Physics

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https://hdl.handle.net/10323/11897

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Browsing Physics by Subject "MRI"

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    Cerebral Waste Clearance: Measurements and Applications
    (2023-01-01) Kaur, Jasleen; Xia, Yang; Roth, Bradley J; Zhang, Li; Zhang, Zhenggang; Chopp, Michael
    Cerebral Waste clearance (CWC) is an essential process for brain homeostasis, which is required for the healthy functioning of all cerebrovascular and parenchymal brain cells. This dissertation features our current understanding of CWC, both within and external to the brain parenchyma. We describe the role of the cerebrospinal fluid (CSF) and its exit routes in mediating CWC. Recent discoveries of the glymphatic system and meningeal lymphatic vessels (mLVs), and their relevance to CWC and various neurological conditions are highlighted. Controversies related to CWC research and potential future directions are presented. This dissertation is divided into seven chapters that discuss investigations that used magnetic resonance imaging (MRI) and confocal microscopy imaging to evaluate the recently identified CWC routes, namely the glymphatic system and the mLVs. The dissertation begins with an introduction (Chapter- 1). It proceeds with background (Chapter- 2) based on two published peer-reviewed ‘review’ articles, and three research projects based on one submitted, one published ‘original research’ articles (Chapters- 3, 4) and one project with negative results (Chapter- 5). Among the three projects described in this dissertation, the first project (Chapter- 3) aimed to investigate the controversy of glymphatic convective bulk flow in the interstitial spaces and explore the association of perivascular macrophages (PVMs) in assisting the glymphatic system for CWC. Our findings solidify the glymphatic system hypothesis and indicate the interaction of PVMs with the glymphatic CSF influx along the arteries and glymphatic CSF efflux along the veins. The second project (Chapter- 4) aimed to examine the changes in the glymphatic system in rats with glioblastoma multiforme (GBM) and our results identify reduced glymphatic influx and clearance due to GBM. The third project (Chapter- 5) aimed to assess the mLVs as a potential efflux pathway of the glymphatic system under healthy and diabetic mellitus (DM) conditions. Our results suggest that mLVs are not the major efflux pathway of the glymphatic system, which is a negative result. The dissertation then discusses a translational issue for clinical MRI evaluation of the glymphatic system (Chapter- 6) based on a submitted ‘review’ article and concludes with a summary and future directions (Chapter- 7).
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    Structural Characteristics of Articular Cartilage in the Early Detection of Post-Traumatic Osteoarthritis by Microscopic Imaging Techniques
    (2023-01-01) Mantebea, Hannah; Xia, Yang; Roth, Bradley j; Khain, Evgeniy; Surdutovic, Eugene; Quan, Jiang
    Cartilage is a specialized form of connective tissue that provides support and cushioning to adjacent tissues in the body. Cartilage is of three types: Hyaline, fibrocartilage, and elastic. The articular cartilage is a hyaline type and is the most found throughout the animal and human bodies. Articular cartilage is composed of a dense extracellular matrix (ECM) with specialized cells, and chondrocytes, which are sparsely distributed. The ECM is primarily made up of collagen, proteoglycan, water, non-collagenous proteins, and glycoproteins. The components of the ECM are subject to change in the disease state, especially in osteoarthritis. As a result of the complex and unique nature of the articular cartilage, early detection, treatment, and repair pose a challenge in clinic. Imaging techniques such as magnetic resonance imaging (MRI) has been used in the noninvasive evaluation of the cartilage structure, and polarized light microscopy (PLM) allows the examination of the molecular organization at optical resolution.The first project in this dissertation aimed to study the structural characteristics of the articular cartilage in the patella and the fibrocartilage of the suprapatella in the knee joint. This was achieved quantitatively using µMRI and PLM at both low and high resolutions. The second project in this dissertation aimed to compare the structures between the immature and mature articular cartilage of the femur and humerus qualitatively and quantitatively using µMRI and PLM. The third project in this dissertation was aimed at the structural characteristics of the articular cartilage in the disease state. Specifically qualitative and quantitative characteristics from traumatized joints (post-traumatic osteoarthritis) were studied using µMRI and PLM at high resolutions. These studies confirmed the ability of µMRI and PLM to examine the cartilage structure quantitatively and qualitatively in a healthy state and in a diseased state. The ability to study the microscopic anatomy of cartilage and pathology (osteoarthritis) in the early stage will contribute to the treatment and early diagnosis of arthritis.