Handbook of optical biomedical diagnostics:
Gespeichert in:
| Weitere Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Bellingham, Wash.
SPIE Press
2002
|
| Schriftenreihe: | SPIE Press monograph
107 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XV, 1093 S. graph. Darst. |
| ISBN: | 0819442380 |
Internformat
MARC
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| 245 | 1 | 0 | |a Handbook of optical biomedical diagnostics |c Valery V. Tuchin, ed. |
| 264 | 1 | |a Bellingham, Wash. |b SPIE Press |c 2002 | |
| 300 | |a XV, 1093 S. |b graph. Darst. | ||
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| 490 | 1 | |a SPIE Press monograph |v 107 | |
| 650 | 7 | |a Biomedische techniek |2 gtt | |
| 650 | 7 | |a Diagnostiek |2 gtt | |
| 650 | 4 | |a Imagerie médicale - Guides, manuels, etc | |
| 650 | 4 | |a Imagerie spectroscopique - Guides, manuels, etc | |
| 650 | 4 | |a Lasers en médecine - Guides, manuels, etc | |
| 650 | 7 | |a Medisch onderzoek |2 gtt | |
| 650 | 7 | |a Optische methoden |2 gtt | |
| 650 | 4 | |a Imaging systems in medicine / Handbooks, manuals, etc | |
| 650 | 4 | |a Lasers in medicine / Handbooks, manuals, etc | |
| 650 | 4 | |a Spectroscopic imaging / Handbooks, manuals, etc | |
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Datensatz im Suchindex
| _version_ | 1805082897809408000 |
|---|---|
| adam_text |
Contents
Preface / xiii
Introduction to Optical Biomedical Diagnostics / 3
Valery V. Tuchin
PART I. LIGHT-TISSUE INTERACTION—DIAGNOSTICAL ASPECTS
Introduction / 29
Lihong V. Wang, Dmitry A. Zimnyakov, Co-editors
Chapter 1. Introduction to Light Scattering by Biological
Objects / 31
Nikolai G. Khlebtsov, Irena L. Maksimova, Valery V. Tuchin
and Lihong V. Wang
1.1 Introduction / 33
1.2 Extinction and Scattering of Light in Disperse Systems: Basic
Theoretical Approaches / 34
1.3 Theoretical Methods for Single-Particle Light-Scattering
Calculations / 40
1.4 Extinction and Scattering by Aggregated and Compounded
Structures / 51
1.5 Spectroturbidimetry of Disperse Systems with Random and
Oriented Particles / 61
1.6 Tissue Structure and Relevant Optical Models / 83
1.7 Light Scattering by Densely Packed Correlated Particles / 94
1.8 Application of Radiative Transfer Theory to the Tissue Optics / 110
1.9 Nephelometry and Polarization Methods for the Diagnostics of
Bio-objects / 120
1.10 Controlling of Optical Properties of Tissues / 129
1.11 Summary / 144
Acknowledgments / 145
Abbreviations / 145
References / 146
Chapter 2. Optics of Blood / 169
Anna N. Yaroslavsky Alexander V. Priezzhev, Juan Rodriguez,
llya V. Yaroslavsky and Harold Battarbee
2.1 Introduction / 171
V
vi Contents
2.2 Physical Properties of Blood Cells / 173
2.3 Optical Properties of Oxyhemoglobin and Deoxyhemoglobin / 175
2.4 Absorption and Scattering of Light by a Single Erythrocyte / 178
2.5 Optical Properties of Blood / 189
2.6 Summary of the Optical Properties of Diluted and Whole Human
Blood / 198
2.7 Practical Relevance of Blood Optics / 207
References / 209
Chapter 3. Propagation of Pulses and Photon Density Waves in
Turbid Media / 217
llya V. Yaroslavsky, Anna N. Yaroslavsky, Juan Rodriguez
and Harold Battarbee
3.1 Introduction / 218
3.2 Time-Dependent Transport Theory / 222
3.3 Techniques for Solving the Time-Dependent Transport
Equation / 225
3.4 Monte Carlo Method / 233
3.5 Diffusion Approximation / 243
3.6 Beyond Diffusion Approximation / 248
3.7 Role of the Single-Scattering Delay Time / 254
