Global ETD Search

1	The Development of a Novel Multi-dimensional Product for Wound Healing Applications Roach, Necrisha 05 May 2010 (has links) A characteristic feature of chronic wounds is a prolonged inflammatory response as well as susceptibility to infection. Studies have shown that during the inflammatory response, there is a significant increase in the levels of neutrophil-derived enzymes. The purpose of this work was to determine whether the anionic macromolecule polystyrene sulfonate (PSS) and five of its salt forms, namely PSS-calcium, PSS-chlorhexidine, PSS-doxycycline, PSS-glutathione and PSS-silver are able to inhibit the activity of three of the enzymes whose levels are elevated in chronic wounds: elastase, cathepsin G and myeloperoxidase. In addition to the enzyme inhibition study, the various formulations’ antimicrobial properties were analyzed by evaluating their ability to inhibit the growth of three common clinical isolates: Staphylococcus aureus, Pseudomonas aeruginosa and Acinetobacter baumanii. It is worthy to note that the structure of PSS makes it a very flexible platform to which other molecules can be added in order to address a variety of “targets” as well as tailor quantitative strength. The results from this project showed that purified PSS and the various salt derivatives were able to inhibit elastase and cathepsin G activity. In addition, three of the therapeutic cations attached to PSS: silver, doxycycline and chlorhexidine retained their intrinsic antimicrobial properties without having an adverse effect on healthy tissue. In summary, this study demonstrated that PSS possessed an intrinsic ability to inhibit a number of proteases and that it could also be used as a delivery vehicle for other compounds with potential therapeutic value. chronic wound myeloperoxidase polystyrene sulfonate elastase cathepsin G Life Sciences Physiology
2	Lithographic fabrication, electrical characterization and proof-of-concept demonstration of sensor circuits comprising organic electrochemical transistors for in vitro and in vivo diagnostics / Fabrication lithographique, caractérisation électrique et preuve de concept des circuits de capteurs comprenant des transistors organiques électrochimiques, à des fins diagnostiques in vitro et in vivo Braendlein, Marcel 24 March 2017 (has links) Grâce à leurs excellentes propriétés mécaniques, électriques et chimiques, les dispositifs organiques électroniques à base de polymères conducteurs peuvent résoudre l’incompatibilité entre les modules électroniques rigides en silicone et les exigences des tissus mous qui constituent l’environnement biologique. Les avancées en matière de semiconducteurs organiques et en microélectronique ont donné naissance à la bioélectronique. Cette discipline emploie des capteurs à des ﬁns diagnostiques, telles que la détection des métabolites ou la mesure d’un potentiel d’action neuronal, et des actionneurs à des ﬁns thérapeutiques, comme l’application locale d’un traitement à l’intérieur même du corps, ou la stimulation cérébrale profonde aﬁn de guérir un trouble neurologique. En bioélectronique, l’utilisation de matériaux organiques, tels que le polymère conducteur poly(3,4-éthylènedioxythiophène) polystyrène sulfonate de sodium (PEDOT:PSS) a permis de développer des composants électroniques biomédicaux de qualité exceptionnelle, comme par exemple le transistor organique électrochimique (OECT), qui ont été testés in vitro et in vivo. Ce manuscrit explique en détail la fabrication, la fonctionnalisation et la caractérisation du OECT à base de PEDOT:PSS. Aﬁn de pouvoir intégrer ce capteur à des systèmes de mesure biomédicaux déjà établis, l’OECT est intégré à des circuits simples, tels qu’un ampliﬁcateur de tension ou un pont de Wheatstone. Ces circuits sont mis à l’épreuve de la pratique clinique, dans le cas de mesures électrocardiographiques, ou de détection de métabolites dans des cellules cancéreuses. Cela permet d’apprécier à la fois leur applicabilité, et leurs limites. / Due to their outstanding mechanical, electrical and chemical properties, organic electronic devices based on conducting polymers can bridge the gap between the rigid silicon based read-out electronics and the soft biological environment and will have a huge impact on the medical healthcare sector. The recent advances in the ﬁeld of organic semiconductors and microelectronics gave rise to a new discipline termed bioelectronics. This discipline deals with sensors for diagnostic purposes, ranging