Imagerie moléculaire des lésions d'athérosclérose vasculaires et valvulaires chez la souris / Molecular imaging of vascular and valvular atherosclerosis lesion in mouse

Rucher, Guillaume

13 February 2019

Les lésions d’athérosclérose sont une des causes majeurs du développement de pathologies cardiovasculaires. Cette pathologie chronique à l’origine inflammatoire est caractérisée par des mécanismes moléculaires et cellulaires complexes. L’activité de minéralisation retrouvée au sein des lésions est un critère clé de l’avancée de la maladie. A l’aide d’un modèle murin d’athérosclérose accélérée et de travaux d’optimisation technique, nous avons exploré la faisabilité de l’exploitation de l’imagerie par tomographie à émission de positons au fluorure de sodium associée à l’imagerie à résonance magnétique de la pathologie dans un modèle murin d’athérosclérose accélérée. Dans ce travail nous avons mis en évidence une activité de minéralisation précoce et soutenue associée à un statut inflammatoire plus avancé chez les animaux insuffisants rénaux. Ajouté à cela, nous avons mis en place un nouveau modèle murin de rétrécissement aortique calcifié par irradiation localisée. / Atherosclerosis lesions are a leading cause of cardiovascular events. Atherosclerosis is a chronic inflammatory disease including complex molecular and cellular mechanisms. Mineralization process within the atherosclerosis lesions is a key feature of the disease development. Using a mouse model of accelerated atherosclerosis and imaging optimisation study, we showed the feasability of sodium fluoride positron emission tomography combined to magnetic resonance imaging to assess molecular activity in a mouse model of accelerated atherosclerosis. We showed that uremic animals had an early and sustained mineralization activity associated to an advanced inflammatory state. Furthermore, we developped a new mouse model of calcified aortic stenosis using targeted radiation exposure.

Rétrécissement aortique

Inflammation

Atherosclerosis

Aortic stenosis

Mineralization

Positrons Emission Tomography

Magnetic Resonance Imaging

Animal experimentation

The nature of geochemical anomalies associated with the PGE mineralization in the Stella layered intrusion, North West province, South Africa

Nkomo, Nomagugu

January 2020

Masters of Science / The redistribution patterns of trace elements related to ore mineralisation in the secondary environment are the foundation of regolith exploration geochemistry. Understanding the controls of these element patterns is important for the detection of underlying ore deposits, especially in areas where bedrock is concealed by extensive regolith. The study area, which hosts PGE and gold deposits within the Stella Layered Intrusion is one such area. A major aim of this study was to use major element data to characterise the regolith materials enclosing the PGE mineralisation in the Stella Layered Intrusion to ascertain the degree of weathering that has occurred. Furthermore, the study aimed to relate the weathering patterns in regolith to the distribution of pathfinder elements of PGEs and gold in areas proximal and distal to the mineralised zones. The study was conducted using XRF data, which included major oxide and trace element data. These data were used to characterise regolith materials (scatter plots, K/Al versus Mg/Al plots) and calculating indices that determine the degree of weathering such as CIA and ICV indices as well as A-CN-K and A-CN-FM diagrams. Signatures of pathfinder/ trace elements were enhanced by hydroxylamine hydrochloride partial selective leach technique. The distribution patterns of the partial leach data were compared to the intensity of weathering and weathering products, e.g. manganese oxides, carbonates in areas proximal and distal to the ore zone. In the Serpens North Prospect, the major horizons that were identified include saprolith, stone line and aeolian sands. Incipient calcrete formation occurs in some parts of the Sirius Prospect, while in some parts, well developed, thick calcrete layers are found interlayered with the saprolith and aeolian sand.

Exploration

Regolith geochemistry

Partial leach techniques

PGE mineralization

Stella Layered Intrusion

Secondary dispersion

Influence of Solution Composition and Temperature on the Strontium Content of Amorphous Calcium Carbonate and Subsequent Calcite

Angel, Adam M.