3.8 Concluding Remarks / 257
References / 258
Chapter 4. Coherence Phenomena and Statistical Properties of
Multiply Scattered Light / 265
Dmitry A. Zimnyakov
4.1 Introduction / 266
4.2 Weak Localization of Light in Disordered and Weakly Ordered
Media / 266
4.3 Correlation Properties of Multiply Scattered Coherent Light: Basic
Principles and Methods / 274
4.4 Evaluation of Pathlength Density: Basic Approaches / 284
4.5 Manifestations of Similarity in Multiple Scattering of Coherent Light
by Disordered Media / 292
4.6 Conclusion / 307
Acknowledgments / 307
References / 307
Chapter 5. Tissue Phantoms / 311
Alexander B. Pravdin, Svetlana P. Chernova, Theodore G. Papazoglou
and Valery V. Tuchin
5.1 Introduction / 312
5.2 General Approach to Phantom Development / 312
Contents vii
5.3 Scattering Media for Phantom Preparation / 314
5.4 Light-Absorbing Media for Phantom Preparation / 325
Acknowledgment / 346
References / 346
PART II. PULSE AND FREQUENCY-DOMAIN TECHNIQUES FOR
TISSUE SPECTROSCOPY AND IMAGING
Introduction / 355
Sergio Fantini, llya V. Yaroslavsky, Co-editors
Chapter 6. Time-resolved Imaging in Diffusive Media / 357
Juan Rodriguez, llya V. Yaroslavsky, Anna N. Yaroslavsky,
Harold Battarbee and Valery V. Tuchin
6.1 Introduction / 358
6.2 General Concepts in Time-resolved Imaging Through Highly
Diffusive Media / 363
6.3 Experimental Tools for Time-resolved Imaging / 372
6.4 Technical Designs for Time-resolved Imaging / 384
6.5 Toward Clinical Applications / 396
6.6 Conclusions / 399
References / 399
Chapter 7. Frequency-Domain Techniques for Tissue Spectroscopy
and Imaging / 405
Sergio Fantini and Maria Angela Franceschini
7.1 Introduction / 406
7.2 Instrumentation, Modulation Methods, and Signal Detection / 406
7.3 Modeling Light Propagation in Scattering Media / 413
7.4 Tissue Spectroscopy and Oximetry / 424
7.5 Optical Imaging of Tissues / 433
7.6 Future Directions / 441
Acknowledgments / 443
References / 443
Chapter 8. Monitoring of Brain Activity with Near-Infrared
Spectroscopy / 455
Qingming Luo, Shaoqun Zeng, Britton Chance and Shoko Nioka
8.1 Introduction / 456
8.2 Continuous Light Functional Near-Infrared Imager / 459
8.3 Monitoring Human Brain Activity with a CW Functional Optical
Imager / 468
8.4 Future Prospects / 482
References / 483
viii Contents
Chapter 9. Signal Quantification and Localization in Tissue
Near-Infrared Spectroscopy / 487
Stephen J. Matcher
9.1 Introduction / 488
9.2 Oximetry / 489
9.3 Tissue Near-Infrared Spectroscopy / 493
9.4 Spectroscopy in a Highly Scattering Medium / 496
9.5 Absolute Measurements / 500
9.6 Quantified Trend Measurements / 521
9.7 Use of Quantified Trend Measurements to Infer Absolute Blood
Flow, Blood Volume, Hemoglobin Saturation, and Tissue Oxygen
Consumption / 536
9.8 Effects of Tissue Geometry and Heterogeneity / 544
9.9 Chapter Summary / 574
References / 575
Chapter 10. Time-Resolved Detection of Optoacoustic Profiles for
Measurement of Optical Energy Distribution in Tissues / 585
Alexander A. Karabutov and Alexander A. Oraevsky
10.1 Methods to Study Light Distribution in Tissue / 587
10.2 Two Modes of Optoacoustic Detection / 588
10.3 Historical Remarks on Time-Resolved Optoacoustics / 589
10.4 Time-Resolved Optoacoustics in a Microheterogeneous
Medium / 591
10.5 Laser-Induced Ultrasonic Transients in Biological Tissue / 600
10.6 Technical Requirements for Time-Resolved Stress Detection / 616
10.7 Measurement of Optical Properties with the Optoacoustic
