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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
281

Development of synthesis method for spinel ferrite magnetic nanoparticle and its superparamagnetic properties

Han, Man Huon 25 August 2008 (has links)
The magnetic spinel ferrite nanoparticle is exceptionally intriguing nanocrystal system due to the industrial importance of various technical applications and the scientific significance of studying the quantum origin of magnetism. Studies of quantum influences upon magnetic properties have revealed that the spin-orbit coupling and the net magnetization greatly affect the net magnetic properties of each spinel ferrite system differently. In case of cobalt ferrite where spin-orbit coupling is relatively large, increasing Cr3+ doping concentration, which has smaller magnetic moment and zero angular moment, decreases blocking temperature, saturation magnetization, remnant magnetization and coercivity. However, in case of manganese ferrite where spin-orbit coupling is relatively small, increasing Cr3+ doping concentration, reduces all the magnetic parameters except coercivity. The coercivity increases due to smaller magnetocrystalline anisotropy energy constant which forces the coercivity to increase as saturation magnetization decreases in accordance with Stoner-Wohlfarth theory. In order to improve product quality and quantity, synthesis routes in hot oleylamine and aminolytic reaction were developed. Both methods were proven to be extremely effective, environmental friendly, inexpensive, and simple routes in the synthesis of a variety of spinel ferrite systems including CoFe2O4, MnFe2O4, NiFe2O4, and ZnFe2O4 from a single source metal precursor.
282

Understanding the Relationship Between Nanoparticles and Bacterial Group Behavior: Autolysis and Quorum Sensing

McGivney, Eric 01 December 2017 (has links)
Nano-sized materials are being used to address some of humanities greatest challenges— cancer therapy, food and water security, and environmental remediation. While extremely promising for these applications, the production, use, and disposal of nanomaterials have resulted in their release into environmental compartments. One major concern of any novel contaminant is how it interacts with bacteria. Bacteria play essential roles in human health, engineered systems, and ecological functioning. Bacteria are capable of macro-scale influence because they have evolved communication systems that enable coordinated behaviors. Communication among cells involves chemical signals that enter the environment, where they are subjected to its biogeochemistry, which now includes novel nanomaterials. The overall goal of this thesis was to improve understanding of the relationship between nanoparticles and cell-to-cell signaling behavior in bacteria focusing on two population-level behaviors: autolysis and quorum sensing. Specifically, this project sought to: (1) improve our understanding of how metal-oxide nanoparticles affect the autolytic process in Bacillus subtilis, by elucidating the biological response of the interactions between titanium dioxide nanoparticles and biomolecules; (2) reveal the interactions between quorum sensing signaling molecules and metal cations commonly used in antimicrobial nanomaterials, silver and copper; and (3) demonstrate the potential of quorum sensing-regulated cyanide production to affect oxidation and dissolution of gold nanoparticles in an environmentally relevant system. By addressing these objectives, the work demonstrated that: 1. TiO2 nanoparticles disrupt the autolytic process by delaying the onset of autolysis, and intercepting released autolytic enzymes, preventing the enzymes from degrading peptidoglycan in neighboring cells. 2. Quorum sensing signaling molecules form complexes with Ag+ and Cu2+, removing the most bioavailable form (free HHL, Ag+, and Cu2+) from the cells’ environment. 3. Quorum sensing-regulated cyanide production induces oxidative dissolution in Au nanoparticles, which were previously assumed to be inert in environmental systems. Taken together, this body of work highlights the relationship between nanoparticles and population-level behavior in bacteria. The presence of nanoparticles can have significant effects on population-level behaviors, and the activity of population-level behaviors can have significant effects on nanoparticles behavior. This inter-connected relationship, where the nanoparticles are both acted on and act upon their environment, must be considered in nanoparticle-based studies and applications.
283

Nano- and Micro-Scale Temperature Measurements Using Laser-Induced Fluorescence Thermometry

