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Table of contents
1 The Human retina
1.1 The human eye
1.1.1 Optics of the eye
1.1.2 Eyemovements
1.1.3 Ocular aberrations
1.2 Retinal structure and function
1.2.1 Cellular origanization
1.2.2 The visual cycle
2 Structural imaging of the retina in-vivo
2.1 Clinical retinal imaging systems
2.1.1 Fundus camera
2.1.2 OCT
2.2 High resolution retinal imaging
2.2.1 Adaptive Optics
2.2.2 Off-axis techniques
3 Functional imaging of the retina in-vivo
3.1 Definition of functional imaging
3.2 The ideal functional imaging technique for the retina
3.3 Scan versus Full-Field
II Adaptive optics system: optimization & add-on
4 Optimization and exploitation of an AO FIO
4.1 Introduction to the peer-reviewed article
4.2 Peer-reviewed Article: High loop rate adaptive optics flood illumination ophthalmoscope with structured illumination capability
4.3 Conclusion
5 Designing a new illumination for AO-FIO
5.1 Inspiration frommicroscopy
5.1.1 Oblique back-illumination
5.1.2 Structured IlluminationMicroscopy
5.2 Building a new illumination path
5.2.1 Deriving two illumination geometries
5.2.2 Optical design
5.2.3 Implementation
5.2.4 Difficulties and limitations
5.3 Structured Illumination Imaging
5.4 Conclusion
III Imaging instruments: Design, integration & testing
6 Developing a dark-field modality in full field ophthalmoscope
6.1 Introduction to the article
6.2 Article in Progress: Dark-field imaging using an Adaptive Optics Flood Illumination Ophthalmoscope
6.3 Conclusion
7 Developing pseudo-confocal modality
7.1 Description of pseudo-confocal imaging technique
7.1.1 Principle of confocality and near-confocality
7.1.2 Implementation in the PARIS AO-FIO
7.2 Proof of concept in the photoreceptor layer
7.2.1 Optical sectioning
7.2.2 Limitations
7.3 Conclusion
8 Developing a Retinal Goniometer
8.1 Description of the technique
8.1.1 Phase imaging in the retina by oblique illumination
8.1.2 Implementation in the PARIS AO-FIO
8.2 Proof of concept in artificial eye
8.3 Test in humans
8.4 Conclusion
IV Clinical application: From structure to function
9 Extracting neural retinal biomarkers
9.1 Structural biomarkers
9.1.1 Photoreceptors
9.1.2 Nerve fibers
9.1.3 Comparison with AO-SLO
9.2 Functional biomarkers
9.2.1 Clinical interest
9.2.2 Biomarker: Photoreceptor brightness at various illumination incidences
9.3 Conclusion
10 Extracting vascular retinal biomarkers
10.1 Structural biomarkers
10.1.1 Clinical interest
10.2 Functional biomarkers
10.2.1 Reading guide
10.2.2 Peer reviewed Article: Near Infrared Adaptive Optics Flood Illumination Angiography
10.3 Conclusion
11 Pigment epithelium imaging with two complementary techniques
11.1 Clinical application of the AO-FIO dark-field images
11.1.1 Clinical interest
11.1.2 Retinal pigment epithelium biomarkers
11.1.3 Extraction of density biomarker of the RPE mosaic
11.1.4 Comparison with AO SLO
11.1.5 Conclusion
11.2 Autofluorescence imaging of the retinal pigment epithelium with AO-SLO
11.2.1 Reading guide
11.2.2 Peer-reviewed Article: In vivo near-infrared autofluorescence imaging of retinal pigment epithelial cells with 757nm excitation
11.3 Comparing two complementary imaging techniques of RPE
11.4 Conclusion: Towards functional imaging