Technique / 632
10.8 Summary and Applications / 636
References / 638
PART III. SCATTERING, FLUORESCENCE, AND INFRARED FOURIER
TRANSFORM SPECTROSCOPY OF TISSUES
Introduction / 649
Alexander V. Priezzhev, Juergen Lademann, Co-editors
Chapter 11. Light Backscattering Diagnostics of Red Blood Cell
Aggregation in Whole Blood Samples / 651
Alexander V. Priezzhev, Nikolai N. Firsov and Juergen Lademann
11.1 Introduction. Microrheological Structure of Blood: Biophysical and
Clinical Aspects / 652
Contents ix
11.2 Importance of Quantitative Measurement of RBC Aggregation and
Deformability Parameters / 656
11.3 Arrangement of a Couette Chamber-based Laser Backscattering
Aggregometer / 657
11.4 Kinetics of the Aggregation and Disaggregation Process / 661
11.5 Parameters Influencing the Aggregation and Disaggregation
Measurements / 663
11.6 Comparison of Aggregation and Disaggregation Measurements with
Sedimentation Measurements / 666
11.7 Determination of Different Diseases by Aggregation and
Disaggregation Measurements of Blood Samples / 667
References / 670
Chapter 12. Light Scattering Spectroscopy of Epithelial Tissues:
Principles and Applications / 675
Lev T. Perelman and Vadim Backman
12.1 Introduction / 676
12.2 Microscopic Architecture of Mucosal Tissues / 677
12.3 Principles of Light Scattering / 689
12.4 Light Scattering by Cells and Subcellular Structures / 697
12.5 Light Transport in Superficial Tissues / 704
12.6 Detection of Cancer with Light Scattering Spectroscopy / 707
Acknowledgments / 720
References / 720
Chapter 13. Reflectance and Fluorescence Spectroscopy of Human
Skin In Vivo I 725
Yuri P. Sinichkin, Nikiforos Kollias, George I. Zonios, Sergei R. Utz
and Valery V. Tuchin
13.1 Introduction / 727
13.2 Human Skin Back Reflectance and Autofluorescence Spectra
Formation / 728
13.3 Simple Optical Models of Human Skin / 739
13.4 Combined Reflectance and Fluorescence Spectroscopy Method for
In Vivo Skin Examination / 745
13.5 Color Perception of Human Skin Back Reflectance and
Fluorescence Emission / 753
13.6 Polarization Imaging / 760
13.7 Sunscreen Evaluation using Reflectance and Fluorescence
Spectroscopy / 762
13.8 Control of Skin Optical Properties / 765
13.9 Conclusions / 773
References / 773
x Contents
Chapter 14. Infrared and Raman Spectroscopy of Human Skin
In Vivo I 787
Gerald W. Lucassen, Peter J. Caspers and Gerwin J. Puppels
14.1 Introduction: Basic Principles of IR and Raman Spectroscopy / 788
14.2 Fourier Transform Infrared Spectroscopy of Human Skin Stratum
Corneum In Vivo I 789
14.3 Confocal Raman Microspectroscopy of Human Skin In Vivo I 805
14.4 Conclusions and Outlook / 818
Acknowledgment / 818
References / 818
Chapter 15. Fluorescence Technologies in Biomedical
Diagnostics / 825
Herbert Schneckenburger, Karl Stock, Rudolf Steiner, Wolfgang Strauss
and Reinhard Sailer
15.1 Introduction / 827
15.2 Intrinsic and Extrinsic Fluorescence / 830
15.3 Spectroscopic, Microscopic, and Imaging Techniques / 833
15.4 Time-Resolved Fluorescence Spectroscopy and Imaging / 838
15.5 Total Internal Reflection Fluorescence Spectroscopy and
Microscopy (TIRFS/TIRFM) / 845
15.6 Energy Transfer Spectroscopy / 851
15.7 Laser Scanning and Multiphoton Microscopy / 856
References / 864
PART IV. COHERENT-DOMAIN METHODS FOR BIOLOGICAL FLOWS
AND TISSUE ULTRASTRUCTURE MONITORING
Introduction / 877
J. David Briers, Sean J. Kirkpatrick, Co-editors
Chapter 16. Speckle and Doppler Methods of Blood and Lymph Flow
Monitoring / 881
