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" A Three-Dimensional Tissue Molecular Imaging System Based on Angular Domain Optical Projection Tomography: "
Torres, Veronica
Tichauer, Kenneth
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Latin Dissertation
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| Language of Document
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English
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| Record Number
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1107449
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TLpq2446557604
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| Main Entry
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Tichauer, Kenneth
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Torres, Veronica
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| Title & Author
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A Three-Dimensional Tissue Molecular Imaging System Based on Angular Domain Optical Projection Tomography:\ Torres, VeronicaTichauer, Kenneth
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| College
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Illinois Institute of Technology
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| Date
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2020
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| student score
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2020
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| Degree
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Ph.D.
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| Page No
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178
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| Abstract
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Sentinel lymph node biopsy is a good prognostic factor for several cancers as therapeutic decisions are often determined by the results. Despite this importance, false negatives remain common because of standard pathology procedures that aim only to detect macrometastases (> 2 mm diameter) and leave more than 99% of lymph node volumes unassessed. While it is possible to section tissue samples more thoroughly, a subsequent 10× increase in pathologist read time is undesirable. Therefore, a more sensitive and rapid approach for lymph node evaluation is warranted. Our proposed solution was the development of an angle-restricted optical projection tomography system to provide high resolution quantitative imaging of whole lymph nodes prior to conventional pathology. Two main strategies were employed: 1) early photon imaging achieved with angular restriction to minimize the number of detected multiply scattered photons that add to imaging blur; and 2) paired-agent molecular imaging, which can quantify targeted biomolecule concentrations through co-administration of targeted and control imaging agents. This thesis focused primarily on the first aspect; however, all work was performed with paired-agent imaging in mind, such that the technique can be implemented directly in future studies. The first chapter presents a proof-of-concept that verifies the utility of angle-domain imaging for evaluation of low scattering lymph nodes. Filtered backprojection and strict angle restriction for scatter rejection were sufficient to detect and localize clinically relevant metastases. In the second chapter, improvements were made to the system so that detection efficiency could be improved, and the system was more rigorously characterized in terms of reconstruction accuracy and limits of detection. Finally, the third chapter presents the investigation of alternate reconstruction techniques to push the limits of achievable resolution and image quality. The overall findings of this work demonstrate the potential for an angle-restricted tomography system to provide significant improvements of metastases detection sensitivity in excised lymph nodes compared to conventional pathology at a fraction of the time and cost.
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Biomedical engineering
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Surgery
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