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Next generation transduction pathways for nano-bio-chip array platformsJokerst, Jesse Vincent 24 October 2014 (has links)
In the following work, nanoparticle quantum dot (QD) fluorophores have been exploited to measure biologically relevant analytes via a miniaturized sensor ensemble to provide key diagnostic and prognostic information in a rapid, yet sensitive manner—data essential for effective treatment of many diseases including HIV/AIDS and cancer. At the heart of this “nano-bio-chip” (NBC) sensor is a modular chemical/cellular processing unit consisting of either a polycarbonate membrane filter for cell-based assays, or an agarose bead array for detection of biomarkers in serum or saliva. Two applications of the NBC sensor system are described herein, both exhibiting excellent correlation to reference methods ((R² above 0.94), with analysis times under 30 minutes and sample volumes below 50 [mu]L. First, the NBC sensor was employed for the sequestration and enumeration of T lymphocytes, cells specifically targeted by HIV, from whole blood samples. Several different conjugation methods linking QDs to recognition biomolecules were extensively characterized by biological and optical methods, with a thiol-linked secondary antibody labeling scheme yielding intense, specific signal. Using this technique, the photostability of QDs was exploited, as was the ability to simultaneously visualize different color QDs via a single light pathway, effectively reducing optical requirements by half. Further, T-cell counts were observed well below the 200/[mu]L discriminator between HIV and AIDS and across the common testing region, demonstrating the first reported example of cell counting via QDs in an enclosed, disposable device. Next, multiplexed bead-based detection of cancer protein biomarkers CEA, Her-2/Neu, and CA125 in serum and saliva was examined using a sandwich immunoassay with detecting antibodies covalently bound to QDs. This nano-based signal was amplified 30 times versus molecular fluorophores and cross talk in multiplexed experiments was less than 5%. In addition, molecular-level tuning of recognition elements (size, concentration) and agarose porosity resulted in NBC limits of detection two orders of magnitude lower than ELISA, values competitive with the most sensitive methods yet reported (0.021 ng/mL CEA). Taken together, these efforts serve to establish the valuable role of QDs in miniaturized diagnostic devices with potential for delivering biomedical information rapidly, reliably, and robustly. / text
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Magnetic bead-based DNA extraction and purification microfluidic chipAzimi, Sayyed Mohamad January 2010 (has links)
A magnetic bead-based DNA extraction and purification device has been designed to be used for extraction of the target DNA molecules from whole blood sample. Mixing and separation steps are performed using functionalised superparamagnetic beads suspended in the cell lysis buffer in a circular chamber that is sandwiched between two electromagnets. Non-uniform nature of the magnetic field causes temporal and spatial distribution of the beads within the chamber. This process efficiently mixes the lysis buffer and whole blood in order to extract DNA from target cells. Functionalized surface of the magnetic beads then attract the exposed DNA molecules. Finally, DNA-attached magnetic beads are attracted to the bottom of the chamber by activating the bottom electrode. DNA molecules are extracted from the magnetic beads by washing and re-suspension processes. The numerical simulation approach has been adopted in order to design the magnetic field source. The performance of the magnetic field source has been investigated against different physical and geometrical parameters and optimised dimensions are obtained with two different magnetic field sources; integrated internal source and external source. A new magnetic field pattern has been introduced in order to efficiently control the bulk of magnetic beads inside the mixing chamber by dynamic shifting of magnetic field regions from the centre of the coils to the outer edge of the coils and vice versa. A Matlab code has been developed to simulate beads trajectories inside the designed extraction chip in order to investigate the efficiency of the magnetic mixing. A preliminary target molecule capturing simulation has also been performed using the simulated bead trajectories to evaluate the DNA-capturing efficiency of the designed extraction chip. The performance of the designed extraction chip has been tested by conducting a series of biological experiments. Different magnetic bead-based extraction kits have been used in a series of preliminary experiments in order to extract a more automation friendly extraction protocol. The efficiency of the designed device has been evaluated using the spiked bacterial DNA and non-pathogenic bacterial cell cultures (B. subtilis, Gram positive bacteria and E. coli, Gram negative bacteria) into the blood sample. Excellent DNA yields and recovery rates are obtained with the designed extraction chip through a simple and fast extraction protocol.