Ekateryna I. Galanzha, Gregory E. Brill, Yoshihisa Aizu,
Sergey S. Ulyanov and Valery V. Tuchin
16.1 Introduction / 882
16.2 Classification of the Blood and Lymph Flow in Capillaries:
Hydrodynamic and Optics Aspects / 883
16.3 Physiology of Lymph Microcirculation / 886
16.4 Theory of Speckle Interferometry of Bioflows / 898
16.5 Experimental Investigations of Biof lows / 916
16.6 Doppler and Speckle Techniques / 923
16.7 Conclusions / 926
Contents xi
Acknowledgments / 927
References / 927
Chapter 17. Real-Time Imaging of Microstructure and Blood Flows
Using Optical Coherence Tomography / 939
Andrew M. Rollins, Siavash Yazdanfar, Sunita Radhakrishnan,
Volker Westphal, Michael V. Sivak and Joseph A. Izatt
17.1 Introduction / 940
17.2 Optical Coherence Tomography / 940
17.3 Real-Time Optical Coherence Tomography / 942
17.4 Applications of Real-Time OCT in Ophthalmology and
Dermatology / 957
17.5 Endoscopic Optical Coherence Tomography / 961
17.6 Color Doppler Optical Coherence Tomography / 966
17.7 Conclusions and Acknowledgments / 979
References / 979
Chapter 18. Speckle Technologies for Monitoring and Imaging of
Tissues and Tissuelike Phantoms / 987
Dmitry A. Zimnyakov, J. David Briers and Valery V. Tuchin
18.1 Introduction / 988
18.2 Diffusing-Wave Spectroscopy (DWS) as a Tool for Tissue Structure
and Cell Flow Monitoring / 988
18.3 Flow Measurement by Laser Speckle Contrast Analysis
(LASCA) / 1000
18.4 Modification of Speckle Contrast Analysis to Improve Depth
Resolution / 1006
18.5 Spatial Speckle Correlometry Applied to Tissue Structure
Diagnostics and Imaging / 1013
18.6 Imaging Using Contrast Measurements of Partially Coherent
Speckles / 1021
18.7 Summary / 1033
Acknowledgment / 1034
References / 1034
Chapter 19. Optical Assessment of Tissue Mechanics / 1037
Sean J. Kirkpatrick and Donald D. Duncan
Additional Nomenclature of Definitions / 1038
19.1 Introduction / 1039
19.2 Tissue Mechanics and Medicine / 1040
19.3 Constitutive Relations in Biological Tissues / 1041
19.4 Laser Speckle Patterns Arising from Biological Tissues / 1047
xii Contents
19.5 Elastography Measurements by Tracking Translating Speckle:
The Transform Method / 1051
19.6 Alternative Processing Algorithms for Calculating Speckle
Shift / 1063
19.7 Acoustically Modulated Speckle Imaging / 1076
19.8 Elastography of Tissues with Optical Coherence
Tomography / 1078
19.9 Conclusions / 1079
References / 1080
Index / 1085 |
| adam_txt |
Contents
Preface / xiii
Introduction to Optical Biomedical Diagnostics / 3
Valery V. Tuchin
PART I. LIGHT-TISSUE INTERACTION—DIAGNOSTICAL ASPECTS
Introduction / 29
Lihong V. Wang, Dmitry A. Zimnyakov, Co-editors
Chapter 1. Introduction to Light Scattering by Biological
Objects / 31
Nikolai G. Khlebtsov, Irena L. Maksimova, Valery V. Tuchin
and Lihong V. Wang
1.1 Introduction / 33
1.2 Extinction and Scattering of Light in Disperse Systems: Basic
Theoretical Approaches / 34
1.3 Theoretical Methods for Single-Particle Light-Scattering
Calculations / 40
1.4 Extinction and Scattering by Aggregated and Compounded
Structures / 51
1.5 Spectroturbidimetry of Disperse Systems with Random and
Oriented Particles / 61
1.6 Tissue Structure and Relevant Optical Models / 83
1.7 Light Scattering by Densely Packed Correlated Particles / 94
1.8 Application of Radiative Transfer Theory to the Tissue Optics / 110
1.9 Nephelometry and Polarization Methods for the Diagnostics of
Bio-objects / 120
1.10 Controlling of Optical Properties of Tissues / 129