15 August 2013

The Sr/Ca ratios in calcium carbonate fossils are used by the paleooceanographic community to infer past environmental conditions, such as sea surface temperature and ocean chemistry. The processes of biogenic calcification that produce these chemical signatures are complex and not fully understood, however, and vital effects are known to affect the trace element composition of the CaCO₃ biomineral products. The recent discovery that calcifying organisms produce amorphous calcium carbonate (ACC) as an intermediate phase during the crystallization process calls into question whether this pathway to mineral formation affects trace element distributions in the final product. This non-classical mineralization process raises the question of whether the Sr/Ca ratios of the final products are dependent upon temperature. That is, what is the temperature dependence of Sr/Ca ratios in calcite produced via ACC compared to the measurements obtained from calcite grown by the classical process in laboratory experiments and from biogenic settings. The goal of this study is to determine the effects of solution chemistry and temperature on the Sr composition of ACC and resultant crystalline CaCO₃. Two types of experiments were designed: First, experiments were conducted to synthesize inorganic ACC in a batch reactor for a suite of selected chemical compositions and allowing this intermediate phase to transform into calcite in the reactant solution. In a second series of experiments, ACC was precipitated by a flow-through method to compare results to the batch reactor experiments. The experimental design focused on determining the Sr/Ca ratio and Sr distribution coefficients (KD, Sr) of the amorphous and final crystalline products. Mg/Ca ratios of 5/1 were found to suppress Sr uptake into ACC by a factor of 25% when the initial Sr solution had concentration of one millimolar. ICP-AES data collected across the 18° to 30°C range showed that the Sr/Ca ratio in both ACC and the resultant calcite was independent of temperature. Upon transformation, the Sr/Ca ratios of both the ACC and calcite product were found to be similar, showing that Sr/Ca ratios were independent of the transformation process. Analysis of the data determined KD, Sr values of 0.564(±0.006) for ACC and 0.466(±0.009) for the resultant calcite in the 18-30°C temperature range. The findings show that the Sr/Ca ratios of ACC and the transformed calcite are independent of temperature. However, the corresponding KD, Sr values exceed those reported for calcite grown by classical processes by an order of magnitude. The findings for the inorganic calcite yield KD, Sr values up to four times higher than those found in biogenic calcites. Because the findings of this study show that Sr/Ca is independent of temperature, this study calls into question whether previously reported Sr/Ca measurements in biogenic calcites should be revisited. It is plausible that biological factors have a significant influence on trace element incorporation into biogenic calcite. Vital effects, such as the influence of macromolecules during the ion uptake process, may regulate the apparent Sr/Ca versus temperature trends observed in marine paleontology. Higher KD, Sr values in marine calcifiers may indicate that organisms use the non-classical mineralization pathway in whole or in part. Future studies of trace element incorporation in calcifying species should consider the pathway to mineralization in tandem with interpretations of environmental controls on distribution coefficients. / Master of Science

strontium

amorphous calcium carbonate

calcite

trace element distribution

non-classical mineralization

biomineralization

Investigating Biomineralization as a Strategy to Improve Formulation and Delivery of Phage Therapies

Dawadi, Sonika

02 August 2023

No description available.

Chemistry

Biochemistry

Phage therapy

Phage engineering

Phage display

Bio-mineralization

Phage delivery

QUANTIFICATION OF MINERALIZATION AROUND THE MURINE KNEE IN RESPONSE TO UBIQUITOUS INTEGRIN α1B1 AND CARTILAGE-SPECIFIC TBRII KNOCK-OUT

Bashar, Roshan

January 2023

Osteoarthritis is the most common form of arthritis. Genetic models have been developed to determine if and how a targeted gene may influence cartilage degenerative changes. The itga1-null mouse model has an inhibited integrin α1B1 through a ubiquitous integrin α1 subunit knockout, which leads to fibrosis in articular cartilage through excessive signalling from transforming growth factor beta (TGFB). Depleting this TGFB signalling is proposed to have a protective effect on cartilage. This project is part of a foregoing study where a cartilage-specific knockout of TGFB receptor type II (TBRII) was used to deplete TGFB signalling in articular cartilage of the itga1-null mice to reduce the severity of cartilage degradation. This project continues the analysis of the genetic model into bone architecture at the knee. Mouse hindlimbs were scanned at a 13μm resolution using micro-computed tomography and segmented into 3D datasets containing calcified tissues and bone of the knee and surroundings. Quantification methods for trabecular bone parameters (bone volume fraction, trabecular separation, and trabecular thickness) and ectopic calcification of soft tissues were developed. Loss of trabecular bone around the involved joint is a hallmark of post-traumatic osteoarthritis. However, the results from this study showed no significant changes in trabecular bone of itga1-null mouse knees despite observing severe osteoarthritic changes in the adjacent cartilage. There were no significant effects in peri-articular trabecular bone when the TBRII knockout in cartilage was activated, but there were significant increases in ectopic calcifications of the menisci and collateral ligaments. These ectopic calcifications were also seen in tamoxifen control mice, suggesting that tamoxifen, along with TBRII depletion in cartilage, had a role in increased abnormal calcifications. Although integrin α1B1 inhibition appears to have an important role in cartilage degeneration, it does not appear to influence the bony changes that normally accompany post-traumatic arthritis. / Thesis / Master of Applied Science (MASc) / Osteoarthritis is a common joint disorder, associated mainly with cartilage degradation. Some genes have been identified that cause or prevent osteoarthritis. A previous study used two of these genes in a genetic mouse model to explore how osteoarthritis may develop. Removing the integrin α1 subunit from mice caused osteoarthritic changes in the cartilage of the mouse knee. When the transforming growth factor beta gene was removed from the cartilage, these changes were less severe. This project continued the study by exploring changes in bone around the mouse knee. We quantified bone changes around the mouse knee using high-resolution micro-computed tomography scans. Contrary to common findings in post-traumatic osteoarthritis, we found that there were no significant changes in the bone around the knees even where severe cartilage changes had been identified. However, there were significant increases in calcifications of soft tissues including the meniscus and ligaments around the knee.