January 2011 (has links)
abstract: A method of determining nanoparticle temperature through fluorescence intensity levels is described. Intracellular processes are often tracked through the use of fluorescence tagging, and ideal temperatures for many of these processes are unknown. Through the use of fluorescence-based thermometry, cellular processes such as intracellular enzyme movement can be studied and their respective temperatures established simultaneously. Polystyrene and silica nanoparticles are synthesized with a variety of temperature-sensitive dyes such as BODIPY, rose Bengal, Rhodamine dyes 6G, 700, and 800, and Nile Blue A and Nile Red. Photographs are taken with a QImaging QM1 Questar EXi Retiga camera while particles are heated from 25 to 70 C and excited at 532 nm with a Coherent DPSS-532 laser. Photographs are converted to intensity images in MATLAB and analyzed for fluorescence intensity, and plots are generated in MATLAB to describe each dye's intensity vs temperature. Regression curves are created to describe change in fluorescence intensity over temperature. Dyes are compared as nanoparticle core material is varied. Large particles are also created to match the camera's optical resolution capabilities, and it is established that intensity values increase proportionally with nanoparticle size. Nile Red yielded the closest-fit model, with R2 values greater than 0.99 for a second-order polynomial fit. By contrast, Rhodamine 6G only yielded an R2 value of 0.88 for a third-order polynomial fit, making it the least reliable dye for temperature measurements using the polynomial model. Of particular interest in this work is Nile Blue A, whose fluorescence-temperature curve yielded a much different shape from the other dyes. It is recommended that future work describe a broader range of dyes and nanoparticle sizes, and use multiple excitation wavelengths to better quantify each dye's quantum efficiency. Further research into the effects of nanoparticle size on fluorescence intensity levels should be considered as the particles used here greatly exceed 2 ìm. In addition, Nile Blue A should be further investigated as to why its fluorescence-temperature curve did not take on a characteristic shape for a temperature-sensitive dye in these experiments. / Dissertation/Thesis / M.S. Mechanical Engineering 2011
284

Designing the surface properties of expansile nanoparticles for targeted cancer therapy

Stolzoff, Michelle L. January 2013 (has links)
Thesis (M.Sc.Eng.) PLEASE NOTE: Boston University Libraries did not receive an Authorization To Manage form for this thesis or dissertation. It is therefore not openly accessible, though it may be available by request. If you are the author or principal advisor of this work and would like to request open access for it, please contact us at open-help@bu.edu. Thank you. / Nanoparticle-based drug delivery has been explored to circumvent the often-toxic chemotherapy treatments used today by providing a more efficient and specific delivery to diseased tissues. Recently we have developed polymeric pH-responsive expansile nanoparticles (eNPs) for intracellular delivery of paclitaxel (Pax) as an improvement upon the traditional methods of delivery of Pax with using Cremophor/ethanol. As eNPs are internalized by the cell, the hydrophobic protecting groups found on side chains along the polymer backbone are hydrolyzed, leaving behind hydrophilic moieties that cause the eNPs to slowly swell with water. In this manner, the encapsulation and controlled release of a hydrophobic drug can be achieved. By altering the surface characteristics of the eNPs, one can change the behavior of the delivery vehicle as well as the biological response. To explore this approach, two surfactant strategies were employed. Specifically, the original sodium dodecyl sulfate (SDS) surfactant has been substituted with PEGylated surfactants (either lipids or poloxamer) to improve circulation and in vivo stability. In addition, these surfactants were functionalized to target the folate receptor (FR), which is overexpressed in several cancers, in order to increase cancer cell-specific localization and uptake. The resulting eNPs retained their swelling characteristics while demonstrating improved cellular uptake in folate receptor-expressing KB and MDA-MB-231 carcinoma cells with no change in uptake in A549 cells, which do not express the folate receptor. / 2031-01-01
285

Enabling and understanding nanoparticle surface binding assays with interferometric imaging