1.11 Summary / 144
Acknowledgments / 145
Abbreviations / 145
References / 146
Chapter 2. Optics of Blood / 169
Anna N. Yaroslavsky Alexander V. Priezzhev, Juan Rodriguez,
llya V. Yaroslavsky and Harold Battarbee
2.1 Introduction / 171
V
vi Contents
2.2 Physical Properties of Blood Cells / 173
2.3 Optical Properties of Oxyhemoglobin and Deoxyhemoglobin / 175
2.4 Absorption and Scattering of Light by a Single Erythrocyte / 178
2.5 Optical Properties of Blood / 189
2.6 Summary of the Optical Properties of Diluted and Whole Human
Blood / 198
2.7 Practical Relevance of Blood Optics / 207
References / 209
Chapter 3. Propagation of Pulses and Photon Density Waves in
Turbid Media / 217
llya V. Yaroslavsky, Anna N. Yaroslavsky, Juan Rodriguez
and Harold Battarbee
3.1 Introduction / 218
3.2 Time-Dependent Transport Theory / 222
3.3 Techniques for Solving the Time-Dependent Transport
Equation / 225
3.4 Monte Carlo Method / 233
3.5 Diffusion Approximation / 243
3.6 Beyond Diffusion Approximation / 248
3.7 Role of the Single-Scattering Delay Time / 254
3.8 Concluding Remarks / 257
References / 258
Chapter 4. Coherence Phenomena and Statistical Properties of
Multiply Scattered Light / 265
Dmitry A. Zimnyakov
4.1 Introduction / 266
4.2 Weak Localization of Light in Disordered and Weakly Ordered
Media / 266
4.3 Correlation Properties of Multiply Scattered Coherent Light: Basic
Principles and Methods / 274
4.4 Evaluation of Pathlength Density: Basic Approaches / 284
4.5 Manifestations of Similarity in Multiple Scattering of Coherent Light
by Disordered Media / 292
4.6 Conclusion / 307
Acknowledgments / 307
References / 307
Chapter 5. Tissue Phantoms / 311
Alexander B. Pravdin, Svetlana P. Chernova, Theodore G. Papazoglou
and Valery V. Tuchin
5.1 Introduction / 312
5.2 General Approach to Phantom Development / 312
Contents vii
5.3 Scattering Media for Phantom Preparation / 314
5.4 Light-Absorbing Media for Phantom Preparation / 325
Acknowledgment / 346
References / 346
PART II. PULSE AND FREQUENCY-DOMAIN TECHNIQUES FOR
TISSUE SPECTROSCOPY AND IMAGING
Introduction / 355
Sergio Fantini, llya V. Yaroslavsky, Co-editors
Chapter 6. Time-resolved Imaging in Diffusive Media / 357
Juan Rodriguez, llya V. Yaroslavsky, Anna N. Yaroslavsky,
Harold Battarbee and Valery V. Tuchin
6.1 Introduction / 358
6.2 General Concepts in Time-resolved Imaging Through Highly
Diffusive Media / 363
6.3 Experimental Tools for Time-resolved Imaging / 372
6.4 Technical Designs for Time-resolved Imaging / 384
6.5 Toward Clinical Applications / 396
6.6 Conclusions / 399
References / 399
Chapter 7. Frequency-Domain Techniques for Tissue Spectroscopy
and Imaging / 405
Sergio Fantini and Maria Angela Franceschini
7.1 Introduction / 406
7.2 Instrumentation, Modulation Methods, and Signal Detection / 406
7.3 Modeling Light Propagation in Scattering Media / 413
7.4 Tissue Spectroscopy and Oximetry / 424
7.5 Optical Imaging of Tissues / 433
7.6 Future Directions / 441
Acknowledgments / 443
References / 443
Chapter 8. Monitoring of Brain Activity with Near-Infrared
Spectroscopy / 455
Qingming Luo, Shaoqun Zeng, Britton Chance and Shoko Nioka
8.1 Introduction / 456
8.2 Continuous Light Functional Near-Infrared Imager / 459
8.3 Monitoring Human Brain Activity with a CW Functional Optical
Imager / 468
8.4 Future Prospects / 482
References / 483
viii Contents
Chapter 9. Signal Quantification and Localization in Tissue
Near-Infrared Spectroscopy / 487
Stephen J. Matcher
