA, USA ,) TAYLOR &
FRANCIS TAYLOR & FRANCIS GROUP NEW YORK LONDON TAYLOR & FRANCIS IS AN
IMPRINT OF THE TAYLOR & FRANCIS GROUP, AN INFORMA BUSINESS CONTENTS
SECTION I GENERAL BIOMEDICAL OPTICS THEORY 1 INTRODUCTION TO THE USE OF
LIGHT FOR DIAGNOSTIC AND THERAPEUTIC MODALITIES 3 1.1 WHAT IS BIOMEDICAL
OPTICS? 3 1.2 BIOMEDICAL OPTICS TIMELINE 4 1.2.1 ELEMENTARY OPTICAL
DISCOVERIES 4 1.2.2 DEVELOPMENT OF OPTICAL DEVICES 6 1.2.3 SCIENTIFIC
ADVANCEMENTS IN OPTICS THEORY 9 1.3 HISTORICAL EVENTS IN THERAPEUTIC AND
DIAGNOSTIC USE OF LIGHT 14 1.3.1 DEVELOPMENT OF THERAPEUTIC APPLICATIONS
OF LIGHT IN MEDICINE 14 1.3.1.1 DEVELOPMENT OF DIAGNOSTIC OPTICAL
APPLICATIONS 17 1.4 LIGHT SOURCES 18 1.5 CURRENT STATE OF THE ART 19 1.6
SUMMARY 20 2 REVIEW OF OPTICAL PRINCIPLES: FUNDAMENTAL ELECTROMAGNETIC
THEORY AND DESCRIPTION OF LIGHT SOURCES 23 2.1 DEFINITIONS IN OPTICS 23
2.2 KIRCHHOFF S LAWS OF RADIATION 27 2.2.1 PLANCK FUNCTION FOR BLACKBODY
RADIATION 28 2.3 ELECTROMAGNETIC WAVE THEORY 30 2.3.1 GAUSS S LAW 30
2.3.2 FARADAY S LAW 32 2.3.3 MAXWELL EQUATIONS 33 2.3.4 ENERGY AND
MOMENTUM OF ELECTROMAGNETIC WAVES 35 2.3.5 COHERENCE OF ELECTROMAGNETIC
WAVES 36 2.3.5.1 TEMPORAL COHERENCE 36 2.3.5.2 SPATIAL COHERENCE 37
2.3.6 INTERFERENCE OF ELECTROMAGNETIC WAVES 37 2.3.7 PHASE VELOCITY 38
2.3.8 GROUP VELOCITY 38 2.3.9 CAUCHY THEOREM 39 2.3.10 ELECTROMAGNETIC
WAVE SPECTRUM 42 2.3.10.1 TELEVISION AND RADIO WAVES 42 2.3.10.2
MICROWAVES WAVES 42 2.3.10.3 INFRARED WAVES 42 2.3.10.4 VISIBLE LIGHT
WAVES 42 2.3.10.5 ULTRAVIOLET WAVES 43 2.3.10.6 X-RAY WAVES 43 2.3.10.7
GAMMA RADIATION WAVES AND COSMIC RAYS 43 2.4 LIGHT SOURCES 44 2.4.1
BROADBAND LIGHT SOURCES 45 2.4.2 LASER OPERATION 46 2.4.2.1 EINSTEIN
POPULATION INVERSION 47 2.4.2.2 ACHIEVING A METASTABLE STATE 50 2.4.2.3
HARNESSING THE PHOTONS IN THE LASER MEDIUM 51 2.4.2.4 AMPLIFICATION 52
2.4.3 LASER LIGHT SOURCES 53 2.4.3.1 CHEMICAL LASER 53 2.4.3.2 DIODE
LASER OR SEMICONDUCTOR LASER 54 2.4.3.3 DYE LASER 55 2.4.3.4 GAS LASER
56 2.4.3.5 SOLID-STATE LASERS 57 2.4.3.6 FREE-ELECTRON LASER (FEL) 58
2.5 APPLICATIONS OF VARIOUS LASERS 61 2.6 SUMMARY 63 3 REVIEW OF OPTICAL
PRINCIPLES: CLASSICAL OPTICS 69 3.1 GEOMETRICAL OPTICS 69 3.1.1 HUYGENS
PRINCIPLE 70 3.1.2 LAWS OF GEOMETRICAL OPTICS 70 3.1.2.1 LAW OF
RECTILINEAR PROPAGATION 71 3.1.2.2 LAW OF REFLECTION 71 3.1.2.3 LAW OF
REFRACTION (SNELL S LAW) 72 3.1.2.4 LAW OF DIFFRACTION 73 3.1.2.5 LAW OF
CONSERVATION OF ENERGY 78 3.1.3 FERMAT S PRINCIPLE 78 3.1.4 RAY OPTICS
78 3.1.4.1 CRITICAL ANGLE 80 3.1.4.2 BREWSTER ANGLE OF POLARIZATION 80
3.1.4.3 LENS MAKERS EQUATION 82 3.1.4.4 OPTICAL INSTRUMENTS 84 3.2
OTHER OPTICAL PRINCIPLES 85 3.2.1 DISPERSION 85 3.3 QUANTUM PHYSICS 85
3.3.1 SCHROEDINGER EQUATION 86 3.4 GAUSSIAN OPTICS 87 3.4.1 MATRIX
METHODS IN GAUSSIAN OPTICS 88 3.4.2 FOURIER OPTICS 90 3.5 SUMMARY 91 4
REVIEW OF OPTICAL INTERACTION PROPERTIES 95 4.1 ABSORPTION AND
