視網膜光學相干斷層成像分析（英文版）

本書的主要內容包括：光學相干斷層成像（OCT）技術及其在視網膜上的臨床套用；視網膜OCT圖像分析預處理技術的主要步驟及算法；OCT圖像中視網膜解剖結構的自動檢測和分析技術；OCT圖像中視網膜病變的自動檢測和分析技術；多模態視網膜圖像分析技術；以及OCT成像及分析技術的*新進展和展望。

Contents

Preface

Chapter 1 Clinical Applications of Retinal Optical Coherence

1.1 Anatomy of the Eye and Retina 1

1.1.1 Simple Anatomy of the Eye 1

1.1.2 Simple Histology of Retina 2

1.1.3 Normal Macular OCT Image 4

1.2 Vitreomacular Interface Diseases 5

1.2.1 Vitreomacular Adhesion 5

1.2.2 Vitreomacular Traction 6

1.2.3 Full Thickness Macular Hole (FTMH) 7

1.2.4 Epiretinal Membrane 8

1.2.5 Myopic Traction Maculopathy 10

1.3 Glaucoma and Optic Neuropathy 10

1.3.1 Parapapillary Retinal Nerve Fiber Layer Thickness 11

1.3.2 Macular Ganglion Cell Thickness 11

1.3.3 0ptic Nerve Head Morphology 12

1.4 Retinal Vascular Diseases 14

1.4.1 Retinal Artery Occlusion 14

1.4.2 Diabetic Retinopathy 15

1.4.3 Retinal Vein Occlusion 16

1.5 0uter Retinal Degenerative Diseases 19

1.6 Choroidal Neovascularization and Polypoidal Choroidal

Chapter 2 Fundamentals of Retinal Optical Coherence Tomography 26

2.1 Introduction 26

2.2 Developments and Principles of Operation of Optical Coherence

2.2.1 Time Domain OCT 27

2.2.2 Fourier Domain OCT 28

2.2.3 0ther Evolving OCT Technologies 30

2.3 Interpretation of the Optical Coherence Tomography Image 32

Chapter 3 Speckle Noise Reduction and Enhancement for OCT

Images 38

3.1.2 Speckle Properties 40

3.2 0CT Image Modeling 41

3.3 Statistical Model for OCT Contrast Enhancement 47

3.4 Data Adaptive Transform Models for OCT Denoising 50

3.4.1 Conventional Dictionary Learning 50

3.4.2 Dual Tree Complex Wavelet Transform 51

3.4.3 Dictionary Learning with Wise Selection of Start Dictionary 52

3.5 Non Data Adaptive Transform Models for OCT Denoising 56

3.5.1 Denoising by Minimum Mean Square Error (MMSE) Estimator .58

Chapter 4 Reconstruction of Retinal OCT Images with Sparse

4.1 Introduction 75

4.2 Sparse Representation for Image Reconstruction 77

4.3 Sparsity Based on Methods for the OCT Image Reconstruction 78

4.3.1 Multiscale Sparsity Based on Tomographic Denoising (MSBTD) 78

4.3.2 Sparsity Based on Simultaneous Denoising and Interpolation

(SBSDI) 86

4.3.3 3D Adaptive Sparse Representation Based on Compression

4.4 Conclusions 102

References 104

Chapter 5 Segmentation of OCT Scans Using Probabilistic Graphical

5.1 Introduction 109

5.2 A Probabilistic Graphical Model for Retina Segmentation 111

5.2.1 The Graphical Model 111

5.2.2 Variationallnference 114

5.3 Results 117

Contents v

5.3.1 Segmentation Performance 117

5.3.2 Pathology Detection 121

5.4 Segmenting Pathological Scans 125

5.5.1 Conclusion 127

5.5.2 Prospective Work 127

A Appendix 128

A.l Derivation of the Objective (5.16) 128

A.2 0ptimization with Respect to qb 132

References 134

Chapter 6 Diagnostic Capability of Optical Coherence Tomography Based

Quantitative Analysis for Various Eye Diseases and

Additional Factors Affecting Morphological

6.1 Introduction 137

6.2 0CT Based Retinal Morphological Measurements .140

6.2.1 Quantitative Measurements of Retinal Morphology 140

6.2.2 Quality， Artifacts， and Errors in Optical Coherence Tomography

6.2.3 Effect of Axial Length on Thickness 144

6.3 Capability of Optical Coherence Tomography Based Quantitative

Analysis for Various Eye Diseases 147

6.3.1 Diabetic Retinopathy 148

6.3.2 Multiple Sclerosis 150

6.3.3 Amblyopia 156

6.4 Concluding Remarks 163

References 165

Chapter 7 Quantitative Analysis of Retinal Layers' Opticallntensities

Based on Optical Coherence Tomography 182

7.1 Introduction 182

7.2 Automatic Layer Segmentation in OCT Images 184

7.3 The Optical Intensity of Retinal Layers of Normal Subjects 185

7.3.1 Data Acquisition 185

7.3.2 Statistical Analysis 185

7.3.3 Results of Quantitative Analysis of Retinal Layer Optical Intensities of

Normal Subjects 185

7.3.4 Discussion 188

7.4 Distribution and Determinants of the Opticallntensity of Retinal Layers

of Normal Subjects 188

7.4.1 Data Acquisition and Image Processing 189

7.4.2 Statistical Analysis 190

7.4.3 Retinal Optical Intensity Measurement 190

7.4.4 Determinants of Retinal Optical Intensity 194

7.4.5 Discussion 195

7.5 The Opticallntensity Distribution in Central Retinal Artery

7.5.1 Central Retinal Artery Occlusion 195

7.5.2 Subjects and Data Acquisition 196

7.5.3 Image Analysis 197

7.5.5 Discussion 200

References 203

Chapter 8 Segmentation of Optic Disc and Cup to Disc Ratio Quantification

Based on OCT Scans 207

8.1 Introduction 207

8.2 0ptic Disc Segmentation 209

8.2.1 0verview of the Method 210

8.2.2 Coarse Disc Margin Location 211

8.2.3 SVM Based Patch Searching 214

8.3 Evaluation of Optic Disc Segmentation and C/D Ratio

Quantification 216

8.3.1 Evaluation of Optic Disc Segmentation 216

8.3.2 Evaluation of C/D Ratio Quantification 219

References 222

Chapter 9 Choroidal OCT Analytics 22