عنوان
پدید آورنده
موضوع
رده
کتابخانه
محل استقرار
TL52961
انگلیسی
Enhanced Optical Tomography in Diffuse Media Using Optical Gating of Early Photons
[Thesis]
Ghosh, Aishwarya
Tichauer, Kenneth M.
Illinois Institute of Technology
2020
58 p.
M.S.
Illinois Institute of Technology
2020
Tissue biopsies, where a volume of tissue is removed from a patient, typically through needle extraction, provides critical information about the cellular and molecular aspects of an individual patient's health and/or disease. However, current pathological assessments of tissue biopsies evaluate less than 1% of the volume of the tissue (e.g., one to a few 5-micron slices are sectioned out of the biopsy and stained/processed for microscopic analysis). Since the bulk of tissue biopsy is carried out through optical imaging (absorption or fluorescence), a more 3D, "whole-biopsy" view is conceivably possible with optical projection tomography (OPT). The challenge with OPT has been that for clinically relevant sized biopsies, most photons undergo multiple scattering events that lead to loss of spatial resolution that makes accurate pathological analysis intractable. In my MS thesis, I worked on the development of an enhanced OPT system that employs optical gating based on non-linear up-conversion of infrared ultrashort laser pulses to isolate "early-arriving" photons that experience significantly less scatter than the bulk of photons transiting a scattering biological sample. Considering the complexity of such a system, the entirety of my MS thesis work was spent constructing and testing the femtosecond optical gated OPT system and though I was unable to validate its operation in biological samples, simulations suggest that the properties we were able to achieve could allow high resolution optical imaging in 0.1-1 cm-diameter specimens.
Bioengineering
Engineering
Optics
Ghosh, Aishwarya
Tichauer, Kenneth M.
Illinois Institute of Technology
مطالعه متن کتاب p
[Thesis]
276903
a
Y
