Selected aspects of the toxicokinetics of cadmium and lead in animal and cellular models

Evans, Timothy J.,

January 2002

Thesis (Ph. D.)--University of Missouri--Columbia, 2002. / Typescript. Vita. Includes bibliographical references (leaves 109-118). Also issued on the Internet.

Quantifying the fidelity of a novel methodology for in-core experiment prototyping at the advanced test reactor

Parks, Brian David

20 February 2012

We have recently developed and tested a new computational method for experiment prototyping at the Advanced Test Reactor (ATR). The method significantly reduces neutronic computation time while maintaining computational accuracy. In this thesis, we present the method and describe the techniques that we used to implement it. We then qualitatively and quantitatively analyze its performance for absorptive and multiplicative experiment perturbations over a single region and across multiple regions of the ATR. We conclude with a discussion of future research that might be conducted on the method. / text

Advanced test reactor

Nuclear engineering

Computation

Idaho National Laboratory

Adrenomedullin in female reproductive system: gene expression and actions in cycling and pregnant rats

李蕾., Li, Lei

January 2010

published_or_final_version / Physiology / Doctoral / Doctor of Philosophy

Rats as laboratory animals

Adrenomedullin.

Gene expression.

Rats - Generative organs.

Biocompatibility and efficacy of a new synthetic polymer, crosslinked urethane-doped polyester elastomers (CUPEs), as nerve conduit forreconstruction of segmental peripheral nerve defect using rat model

Yip, Siu-leung., 葉紹亮.

January 2010

published_or_final_version / Orthopaedics and Traumatology / Master / Master of Medical Sciences

Polymers in medicine.

Nerves, Peripheral - Diseases.

Rats as laboratory animals.

Roles of makorin-2 in embryonic development and carcinogenesis

Cheung, Ka-chun, 張家進

January 2010

published_or_final_version / Chemistry / Doctoral / Doctor of Philosophy

Carcinogenesis.

Embryology.

Developmental neurobiology.

Frogs as laboratory animals.

A study of the effects of (-)-epigallocatechin-3-gallate (EGCG) on a clinically relevant rat model of non-alcoholic fatty liver diseases(NAFLD)

Ho, Chi-tat., 何志達.

January 2010

published_or_final_version / Anatomy / Doctoral / Doctor of Philosophy

Polyphenols - Physiological effect.

Fatty liver.

Rats as laboratory animals.

Adrenomedullin: distribution in the male accessory sex glands of the rat and the effects of adrenomedullin inthe seminal fluid on the female reproductive tract

Kong, Hei-man, Lowell, 江希文

January 2010

published_or_final_version / Anatomy / Master / Master of Philosophy

Adrenomedullin.

Rats - Generative organs.

Rats as laboratory animals.

Effect of gender and age on the vascular actions of flavonoids in the rat mesenteric artery

Zhang, Yu, 张宇

January 2011

published_or_final_version / Pharmacology and Pharmacy / Master / Master of Philosophy

Flavonoid.

Blood vessels - Effect of drugs on.

Rats as laboratory animals.

Identification and characterization of stem cell-like populations in primate intervertebral disc

Huang, Shishu., 黄石书.

January 2012

Upon aging, the intervertebral disc (IVD) inevitably undergoes degeneration characterized by biochemical and morphologic changes. IVD degeneration can lead to multiple clinical disorders such as back and neck pain, and myelopathy. Low back pain can disable up to 85% of the adult population and results in a significant restriction of social activities and inability to work. Such disorder incurs billions of dollars in medical expenditures each year. Despite advances in the detection and treatment of the degeneration, the regeneration of the IVD remains low because current therapies are limited by exogenous curing approaches. New strategies for the reversal of IVD degeneration, including gene, cytokine, and stem cell therapies that can influence the anabolic and catabolic pathways in disc cells have been under investigation. These therapies aim to rejuvenate or replace diminished nucleus pulposus cells in the degenerative IVD. Recent reports have put forth a proposal of “endogenous disc stem cells”, suggesting that cells derived from the degenerative IVD tissue possess stem cell properties. These putative stem cells are believed to regulate the development and homeostasis of the IVD tissue. In this study, we identified and characterized a stem cell population from the IVD of healthy Rhesus monkey, termed disc stem/progenitor cells (DSCs). We show that the DSCs possess clonogenicity, multipotency and self-renewal capacity. The DSCs are phenotypically similar to bone marrow mesenchymal stem cells (BMSCs) but they are not identical. The DSCs show a faster growth rate under hypoxia than normoxia. DSCs derived from nucleus pulposus (DSCNP) show a stable expression level of hypoxia inducible factor-1 alpha (Hif-1ａ) in response to hypoxia. DSCs derived from annulus fibrosus (DSCAF) are more resistant to apoptosis under hypoxia than DSCNP. More importantly, small leucine-rich proteoglycans (SLRPs) are identified as important DSC niche components. We show that biglycan (bgn) and decorin (dcn) reduce the susceptibility of DSCs to hypoxia-induced apoptosis by promoting the expression of hypoxia inducible factors (HIFs). Our findings suggest that DSCs rely on the unique niche components for survival. In summary, our findings propose the existence of endogenous stem cells in IVD. Further study of the DSCs may provide new insights into the biology of IVD and facilitate the design of new strategies to treat disc degeneration in future. / published_or_final_version / Orthopaedics and Traumatology / Doctoral / Doctor of Philosophy