Trueb, Jacob 03 July 2018 (has links)
There is great need of robust and high throughput techniques for accurately measuring the concentration of nanoparticles in a solution. Microarray imaging techniques using widely used to quantify the binding of labeled analytes to a functionalized surface. However, most approaches require the combined output of many individual binding events to produce a measurable signal, which limits the sensitivity of such assays at low sample concentrations. Although a number of high-NA optical techniques have demonstrated the capability of imaging individual nanoparticles, these approaches have not been adopted for diagnostics due complex instrumentation and low assay throughput. Alternatively, interferometric imaging techniques based on light scattering have demonstrated the potential for single nanoparticle detection on a robust and inexpensive platform. This dissertation focuses on the development of methods and infrastructure to enable the development of diagnostic assays using the Single Particle Interferometric Imaging Sensor (SP-IRIS). SP-IRIS uses a bright-field reflectance microscope to image microarrays immobilized on a simple reflective substrate, which acts as a common-path homodyne interferometer to enhance the visibility of nanoparticles captured near its surface. This technique can be used to detect natural nanoparticles (such as viruses and exosomes) as well as molecular analytes (proteins and nucleic acid sequences) which have been tagged with metallic nanoparticle in a sandwich assay format. Although previous research efforts have demonstrated the potential for SP-IRIS assays in a variety of applications, these studies have largely been focused on demonstrating theoretical proof of concept in a laboratory setting. In contrast, the effective use of SP-IRIS as a clinical diagnostic platform will require significant functional improvements in automation of assay incubation, instrument control, and image analysis. In this dissertation, we discuss the development of instrumentation and software to support the translation of SP-IRIS from manual laboratory technique into an automated diagnostic platform. We first present a collection of mechanical solutions to enable the real-time, in-solution imaging of nanoparticles in disposable microfluidic cartridges. Next, we present image analysis techniques for the detection of nanoparticle signatures within digital images, and discuss solutions to the unique obstacles presented by the ill-defined focal properties of homodyne interferometry. Finally, we present a particle tracking algorithm for residence time analysis of nanoparticle binding in real-time datasets. Collectively, these improvements represent significant progress towards the use of SP-IRIS as a robust and automated diagnostic platform. / 2019-07-02T00:00:00Z
286

Estudo dos efeitos anti-inflamatórios da nanopartícula de ouro em modelo de asma alérgica experimental / Study of the effects of anti-inflammatory gold nanoparticle model in experimental allergic asthma