SCATTERING 95 4.1.1 LIGHT AND ATOM INTERACTION OVERVIEW 95 4.1.2
ABSORPTION 97 4.1.2.1 CLASSICAL THEORY OF ABSORPTION 97 4.1.2.2 LORENTZ
MODEL 98 4.1.2.3 BEER-LAMBERT-BOUGUER LAW OF ABSORPTION 99 4.1.3
SCATTERING 99 4.1.3.1 RAYLEIGH SCATTERING 99 4.1.4 MIE SCATTERING 101
4.1.4.1 SCATTERING PHASE FUNCTION 101 4.1.5 RAMAN SCATTERING 101 4.1.5.1
SIMPLE ATOM AND MOLECULE MODELS 102 4.1.5.2 MATERIAL POLARIZATION 109
4.1.5.3 BIOCHEMISTRY APPLICATIONS 114 4.2 DOPPLER EFFECT 115 4.3 SUMMARY
118 5 LIGHT-TISSUE INTERACTION VARIABLES 121 5.1 LASER VARIABLES 121
5.1.1 LASER POWER 121 5.1.2 LIGHT DELIVERY PROTOCOL 121 5.1.3 POWER
DENSITY PROFILE OF THE BEAM 125 5.1.4 GAUSSIAN BEAM PROFILE 126 5.1.5
TOP-HAT BEAM PROFILE 127 5.1.6 IRRADIATION SPOT SIZE 128 5.1.7 POWER
DENSITY AND ENERGY DENSITY OF A LIGHT SOURCE 129 5.1.8 LOCAL BEAM ANGLE
OF INCIDENCE WITH THE TISSUE 130 5.1.9 COLLIMATED OR DIFFUSE IRRADIATION
130 5.1.10 LIGHT WAVELENGTH 132 5.1.11 REPETITION RATE 132 5.1.12 PULSE
LENGTH 132 5.1.13 LIGHT DELIVERY PULSE MODULATION 132 5.2 TISSUE
VARIABLES 133 5.2.1 OPTICAL PROPERTIES OF THE TISSUE 133 5.2.1.1 TISSUE
INDEX OF REFRACTION 134 5.2.2 SURFACE CONTOUR 135 5.2.3 TISSUE
TEMPERATURE 135 5.2.4 THERMODYNAMIC TISSUE PROPERTIES 135 5.2.5 TISSUE
BLOOD FLOW AND BLOOD CONTENT 136 5.3 LIGHT TRANSPORTATION THEORY 137
5.3.1 THE TIME-DEPENDENT ANGULAR AND SPATIAL PHOTON ENERGY RATE
DISTRIBUTION 138 5.3.2 STEADY-STATE ANGULAR AND SPATIAL PHOTON ENERGY
RATE DISTRIBUTION 140 5.3.3 BOUNDARY CONDITIONS 140 5.3.4 RADIATION
DEFINITIONS FOR TURBID MEDIA 140 5.3.4.1 PHOTON POWER RELATED TO
RADIANCE 140 5.3.4.2 RADIANCE INCIDENT ON A VOLUME (FLUENCE RATE) 141
5.3.4.3 PHOTON POWER DENSITY IN MEDIUM 141 5.3.4.4 PHOTON RADIATIVE FLUX
141 5.3.4.5 PHOTON RADIATION PRESSURE 141 5.3.4.6 PENETRATION DEPTH 142
5.4 LIGHT PROPAGATION UNDER DOMINANT ABSORPTION 142 5.4.1 DESCRIPTION OF
ANGULAR DISTRIBUTION OF SCATTER 142 5.5 SUMMARY 146 5.6 NOMENCLATURE 146
6 LIGHT-TISSUE INTERACTION THEORY 155 6.1 APPROXIMATIONS OF THE EQUATION
OF RADIATIVE TRANSPORT 155 6.1.1 SPHERICAL-HARMONICS SUBSTITUTION METHOD
TO SOLVE THE EQUATION OF RADIATIVE TRANSPORT 155 6.1.1.1 TAYLOR
EXPANSION OF RADIANCE 156 6.1.2 DIFFUSION APPROXIMATION OF THE EQUATION
OF RADIATIVE TRANSFER 158 6.1.2.1 ISOTROPIE SOURCE SOLUTION 166 6.1.3
DISCRETE-ORDINATE METHOD FOR SOLVING THE EQUATION OF RADIATIVE TRANSPORT
166 6.1.3.1 TWO-FLUX THEORY 166 6.1.3.2 THREE-FLUX THEORY 173 6.1.3.3
SPECIAL SITUATION FOR INFINITE SLAB 176 6.1.4 LIGHT DISTRIBUTION UNDER
INFINITE WIDE BEAM IRRADIATION 177 6.1.5 NUMERICAL METHOD TO SOLVE THE
EQUATION OF RADIATIVE TRANSPORT 177 6.2 SUMMARY 177 7 NUMERICAL AND
DETERMINISTIC METHODS IN LIGHT-TISSUE INTERACTION THEORY 181 7.1
NUMERICAL METHOD TO SOLVE THE EQUATION OF RADIATIVE TRANSPORT ....181
7.1.1 MONTE CARLO SIMULATION 182 7.1.1.1 SIMULATION PROCESS 182 7.1.1.2
LIGHT-TISSUE INTERACTION MODEL 186 7.1.1.3 RANDOM WALK MODEL 187 7.1.1.4
