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1	Protein-Disassembly im Verlauf der endosomalen Prozessierung Kremmin, Holger. January 2000 (has links) (PDF) Mainz, Universiẗat, Diss., 2000. Ovalbumin
2	Mechanisms of airway hyperreactivity to adenosine induced by allergen challenge in the actively sensitised brown Norway rat Hannon, Jason Patrick January 2000 (has links) No description available. 615.1 Ovalbumin; Bronchial asthma
3	Beiträge zur kenntnis der Peptischen und Tryptischen Verdauung des Eiweisses Borkel, Curt, January 1903 (has links) Thesis (doctoral)--Universität Leipzig, 1903. / Cover title. Includes references.
4	The adsorption of proteins onto ultrafiltration membranes Ayre, Lorna M. January 2000 (has links) The mass of five proteins (Bovine serum albumin (BSA), casein, lysozyme, ovalbumin and pepsin) adsorbed to five different membrane materials (of various hydrophobicities) was quantified using a static system and analysed to establish any trends. Comparing the results from the five membranes it seems that there were no obvious trends between the protein masses adsorbed indicating that it may not be just one aspect of protein structure that is important in the adsorption process. Many investigations have indicated that the protein may undergo a conformational change during the adsorption process. Disulphide bridges contribute readily to the stability of the protein molecule and it was hypothesised that if such a structural change occurred, it would result in the breakage of these covalent bonds. To this end, the free thiol group content of the proteins was quantified before and after adsorption. 610.28 BSA; Casein; Lysozyme; Ovalbumin; Pepsin
5	Creation of Ovalbumin Based Scaffolds for Bone Tissue Regeneration Farrar, Gabrielle 02 June 2009 (has links) Bio-based materials are a viable alternative to synthetic materials for tissue engineering. Although many bio-based materials have been used, Ovalbumin (OA) has not yet been researched to create 3D structures that promote cellular responses. Micro-porous scaffolds are a promising construct for bone tissue regeneration; therefore OA crosslinked with three different concentrations (10%, 15% and 20%) of glutaraldehyde (GA) was used in this research. After fabrication, a porous morphology was observed using SEM. Average pore sizes were found to be comparable to scaffolds previously shown to promote cellular response. A TNBS assay determined percent crosslinking in the scaffolds, however there was no significant difference in percent crosslinking despite differing GA concentrations used. Possible explanations include an excess of GA was used. Using DSC, a glass transition temperature (Tg) was found for control indicating the scaffolds are amorphous. Average dry and wet compressive strengths were also found. As expected, differing GA concentrations had no significant effect on Tg and average compressive strengths due to an excess used. Scaffolds were mechanically tested at 37°C with no significant difference found; therefore these scaffolds can be used in the body. It was shown through cell studies that MC3T3-E1 pre-osteoblast cells significantly increased in number on the 10% and 15% scaffolds, therefore cell proliferation occurred. Because of a positive cellular response, 10% GA scaffolds were used for differentiation studies that showed an increase in osteocalcin at 21 days and alkaline phosphatase levels for scaffolds cultured for 14 days. Overall OA scaffolds have shown to be a promising 3D construct for bone tissue regeneration. / Master of Science tissue engineering porous scaffolds biomaterials ovalbumin
6	Ovalbumin-Based Scaffolds Reinforced with Cellulose Nanocrystals for Bone Tissue Engineering Glaesemann, Benjamin Paul 04 August 2011 (has links) In the field of tissue engineering, a major area of study is developing bone scaffolds that will provide support for osteoblasts. Despite many advances in recent years there is still a significant need for new bio-based 3-D porous scaffolds that possess sufficient initial mechanical properties to prevent immediate failure upon implantation. Ovalbumin (OVA), a glycoprotein from chicken egg whites, has been use to fabricate biodegradable, porous hydrogel bone scaffolds that promote osteoblast attachment and proliferation. Although ovalbumin scaffolds encourage bioactivity and are naturally resorbed into the body after bone regeneration, they are also very fragile. Extremely stiff cellulose nanocrystals (CNCs), derived from wood pulp, can be utilized to reinforce these scaffolds while improving biocompatibility. When chemically modified to incorporate surface amine groups, cellulose nanocrystals become capable of covalently crosslinking with the OVA matrix for improved mechanical resilience. Three concentrations (2, 5, 10 wt. %) of CNCs were incorporated and crosslinked to form nanocomposite scaffolds then were compared to pure OVA scaffolds. After fabrication, pore size morphology was compared between each CNC loading using SEM. The images revealed that the 10 wt. % CNC concentration doubled the pore compared to pure OVA scaffolds. Under high magnification, the CNCs were incorporated into the pore walls, providing a contoured surface. AFM was applied to analyze the topography of OVA with CNCs present. The surfaces laden with CNCs had a higher mean surface roughness, but was insufficient to impact cell behavior. Compression testing was carried out on both Instron and DMA machines to demonstrate any reinforcing effect provided by the CNCs. While the compressive modulus remained constant, the elastic limit and strain increased with CNC loading, indicating a change in the resilience of the reinforced scaffolds. With a MTT Assay, it was shown that MC3T3-E1 preosteoblasts significantly increase in metabolic activity on 2 wt. % films and scaffolds, an indication of proliferation. All scaffolds had a net increase in metabolic activity suggesting overall biocompatibility for OVA scaffolds and those incorporating CNCs. Overall, the 5 wt. % scaffolds had the highest mechanical strength and had a positive cell response. / Master of Science ovalbumin nanocomposite porous scaffolds tissue engineering