osteoarthritis

bone

microCT

knee

mouse model

calcification

genetic knockout

mineralization

TGFBeta

itga1-null

trabecular bone

Petrology of Mineralized and Non-Mineralized Samples from the Railroad District within the Carlin Trend, Elko, NV

Dvorak, Katherine A.

21 May 2013

No description available.

Chemistry

Geological

Mineralogy

Petrology

Calrin depsoits

gold

Railroad District

mineralization

hydrothermal

fluids

Nevada

Synthesis and Characterization of Imidazole Complexes of Silanes

Elisseva, Tatiana V.

12 May 2008

No description available.

Chemistry, Inorganic

mineralization

silicon deposition

N-containing ogranic bases

imidazoles

Circulation of copper and copper alloys in hinterland southern Africa: material evidence from Great Zimbabwe (1000-1700CE)

Mugabe, Bedone

04 April 2023

This dissertation seeks to establish the possible provenance of copper and copper alloys used at Great Zimbabwe (1000-1700CE) to infer local and regional circulation circuits. It employs archaeological, archival, and geochemical methods to characterize samples of 26 wound wire bracelets, bangles, anklets, necklaces, and other forms of expressive and decorative wear excavated from the southern terrace, (Hill Complex) at Great Zimbabwe. The samples were macroscopically, microscopically, chemically and isotopically characterized to understand the technique of manufacture, chemical composition, lead isotopic ratios and the starting composition of uranium and thorium in relation the model ages. The Pb isotopic data calculated 238U/204Pb (μ), 232Th/ 238U(κ) ratios and estimated model ages (T) were compared with published lead isotopic ratios from various ore samples from central and southern Africa. Within opportunities afforded by the historical record and limitations imposed by small sample sizes especially of the comparative geology, indications are that the studied objects were produced using ores matching the Cu-Ni mineralization at Empress Mine (in Zimbabwe), Cu Ag and Cu Pb Zn Ag mineralization associated with the Kundelungu Plateau (bordering Zambia and Democratic Republic of Congo). This suggests that Great Zimbabwe participated directly and indirectly in the vibrant micro, regional and interregional circulation of copper and other resources. Future work, must however, add more trace element data from the objects and increase the number of samples from ancient mines and other sites to develop a fuller picture of the movement of copper in Iron Age southern Africa through space and time.

copper-alloys

trade and exchange

circulation

geological- mineralization

lead isotope analysis provenance

A COMPARISON OF SOIL NITROGEN AVAILABILITY ALONG HILLSLOPES FOR A PREVIOUSLY MINED RECLAIMED WETLAND AND TWO NATURAL WETLANDS IN FORT MCMURRAY, ALBERTA