LIGHT PROPAGATION MODEL COMPONENTS 190 7.2 MEASUREMENT OF OPTICAL
PARAMETERS 195 7.2.1 INVASIVE TECHNIQUES 197 7.2.1.1 INTEGRATING SPHERE
MEASUREMENTS 197 7.2.1.2 FIBEROPTIC PROBING TO DETERMINE THE OPTICAL
PROPERTIES 201 7.2.2 NONINVASIVE TECHNIQUES 203 7.2.2.1 SPECULAR
REFLECTANCE MEASUREMENT 203 7.2.2.2 DIFFUSE BACKSCATTER MEASUREMENT BY
CCD CAMERA IMAGING 203 7.2.2.3 DIFFUSE BACKSCATTER BY FIBEROPTIC AREA
MEASUREMENT 206 7.2.2.4 DIFFUSE BACKSCATTER MEASUREMENT BY
INTERFEROMETRIC PROBING 207 7.2.2.5 DIFFUSE FORWARD REMITTANCE
MEASUREMENT 207 7.2.2.6 DIFFUSE FORWARD SCATTER MEASUREMENT BY CCD
CAMERA IMAGING 207 7.2.2.7 TIME-RESOLVED REFLECTANCE AND TRANSMITTANCE
MEASUREMENT 208 7.3 TEMPERATURE EFFECTS OF LIGHT-TISSUE INTERACTION 211
7.3.1 THE BIOHEAT EQUATION 212 7.3.2 COMPUTER MODELING OF ABSORPTION,
HEAT DISSIPATION, AND PHOTOCOAGULATION 213 7.3.3 DAMAGE INTEGRAL 213
7.3.4 THE DAMAGE STATE 214 7.4 SUMMARY 214 8 LIGHT-TISSUE INTERACTION
MECHANISMS AND APPLICATIONS: PHOTOPHYSICAL 219 8.1 RANGE OF
PHOTOPHYSICAL MECHANISMS 219 8.2 PHOTOABLATION 220 8.2.1 ABLATION
THRESHOLD 221 8.2.2 PULSED LASER-TISSUE INTERACTION 222 8.2.3 PULSED
VAPORIZATION 223 8.2.4 DEFINITION OF A PULSED LASER 227 8.2.5
ULTRAVIOLET LASER ABLATION 228 8.2.5.1 PHOTOCHEMICAL BREAKDOWN 228
8.2.5.2 RATE OF BOND-BREAKING 230 8.2.5.3 BOND-BREAKING DEPTH 231
8.2.5.4 GAS PRODUCTION DURING PHOTOABLATION 232 8.3 PHOTOACOUSTICS 233
8.3.1 HISTORY OF THE PHOTOACOUSTIC EFFECT 233 8.3.2 THE PHOTOACOUSTIC
EFFECT 234 8.3.2.1 DISPLACEMENT 236 8.3.2.2 SOUND PROPAGATION 238 8.3.3
DETECTION OF THE PHOTOACOUSTIC SIGNAL 241 8.3.4 THEORY OF PHOTOACOUSTIC
WAVE PROPAGATION 241 8.3.5 ELECTROMECHANICAL EFFECTS DURING
PHOTOACOUSTIC INTERACTION ....242 8.4 BIREFRINGENCE EFFECTS 243 8.4.1
SCHLIEREN IMAGING 244 8.4.2 CONVENTIONAL TOEEPLER SCHLIEREN CONFIGURATION
248 8.4.3 RONCHI RULING FOCUSING SCHLIEREN CONFIGURATION 249 8.5
POLARIZATION EFFECTS 250 8.5.1 POLARIZATION IN NATURE 251 8.5.2
POLARIZATION IN MEDICAL IMAGING 252 8.6 OPTICAL ACTIVITY 253 8.6.1
GLUCOSE CONCENTRATION DETERMINATION 256 8.7 EVANESCENT WAVE INTERACTION
IN BIOMEDICAL OPTICS 257 8.7.1 EVANESCENT OPTICAL WAVES 257 8.7.2
PRECISE, CONTROUED LIGHT DELIVERY WITH EVANESCENT OPTICAL WAVES 261
8.7.3 TISSUE ABLATION WITH FEL-GENERATED EVANESCENT OPTICAL WAVES 264
8.8 PHASE INTERFERENCE EFFECTS 268 8.8.1 INTERFEROMETRY IN MEDICAL
IMAGING 268 8.9 SPECTROSCOPY 269 8.9.1 LIGHT SCATTERING SPECTROSCOPY
(LSS) 269 8.9.2 FOURIER TRANSFORM INFRARED (FTIR) SPECTROSCOPY 270 8.9.3
ULTRAFAST SPECTROSCOPY 271 8.9.4 TIME-RESOLVED SPECTROSCOPY 271 8.9.5
RAMAN SCATTERING SPECTROSCOPY 271 8.9.6 COHERENT ANTI-STOKES RAMAN
SPECTROSCOPY 279 8.9.7 TIME-RESOLVED RAMAN SPECTROSCOPY 279 8.9.8 RAMAN
SPECTROSCOPY ADVANTAGES AND DISADVANTAGES 280 8.10 ENDOSCOPY 281 8.10.1
LIGHT DELIVERY WITH OPTICAL FIBERS 282 8.10.2 MEDICAL APPLICATIONS USING