Stem cells

Intervertebral disk.

Primates as laboratory animals.

Magnetic resonance imaging investigation of normal and altered brain functions and metabolisms

Zhou, Yuwen, 周彧雯

January 2012

Benefiting from higher SNR as well as better spatial, temporal and spectral resolution, magnetic resonance imaging (MRI) at high field has proved to be a valuable neuroimaging modality which provides comprehensive evaluation of the central nervous system non-invasively. The objectives of this doctoral work were to develop MRI methodologies and to assess the functional, metabolic and structural alterations in rodent brains under normal and manipulated conditions. Firstly, to improve the functional sensitivity and spatial precision, a novel functional MRI (fMRI) method using balanced steady state free precession with intravascular susceptibility contrast agent was proposed and its feasibility was evaluated in rat visual system. This new approach was sensitized to cerebral blood volume (CBV) changes. It provided comparable sensitivity to conventional CBVweighted fMRI using echo planar imaging but with no severe image distortion and signal dropout. Robust negative responses during visual stimulation were observed and activation patterns were in excellent agreement with known neuroanatomy. As a promising alternative to conventional CBV-weighted fMRI, it was particularly suited for fMRI investigation of animal models at high field. Secondly, the relationship between anatomical connections and resting-state fMRI connectivity was explored using a well-controlled animal model of corpus callosotomy. Both complete and partial callosotomy resulted in significant loss of interhemispheric connectivity in the cortical areas whose primary interhemispheric connections via corpus callosum (CC) were severed. Partial restoration of interhemispheric connectivity and increased intrahemispheric connectivity were also observed. The experimental findings directly supported that anatomical connections via CC play a primary and indispensable role in resting-state connectivity, and that resting-state networks could be dynamically reorganized or acquired directly or indirectly through the remaining anatomical connections. Thirdly, proton magnetic resonance spectroscopy (1H MRS) was employed to monitor the longitudinal metabolic alterations elicited by exogenous stimulation and endogenous modification, respectively. Significantly lower hippocampal N-acetylaspartate (NAA) was observed in fear conditioning animals, indicating reduced neuronal dysfunction and/or integrity, which contributed to the trauma-related symptoms. Meanwhile, pregnant animals exhibited prominently higher hippocampal NAA level, reflecting the increased density of neurons in this region, which might facilitate supporting behaviors that involving learning and memory. The 1H MRS detection of ongoing neurochemical changes induced by fear conditioning and pregnancy, especially in the hippocampus, can shed light on the mechanisms of learning and memory and the neurochemical underpinnings of behavioral improvement in pregnant animals. Lastly, manganese-enhanced MRI (MEMRI) was employed to investigate the hypoxic-ischemic (HI) injury in the late phase and the neural response to conditioned fear. Significantly higher enhancement in T1-weighted images was found in the peri-lesional region 24 hours after manganese administration and it colocalized with the increase in glial cell density in histological staining, demonstrating the existence of reactive gliosis in the late phase after HI injury. In fear conditioned animals, higher manganese uptake was observed in amygdala, hippocampus, paraventricular nucleus of hypothalamus and cingulate cortex, which were all highly-involved in the process of fear. These findings suggested MEMRI approach were useful in investigation of post-injury cellular events and functional reorganization as well as for in vivo mapping of neuronal activity. / published_or_final_version / Electrical and Electronic Engineering / Doctoral / Doctor of Philosophy

Brain - Magnetic resonance imaging.

Rats as laboratory animals.