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Design and development of a novel bead-based assay for early stage alpha-synuclein aggregationPérez Pi, Irene January 2017 (has links)
α-synuclein is a small presynaptic protein whose misfolding and aggregation are considered drivers of the neurological disorders Parkinson’s disease, multiple system atrophy, dementia with Lewy bodies and related synucleopathies. α-synuclein exists in a dynamic state that changes from an α-helical conformation when bound to liposomes to natively unfolded in solution, the majority being in the latter state. The disease process by which native healthy α-synuclein undergoes a change in conformation to form β-sheet oligomers and fibrils is still unresolved. The fibrillation process has been widely studied by several different techniques and the structure of the fibrils has been determined by NMR, scanning transmission electron microscopy and X-ray diffraction. The early stages of aggregation into β-sheet rich oligomers, despite having been widely studied, has proven difficult to follow due to the heterogeneity of the species formed and the unpredictability of the process. The goal of the work reported here was to design and develop a novel, reproducible and quantitative assay to study the early stages of α-synuclein aggregation and to establish a platform for discovery of novel compounds that inhibit this process. These compounds could then be taken as a starting point for the development of new drugs for the treatment of synucleopathies. The assay developed herein has been designed, established and demonstrated to be suitable for the screening of α-synuclein aggregation inhibitors. The assay quantitatively measures aggregation using α- synuclein site-specifically labelled with green and red fluorescent dyes. Proteins labelled with the green dye are bound to microbeads. α-synuclein labelled with the red dye aggregates on the bead-linked green α-synuclein. The first part of the thesis describes the development of the tools required for the assay. α-synuclein single cysteine mutants were produced to introduce a specific attachment point to the protein. Single isomer carboxytetramethylrhodamine was synthesised in large scale for the label. Two different trifunctional tags that allow both the fluorescent labelling of the protein and the addition of a group for bead attachment in a single step were synthesised. Optimisation of the attachment of the functionalised proteins to beads of differing materials was accomplished enabling further development of the bead-based aggregation assay. With all tools established, the second part of the work comprised the development of the bead-based α-synuclein aggregation assay. Solid supports made of two different materials, TentaGel and Agarose, with two different types of bead surface attachment chemistry for α-synuclein were investigated, Ni-NTA on bead with His6-tag on the target or dibenzylcyclooctyne on bead and azide conjugation for the target. Only the combination of Ni-NTA agarose beads linking to His6-tag functionalised α-synuclein was found to be suitable for quantitative measurement of the aggregation process. Using 20 % EtOH, α-synuclein on-bead aggregation was reproducible within a 5 h time-frame with a linear dependence of aggregation rate as function of protein concentration on-bead. The third part of the thesis describes the research into novel starting points for the discovery of inhibitors of α-synuclein aggregation. In the peptides field, the most active peptides in the literature were selected and synthesised for study under the same conditions to find the most active ones. The most active peptide could be modified with non-natural amino acids to increase affinity and stability. While peptides and peptidomimetics would be applied in mechanistic studies, small molecular inhibitors of aggregation might represent lead compounds. One known inhibitor of α-synuclein aggregation was selected, NPT200-5, and an on-bead synthesis was developed so a diversity library could be generated around its four different building blocks. Finally the peptides, the NPT200-5 amide derivative and some known small molecule inhibitors of α-synuclein aggregation, such as curcumin, baicalein and EGCG amongst others, were screened on the bead-based α-synuclein aggregation assay. Strong inhibitory effects of curcumin and baicalein demonstrated the efficacy of the newly developed assay. In summary, the tools for the development of a novel micro-bead-based α-synuclein aggregation assay have been successfully produced. A novel bead-based α-synuclein early stage aggregation assay has been developed and optimised. Validation of this new technique was achieved with known small molecules inhibitors of α-synuclein aggregation.