ENDOSCOPY 282 8.10.2.1 ARTHROSCOPY 282 8.10.2.2 BRONCHOSCOPY 283
8.10.2.3 CARDIOLOGY 283 8.10.2.4 CYSTOSCOPY 283 8.10.2.5 FETOSCOPY 283
8.10.2.6 GASTROINTESTINAL ENDOSCOPY 283 8.10.2.7 LAPAROSCOPY 284
8.10.2.8 NEUROENDOSCOPY 284 8.10.2.9 OTOLARYNGOLOGY 284 8.11 SUMMARY 284
9 LIGHT-TISSUE INTERACTION MECHANISMS AND APPLICATIONS: PHOTOCHEMICAL
289 9.1 BASIC PHOTOCHEMICAL PRINCIPLES 289 9.1.1 PHOTOSYNTHESIS 290
9.1.2 SUNTANNING 291 9.1.3 LIGHT-REACTIVE BIOLOGICAL CHROMOPHORES 291
9.2 PHOTOCHEMICAL EFFECTS 291 9.2.1 PHOTODYNAMIC THERAPY 292 9.2.1.1 THE
PHOTOSENSITIZER EXCITATION PROCESS 292 9.2.1.2 THE ROLE OF OXYGEN 294
9.2.1.3 MECHANISMS IN PDT TO INDUCE CELL DEATH 295 9.2.1.4 LIGHT
DELIVERY 296 9.2.1.5 PHOTOSENSITIZERS 297 9.2.1.6 DOSIMETRY 300 9.2.1.7
CLINICAL APPLICATIONS 305 9.2.1.8 LIGHT SOURCES 310 9.2.1.9 ADVANTAGES
OF PDT 311 9.2.1.10 DISADVANTAGES AND LIMITATIONS 312 9.2.2 WOUNDHEALING
312 9.3 SUMMARY 314 10 LIGHT-TISSUE INTERACTION MECHANISMS AND
APPLICATIONS: PHOTOBIOLOGICAL 317 10.1 PHOTOBIOLOGICAL BIOSTIMULATION
317 10.2 PHOTOBIOLOGICAL EFFECTS 320 10.2.1 PHOTOTHERMAL 321 10.2.1.1
PHOTOCOAGULATION 321 10.2.1.2 REVERSIBLE PHOTOCOAGULATION 322 10.2.1.3
IRREVERSIBLE PHOTOCOAGULATION 322 10.2.1.4 DAMAGE INTEGRAL 325 10.2.2
MEDICAL APPLICATIONS OF THE PHOTOTHERMAL EFFECT 327 10.2.2.1 THERMAL
EFFECTS IN TREATMENT OF PORT-WINE STAINS 327 10.2.2.2 TISSUE CLOSURE AND
WELDING 333 10.2.2.3 CURRENT TISSUE CLOSURE METHODS 335 10.2.3
PHOTOBIOLOGICAL NONTHERMAL INTERACTION 335 10.3 EXCITATION OF
CHROMOPHORES 335 10.4 OPTIC NERVE-CELL DEPOLARIZATION UNDER THE
INFLUENCE OF LIGHT (VISION) 336 10.4.1 QUANTUM PHOTON DOTS AS BIOLOGICAL
FLUORESCENT MARKERS 337 10.4.2 OPTICAL PROPERTIES OF QUANTUM DOTS 337
10.5 SUMMARY 339 SECTION II THERAPEUTIC APPLICATIONS OF LIGHT 11
THERAPEUTIC APPLICATIONS OF LIGHT: PHOTOPHYSICAL 345 11.1 DELIVERY
CONSIDERATIONS 346 11.2 PULSED LASER USE IN CARDIOLOGY 349 11.2.1 PULSED
LASER-TISSUE INTERACTION 349 11.2.1.1 ABLATION RATE 351 11.2.2 LASER
PLAQUE MOLDING (ANGIOPLASTY) 354 11.2.3 LASER THROMBOLYSIS 354 11.2.4
LASER VALVULOTOMY AND VALVE DEBRIDEMENT 354 11.2.5 TRANSMYOCARDIAL
REVASCULARIZATION 356 11.3 DENTISTRY AND ORAL SURGERY 359 11.3.1 PHOTO
CURING 359 11.3.2 DENTAL DRILL 359 11.3.3 ETCHING 361 11.3.4 TOOTH
HARDENING 362 11.3.5 SCALING 362 11.4 OPHTHALMOLOGY 362 11.5 OPTICAL
TWEEZERS 364 11.5.1 RAYLEIGH REGIME PARTICLE FORCE 367 11.5.2 MIE REGIME
PARTICLE FORCE 368 11.5.3 SIZE REGION BETWEEN THE RAYLEIGH AND MIE
REGIME 371 11.5.4 APPLICATIONS OF OPTICAL TWEEZERS 373 11.6 SUMMARY 373
12 THERAPEUTIC APPLICATIONS OF LIGHT: PHOTOCHEMICAL 377 12.1 VASCULAR
WELDING 377 12.2 COSMETIC SURGERY 378 12.2.1 INFLAMMATORY DISEASE LESION
TREATMENT 380 12.2.2 PIGMENTED LESION TREATMENT 382 12.3 ONCOLOGY 384
12.3.1 PHOTODYNAMIC THERAPY 384 12.4 SUMMARY 388 13 THERAPEUTIC
APPLICATIONS OF LIGHT: PHOTOBIOLOGICAL 389 13.1 CARDIOLOGY AND
