Separations with Raman spectroscopy for identification of oxidatively modified components in Parkinson's Disease

Kwok, Chun Shing

January 2008

Current diagnostic tests are unable to unequivocally diagnose many neurological diseases. Parkinson's disease (PD) is one such neurological disorder that has been linked to oxidative stress. Oxidative stress, the imbalance of oxidants and anti-oxidants, results in modifications in molecular structure, which can be detected by vibrational spectroscopy. In this thesis, Raman spectroscopy was used to measure blood samples that were separated. Measured spectra were analysed for evidence of changes associated with oxidative stress. Such changes were observed and the technique was developed into a diagnostic tool for the detection of oxidative stress in plasma from PD patients. In this work, Fenton reaction (Fe2+ and H2O2) was used to oxidize the biomolecules. Calibration measurements were performed in order to characterize Raman spectra. Characterization involved the assignment of the vibrational bands associated with oxidative stress. Changes were identified by comparing the spectra before and after the Fenton reaction. The next investigations were to determine the origin of the spectral signals. Plasma spectra were measured and separations were performed to remove the plasma components. The measured spectra were then compared to spectra taken prior to the removal of the components. By using this process, spectral contributions of the removed components were identified. Knowing the origin of the spectral signals, separations were applied to blood samples from normal and patients with PD. Raw and salting out spectra from three different groups were measured: a) a group of normal elderly control (NEC) patients, b) a calibration group of PD patients from Stage 1, and c) a test group of mixed PD patients from Stages 1-4. Data analyses included the use of stagewise multilinear regression to the measured spectra with cross-validation. This analysis generated a calibration model based on selected frequencies corresponding to oxidation and other functionalitie / Les tests diagnostiques actuels ne nous permettent pas de diagnostiquer d'une manière non équivoque plusieurs désordres neurologiques. La maladie du Parkinson's (PD) consiste en un désordre neurologique qui a été lié au stress oxydatif. Le stress oxydatif, c'est-à-dire le déséquilibre entre les oxydatifs et les anti-oxydatifs, donne lieu à des modifications de la structure moléculaire pouvant être détectées par la spectroscopie vibrationnelle. Dans ce mémoire, nous avons jumelé la spectroscopie Raman à des séparations d'échantillons de sang. Des spectres mesurés ont été analysés dans le but de trouver de l'évidence des changements associés avec le stress oxydatif. De tels changements ont été observés et la technique a été développée dans un outil diagnostique pour la détection du stress oxydatif dans le plasma des patients du PD. Dans ce travail, la réaction Fenton (Fe2+ et H2O2) a été utilisée pour oxyder les biomolécules. Des mesures de calibration ont été accomplies afin de caractériser les spectres Raman. La caractérisation a impliqué l'affectation des bandes vibrationnelles qui sont associées au stress oxydatif. Des changements ont été identifiés par la comparaison des spectres mesurés avant et après le traitement réactionnel de Fenton. Des enquêtes subséquentes ont été menées afin de déterminer l'origine des signaux spectraux. Les spectres de plasma ont été mesurés et des séparations ont été performés afin d'enlever les composantes du plasma. Les spectres mesurés ont été comparés aux spectres avant l'enlèvement des composantes. Par cette méthode, les contributions spectrales des composantes enlevées ont été identifiées. Avec la compréhension de l'origine des signaux spectraux, des séparations ont été appliquées à des échantillons de sang des personnes avec et sans PD. Nous avons mesuré des spectres crus et relargués de trois groupes : a) un group de contrôle normal des aîn

Chemistry - Analytical

Application of artificial intelligence techniques for inductively coupled plasma spectrometry

Sartoros, Christine.

January 1998

The development of intelligent components for the automated analysis of samples by inductively coupled plasma (ICP) Spectrometry is presented. An expert system for diagnosing an ICP atomic emission spectrometry (AES) system using a blank solution was developed as a warning system. This expert system was able to warn the system of major malfunctions and was able to identify most problems. Three pattern recognition techniques were compared in their ability to recognize similar geological samples in small databases. Two of these techniques, k-Nearest Neighbours and Bayesian Classification, worked extremely well with over 96% success. The development of an objective function for multi-element optimizations in ICP-AES is presented. Various aspects of the application of a Simplex optimization were explored for the optimization of the ion optics of an ICP-mass spectrometry (MS) system. An algorithm for the automatic selection of internal standards for analytes in difficult samples in ICP-MS is presented.