from metabolite detection and DNA recognition all the way to single neuronal ﬁring events, and actuators for therapeutic purposes, through for example active local drug delivery inside the body or deep brain stimulation to cure neurological disorder. The use of organic materials such as the conducting polymer poly(3,4-ethylenedioxythiophene) polystyrene sulfonate (PEDOT:PSS) in the ﬁeld of bioelectronics has brought about a variety of outstanding electronic biomedical devices, such as the organic electrochemical transistor (OECT), that have been implemented for both in vitro and in vivo applications. The present manuscript gives a detailed explanation of the fabrication, functionalization and characterization of OECTs based on PEDOT:PSS. To be able to intercept this sensor element with traditional biomedical recording systems, the OECT is implemented into simple circuit layouts such as a voltage ampliﬁer or a Wheatstone bridge. These sensor circuits are then applied to real-life biomedical challenges, such as electrocardiographic recordings or metabolite detection in tumor cell cultures, to demonstrate their applicability as well as their limitations. Bioélectronique Transistor Organique Electrochimique PEDOT : PSS Bioelectronics Organic electrochemical transistor OECT PEDOT:PSS Sensor circuits
3	Studium interakcí polyelektrolytů s kladně nabitými dusíkatými amfifilními látkami / Investigation of Polyelectrolytes Interactions with Cationic Aminogroups-containing Amphiphiles Zeman, Jan January 2013 (has links) The study deals with interactions of polyelectrolytes polystyrene sulfonate and hyaluronic acid with nitrogenic amphiphilic substances, represented by lysine and albumine. To study the interactions pH-metry, conductance, viscositic and turbidity measurement, DLS and reometry were used. All mixtures of different concentrations were measured and the data were compered with data obtained from measurement of samples with amphiphilic sumstances without polyelectrolytes. Observed interactions occured in the aminoacid concentrations between 0 to 20 mmoldm-3, then the PSS interaction groups were fully bonded by lysine and no more interactions were recognized. The same behaviour were observed in albumine solutions with concentration under 2 gdm-3.
4	Fosfolipidy jako základ biodegradabilních nosičových systémů / Phospholipids as the basis of biodegradable delivery systems Burdíková, Jana January 2013 (has links) This thesis is focused on investigation of phospholipid-hyaluronan system. First, appropriate method for preparation of bulk solution of phospholipid/lipid and suitable fluorescence probe were chosen. Sonification was selected as a method for preparation of bulk solution and pyrene was chosen as a fluorescence probe. From the group of phospholipids lecithin was selected. Next to phospholipid, lipid with no phosphate group (DPTAP) was utilized for comparison, alternatively a mixture of lipid (DPTAP) and phospholipid (DPPC). Instead of hyaluronan another polyelectrolytes (sodium polystyrene sulfonate, sodium alginate) were used too. Measurements were performed in water environment and in phosphate buffer saline (PBS). All investigation was accomplished by fluorescence spectroscopy and dynamic light scattering.
5	Difúzní vlastnosti opačně nabitých organických molekul v roztocích hydrofilních polyelektrolytů / Diffusion properties of oppositely charged organic molecules in solutions of hydrophilic polyelectrolyte Rýcová, Eva January 2016 (has links) This work is focused on physical interactions of negatively charged polymers with small ionogenic fluorescent molecules. Trying to verify the presence of these interactions using fluorescence correlation spectroscopy (FCS) and provides a comprehensive view of the problem. The aim of this work is to observe the effect of concentration on the diffusion properties. P/D ratio, where P represents number of polymer binding sites and D number of dye binding sites, was chosen for this issue. Hyaluronate, sodium chondroitin sulfate and sodium polystyrene sulfonace were used as polymers and Acridine Orange, and Rhodamine 6G were chosen as fluorescent probes. The reason why this experiment uses these probes, was the assumption, that the positive charge occuring on the fluorescent probe will lead to the electrostatic interaction with the negatively charged polymer. As a result, the bond between acridine orange and polyelectrolyte was not clearly demonstrated, but the interaction with Rhodamine 6G have been proved.