CARDIOVASCULAR SURGERY 389 13.1.1 ARRHYTHMOGENIC LASER APPLICATIONS 389
13.1.2 LASER PHOTOCOAGULATION 391 13.1.3 ARRHYTHMIE NODE ABLATION 401
13.1.4 ATRIAL ABLATION 401 13.2 SOFT TISSUE TREATMENT 402 13.3
DERMATOLOGY 402 13.3.1 VASCULAR LESION TREATMENT 403 13.4 FETAL SURGERY
407 13.5 GASTROENTEROLOGY 409 13.6 GENERAL SURGERY 410 13.7 GYNECOLOGY
411 13.8 NEUROSURGERY 411 13.9 OPHTHALMOLOGY 412 13.10 PULMONOLOGY AND
OTORHINOLARYNGOLOGY 413 13.11 OTOLARYNGOLOGY, EAR, NOSE AND THROAT
(ENT), AND MAXILLOFACIAL SURGERY 414 13.12 PODIATRY 416 13.13 UROLOGY
416 13.13.1 LASERS IN THE TREATMENT OF BENIGN PROSTATIC HYPERPLASIA 417
13.13.1.1 ND:YAG FOR PROSTATE TISSUE ABLATION 419 13.13.1.2 CONTACT TIP
TECHNOLOGY FOR PROSTATE ABLATION 419 13.13.1.3 FREE BEAM KTP AND
KTP/ND:YAG FOR PROSTATECTOMY 419 13.13.1.4 HOLMIUM:YAG FOR PROSTATE
TISSUE ABLATION 419 13.13.1.5 HOLMIUM LASER ENUCLEATION OF THE
PROSTATE*HOLEP 420 13.14 SUMMARY 420 SECTION III DIAGNOSTIC APPLICATIONS
OF LIGHT 14 DIAGNOSTIC METHODS USING LIGHT: PHOTOPHYSICAL 425 14.1
OPTICAL MICROSCOPY 425 14.1.1 DIFFRACTION IN THE FAR-FIELD 429 14.2
VARIOUS MICROSCOPIC TECHNIQUES 439 14.2.1 CONFOCAL MICROSCOPY 439 14.2.2
MULTIPHOTON IMAGING 442 14.2.2.1 TWO-PHOTON MICROSCOPY 442 14.2.2.2
ADVANTAGES OF TWO-PHOTON MICROSCOPY 446 14.2.2.3 LIMITATIONS OF
TWO-PHOTON MICROSCOPY 447 14.3 NEAR-FIELD SCANNING OPTICAL MICROSCOPE
448 14.3.1 THE CONCEPT OF THE NEAR-FIELD SCANNING OPTICAL MICROSCOPE 449
14.3.2 GENERAL DESIGN OF THE NEAR-FIELD SCANNING OPTICAL MICROSCOPE 449
14.3.3 NEAR-FIELD SCANNING OPTICAL MICROSCOPE TIP 450 14.3.3.1 FEEDBACK
MECHANISMS EMPLOYED TO MAINTAIN A CONSTANT TIP AND SAMPLE SEPARATION 452
14.3.3.2 SHEAR-FORCE-MODE TIP FEEDBACK 453 14.3.3.3 TAPPING-MODE TIP
FEEDBACK 454 14.3.3.4 INTENSITY IMAGING 455 14.3.3.5 PHASE IMAGING 456
14.4 SPECTRAL RANGE DIAGNOSTICS 457 14.4.1 LAB-ON-A-CHIP 459 14.4.2
COHERENT X-RAY IMAGING 460 14.4.2.1 ULTRAFAST X-RAY PULSES REVEAL ATOMS
IN MOTION 460 14.4.2.2 FREE ELECTRON LASER PROTEIN X-RAY HOLOGRAPHY 461
14.5 HOLOGRAPHIE IMAGING 462 14.6 POLARIZATION IMAGING 463 14.7
TRANSILLUMINATION IMAGING 464 14.7.1 EXAMINATION OF THE MALE GENITALIA
OF INFANTS 465 14.7.2 TRANSILLUMINATION FOR DETECTION OF PNEUMOTHORAX IN
PREMATURE INFANTS 465 14.7.2.1 CONTINUOUS MONITORING FOR PNEUMOTHORAX
DETECTION 466 14.7.3 TRANSILLUMINATION OF INFANT BRAIN 467 14.7.4
DIFFUSE OPTICAL TOMOGRAPHY 468 14.7.4.1 THEORETICAL BACKGROUND OF
DIFFUSE OPTICAL TOMOGRAPHY 469 14.7.4.2 OPTICAL HETERODYNING 472 14.8
OPTICAL COHERENCE TOMOGRAPHY 476 14.8.1 CONVENTIONAL OPTICAL COHERENCE
TOMOGRAPHY SYSTEMS 477 14.8.2 LIGHT SOURCES AND COHERENCE LENGTH 479
14.8.3 THEORY OF OPTICAL COHERENCE TOMOGRAPHY 482 14.8.4 OPERATION OF
THE FIBEROPTIC MICHELSON INTERFEROMETER 483 14.8.5 CORRELATION THEORY
487 14.8.6 THE EFFECT OF SCATTERING ON THE VISIBILITY FUNCTION 492
14.8.7 IMAGE ACQUISITION PROCESS 494 14.8.8 APPLICATIONS OF OPTICAL