Chemistry, Analytical.

Effects of buffer modifiers and polymeric surface coatings in capillary electrophoresis

Tadey, Tanya

January 1995

The effects of buffer additives in capillary electrophoresis (CE) separations of various biologically important molecules were studied. Buffers containing $ beta$-cyclodextrin ($ beta$-CD) and borate were used to separate mixtures of monophosphorylated nucleotide isomers. The electrophoretic mobility of nucleotide isomers was altered as a result of selective complex-forming reactions with $ beta$-CD. In addition, complexation of 5$ sp prime$-nucleotides with borate increased the migration time window and led to better separation. / Mono- and di-phosphorylated isomers of the insulin receptor peptide (IRP), were resolved in buffers containing sodium dodecyl sulfate, (SDS). The effects of SDS concentration and pH on electrophoretic velocity and resolution were investigated. The use of polyacrylamide coated capillaries resulted in increased resolution and decreased analysis time. / The effects of various detergents on the electrophoretic behaviour of plasma apolipoproteins in uncoated and polyacrylamide coated capillaries were studied. Interaction between apolipoproteins and detergents was strongly influenced by the nature of the polar head group of the detergent. / Capillaries coated with various crosslinked hydrophillic polymers were prepared. Coatings based on poly(2-hydroxyethylmethacrylate) crosslinked with dimethylol ethylene urea exhibited the best performance for CE separations of basic proteins.

Chemistry, Analytical.

Design and implementation of an autonomous inductively coupled plasma atomic emission spectrometer

Branagh, Wayne A.

January 1996

The design and implementation of a framework for the automated analysis of samples by inductively coupled plasma atomic emission spectroscopy (ICP-AES) is presented. Various components of this framework have been explored and validated. After initial work was undertaken to determine a suitable pattern recognition technique for sample classification, approaches for detecting the presence of a problematic matrix, and for selecting analysis conditions and calibration methodologies were developed. For the small universe of 14 elements used, the system performed well when matrix effects were due to concomitants in the examined universe. The application of generalized regression neural networks (GRNN) to compensate for spectral interferences and matrix effects and for correcting long-term drift was also examined. In post-processing the analysis results, the size of the GRNN training sets were found to be too small to permit accurate correction of matrix effects though accurate drift correction was possible.

Chemistry, Analytical.

Flow injection preconcentration combined with direct sample insertion for inductively coupled plasma atomic emission spectrometry

Moss, Pamela A. (Pamela Anne)

January 1991

A flow injection (FI) preconcentration system has been coupled with a direct sample insertion (DSI) system for inductively coupled plasma atomic emission spectrometry (ICP-AES). The FI system developed uses an ion exchange microcolumn to provide preconcentration factors of approximately for several metals. Improved DSI detection limits are obtained by employing a graphite sample probe of reduced mass. The improvements are element specific and range between 10 and 130. The combination of the two optimized systems results in overall detection limit improvements ranging between 140 and 1200 for the elements tested, Cu, Pb and Zn. Precision of the FI-DSI-ICP system averages 4% rsd for these three elements. The flow injection system is fully automated and under computer control, resulting in a reproducible FI processing time of 6.0 minutes, using 5 mL injection volumes. The system offers considerably potential for further gains in performance, by increasing the injection volumes used and optimizing the interface.

Chemistry, Analytical.

The catalytic polymerization of phenylsilane by bis(indenyl)dimethylcomplexes of titanium(IV) and zirconium(IV) /