Santos, Rafael Vital dos 02 September 2014 (has links)
Treatment with gold nanoparticles (Au NPs) exhibit a variety of biological effects, including anti-inflammatory effects. In the present study, we investigated the effect of intranasal treatment with the Au NPs on allergic inflammatory response induced by ovalbumin (OVA) in rats subjected to experimental model of asthma. The animals were sensitized on days 0, 7 and 14 by intraperitoneal injection with 50 mg OVA. On days 21, 22 and 23 after the initial stimulus, the animals were challenged with OVA (50 mg / 25 μl PBS) intranasally. Treatment with the Au NPs (6 or 60 mg / kg) occurred 1 h before the antigen challenge, and the evaluation of the biological parameters performed 48 h after the last challenge. The effect of Au NPs in airway hyperresponsiveness induced by methacholine was investigated by determining the resistance and elastance; eosinophil infiltration, peribronchial fibrosis and mucus production were investigated using histological techniques; Leukocyte infiltration and production of pro-inflammatory mediators in allergic airways induced stimulation by enzyme- linked immunoassay (ELISA); The production of reactive oxygen species in vitro and in vivo measures was the reduction of nitroblue tetrazolium (NBT) and flow cytometry using cells labeled with 2 ', 7'-dichlorofluorescein diacetate (DCFH-DA), respectively; The interference ability of Au NPs on phagocytosis, generation of TNF-α in murine macrophages and viability was evaluated by determining the phagocytic capacity, ELISA and MTT method, respectively. In the lungs, treatment with Au NPs reduced eosinophil infiltration after OVA challenge by attenuated production of mucus reversed resistance and increased lung compliance and decreased levels of IL-4, IL-13, KC, eotaxin-1 and eotaxin-2 in the lung tissue. Additionally, in vitro, macrophages exposed Au NPs in non-cytotoxic doses, when activated with zymosan showed a decrease in the production of reactive oxygen species (ROS) and secretion of TNF-α. Taken together, our results demonstrate the anti-inflammatory properties of the Au NPs and its association with reduced leukocyte infiltration, suppression of production of proinflammatory cytokines and antioxidant effect. The Au NPs were found to be a therapeutic option for the treatment of allergic inflammation. / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O tratamento com nanopartículas de ouro (NPs Au) exibem uma variedade de efeitos biológicos, incluindo efeitos anti-inflamatórios. No presente estudo, investigamos o efeito do tratamento intranasal com as NPs Au sobre a resposta inflamatória alérgica induzida por ovalbumina (OVA) em camundongos submetidos ao modelo experimental de asma. Os animais foram sensibilizados nos dia 0, 7 e 14 por via intraperitoneal com 50 µg de OVA. Nos dias 21, 22 e 23 após o estímulo inicial, os animais foram desafiados com OVA (50 μg/25 μl PBS) por via intranasal. O tratamento com as NPs Au (6 ou 60 μg/Kg) ocorreu 1 hora antes do desafio antigênico, sendo a avaliação dos parâmetros biológicos realizada 48 h após o último desafio. O efeito das NPs Au na hiperresponsividade brônquica induzida por metacolina foi investigada por meio da determinação da resistência e elastância; o infiltrado eosinofílico, fibrose peribrônquica e produção de muco foram investigadas através de técnicas histológicas; O infiltrado leucocitário e a produção de mediadores pró-inflamatórios nas vias áreas induzidos por estímulo alérgico pelo método de ensaio imunoenzimático (ELISA); A produção de espécies reativas de oxigênio in vitro e in vivo foi mensura pela redução do nitroblue tetrazolium (NBT) e citometria de fluxo utilizando células marcadas com 2',7'- diacetato de diclorofluoresceína (DCFH-DA), repectivamente; A capacidade de interferência das NPs Au sobre a fagocitose, geração de TNF-α e viabilidade em macrófagos murinos foi verificado pela determinação da capacidade fagocítica, ELISA e método de MTT, respectivamente. No pulmão, o tratamento com as NPs Au reduziu o infiltrado eosinofílico após desafio por OVA, atenuou a produção de muco, reverteu o aumento da resistência e elastância pulmonar e reduziu os níveis de IL-4, IL-13, KC, eotaxina-1 e eotaxina-2 no tecido pulmonar. Adicionalmente, in vitro, macrófagos expostos as NPs Au em doses não citotóxicas, quando ativados com zimosan apresentaram uma diminuição na produção de espécies reativas oxigenadas (ERO) e a secreção de TNF-α. Em conjunto, nossos resultados demostraram as propriedades anti-inflamatórias da NPs Au e sua associação com a redução do infiltrado leucocitário, supressão na produção de citocinas pró-inflamatórias e efeito antioxidante. As NPs Au revelaram-se como uma opção terapêutica para o tratamento da inflamação alérgica.
287

Farmaceutické aplikace polyesterů jako nanonosičů léčiv / Pharmaceutical applications of polyesters as drug nanocarriers

Staňková, Petra January 2018 (has links)
Charles University Faculty of Pharmacy in Hradci Králové Department of Pharmaceutical Technology Consultant: PharmDr. Ondřej Holas, PhD. Student: Petra Staňková Title of Thesis: Pharmaceutical applications of polyesters as drug nanocarriers Nanoparticles are nowadays intensively studied and perspective type of a drug carrier. Its potential is based on a possibility of targeted drug delivery and controlled drug release. The theoretical part is about nanoparticles types, polymers derived from α-hydroxyacids (PLA, PGA, PLGA). Focus is given on methods of nanoparticles preparation: dispersion of preformed polymers or the polymerization of monomers. The modification of particles surface and practical use of nanomedicine in healthcare are described in other chapters. The research in experimental part is focused on the influence of different types of PLGA and their weighing on the size, polydispersity, nanoparticles zeta potential and encapsulation efficiency of rhodamine B. Nanoparticles were prepared by nanoprecipitation method or by solvent evaporation method. The Zetasiser ZS 90 device was used to measure the size of the nanoparticles and to measure zeta potential. The result of the research shows the most suitable weighing for creation of nanoparticles is 25 mg. The samples of this weighing show a...
288