COHERENCE TOMOGRAPHY TO PHYSICAL PROBLEMS 496 14.8.8.1 OPTICAL COHERENCE
TOMOGRAPHY IN DENTISTRY 497 14.8.8.2 POLARIZATION-SENSITIVE OPTICAL
COHERENCE TOMOGRAPHY 498 14.8.8.3 PHASE-RESOLVED OPTICAL COHERENCE
TOMOGRAPHY 498 14.8.8.4 SPECTROSCOPIC OPTICAL COHERENCE TOMOGRAPHY 499
14.8.8.5 TIME-DOMAIN OPTICAL COHERENCE TOMOGRAPHY 500 14.8.8.6
COLOR-DOPPLER TIME-DOMAIN OPTICAL COHERENCE TOMOGRAPHY 500 14.8.8.7
SPECTRAL-DOMAIN OPTICAL COHERENCE TOMOGRAPHY OR FOURIER-DOMAIN OPTICAL
COHERENCE TOMOGRAPHY 501 14.9 BALLISTIC PHOTON IMAGING 503 14.10
REFLECTOMETRY 506 14.11 EVANESCENT WAVE IMAGING APPLICATIONS 506 14.11.1
EVANESCENT OPTICAL WAVE DEVICE DESIGNS 507 14.12 MEDICAL THERMOGRAPHY
509 14.13 PHOTOACOUSTIC IMAGING 512 14.13.1 ACOUSTICWAVE 519 14.13.2
MEDICAL IMAGING APPLICATIONS 520 14.13.2.1 ACOUSTOOPTICAL IMAGING OF
TEETH 521 14.13.2.2 PHOTOACOUSTIC EXCITATION AND WAVE PROPAGATION 524
14.14 TERAHERTZ IMAGING 526 14.15 SUMMARY 528 15 DIAGNOSTIC METHODS
USING LIGHT: PHOTOCHEMICAL 531 15.1 FLUORESCENCE IMAGING 531 15.1.1
FLUORESCENCE MOLECULAR EXPLANATION 532 15.1.2 FLUORESCENT MOLECULES 535
15.1.3 FADING 536 15.2 RATIO FLUORESCENCE MICROSCOPY 537 15.2.1
FLUORESCENCE RESONANCE ENERGY TRANSFER (FRET) MICROSCOPY 537 15.2.2
MECHANISM OF FLUORESCENT RESONANT ENERGY TRANSFER IMAGING 538 15.2.3
FLUORESCENCE RESONANCE ENERGY TRANSFER PAIR 540 15.2.4 PROBLEMS WITH
FLUORESCENCE RESONANCE ENERGY TRANSFER MICROSCOPY IMAGING 541 15.3 RAMAN
SPECTROSCOPY WITH NEAR-FIELD SCANNING OPTICAL MICROSCOPY (NSOM) EMPLOYED
541 15.3.1 FLUORESCENCE RESONANCE EMISSION TRANSFER 542 15.3.2
APPLICATIONS IN BIOLOGY 543 15.4 OPTICAL TONGUE 543 15.4.1 MECHANISM
OF OPERATION 544 15.4.2 TASTE STIMULI TRANSDUCTION 544 15.4.3 TASTE
TRANSDUCTION MECHANISMS 544 15.4.4 TASTE PROCESSES 545 15.4.5
COMBINATORIAL LIBRARIES 545 15.4.6 CHARGE-COUPLED DEVICE DETECTION 548
15.5 SUMMARY 549 16 DIAGNOSTIC METHODS USING LIGHT: PHOTOBIOLOGICAL 551
16.1 IMMUNOSTAINING ( FUNCTIONAL IMAGING ) 551 16.2 IMMUNOFLUORESCENCE
552 16.3 DIAGNOSTIC APPLICATIONS OF SPECTROSCOPY 554 16.3.1 DETECTION OF
DENTAL CAVITIES AND CARIES 554 16.3.2 OPTICAL DETECTION OF ERYTHEMA 555
16.4 FIBEROPTIC SENSORS 557 16.4.1 BIOSENSORS 558 16.4.2 FIBEROPTIC
BIOSENSOR DESIGN 559 16.4.2.1 FIBEROPTIC FLUORESCENCE SENSORS 559
16.4.2.2 FIBEROPTIC SENSORS IN GASTROINTESTINAL APPLICATIONS 559
16.4.2.3 FIBEROPTIC IMMUNOSENSORS 560 16.4.2.4 MEDICAL IMMUNOSENSOR 560
16.4.2.5 ENVIRONMENTAL BIOSENSOR 561 16.4.2.6 PUBLIC HEALTH 561 16.4.3
DISTRIBUTED FIBEROPTIC SENSORS 561 16.4.3.1 TIME-OF-FLIGHT MEASUREMENT
USING LASER LIGHT 562 16.4.3.2 TIME-OF-FLIGHT MEASUREMENT USING LED
LIGHT 562 16.4.4 PLASTIC-CLAD FIBER 562 16.4.5 LIMITATIONS OF FIBEROPTIC
SENSORS 563 16.5 OPTICAL COHERENCE TOMOGRAPHY IN DENTISTRY 563 16.6
OPTICAL BIOPSY 563 16.7 DETERMINATION OF BLOOD OXYGENATION 567 16.7.1
PULSE OXIMETRY 568 16.8 ELECTROIUMINESCENT ELECTROPHYSIOLOGIC MAPPING
