Global ETD Search

701	[en] INTERFACIAL RHEOLOGICAL PROPERTIES OF LUNG SURFACTANT MODELS / [pt] PROPRIEDADES REOLÓGICAS INTERFACIAIS DE MODELOS DE SURFACTANTE PULMONAR CAYQUE MONTEIRO DE CASTRO NASCIMENTO 28 December 2021 (has links) [pt] As propriedades reológicas na interface ar/água de modelos de surfactantes pulmonares (DPPC, DPPC:DPPG, DPPC:DPPG:Colesterol, Survanta e Curosurf) foram investigadas utilizando técnicas de cisalhamento superficiais (reometria de cisalhamento interfacial) e dilatacionais (tensiometria da gota pendente). Assim, alguns parâmetros de interesse foram obtidos para o estudo da viscoelasticidade das amostras (como viscosidade e módulos de armazenamento e perda) e as limitações das técnicas também foram analisadas. Os experimentos foram realizados de forma dinâmica, em que a faixa de frequência de interesse abrange, inclusive, a frequência respiratória de um atleta. Os resultados obtidos mostram a maior viscosidade do Survanta, frente ao Curosurf, e mostram o caráter intermediário do DPPC, que pode ser alterado pela adição de DPPG (aumentando a elasticidade) e Colesterol (aumentando a viscosidade), sugerindo que a mistura DPPC:DPPG pode ser mais adequada do que com DPPC:DPPG:COL para simular o comportamento do surfactante pulmonar. A reometria dilatacional não se mostrou aplicável ao estudo dos surfactantes, o que pode ser causado pela alta viscoelasticidade e relativa instabilidade do Survanta. / [en] The interfacial rheological properties of lung surfactants models (DPPC, DPPC:DPPG, DPPC:DPPG:Cholesterol, Survanta and Curosurf) at the air/water interface were investigated using shear (interfacial shear rheometry) and dilatacional (pendent drop tensiometry) techniques. Thus, some parameters of interest were obtained to study the viscoelasticity of the samples (such as viscosity and storage and loss modules) and the limitations of the techniques were also analyzed. The experiments were carried out dynamically, in which the interest frequency range includes the respiratory rate of an athlete. The results obtained show the higher viscosity of Survanta, compared to Curosurf, and show the intermediate character of DPPC, which can be altered by addition of DPPG (increasing the elasticity) and Cholesterol (increasing the viscosity), suggesting the DPPC:DPPG mixture may be more suitable than with DPPC:DPPG:CHOL to simulate the lung surfactant behavior. The dilatacional rheometry does not shown to be applicable for surfactants studies, which can be caused by the high viscoelasticity and relative instability of Survanta. [pt] PROPRIEDADES REOLOGICAS [pt] TENSIOMETRO DE GOTA [pt] SURFACTANTE PULMONAR [en] REOLOGICAL PROPERTIES [en] DROP TENSIOMETER [en] INTERFACIAL SHEAR RHEOMETER [en] LUNG SURFACTANT
702	INVESTIGATION OF NANOCELLULOSE MECHANICAL PROPERTIES AND INTERACTIONS IN SALT AND SURFACTANT SOLUTIONS MEASURED BY ATOMIC FORCE MICROSCOPY / NANOCELLULOSE PROPERTIES MEASURED BY ATOMIC FORCE MICROSCOPY Marway, Heera January 2017 (has links) This understanding of nanocellulose can be directly applied in future formulation design to use nanocellulose in polymer nanocomposites, foams, emulsions, latexes, gels and biomedical materials. / In this study, the potential of nanocellulose as a reinforcing agent in composite materials was investigated using atomic force microscopy (AFM). AFM was used to probe the mechanical properties of nanocelluloses and to investigate their interactions and adhesion in liquid media. Amplitude modulated-frequency modulated AFM was used to map the mechanical properties of cellulose nanocrystals (CNCs) and cellulose nanofibrils (CNFs). Results showed Young’s moduli of 90 GPa and 120 GPa for CNCs and CNFs, respectively, which are comparable to literature values determined using other methods. Additionally, colloid probe AFM was implemented to observe the interactions (attractive, repulsive, steric, adhesive) between cellulose and silica colloid probes with anionic CNCs (containing either a Na+ or H+ counterion) and cationic CNCs. Colloid probe AFM measurements were carried out in five different liquid media: two salt solutions (NaCl and CaCl2) and three surfactant solutions (cationic cetyltrimethylammonium bromide, CTAB; anionic sodium dodecyl sulfate, SDS; and nonionic Triton X100). It was found that low salt concentrations resulted in electrostatic repulsion and high adhesion, whereas the reverse was observed at high salt concentrations. On the contrary, an increased surfactant concentration and increased number of surfactant aggregates (micelles, bilayers, etc.) resulted in increased adhesion. Surprisingly, the interactions were strongly dependent on the CNC counterion as surfactant adsorption seemed to be primarily driven by electrostatic interactions; CTAB adsorbed more to anionic CNCs, SDS adsorbed more to cationic CNCs and Triton X100 adsorbed minimally to all CNCs. Electrophoretic mobility and particle size data showed complementary results to colloid probe AFM, indicating that interactions between surfactants and CNC films and CNCs in suspension are closely related. This research suggests that CNCs have potential as reinforcing agents due to their high strength and the tunability of their interactions through the simple addition of salts or surfactants. This understanding can be directly applied in future formulation design to use nanocellulose in polymer nanocomposites, foams, emulsions, latexes, gels and biomedical