Nanoparticle Mediated Suppression of Protein Aggregation

Das, Anindita January 2015 (has links) (PDF)
The increasing demands for biopharmaceuticals to treat different diseases have raised concerns about controlling the quality and efficacy of such pharmaceuticals. The design and formulation of a stable protein or peptide based biopharmaceutical runs into the limitation that at high concentrations (> 100 mg/ml) or during long storage process the drug undergoes aggregation. During synthesis, purification, storage or packaging of these drugs different kinds of stresses like chemical, oxidative, thermal, shear, etc. are encountered. These stresses promote the non-native aggregation of protein and peptide based drugs. Injection or administration of such drugs if contaminated with aggregates causes patient discomfort or development of an antibody which can adversely affect patient’s conditions. This brings out the necessity of finding a way so that such aggregation is avoided. Nanoparticles have been used as vehicles for drug delivery and diagnostic agents in biology for a while. The surface of the nanoparticles is known to adsorb small as well as large molecules with different kinetics and energetics of interaction. I have used nanoparticles to adsorb proteins to protect them against aggregation when they are subjected to denaturing conditions. The effectiveness of the nanoparticles in stopping protein aggregation, recovery of the proteins and reversibility of the adsorption process, the catalytic activity of the proteins before and after adsorption on the surface have all been studied in details. The work described here has been divided in 8 chapters and the contents of each chapter are described below. In Chapter 1 I have provided a brief introduction to the protein aggregation problem. The motivation and scope of the current work has been presented in this chapter. Materials and methods have been described in Chapter 2. Synthesis of gold and silica nanoparticles, their characterization and stability under experimental conditions have been illustrated in this chapter. The spectroscopic assays and techniques which I have used to study the effect of gold and silica nanoparticles on protein aggregation have been discussed at lengths in this chapter. In Chapter 3 I have demonstrated the effect of gold nanoparticles on thermal aggregation of alcohol dehydrogenase (ADH). The size of the nanoparticle was varied in the range of 15-60 nm and the effect was measured by various spectroscopic assays and techniques. I have observed that gold nanoparticles prevent thermal aggregation of ADH and the efficiency is high. Gold nanoparticles in nanomolar or even picomolar concentrations are capable of preventing the aggregation of ADH at micromolar concentrations. In Chapter 4 the role of gold nanoparticles as suppressor of protein aggregation was extended to another protein, insulin. Chemically induced aggregation of insulin using dithiothreitol (DTT) in the presence of gold nanoparticles was studied in the same manner as was done for ADH. Similar prevention property of gold nanoparticles was established by making the observation independent of the method of denaturation or the type of protein used in the prevention experiments. In Chapter 5 huge second harmonic light scattering (SHS) signal from pure gold nanoparticles has been used to measure the free energy of interaction of ADH and insulin with nanoparticles in solution, for the first time. The change in the second harmonic scattered signal was monitored which decreased steadily as a function of added protein concentration to the aqueous solution of gold nanoparticles. The fitting of the second harmonic signal decay was done with a modified Langmuir adsorption isotherm to extract the free energy change in the interaction and the number of protein molecules adsorbed on the surface. In Chapter 6 I have demonstrated a way to recover the adsorbed ADH and insulin from the gold nanoparticle surface and tested the activity of ADH by an assay. The structure of the proteins in the adsorbed state has been probed by CD spectroscopy and described in this chapter. It is found that ADH retains its activity in the adsorbed state. Both the proteins retain the native secondary structures in their adsorbed state. However, the structures change drastically under denaturing conditions. In Chapter 7 the effect silica nanoparticles which are known to have hydrophilic surface has been examined on the aggregation of ADH and insulin in pretty much the same way as was done with gold nanoparticles. The efficiency of silica nanoparticle was found to be lower compared to gold nanoparticles. In addition, the size dependency of prevention efficiency of silica and gold nanoparticles was found to be completely opposite to each other. In Chapter 8 I have presented the overall summary and possible future directions of this work
289