9.1 Introduction / 488
9.2 Oximetry / 489
9.3 Tissue Near-Infrared Spectroscopy / 493
9.4 Spectroscopy in a Highly Scattering Medium / 496
9.5 Absolute Measurements / 500
9.6 Quantified Trend Measurements / 521
9.7 Use of Quantified Trend Measurements to Infer Absolute Blood
Flow, Blood Volume, Hemoglobin Saturation, and Tissue Oxygen
Consumption / 536
9.8 Effects of Tissue Geometry and Heterogeneity / 544
9.9 Chapter Summary / 574
References / 575
Chapter 10. Time-Resolved Detection of Optoacoustic Profiles for
Measurement of Optical Energy Distribution in Tissues / 585
Alexander A. Karabutov and Alexander A. Oraevsky
10.1 Methods to Study Light Distribution in Tissue / 587
10.2 Two Modes of Optoacoustic Detection / 588
10.3 Historical Remarks on Time-Resolved Optoacoustics / 589
10.4 Time-Resolved Optoacoustics in a Microheterogeneous
Medium / 591
10.5 Laser-Induced Ultrasonic Transients in Biological Tissue / 600
10.6 Technical Requirements for Time-Resolved Stress Detection / 616
10.7 Measurement of Optical Properties with the Optoacoustic
Technique / 632
10.8 Summary and Applications / 636
References / 638
PART III. SCATTERING, FLUORESCENCE, AND INFRARED FOURIER
TRANSFORM SPECTROSCOPY OF TISSUES
Introduction / 649
Alexander V. Priezzhev, Juergen Lademann, Co-editors
Chapter 11. Light Backscattering Diagnostics of Red Blood Cell
Aggregation in Whole Blood Samples / 651
Alexander V. Priezzhev, Nikolai N. Firsov and Juergen Lademann
11.1 Introduction. Microrheological Structure of Blood: Biophysical and
Clinical Aspects / 652
Contents ix
11.2 Importance of Quantitative Measurement of RBC Aggregation and
Deformability Parameters / 656
11.3 Arrangement of a Couette Chamber-based Laser Backscattering
Aggregometer / 657
11.4 Kinetics of the Aggregation and Disaggregation Process / 661
11.5 Parameters Influencing the Aggregation and Disaggregation
Measurements / 663
11.6 Comparison of Aggregation and Disaggregation Measurements with
Sedimentation Measurements / 666
11.7 Determination of Different Diseases by Aggregation and
Disaggregation Measurements of Blood Samples / 667
References / 670
Chapter 12. Light Scattering Spectroscopy of Epithelial Tissues:
Principles and Applications / 675
Lev T. Perelman and Vadim Backman
12.1 Introduction / 676
12.2 Microscopic Architecture of Mucosal Tissues / 677
12.3 Principles of Light Scattering / 689
12.4 Light Scattering by Cells and Subcellular Structures / 697
12.5 Light Transport in Superficial Tissues / 704
12.6 Detection of Cancer with Light Scattering Spectroscopy / 707
Acknowledgments / 720
References / 720
Chapter 13. Reflectance and Fluorescence Spectroscopy of Human
Skin In Vivo I 725
Yuri P. Sinichkin, Nikiforos Kollias, George I. Zonios, Sergei R. Utz
and Valery V. Tuchin
13.1 Introduction / 727
13.2 Human Skin Back Reflectance and Autofluorescence Spectra
Formation / 728
13.3 Simple Optical Models of Human Skin / 739
13.4 Combined Reflectance and Fluorescence Spectroscopy Method for
In Vivo Skin Examination / 745
13.5 Color Perception of Human Skin Back Reflectance and
Fluorescence Emission / 753
13.6 Polarization Imaging / 760
13.7 Sunscreen Evaluation using Reflectance and Fluorescence
Spectroscopy / 762
13.8 Control of Skin Optical Properties / 765
13.9 Conclusions / 773
References / 773
x Contents
Chapter 14. Infrared and Raman Spectroscopy of Human Skin
In Vivo I 787
Gerald W. Lucassen, Peter J. Caspers and Gerwin J. Puppels