Gauvin, François

January 1992

The dehydrogenative coupling reactions of phenylsilane (PhSiH$ sb3$) with the following bridged and unbridged bis(indenyl) complexes: ($ eta sp5$-C$ sb9$H$ sb7) sb2$MMe$ sb2$ (1), ($ rm eta sp5$-$ rm C sb9H sb{11}) sb2MMe sb2$ (2), $ rm (CH sb2) sb2( eta sp5$-$ rm C sb9H sb6) sb2MMe sb2$ (3) and $ rm (CH sb2) sb2( eta sp5$-$ rm C sb9H sb{10}) sb2MMe sb2$ (4) (where M = Ti (a) and Zr (b); and Me = CH$ sb3$), were investigated. Some of these reactions were monitored by $ sp1$H- and $ sp{29}$Si-NMR, and by gel permeation chromatography (GPC). The oligosilanes obtained generally showed a polymodal molecular weight distribution. During the reaction of PhSiH$ sb3$ with 1a, a new dititanium complex was isolated: $( mu$-$ rm eta sp6{:} eta sp5$-$ rm C sb9H sb7)( mu$-$ rm H) sb2 lbrack ( eta sp5$-$ rm C sb9H sb7)Ti rbrack sb2$. The structure of this compound was confirmed by X-ray diffraction analysis, by infrared spectroscopy, and by electron paramagnetic resonance (EPR). Some possible mechanisms for the formation of this complex, along with the origin of its short Ti-Ti distance (2.745 A), were discussed. For the other systems, it was shown that the catalytic activity was strongly dependent on the nature of the metal, and on the structure of the ligands surrounding it. The titanium-based catalysts seemed to be more efficient to produce linear oligosilanes having degrees of polymerization (DP) of 12 or 18, depending on the systems. Cyclic oligomers, having DP's of 6-7, were more specifically obtained with the zirconium-based catalysts. The only system having shown a certain kind of stereocontrol was the one based on 3b.

Chemistry, Analytical.

Development of a laser-based infrared detector for high pressure liquid chromatography. The analysis of cholesterol, cholestryl esters and triglycerides in serum

Stokl, Caroline

January 1987

An infrared detector is constructed for use in High Pressure Liquid Chromatography. The detector uses a helium-neon laser which emits at 3.39 microns in the infrared as the source and a commercial lead selenide semiconductor as the detector. The detector when used in the flow-injection analysis mode can detect all classes of lipid: fatty acids, triglycerides, phospholipids, cholesterols and cholestryl esters. Chromatography using a normal phase column with separation into the lipid classes of cholesterol, cholestryl esters and triglycerides is performed. A purchased serum sample has been prepared and separation and quantitation of the 3 lipid classes is performed.

Chemistry, Analytical.

Windowed direct exponential curve resolution quantification of nuclear magnetic resonance spectroscopy with applications to amniotic fluid metabonomics

Botros, Lucy L.

January 2007

This thesis presents a quantitative protocol of proton nuclear magnetic resonance (1H NMR) that allows the determination of human amniotic fluid metabolite concentrations, which are then used in a metabonomic study to establish patient health during gestation. 1H NMR free inductive decays (FIDs) of 258 human amniotic fluid samples from a 500MHz spectrometer are acquired. Quantitative analyses methods in both the frequency- and time-domain are carried out and compared. Frequency-domain analysis is accomplished by integration of the metabolite peaks before and after the inclusion of a known standard addition of alanine. Time-domain analysis is accomplished by the direct exponential curve resolution algorithm (DECRA). Both techniques are assessed by applications to calibration biological solutions and a simulated data set. The DECRA method proves to be a more accurate and precise route for quantitative analysis, and is included in the developed protocol. Well-defined peaks of various components are visible in the frequency-domain 1H NMR spectra, including lactate, alanine, acetate, citrate, choline, glycine, and glucose. All are quantified with the proposed protocol. Statistical t-test and notched box and whisker plots are used to compare means of metabolite concentrations for diabetic and normal patients. Glucose, glycine, and choline are all found to correlate with gestational diabetes mellitus early in gestation. With further development, time-domain quantitative 1H NMR has potential to become a robust diagnostic tool for gestational health.

Chemistry, Analytical.

Instrumentation, fabrication techniques and method development for sample introduction, preparation and extraction on centrifugal microfluidic devices in motion