Exposure to Engineered Nanomaterial Results in Disruption of Brush Borders in Epithelia Models in vitro

January 2014 (has links)
abstract: Engineered nanoparticles (NP; 10-9 m) have found use in a variety of consumer goods and medical devices because of the unique changes in material properties that occur when synthesized on the nanoscale. Although many definitions for nanoparticle exist, from the perspective of size, nanoparticle is defined as particles with diameters less than 100 nm in any external dimension. Examples of their use include titanium dioxide added as a pigment in products intended to be ingested by humans, silicon dioxide NPs are used in foods as an anticaking agent, and gold or iron oxide NPs can be used as vectors for drug delivery or contrast agents for specialized medical imaging. Although the intended use of these NPs is often to improve human health, it has come to the attention of investigators that NPs can have unintended or even detrimental effects on the organism. This work describes one such unintended effect of NP exposure from the perspective of exposure via the oral route. First, this Dissertation will explain an event referred to as brush border disruption that occurred after nanoparticles interacted with an in vitro model of the human intestinal epithelium. Second, this Dissertation will identify and characterize several consumer goods that were shown to contain titanium dioxide that are intended to be ingested. Third, this Dissertation shows that sedimentation due to gravity does not artifactually result in disruption of brush borders as a consequence of exposure to food grade titanium dioxide in vitro. Finally, this Dissertation will demonstrate that iron oxide nanoparticles elicited similar effects after exposure to an in vitro brush border expressing model of the human placenta. Together, these data suggest that brush border disruption is not an artifact of the material/cell culture model, but instead represents a bona fide biological response as a result of exposure to nanomaterial. / Dissertation/Thesis / Doctoral Dissertation Biology 2014
290

Flux Performance and Silver Leaching From In-Situ Synthesized Silver Nanoparticle Treated Reverse Osmosis Point of Use Membranes

January 2017 (has links)
abstract: Drinking water filtration using reverse osmosis (RO) membranes effectively removes salts and most other inorganic, organic, and microbial pollutants. RO technologies are utilized at both the municipal and residential scale. The formation of biofilms on RO membranes reduces water flux and increases energy consumption. The research conducted for this thesis involves In-Situ coating of silver, a known biocide, on the surface of RO membranes. This research was adapted from a protocol developed for coating flat sheet membranes with silver nanoparticles, and scaled up into spiral-wound membranes that are commonly used at the residential scale in point-of-use (POU) filtration systems. Performance analyses of the silver-coated spiral-wound were conducted in a mobile drinking water treatment system fitted with two POU units for comparison. Five month-long analyses were performed, including a deployment of the mobile system. In addition to flux, salt rejection, and other water quality analyses, additional membrane characterization tests were conducted on pristine and silver-coated membranes. For flat sheet membranes coated with silver, the surface charge remained negative and contact angle remained below 90. Scaling up to spiral-wound RO membrane configuration was successful, with an average silver-loading of 1.93 g-Ag/cm2. Results showed the flux of water through the membrane ranged from 8 to 13 liters/m2*hr. (LMH) operating at 25% recovery during long-term of operation. The flux was initially decreased due to the silver coating, but no statistically significant differences were observed after 14 days of operation (P < 0.05). The salt rejection was also not effected due to the silver coating (P < 0.05). While 98% of silver was released during long-term studies, the silver release from the spiral-wound membrane was consistently below the secondary MCL of 100 ppb established by the EPA, and was consistently below 5 ppb after two hours of operation. Microbial assays in the form of heterotrophic plate counts suggested there was no statistically significant difference in the prevention of biofouling formation due to the silver coating (P < 0.05). In addition to performance tests and membrane characterizations, a remote data acquisition system was configured to remotely monitor performance and water quality parameters in the mobile system. / Dissertation/Thesis / Masters Thesis Engineering 2017

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