materials. / Thesis / Master of Applied Science (MASc) / Nanocellulose is a sustainable nanomaterial most commonly extracted from plants and trees. In recent research, nanocellulose has been shown to have potential as a reinforcing agent for materials such as plastics, foams, paints and adhesives. In this study, the potential of nanocellulose was investigated using atomic force microscopy (AFM). As predicted, AFM measurements indicated that nanocellulose has a high stiffness, supporting the substitution of this biobased material in the place of metals and synthetic fibres. AFM was also used to examine particle interactions in salt and soap-like (surfactant) solutions; changes in nanocellulose size and charge were used to support the findings. Negatively charged nanocellulose interacted more with positively charged surfactants and vice versa. Low salt and high surfactant concentrations led to high adhesion and better material compatibility, which is preferred. This understanding can help us design better nanocellulose materials for future applications. Cellulose Cellulose Nanocrystals Atomic Force Microscopy Adhesion DLVO Surfactant Interactions Counterion AM-FM AFM AFM Colloid Colloid Probe Microscopy Nanoparticles Nanocellulose Nanotechnology Salt
703	FORMULATION, CHARACTERIZATION, AND IN VIVO EVALUATION OF A FIRST-IN-KIND POLYMER LUNG SURFACTANT THERAPY Daniel J Fesenmeier (17456670) 27 November 2023 (has links) <p dir="ltr">The recent COVID-19 pandemic has emphasized the risk of respiratory infections leading to acute respiratory distress syndrome (ARDS). A significant factor contributing to poor ARDS outcomes is the impairment of lung surfactant due to infiltrating surface-active proteins and phospholipases during lung inflammation. Lung surfactant's vital role in stabilizing alveoli by reducing air-water interfacial tension becomes evident as its dysfunction severely compromises respiratory function. Although lung surfactant (LS) replacement therapy effectively addresses neonatal LS deficiencies, its efficacy in ARDS treatment for adults remains limited. The challenge lies in the chemical similarity between current animal-extracted surfactants and human lung surfactant which are both phospholipid-based. To address this issue, this dissertation outlines a transformative "polymer lung surfactant (PLS)" designed to overcome the limitations of conventional exogenous surfactants in treating ARDS.</p><p dir="ltr">Firstly, a formulation method, referred to as equilibration-nanoprecipitation (ENP), is established which achieves reproducibility, controls sizing, and limits dispersity of the PLS formulation consisting of block copolymer (BCP) kinetically "frozen" micelles/nanoparticles suspended in water. The method uses a two-step approach of 1) equilibrating the BCP nanoparticles in a water/co-solvent mixture and 2) removing co-solvent using dialysis against a large water reservoir. Comparison of ENP with a conventional solvent-exchange technique through experimental and computational analysis yields further insights into ENP's advantages.</p><p dir="ltr">Next, various studies are highlighted which provide fundamental characterizations of the air-water surface behavior and physical properties of BCP nanoparticles in water. The air-water surface properties of block copolymers have been studied extensively when spread as free chains in organic solvent; however, little was previously known about air-water interfacial behavior of water-spread polymer nanoparticles. The studies address such topics as the effect of nanoparticle size, effect of nanoparticle core chemistry, and the effect of temperature on surface-mechanical behavior. Insights into nanoparticle molecular structure at the interface are provided through X-ray reflectivity and grazing incidence X-ray diffraction. The effect of temperature is further characterized by developing novel NMR and Langmuir trough methods to determine the physical state (glassy vs rubbery) of the core domain in the nanoconfined state at temperatures above and below physiologic temperature.</p><p dir="ltr">Lastly, <i>in vivo </i>studies are presented which demonstrate the detailed and promising proof-of-concept results on the efficacy of the PLS technology in mouse models of lung injury. The PLS therapy not only improves biomechanical function of the lung, but it also significantly lowers the extent of lung injury as shown by histological analysis and inflammatory marker measurements. An additional <i>in vivo </i>study is presented which highlights challenges in the delivery of the liquid PLS suspension to the lungs. The <i>in vivo </i>studies ultimately provide solid motivation for continued research into the development of the PLS therapy.</p><p dir="ltr">Given the promising potential of the PLS technology shown in the <i>in vivo</i> studies, the materials characterizations shared in this presentation offer valuable insights into the design of a novel PLS therapy. From these insights, key design parameters such as nanoparticle size characteristics, core chemistry, and core molecular weight can be chosen to produce the most desirable material properties. Overall, this dissertation furthers the progress of PLS therapeutic development and will hopefully ultimately contribute to improved health outcomes in patients suffering from ARDS.</p> Macromolecular materials Structure and dynamics of materials Colloid and surface chemistry polymer micelle system lung surfactant nanomedicine ARDS soft materials langmuir films