6	Studium bariérových a transportních vlastností vybraných polyelektrolytů v hydrogelových matricích pomocí difúzních technik / Study of barrier and transport properties of polyelectrolytes using diffusion techniques in hydrogels Valentová, Kristýna January 2017 (has links) This diploma thesis was focused on study of barrier and transport properties of selected polyelectrolytes in hydrogel matrices by using diffusion techniques. The study of these properties was performed in horizontal diffusion cells where is observed the change in diffusion probe concentration over time. Diffusion experiments were performed on an agarose hydrogel with the addition of alginate, hyaluronic acid, polystyrene sulfonate, humic acids and as a model probe rhodamine 6G was used. Important parts of this thesis are also the methods which characterize the substances and hydrogel matrices such as rheology and potentiometric titration. The main aim of this diploma thesis was to investigate the effect of interactions between passing model dye (rhodamine 6G) and the appropriate gel (agarose + polyelectrolyte) on the fundamental diffusion parameters (effective diffusion coefficient, lag time, etc.).
7	Srovnávací studie interakcí tenzidů s hyauronanem a jinými polyelektrolyty. / Comparative study of interaction between surfactant and hyaluronan and different polyelectrolytes. Stiborský, Filip January 2012 (has links) In this diploma thesis, the interactions between polyelectrolyte and surfactant at low and also at high concentration were studied. There was used pyrene as fluorescent probe during the fluorescence spectroscopy measurement, a cationic surfactant cetyltrimethylammonium bromide and as a main polyelectolyte has been chosen sodium polystyrene sulfonate at 1 MDa molecular size. In the medium containing 0.15 M NaCl we could observed a creation of the complexes – precipitates in the surrounding of CMC concentration and behind of this concentration. In the mixtures containing sodium polystyrene sulfonate and hyaluronan together, there was stronger tend to keep aggregation properties of sodium polystyrene sulfonate during difference concentration ratios. Beyond CMC concentration, hyaluronan starts to influence the aggregation properties of the system as well.
8	Structure des solutions aqueuses de polyélectrolytes fortement chargés / Structure of aqueous solutions of strongly charged polyelectrolytes Lorchat, Philippe 06 September 2012 (has links) Nous étudions la structure des solutions concentrées de polyélectrolytes (PE). Celle-ci n’a fait l’objet que de rares études expérimentales et aucun ordre d'orientation n'a jamais pu être observé dans les solutions de PE flexibles et semi-flexibles, bien que des travaux théoriques, basés sur l’approche d’Onsager, prévoient l'apparition d'une phase nématique aux fortes concentrations. Nous avons mesuré la position q* dans l'espace réciproque du pic présent dans la fonction de corrélation des solutions de PE fortement chargés obtenue par diffusion de rayonnement (DXPA et DNPA), et avons confronté sa variation avec la concentration c aux lois d'échelles théoriques q~ca. Nous avons combiné des très fortes concentrations avec une haute résolution spatiale. La rigidité intrinsèque du PE est le paramètre clef de l’étude. En effet, le PSS, PE flexible, présente 3 régimes déjà connus : a=1/2 -régime semi-dilué- a=1/4 -régime concentré- un régime « ionomère » aux plus fortes concentrations pour lequel a=0. Le PDADMAC, PE semi-flexible, présente un comportement plus original puisque 4 régimes se succèdent : régimes semi-dilué et concentré avec a=1/2 et 1/4, puis deux régimes pour lesquels a=1 puis 1/2 qui sont totalement inédits. Le PaMSS, de rigidité intrinsèque intermédiaire, présente un comportement ambivalent, puisque les régimes semi-dilué et concentré précèdent un régime où a=1, puis un comportement « ionomère ». Nous introduisons un modèle simple permettant d'interpréter la succession des régimes a=1 puis 1/2 par l'apparition d'un ordre d'orientation. Nous discutons aussi les différences observées par DXPA et DNPA, et le rôle de la force ionique, variée par ajout de sel. / The structure of concentrated polyelectrolyte (PE) solutions is