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Variação da concentração de marcadores inflamatórios em lavados uterinos de éguas com endometrite naturalmente acometida /Mendonça, Victor Hugo. January 2016 (has links)
Orientador: Juliana Regina Peiró / Banca: Guilherme de Paula Nogueira / Banca: Valéria Marçal Felix de Lima / Banca: João Pessoa Araujo Junior / Banca: Daniel de Jesus Cardoso de Oliveira / Resumo: A endometrite é um dos problemas de maior frequência e relevância na reprodução de éguas. Os objetivos deste trabalho foram determinar o perfil das concentrações de IFN-γ, TNF-α, IL-2, IL-6, IL-10 e IL-4 presentes no soro sanguíneo e no lavado uterino de éguas com endometrite naturalmente adquirida e naquelas clinicamente saudáveis, bem como definir o padrão da resposta imune (TH1 e TH2); observar se a inflamação local no útero pode gerar inflamação sistêmica; e, verificar se o lavado uterino e o tratamento com enrofloxacina alteram o perfil de concentração das citocinas nestas éguas. Foram utilizadas 12 éguas da raça Quarto de Milha incluídas em programa de transferência de embriões e subdivididas em 2 grupos, com 6 animais cada: GC (animais sadios) e GE (animais com endometrite). Amostras de soro e lavado uterino foram colhidas nos dias 1 (início do cio), 2, 3, 4 e 5 dias após o início do cio. As concentrações de TNF-α, IL-2 e IFN-γ (TH1); IL-4, IL-6, e IL-10 (TH2) foram mensuradas por citometria de fluxo pelo método Cytometric Bead Array (CBA). As diferentes citocinas avaliadas nas amostras de lavado uterino, à exceção da IL-4, apresentaram concentrações mais elevadas em éguas do GE comparadas às do GC no dia 1. A utilização de lavados uterinos seriados associados a antibioticoterapia sistêmica não provocaram alterações significativas nas concentrações de citocinas presentes no útero de éguas do GC. As concentrações séricas de citocinas não diferiram entre os grupos. Nosso... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Endometritis is one of the most frequent and relevant diseases in mares. The goals of this study were to determine the profile concentration of cytokines such as IFN-γ, TNF-α, IL-2, IL-6, IL-10 and IL-4 present in blood serum and uterine lavage of mares with naturally acquired endometritis and those clinically healthy, well as set the pattern of immune response (TH1 and TH2); see if local inflammation in the uterus can cause systemic inflammation; and check whether the uterine lavage and the treatment with enrofloxacin alter the concentration profile of cytokines in these mares. Twelve Quarter Horse mares from an embryo transfer program were divided into 2 groups, with 6 animals each: control group (CG, healthy animals) and experimental group (EG, animals with endometritis). Blood serum and uterine lavage samples were collected on days 1 (onset of estrus), 2, 3, 4 and 5 (after onset of estrus). Concentrations of TNF-α, IL-2 and IFN-γ (TH1); IL-4, IL-6, and IL-10 (TH2) were measured by flow cytometry using the Cytometric Bead Array method (CBA). All cytokines, but not IL- 4, evaluated in the uterine lavage samples showed higher concentrations in mares with endometritis compared to healthy animals on day 1. The use of serial uterine lavages associated with systemic antibiotic therapy did not cause significant changes in concentrations of cytokines in the uterus of mares without endometritis. Serum concentrations of cytokines did not differ between groups. Our results establishe... (Complete abstract click electronic access below) / Doutor
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Development of Valve-based Microchip for ProteomicsLu, Qingye 06 1900 (has links)
Interest in microfluidic platforms has surged as an alternative for sample preparation in the past two decades, with the potential for miniaturization, portability, automation, integration and parallelism driving this research. However, it is still very challenging to develop an integrated microfluidic device for proteomic preparation for mass spectrometry analysis.
My thesis work is focused on the development of a valve-based microfluidic platform interfaced with electrospray ionization mass spectrometry for multiplexed proteomic analysis. First, techniques are developed for the fabrication and packing of multiple beds in a polydimethylsiloxane (PDMS) microdevice, which is compatible with the integration of multilayer microvalves. A soft lithography technique was used to fabricate stable weirs in microchips and new bead introduction techniques were explored for the elimination of bead introduction channels in the design. Such a combination provides a convenient, efficient and effective way for multiple bed preparation in a complex design. Next, detailed studies were carried out on the design parameters and performance of multilayer PDMS microvalves in the presence of high electric fields. These studies guided the integration of electrophoresis methods with valve-based fractionation. Finally, a coupled CE-fractionation-SPE-ESIMS peptide analysis on a totally integrated valve-based microchip is presented. We show the design and operation of a system that performs electrokinetic separation, followed by fractionation into multiple channels, SPE extraction and sample cleanup on packed reaction beds, using a multiplexed, hydraulically valved system, with subsequent mass spectral (MS) analysis. This coupled multiple channel CE-Fractionation-SPE-ESIMS platform on valve-based microchip was successfully applied to peptide analysis.
