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020 ▼a 9781085635912
035 ▼a (MiAaPQ)AAI13881616
040 ▼a MiAaPQ ▼c MiAaPQ ▼d 247004
0820 ▼a 616
1001 ▼a Spicer, Graham L. C.
24510 ▼a Early Detection of Cancer Metastasis at a Synthetic Pre-Metastatic Niche Using Inverse Spectroscopic Optical Coherence Tomography.
260 ▼a [S.l.]: ▼b Northwestern University., ▼c 2019.
260 1 ▼a Ann Arbor: ▼b ProQuest Dissertations & Theses, ▼c 2019.
300 ▼a 220 p.
500 ▼a Source: Dissertations Abstracts International, Volume: 81-03, Section: B.
500 ▼a Includes supplementary digital materials.
500 ▼a Advisor: Backman, Vadim
5021 ▼a Thesis (Ph.D.)--Northwestern University, 2019.
506 ▼a This item must not be sold to any third party vendors.
520 ▼a Cancer progression is a complex process, leading to metastatic spread of primary tumor cells that colonize distant vital organs and mortality if not stopped. Since clinical strategies to stem this progression are still being developed, it is of great importance to detect this end stage metastatic spread as early as possible when the burden of the disease is still manageable by currently available treatments. The pre-metastatic niche describes a local tissue microenvironment where changes in chemokine signaling and immune cell recruitment allow for homing to and metastatic colonization of a specific organ site. An emerging approach to detect metastasis at its earliest stages is through the use of an implanted biomaterial scaffold to mimic this pre-metastatic niche and recruit circulating metastatic cells, lessening metastatic burden in organs and allowing for minimally invasive detection at a subcutaneous location. Using inverse spectroscopic optical coherence tomography (ISOCT), a novel optical spectral tomographic imaging technique, changes in nanoscale structure of the scaffold site in mice have been measured and correlated with presence of metastatic disease. This dissertation describes the development of ISOCT for early detection of metastasis via measurement of the scaffold in vivo and elucidates the milieu of cancer-associated restructuring effects detected with this technique. Laboratory models of carcinogenesis determined ISOCT sensitivity to both extracellular matrix crosslinking and its subsequent effect on proliferative and structural phenotype of cancer cells. A dual-bandwidth ISOCT benchtop instrument and an ISOCT probe housed in a hypodermic needle were developed to address the challenge of imaging and measurement of a scaffold through the skin. Studies of scaffold structure determined increased cancer-associated fibrosis, dysregulated angiogenesis, and differences in scaffold-resident cell population and structure to be the prevailing changes in scaffold structure that allow for potential metastasis screening with ISOCT. Separate development and application of partial wave spectroscopic microscopy for gold nanoparticle imaging, tracking, and spectral analysis allowed for spectral classification of gold nanoparticles based on cellular internalization, with potential for future application to enhancing ISOCT contrast. Development of ISOCT measurement techniques and processing algorithms enabled novel application to imaging and measurement of optical, ultrastructural, and chemical properties in living corals.
590 ▼a School code: 0163.
650 4 ▼a Medical imaging.
650 4 ▼a Zoology.
650 4 ▼a Biomedical engineering.
650 4 ▼a Physiology.
650 4 ▼a Epidemiology.
650 4 ▼a Public health.
650 4 ▼a Oncology.
650 4 ▼a Health sciences.
650 4 ▼a Pathology.
690 ▼a 0574
690 ▼a 0472
690 ▼a 0541
690 ▼a 0573
690 ▼a 0571
690 ▼a 0566
690 ▼a 0992
690 ▼a 0766
690 ▼a 0719
71020 ▼a Northwestern University. ▼b Chemical and Biological Engineering.
7730 ▼t Dissertations Abstracts International ▼g 81-03B.
773 ▼t Dissertation Abstract International
790 ▼a 0163
791 ▼a Ph.D.
792 ▼a 2019
793 ▼a English
85640 ▼u http://www.riss.kr/pdu/ddodLink.do?id=T15491194 ▼n KERIS ▼z 이 자료의 원문은 한국교육학술정보원에서 제공합니다.
980 ▼a 202002 ▼f 2020
990 ▼a ***1816162
991 ▼a E-BOOK