Thorne, Chelsea

11 1900

In situ measurements of soil nitrogen dynamics is a potential method for evaluating the health of constructed wetlands following oil sands mining. The objective of this study is to measure and compare the soil nitrogen availability of a reclaimed fen (Sandhill fen) with a nutrient-rich reference fen (Poplar fen) and a nutrient-poor reference fen (Pauciflora fen) in the Athabasca oil sands region of northern Alberta. Total Nitrogen (TN), Nitrate (NO3-) and Ammonium (NH4+) supply rates were determined along wetland hillslope transects using Western Ag Innovations Plant Root Simulator (PRSTM) probes at all three sites in 2014. Net N mineralization, net nitrification and net ammonification were determined simultaneously using the buried polyethylene bag sampling method. Overall, TN supply rates were greatest at the poor fen and least at the constructed Sandhill fen. In contrast, mineralization was greatest at the rich fen but again least at the Sandhill fen. Mineralization at the Sandhill fen was controlled evenly by ammonification and nitrification, whereas the two natural sites were controlled by ammonification. Relatively low N supply rates and mineralization at the Sandhill fen were likely due to lower soil organic matter and limited soil moisture in these newly constructed substrates. Spatial differences along the hillslopes also varied among sites. The Sandhill fen had higher TN supply rates at the upslope positions but no significant differences in net N mineralization rates along the hillslopes. The rich fen also had higher TN supply rates at the upslope but greatest mineralization rates downslope. These results highlight the importance of N storage and transport processes and offer insight into the N status of a constructed fen. / Thesis / Master of Science (MSc)

Soil Nitrogen Availability

Nitrogen Mineralization

Oil Sands Reclamation

Boreal Region

Wetland Hillslopes

Biogeochemistry

PRS probes

Fen

Geophysical Response of Sulfide-Poor PGM-Bearing Mafic-Ultramafic Rocks: Example of the Boston Creek Flow, Abitibi Greenstone Belt, Ontario

Larson, Michelle Susanne

29 April 1994

<p> Sulfide-poor platinum-group element (PGE) mineralization occurs within the Archean Boston Creek Flow ferropicrite, Abitibi greenstone belt, Canada. The PGE mineralization (∑PGE+Au = up to 1000 ppb) is manifest as metre-scale platinum-group mineral-bearing pods of disseminated chalcopyrite and pyrite (< 1 modal%) within titaniferous magnetite-rich gabbroic rock at the base of its central gabbroic layer. This mineralization is distinct in character from well known PGE mineralization associated with massive Fe-Ni-Cu sulfides at the base of komatiite flows at Kambalda, Western Australia and elsewhere. Exploration strategies presently used to search for PGE in mafic and ultramafic volcanic rock terrains are based on the geological and geophysical characteristics of sulfide-rich PGE mineralization. Consequently, refinements in exploration strategies are required if economic concentrations of sulfide-poor PGE mineralization are to be discovered in volcanic terrains.</p> <p> To begin development of such exploration criteria, ground-based magnetic and VLF surveys were conducted over the PGE mineralization along a single cross-section through the BCF. Drill core samples were collected along this transect to characterize the volume magnetic susceptibility and natural remanent magnetization (NRM) of the mineralization. Magnetic highs ranging in intensity from 64000 to 65000 nT were recorded for the base of the gabbroic layer, including mineralized outcrops. Susceptibilities of up to 9700 cgs and high remanence values with variable directions were determined. VLF, as expected, was not useful in identifying the mineralized horizons. The peridotite at the base of the flow appears to be the only conductive rock in the BCF.</p> <p> The magnetic highs associated with the base of the gabbroic layer define a positive anomaly that appears to be podiform in outline and up to ten metres in maximum dimension. This result suggests that the titaniferous magnetite-rich rock is itself podiform, like the enclosed PGE mineralization. This magnetic anomaly is not extensive enough to be evident on a regional scale aeromagnetic map as a separate anomaly within the BCF, and is not evident through VLF techniques. The rocks hosting the PGE mineralization is defined by the paleomagnetic results but this is not a practical field method.</p> <p> The geophysical characterization of the PGE mineralization host rocks, and of the BCF in general, demonstrates the potential of detailed magnetic and susceptibility mapping, together with petrographic and petrologic studies, in the search for economic PGE concentrations of sulfide-poor PGE mineralization in other volcanic and possibly plutonic rocks as well. Specifically, the results suggest that podiform magnetic anomalies within titaniferous magnetite-rich pyroxenites and gabbroic rocks may have potential use in the exploration for economic sulfide-poor PGE mineralization. Although the paleomagnetic methods used in this study are probably not of direct use in exploration, they were able to distinguish the different lithologies in the BCF. This substantiates the results of the susceptibility measurements in characterizing PGE mineralized, titaniferous magnetite-bearing rocks. The results of the paleomagnetic study also show that the NRM of the Ghost Range intrusive complex is not primary and therefore the Archean apparent polar wander path as it is currently defined is incorrect.</p> / Thesis / Bachelor of Science (BSc)