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Segmentations of the intraretinal surfaces, optic disc and retinal blood vessels in 3D-OCT scansLee, Kyung Moo. Sonka, Milan, Abràmoff, Michael D., January 2009 (has links)
Thesis (Ph. D.)--University of Iowa, 2009. / Thesis supervisors: Sonka, Michael D. Abràmoff. Includes bibliographical references (leaves 76-80).
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Analytical tools for high resolution OCT imaging of human retinaTanna, Hitesh Pratapkumar. January 2009 (has links)
Thesis (M.S.)--Marquette University, 2009. / Access available to Marquette University only. Joseph Carroll, Kristina Ropella, Taly Gilat-Schmidt, Advisors.
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Automated 3-D segmentation of intraretinal surfaces from optical coherence tomography images centered on the optic nerve headAntony, Bhavna Josephine. Garvin, Mona K. January 2009 (has links)
Thesis supervisor: Mona K. Garvin. Includes bibliographic references (p. 55-57).
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Development of an In Vivo Fundus Imaging and Retinal Optical Coherence Tomography System for the MouseKocaoglu, Omer Pars 20 April 2008 (has links)
The purpose of this project is to develop a retinal imaging system suitable for routine examination or screening of mouse models that acquires fundus and Optical Coherence Tomography (OCT) images. The imaging system is composed of a digital camera with an objective for biomicroscopic examination of the fundus, an OCT interferometer, an OCT beam delivery system designed for the mouse eye, and a mouse positioning stage. The image acquisition is controlled with software that displays the fundus and OCT images in real-time, and allows the user to control the position of the OCT beam spot on the fundus image display. The system was used to image healthy mice and a mouse model of glaucoma. Fundus images and OCT scans were successfully acquired in both eyes of all mice with eyes that had clear optics. The study demonstrates the feasibility of acquiring simultaneous fundus and OCT images of the mouse retina, by a single operator, in a manner suitable for rapid evaluation of mouse models of retinal disease.
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