14.1 Introduction: Basic Principles of IR and Raman Spectroscopy / 788
14.2 Fourier Transform Infrared Spectroscopy of Human Skin Stratum
Corneum In Vivo I 789
14.3 Confocal Raman Microspectroscopy of Human Skin In Vivo I 805
14.4 Conclusions and Outlook / 818
Acknowledgment / 818
References / 818
Chapter 15. Fluorescence Technologies in Biomedical
Diagnostics / 825
Herbert Schneckenburger, Karl Stock, Rudolf Steiner, Wolfgang Strauss
and Reinhard Sailer
15.1 Introduction / 827
15.2 Intrinsic and Extrinsic Fluorescence / 830
15.3 Spectroscopic, Microscopic, and Imaging Techniques / 833
15.4 Time-Resolved Fluorescence Spectroscopy and Imaging / 838
15.5 Total Internal Reflection Fluorescence Spectroscopy and
Microscopy (TIRFS/TIRFM) / 845
15.6 Energy Transfer Spectroscopy / 851
15.7 Laser Scanning and Multiphoton Microscopy / 856
References / 864
PART IV. COHERENT-DOMAIN METHODS FOR BIOLOGICAL FLOWS
AND TISSUE ULTRASTRUCTURE MONITORING
Introduction / 877
J. David Briers, Sean J. Kirkpatrick, Co-editors
Chapter 16. Speckle and Doppler Methods of Blood and Lymph Flow
Monitoring / 881
Ekateryna I. Galanzha, Gregory E. Brill, Yoshihisa Aizu,
Sergey S. Ulyanov and Valery V. Tuchin
16.1 Introduction / 882
16.2 Classification of the Blood and Lymph Flow in Capillaries:
Hydrodynamic and Optics Aspects / 883
16.3 Physiology of Lymph Microcirculation / 886
16.4 Theory of Speckle Interferometry of Bioflows / 898
16.5 Experimental Investigations of Biof lows / 916
16.6 Doppler and Speckle Techniques / 923
16.7 Conclusions / 926
Contents xi
Acknowledgments / 927
References / 927
Chapter 17. Real-Time Imaging of Microstructure and Blood Flows
Using Optical Coherence Tomography / 939
Andrew M. Rollins, Siavash Yazdanfar, Sunita Radhakrishnan,
Volker Westphal, Michael V. Sivak and Joseph A. Izatt
17.1 Introduction / 940
17.2 Optical Coherence Tomography / 940
17.3 Real-Time Optical Coherence Tomography / 942
17.4 Applications of Real-Time OCT in Ophthalmology and
Dermatology / 957
17.5 Endoscopic Optical Coherence Tomography / 961
17.6 Color Doppler Optical Coherence Tomography / 966
17.7 Conclusions and Acknowledgments / 979
References / 979
Chapter 18. Speckle Technologies for Monitoring and Imaging of
Tissues and Tissuelike Phantoms / 987
Dmitry A. Zimnyakov, J. David Briers and Valery V. Tuchin
18.1 Introduction / 988
18.2 Diffusing-Wave Spectroscopy (DWS) as a Tool for Tissue Structure
and Cell Flow Monitoring / 988
18.3 Flow Measurement by Laser Speckle Contrast Analysis
(LASCA) / 1000
18.4 Modification of Speckle Contrast Analysis to Improve Depth
Resolution / 1006
18.5 Spatial Speckle Correlometry Applied to Tissue Structure
Diagnostics and Imaging / 1013
18.6 Imaging Using Contrast Measurements of Partially Coherent
Speckles / 1021
18.7 Summary / 1033
Acknowledgment / 1034
References / 1034
Chapter 19. Optical Assessment of Tissue Mechanics / 1037
Sean J. Kirkpatrick and Donald D. Duncan
Additional Nomenclature of Definitions / 1038
19.1 Introduction / 1039
19.2 Tissue Mechanics and Medicine / 1040
19.3 Constitutive Relations in Biological Tissues / 1041
19.4 Laser Speckle Patterns Arising from Biological Tissues / 1047
xii Contents
19.5 Elastography Measurements by Tracking Translating Speckle:
The Transform Method / 1051
19.6 Alternative Processing Algorithms for Calculating Speckle
Shift / 1063
19.7 Acoustically Modulated Speckle Imaging / 1076
19.8 Elastography of Tissues with Optical Coherence
Tomography / 1078
19.9 Conclusions / 1079
References / 1080