570 16.9 QUANTUM DOTS AS BIOLOGICAL FLUORESCENT MARKERS 572 16.9.1
FUTURE CONSIDERATIONS OF QUANTUM DOT IMAGING 573 16.10 COMPILATION OF
THE OPTICAL REQUIREMENTS FOR WAVELENGTH SELECTION BASED ON THE DESIRED
EFFECTS 573 16.11 SUMMARY 574 INDEX .577
|
| any_adam_object | 1 |
| author | Splinter, Robert |
| author_facet | Splinter, Robert |
| author_role | aut |
| author_sort | Splinter, Robert |
| author_variant | r s rs |
| building | Verbundindex |
| bvnumber | BV035834572 |
| callnumber-first | R - Medicine |
| callnumber-label | R857 |
| callnumber-raw | R857.B54 |
| callnumber-search | R857.B54 |
| callnumber-sort | R 3857 B54 |
| callnumber-subject | R - General Medicine |
| classification_rvk | XC 4017 |
| ctrlnum | (OCoLC)70874166 (DE-599)BVBBV035834572 |
| dewey-full | 610.28 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 610 - Medicine and health |
| dewey-raw | 610.28 |
| dewey-search | 610.28 |
| dewey-sort | 3610.28 |
| dewey-tens | 610 - Medicine and health |
| discipline | Medizin |
| format | Book |
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| id | DE-604.BV035834572 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T22:05:43Z |
| institution | BVB |
| isbn | 9780750309387 0750309385 |
| language | English |
| lccn | 2006025589 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-018693034 |
| oclc_num | 70874166 |
| open_access_boolean | |
| owner | DE-29T |
| owner_facet | DE-29T |
| physical | 602 S. graph. Darst. 25 cm |
| publishDate | 2007 |
| publishDateSearch | 2007 |
| publishDateSort | 2007 |
| publisher | Taylor & Francis |
| record_format | marc |
| series | Series in optics and optoelectronics |
| series2 | Series in optics and optoelectronics |
| spelling | Splinter, Robert Verfasser aut An introduction to biomedical optics R. Splinter, B. A. Hooper New York Taylor & Francis 2007 602 S. graph. Darst. 25 cm txt rdacontent n rdamedia nc rdacarrier Series in optics and optoelectronics 3 Includes bibliographical references and index Dispositifs électro-optiques Fibres optiques en médecine Génie biomédical Imagerie médicale Imagerie médicale - Appareils et matériel Lasers en médecine Optique Photothérapie Tomographie optique Optoelectronic devices Biomedicine Biotechnology Optical fibers in medicine Biomedical Technology Light Biophysics methods Optics Photobiology methods Biomedizinische Technik (DE-588)4006882-1 gnd rswk-swf Photobiologie (DE-588)4174474-3 gnd rswk-swf Optoelektronik (DE-588)4043687-1 gnd rswk-swf Biophoton (DE-588)4324882-2 gnd rswk-swf Lichtleitfaser (DE-588)4167589-7 gnd rswk-swf Biophoton (DE-588)4324882-2 s Optoelektronik (DE-588)4043687-1 s Lichtleitfaser (DE-588)4167589-7 s Photobiologie (DE-588)4174474-3 s Biomedizinische Technik (DE-588)4006882-1 s DE-604 Hooper, Brett A. Sonstige oth Series in optics and optoelectronics 3 (DE-604)BV035834561 3 