704	Development of Smart Tie-layers for Multilayer Packaging through Polyelectrolyte/Surfactant Coacervation Benalcazar Bassante, Jose Carlos 15 June 2023 (has links) No description available. Chemical Engineering Chemistry Packaging
705	Gas hydrate formation in Gulf of Mexico sediments Dearman, Jennifer L 05 May 2007 (has links) Gas hydrate formation was studied in Gulf of Mexico (GOM) sediments. Sediments studied were from six-meter long cores from Mississippi Canyon Block 118 and a 27-meter core from a cruise in 2002 of the Marion Dufresne. These sediments retained their in situ seawater before testing. Hydrate formation rate and induction times were measured. The hydrate memory effect was studied in GOM sediments with and without in situ seawater. Hydrate induction time was short when in situ seawater was present. Bioproducts adsorbed on particles in the sediments are postulated to shorten the induction times by maintaining seawater structuring around coated particles. Hydrate nucleation was studied by Dynamic Light Scattering and Scanning Electron Microscopy. Particles around 50 to 100 nm nucleated hydrate formation. These small nucleating particles appeared to be clays or surfactant molecules and interactions thereof. Hydrate capillaries were studied and found to be at least 100 nm in diameter because the sediment nucleating particles with bioproducts diffused through the hydrate capillaries. Large complexes of nontronite smectite clay and Emulsan, an anionic biosurfactant, were found to facilitate hydrate formation. It was determined that Emulsan entered the interlayer of nontronite. The clay contents of the GOM sediments were determined. All sediments contained smectite, illite, chlorite, and kaolinite in different proportions. The study gave new insight into the gas hydrate formation mechanism in seafloor sediments. gas hydrate Gulf of Mexico gas hydrate gas hydrate nucleation gas hydrate capillary size gas hydrate memory effect MC 118 clay / anionic surfactant intercalation emulsan
706	Pluronic Activity in Hyperthermia-induced Cancer Cell Death Dremann, David Michael 26 August 2009 (has links) No description available. Biology Biomedical Research Cellular Biology Engineering Molecular Biology Oncology Pharmaceuticals Polymers Pluronic HSP70 Hyperthermia Thermosensitization Cancer Colorectal Suppression Polymer Surfactant Pharmaceutical
707	"Characterization of Red Diamondback Rattlesnake Venom Proteins on Cell Death and Function" Ebrahimian, Venus January 2013 (has links) No description available. Pharmacology Toxicology Cellular Biology Neuro-2A Venom Snake Venom Red Diamondback rattlesnake lung cell surfactant chromogranin ruberlysin myotoxin hemorrhagic toxin FPLC Mass spectrometry
708	Rationale for the Study of Fatty Acid Binding Protein 5 in Alveolar Type II Cells Garrison, Derek S. January 2008 (has links) No description available. Biochemistry Bioinformatics Biology Biomedical Research Cellular Biology Health Molecular Biology FABP FABP5 Prematurity Fatty Acid Binding Protein Surfactant Lung Development Lipogenesis
709	Characterization and Management of Bacterial Leaf Spot of Processing Tomato in Ohio Ma, Xing January 2015 (has links) No description available. Plant Pathology Agricultural Chemicals Agriculture Microbiology Tomato Bacterial leaf spot Xanthomonas gardneri Xanthomonas perforans Xanthomonas euvesicatoria Plant disease management Surfactant Bactericide Humidity
710	Quantitative analysis of surfactant deposits on human skin by liquid chromatography/electrospray ionisation tandem mass spectrometry. Massey, Karen A., Snelling, Anna M., Nicolaou, Anna January 2010 (has links) No / Surfactants are commonly used as cleansing agents and yet there are concerns that they may also have a role in skin irritation. The lack of suitable methods for the quantitative and qualitative analysis of surfactant deposition on skin has hindered the in-depth investigation of such effects. Here, we report the application of reversed-phase liquid chromatography/electrospray ionisation tandem mass spectrometry (LC/ESI-MS/MS) assays for two surfactants commonly used in consumer products, namely sodium lauryl ether sulfate (SLES) and laurylamidopropyl betaine (LAPB), to a baseline study aiming to assess deposition levels on human skin. The linearity of the assays was established at 3-20 ng, with coefficient of variation below 5%. The detection limits were 100 pg for LAPB and 1 ng for SLES; quantitation limits were 500 pg for LAPB and 2.5 ng for SLES. The baseline study was conducted using a panel of 40 healthy volunteers. Skin extract samples were taken in triplicate from forearms, using ethanol. SLES was detected on most volunteers, with 75% of them having SLES deposits in the range of 100-600 ng/cm(2). LAPB was detected on the skin of all volunteers with 85% of them having deposit levels within the concentration range of 1-100 ng/cm(2). These results demonstrate the extent to which commonly used surfactants remain on the skin during the day. The analytical methods reported here can be applied to the investigation of surfactants in relation to general skin condition and to the development and optimisation of new consumer wash products. / EPSRC-DTA award / School Life Sciences Surfactant Skin Deposition Soap Sodium lauryl ether sulfate (SLES) Laurylamidopropyl betaine (LAPB)

Search results