7	Microfluidic segregation of capsules Haener, Edgar January 2017 (has links) This thesis investigates the transport and sorting of capsules (elastic membranes enclosing a liquid core) using viscous flow in complex vessel geometries. Of particular interest is passive sorting by deformability using only the fluid-structure interaction between the capsule, the viscous fluid and the geometry of the vessel. Millimetric alginate-ovalbumin capsules in the regime of negligible fluid inertia are used in this work. In order to characterise the elastic properties of the capsules, a novel numerical finite element model of the compression of a thick-shelled capsule between parallel plates is implemented. The constitutive model of the capsule membranes was determined by comparison to experimental data: a Yeoh constitutive model with the ratio of constants $C_1 = 1$, $C_2 = 0$ and $C_3 = 10$ describes the capsules used. Three geometries are investigated in this work. (i) A T-Junction bifurcation. Capsule deformation in the T-Junction bifurcation is characterised by the maximal length of the capsule $L_{max}$ and depends on the ratio of viscous to elastic forces, the capillary number $Ca$. The maximal length, $L_{max}$, is especially sensitive at distinguishing soft capsules by their deformability. The sensitivity of $L_{max}$ to capsule compliance and the large deformations that can be achieved makes the T-junction a promising geometry in which to measure elastic properties of the capsules. The rate of relaxation of the capsules after the bifurcation is independent of their deformation. (ii) A half-cylinder obstacle in a channel followed by a sudden expansion. We show that the half-cylinder obstacle causes capsule trajectories to vary depending on deformability. Capsules with a factor of three difference in deformability can be separated. A practical feature of the system is its relative insensitivity to the initial lateral position of the capsules in the channel. However, while the results are reproducible across different capsules, the variations in final position amount to 10 \% at fixed parameters. As these experiments were conducted with the same capsule under identical flow conditions, this is likely to represent the best case scenario. (iii) We adapt the pinched flow fractionation (PFF) geometry to the sorting of capsules. We show that the standard PFF device cannot be used to sort capsules. However, a novel mode of operation, termed the ``T-Junction'' mode, shows great promise for the sorting of capsules. The PFF device in the T-Junction mode separates capsules with a factor of 1.5 difference in deformability. This is twice as sensitive as the half-cylinder device, although larger variability was observed in the PFF device. 510
8	Effect of Collection Method and Archiving Conditions on the Survivability of Vegetative and Spore Forming Bacteria Kassab, Asmaa S. 2009 August 1900 (has links) To ensure effective detection of bio-particles, it is crucial to understand the effects of collection method and archiving conditions on the survivability of bioaerosols, consequently, the survivability of the spore-forming Bacillus globigii (BG) and MG1655 Escherichia coli (E. coli), was determined after collection. The survivability was defined as the culturable fraction of the archived bacteria/culturable fraction of the as-collected bacteria. The bacteria were aerosolized for up to four days at room temperature (RT, 25 degrees C) and at 4 degrees C and collected in a 100 L/min wetted wall cyclone (WWC) and a 12.5 L/min SKC BioSampler. Aqueous solutions of 0.01% Tween-20 and 30% Ethylene Glycol (EG), with or without 0.5% ovalbumin (OA), were used as the collection fluids. Antifoam B (A-F), at a concentration of 0.2% (V:V) was added to the BG samples containing OA. In general, samples archived at 4 degrees C showed higher survivability than at RT. The survivability were more stable in EG than in Tween-20 especially for BG, very likely due to the surfactant effect of the Tween-20, which would remove the spore coat and initiate germination. In the WWC, adding OA significantly increased the survivability of BG in EG and in Tween-20, especially at RT. Similar effect of OA was found for E. coli samples stored in EG, suggesting that OA might be beneficial in maintaining the survivability. Adding A-F increased the survivability of BG in EG. In the SKC, neither the addition of OA nor A-F seems to have a beneficial effect on the survivability of the spores in EG samples. The best collection fluid for maintaining survivability in the WWC is EG+A-F for BG, and EG+OA for E. coli. However, in the SKC, EG is the best for BG collection and Tween-20 for E. coli. Viability transfer ratios, VTR, (cells surviving collection at time zero/viable cells aerosolized) were calculated for both devices. A performance ratio was calculated as the VTR of the WWC/VTR of the SKC. The geometric mean of the performance ratio is 1.51+/-0.83 for BG and 2.60+/-0.16 for E. coli, indicating that viability transfer ratio of the WWC is typically higher than that of the SKC. Wetted wall cyclone SKC Ovalbumin Archiving Antifoam, Tween-20 and EG.
9	Evaluation of Mesenchymal Stem Cell-Based Therapies for Inflammatory Lung Diseases Ionescu, Lavinia Iuliana Unknown Date No description available. lung mesenchymal stem cells asthma ovalbumin acute lung injury lipopolysaccharide
10	Processing and presentation of exogenous antigen by dendritic cells / Chen, Liying, January 2006 (has links) Diss. (sammanfattning) Stockholm : Karolinska institutet, 2006. / Härtill 5 uppsatser.

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