http://www.loc.gov/catdir/toc/ecip0618/2006025589.html Table of contents only http://www.loc.gov/catdir/enhancements/fy0665/2006025589-d.html Publisher description GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018693034&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Splinter, Robert An introduction to biomedical optics Series in optics and optoelectronics Dispositifs électro-optiques Fibres optiques en médecine Génie biomédical Imagerie médicale Imagerie médicale - Appareils et matériel Lasers en médecine Optique Photothérapie Tomographie optique Optoelectronic devices Biomedicine Biotechnology Optical fibers in medicine Biomedical Technology Light Biophysics methods Optics Photobiology methods Biomedizinische Technik (DE-588)4006882-1 gnd Photobiologie (DE-588)4174474-3 gnd Optoelektronik (DE-588)4043687-1 gnd Biophoton (DE-588)4324882-2 gnd Lichtleitfaser (DE-588)4167589-7 gnd |
| subject_GND | (DE-588)4006882-1 (DE-588)4174474-3 (DE-588)4043687-1 (DE-588)4324882-2 (DE-588)4167589-7 |
| title | An introduction to biomedical optics |
| title_auth | An introduction to biomedical optics |
| title_exact_search | An introduction to biomedical optics |
| title_full | An introduction to biomedical optics R. Splinter, B. A. Hooper |
| title_fullStr | An introduction to biomedical optics R. Splinter, B. A. Hooper |
| title_full_unstemmed | An introduction to biomedical optics R. Splinter, B. A. Hooper |
| title_short | An introduction to biomedical optics |
| title_sort | an introduction to biomedical optics |
| topic | Dispositifs électro-optiques Fibres optiques en médecine Génie biomédical Imagerie médicale Imagerie médicale - Appareils et matériel Lasers en médecine Optique Photothérapie Tomographie optique Optoelectronic devices Biomedicine Biotechnology Optical fibers in medicine Biomedical Technology Light Biophysics methods Optics Photobiology methods Biomedizinische Technik (DE-588)4006882-1 gnd Photobiologie (DE-588)4174474-3 gnd Optoelektronik (DE-588)4043687-1 gnd Biophoton (DE-588)4324882-2 gnd Lichtleitfaser (DE-588)4167589-7 gnd |
| topic_facet | Dispositifs électro-optiques Fibres optiques en médecine Génie biomédical Imagerie médicale Imagerie médicale - Appareils et matériel Lasers en médecine Optique Photothérapie Tomographie optique Optoelectronic devices Biomedicine Biotechnology Optical fibers in medicine Biomedical Technology Light Biophysics methods Optics Photobiology methods Biomedizinische Technik Photobiologie Optoelektronik Biophoton Lichtleitfaser |
| url | http://www.loc.gov/catdir/toc/ecip0618/2006025589.html http://www.loc.gov/catdir/enhancements/fy0665/2006025589-d.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018693034&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV035834561 |
| work_keys_str_mv | AT splinterrobert anintroductiontobiomedicaloptics AT hooperbretta anintroductiontobiomedicaloptics |