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Bead based protein profiling in bloodNeiman, Maja January 2013 (has links)
This thesis is about protein profiling in blood-derived samples using suspension bead ar- rays built with protein affinity reagents, and the evaluation of binding characteristics and potential disease relation of such profiles. A central aim of the presented work was to discover and verify disease associated protein profiles in blood-derived samples such as serum or plasma. This was based on immobiliz- ing antigens or antibodies on color-coded beads for a multiplexed analysis. This concept generally allow for a dual multiplexing because hundreds of samples can be screened for hundreds of proteins in a miniaturized and parallelized fashion. At first, protein antigens were used to study humoral immune responses in cattle suffering from a mycoplasma infec- tion (Paper I). Here, the most immunogenic of the applied antigens were identified based on reactivity profiles from the infected cattle, and were combined into an antigen cocktail to serve as a diagnostic assay in a standard ELISA set-up. Next, antibodies and their em- ployment in assays with directly labeled human samples was initiated. This procedure was applied in a study of kidney disorders where screening of plasma resulted in the discovery of a biomarker candidate, fibulin-1 (Paper II). In parallel to the disease related applica- tions, systematic evaluations of the protein profiles were conducted. Protein profiles from 2,300 antibodies were classified on the bases of binding properties in relation to sample heating and stringent washing (Paper III). With a particular focus on heat dependent de- tectability, a method was developed to visualize those proteins that were captured to the beads in an immunoassay by using Western blotting (Paper IV). In conclusion, this thesis presents examples of the possibilities of comparative plasma profiling enabled by protein bead arrays. / <p>QC 20130208</p>
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Electrokinetic Modeling of Free Solution ElectrophoresisXin, Yao 28 November 2007 (has links)
Modeling electrophoresis of peptides, proteins, DNA, blood cells and colloids is based on classical electrokinetic theory. The coupled field equations-Poisson, Navier-Stokes or Brinkman, and ion transport equations are solved numerically to calculate the electrophoretic mobilities. First, free solution electrophoretic mobility expressions are derived for weakly charged rigid bead arrays. Variables include the number of beads (N), their size (radius), charge, distribution (configuration), salt type, and salt concentration. We apply these mobility expressions to rings, rigid rods, and wormlike chain models and then apply the approach to the electrophoretic mobilities and translational diffusion constants of weakly charged peptides. It is shown that our bead model can predict the electrophoretic mobilities accurately. In order to make the method applicable at higher salt concentrations and/or to models consisting of larger sized subunits, account is taken of the finite size of the beads making up the model structure. For highly charged particles, it is also necessary to account for ion relaxation. This ion relaxation effect is accounted for by correcting "unrelaxed" mobilities on the basis of model size and average electrostatic surface, or "zeta" potential. With these corrections our model can be applied to the system with absolute electrophoretic mobilities exceeding approximately 0.20 cm2/kV sec and also models involving larger subunits. This includes bead models of duplex DNA. Along somewhat different lines, we have investigated the electrophoresis of colloidal particles with an inner hard core and an outer diffusive layer ("hairy" particles). An electrokinetic gel layer model of a spherical, highly charged colloid particle developed previously, is extended in several ways. The charge of the particle is assumed to arise from the deprotonation of acidic groups that are uniformly distributed over a portion (or all) of the gel layer. Free energy considerations coupled with Poisson-Boltzmann theory is used to calculate the change of the local pKa of the acidic groups depending on the local electrostatic environment. Based on the modeling of electrophoresis and viscosity, we predict that the thickness of the gel layer decreases as the salt concentration increases. And only the outermost portion of the gel layer is charged.
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Bubble formation during solidification of a liquid filmLin, Chun-Yen 20 July 2011 (has links)
Surface patterns of bead defects such as humping, gouged and rippling after solidification during laser and electron processing and different welding processes are systematically and quantitatively studied in this project. These defects usually accompanying with porosity, undercut, segregation, stress concentration, etc. seriously reduce the properties and strength of the surface heat treatment and weld joint. In order to improve quality, assure mass production and repeatability and reduce costs, it is necessary to understand their mechanisms. Although the defects have been extensively studied in the past, systematical, penetrative and quantitative understanding of their formation from thermal, physics, and pattern selection viewpoints are limited.The study include thermocapillary force, evaporation, and phase changes between solid-liquid and liquid-gas phases by introducing energy equation and interfacial and kinematic boundary conditions to simulate realistic processes.
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The free surface deformation affected by a two-dimensional thermocapillary flowSu, Heng-yi 27 August 2012 (has links)
This project is to explore the manufacturing and processing of laser or electron beam, formed on the surface morphology after curing and processing parts, such as surfacefilled, depression, or the formation of ripples; These reactions will directly affect the surface heat treatment and welding quality of thefinished product This study to consider the mass, momentum and energy equations, the introduction of theinterface and boundary conditions to simulate the real process In order to promote quality stability, and a large amount of production capacity and reduce costs, we must understand the institutions of the reaction In this thesis, the phase field method (Phase-field method) (Two-phase flow) two-phase flow simulation of metal surface by a concentrated source of heat melt the transient heat flow behavior
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Development of Valve-based Microchip for ProteomicsLu, Qingye Unknown Date
No description available.
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