Duford, David

January 2012

A growing number of pollutants are being shown to have a large environmental and health impact resulting in stricter legislative limits. Increased environmental monitoring is forcing analytical chemists to consider automating and miniaturizing current standard methods. Instrumentation and sample handling techniques for centrifugal microfluidic devices in motion have been developed with the objective of integrating multi-step reactions into a single device for the analysis of environmental solid samples.In order to study and optimize centrifugal microfluidic devices in motion, motorized stages integrating a camera, strobe and a variety of other peripheral components were developed. These allowed precise control of the devices throughout the methods' spin sequences and simultaneous acquisition of a series of stop action photographs of the devices.Non-contact methodologies for sample introduction, preparation and extraction on centrifugal microfluidic devices in motion are presented. To achieve this, hybrid fabrication techniques including the use of 3D printers were investigated and a World-to-Disk interface permitting the introduction of a solution gradient to a spinning device was developed. The interaction of integrated mobile magnets with a series of fixed magnets placed below the spinning devices was also investigated resulting in the development of both a magnetically actuated solid sample preparation and a magnetically actuated liquid-solid extraction technique. New automated and miniaturized methods for the analysis of environmentally important species such as polycyclic aromatic hydrocarbons and pesticides in solid samples are presented. / Les polluants ont des impacts importants sur la santé et l'environnement résultant à des restrictions accrues des limites législatives. Cette surveillance environnementale accrue pousse les chimistes analytiques vers l'automatisation et la miniaturisation des méthodes de référence actuelles. L'analyse d'échantillons environnementaux solides bénéficiera de cette envolée par le développement de nouveaux instruments et techniques de manipulation d'échantillon via des dispositifs microfluidiques centrifuges qui intègrent des réactions à étapes multiples sur un dispositif unique.Afin d'étudier et d'optimiser les dispositifs microfluidiques centrifuges en mouvement, des plateformes motorisées qui incluent une caméra, une lumière stroboscopique et une variété d'autres composantes périphériques ont été développées. Celles-ci ont permis le contrôle efficace des dispositifs tout au long des séquences giratoires et l'acquisition simultanée de séries de photographies en arrêt sur image.Des méthodologies sont présentées pour l'introduction, la préparation et l'extraction d'échantillons sur des dispositifs microfluidiques centrifuges en mouvement. Ceci fut réalisé grâce à la recherche de techniques de fabrication hybrides incluant l'utilisation d'imprimantes 3D menant au développement d'une interface permettant l'introduction de solutés à concentrations variables aux dispositifs en mouvement. De plus, l'interaction d'aimants mobiles intégrés avec une série d'aimants fixes placée sous les dispositifs en mouvement a mené au développement des techniques de préparation d'échantillons solides par force magnétique et d'extraction liquide-solide d'échantillons par force magnétique. De nouvelles méthodes automatisées et miniaturisées ont été développées pour l'analyse d'espèces environnementales importantes telles que les hydrocarbures polycycliques aromatisés et les pesticides dans des échantillons solides.

Chemistry - Analytical

Optical tomography by time-resolved diffuse reflectance measurements

Long, William F. (William Frank), 1971-

January 2000

The understanding of the interaction of light with a scattering/absorbing medium provides a foundation needed for developing many applications in diagnostic medicine and industry. The objective of this research was to obtain quantitative depth-resolved information about absorbing constituents in a scattering medium. / Initially, the project focussed on quantification in samples where scattering and absorber concentration were variable. Using time resolved reflectance measurements, a series of statistical descriptors of the photon time distributions were calculated. Stepwise multilinear regression was used to formulate linear models from optimal linear combinations of the descriptors. It was found that the scattering coefficient, absorption coefficient and apparent particle diameter could be estimated to within 9, 10 and 7% of their reference values respectively. / An array of radial reflectance measurements on layered scattering/absorbing samples was made to obtain information sensitive to sub-surface changes in absorption. As an initial approach to depth-resolved quantification, classical tomographic reconstruction techniques were used. However, due to the ambiguity of the reconstruction, extremely poor estimates of the sub-surface absorption resulted. Chemometric methods were then employed for enhanced quantification. By using stepwise multilinear regression with time-resolved data, the absorption coefficient in the top region of a sample could be estimated to within 2%. However, errors in the absorption coefficient estimations deep within a sample remained high. / Further improvements in sample quantification were made by linearizing the reconstruction problem. By using a priori information about sample composition in upper regions, subsequent calibrations for lower regions were directed. Estimations of the absorption coefficient deep within a sample with hierarchical locally weighted calibration were obtainable at greater than 50% accuracy. This represented a 20% improvement at all sample depths over stepwise multilinear regression. / Confocal illumination and detection optics was also used for discriminating highly scattered photons from light, which follows a geometric path through a sample. When confocal optics were used together with information from the rising edge of time distribution, little enhancement in quantification was observed in comparison to an integrated signal. This important finding demonstrates that the confocal optical detection should be considered when imaging in scattering/absorbing media.

Chemistry, Analytical.