Index / 1085 |
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| discipline | Medizin |
| discipline_str_mv | Medizin |
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| illustrated | Illustrated |
| index_date | 2024-07-02T21:00:12Z |
| indexdate | 2024-07-20T07:39:58Z |
| institution | BVB |
| isbn | 0819442380 |
| language | English |
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| spelling | Handbook of optical biomedical diagnostics Valery V. Tuchin, ed. Bellingham, Wash. SPIE Press 2002 XV, 1093 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier SPIE Press monograph 107 Biomedische techniek gtt Diagnostiek gtt Imagerie médicale - Guides, manuels, etc Imagerie spectroscopique - Guides, manuels, etc Lasers en médecine - Guides, manuels, etc Medisch onderzoek gtt Optische methoden gtt Imaging systems in medicine / Handbooks, manuals, etc Lasers in medicine / Handbooks, manuals, etc Spectroscopic imaging / Handbooks, manuals, etc Bildgebendes Verfahren (DE-588)4006617-4 gnd rswk-swf Spektroskopie (DE-588)4056138-0 gnd rswk-swf Spektroskopie (DE-588)4056138-0 s Bildgebendes Verfahren (DE-588)4006617-4 s DE-604 Tučin, Valerij V. 1944- (DE-588)132097613 edt SPIE Press monograph 107 (DE-604)BV011462585 107 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016521110&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Handbook of optical biomedical diagnostics SPIE Press monograph Biomedische techniek gtt Diagnostiek gtt Imagerie médicale - Guides, manuels, etc Imagerie spectroscopique - Guides, manuels, etc Lasers en médecine - Guides, manuels, etc Medisch onderzoek gtt Optische methoden gtt Imaging systems in medicine / Handbooks, manuals, etc Lasers in medicine / Handbooks, manuals, etc Spectroscopic imaging / Handbooks, manuals, etc Bildgebendes Verfahren (DE-588)4006617-4 gnd Spektroskopie (DE-588)4056138-0 gnd |
| subject_GND | (DE-588)4006617-4 (DE-588)4056138-0 |
| title | Handbook of optical biomedical diagnostics |
| title_auth | Handbook of optical biomedical diagnostics |
| title_exact_search | Handbook of optical biomedical diagnostics |
| title_exact_search_txtP | Handbook of optical biomedical diagnostics |
| title_full | Handbook of optical biomedical diagnostics Valery V. Tuchin, ed. |
| title_fullStr | Handbook of optical biomedical diagnostics Valery V. Tuchin, ed. |
| title_full_unstemmed | Handbook of optical biomedical diagnostics Valery V. Tuchin, ed. |
| title_short | Handbook of optical biomedical diagnostics |
| title_sort | handbook of optical biomedical diagnostics |
| topic | Biomedische techniek gtt Diagnostiek gtt Imagerie médicale - Guides, manuels, etc Imagerie spectroscopique - Guides, manuels, etc Lasers en médecine - Guides, manuels, etc Medisch onderzoek gtt Optische methoden gtt Imaging systems in medicine / Handbooks, manuals, etc Lasers in medicine / Handbooks, manuals, etc Spectroscopic imaging / Handbooks, manuals, etc Bildgebendes Verfahren (DE-588)4006617-4 gnd Spektroskopie (DE-588)4056138-0 gnd |
| topic_facet | Biomedische techniek Diagnostiek Imagerie médicale - Guides, manuels, etc Imagerie spectroscopique - Guides, manuels, etc Lasers en médecine - Guides, manuels, etc Medisch onderzoek Optische methoden Imaging systems in medicine / Handbooks, manuals, etc Lasers in medicine / Handbooks, manuals, etc Spectroscopic imaging / Handbooks, manuals, etc Bildgebendes Verfahren Spektroskopie |
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