studied. There is a lack of experimental data on these systems. Specifically, no orientational order has ever been observed in solutions of flexible or semi-flexible PE, even though the existence of a nematic phase has been theoretically predicted at high concentration. We have measured the position q in the reciprocal space of the peak that is present in the correlation function of aqueous solutions of highly charged PE, obtained by scattering measurements (SAXS and SANS). We combined high spatial resolution and a very wide concentration range to compare the variation of q* versus the concentration c, with the predicted scaling laws q*~ca. The intrinsic stiffness of PE is the key parameter of our study. Indeed, PSS, a flexible PE, exhibits 3 regimes already described: a=1/2 -semi-dilute regime- a=1/4 -concentrated regime- an “ionomeric” regime at extreme concentrations, for which a=0. PDADMAC is semi-flexible and exhibits a unique series of exponents involving 4 regimes: semi-dilute and concentrated regimes with a=1/2 and 1/4, followed by 2 regimes associated with a=1 and 1/2 respectively, which are new and unpredicted for PE solutions. PaMSS has an intermediate intrinsic stiffness, and exhibits hybrid behaviour. The semi-dilute and concentrated regimes are followed by an a=1 regime, and then an “ionomeric” regime for extreme concentrations. We introduce a simple model which explains the succession of the a=1 and 1/2 regimes as the appearance of an orientational order. We also discuss the differences between SAXS and SANS measurements, and the role played by the ionic strength, when salt is added. Polyélectrolyte Solutions denses SAXS SANS Ordre d'orientation Polystyrène sulfoné Poly(alpha-méthylstyrène sulfonate) Polyelectrolyte Dense solutions SAXS SANS Orientational order Polystyrene sulfonate Poly(diallyldimethylammonium chloride) Poly(alpha-methylstyrene sulfonate) 541.34
9	Ionogenní fluorescenční sondy ve výzkumu koloidních systémů / Ionogenic fluorescence probes in research of colloidal system Střondalová, Hana January 2013 (has links) This diploma thesis studied the interaction of ionic and amphiphilic fluorescent probes with polyelectrolytes. The research of such colloidal system could be helpful in deeper understanding of interactions between polyelectrolytes and surfactants. The aim of this thesis was to determine whether ionic or amphiphilic probes are suitable for this research. Two polyelectrolytes, sodium polystyrene sulfonate and hyaluronan were used in this study. Interactions of polyelectrolytes with fluorescent probes (4-Di-2-Asp, methylene blue, dodecyl acridine orange, DiO and DiA) were studied in this work. Then cationic surfactant cetyltrimethylamonium bromide was added to this system. Samples were studied using fluorescence and UV/VIS spectroscopy. Emission and absorption spectra of these probes were recorded. This experiment was based on hypothesis that due to positive charge these probes will bind to the negatively charged polyelectrolyte. Formation of dimers or other aggegates was presumed for fluorescent probes dodecyl acridine orange and methylene blue. When 4-Di-2-Asp was used,changes in fluorescence intensity and absorption spectra in connection with possible formation of aggregates was supposed to be observed. It should be noted that formation of dimers for 4-Di-2-Asp is not described in literature. The formation of dimers wasn't clearly demonstrated during the measurement. Formation of dimers was observed only with dodecyl acridine orange. Probes DiO and DiA were used only in the study of the interaction with polyelectrolytes. These fluorescent probes showed up as inappropriate, because they adsorbed on tube walls. When cationic surfactant was added to hyaluronan-fluorescent probe system, surfactant pushed away fluorescent probe and bonded electrostatically to negatively charged groups of polyelectrolyte.
10	Charakterizace koloidních částic pomocí deprotonace v excitovaném stavu za použití pokročilých fluorescenčních technik / Characterization of coloid particles by excited-state proton transfer with advanced fluorescence techniques Kotouček, Jan January 2016 (has links) The deprotonation characteristics of fluorescent probes -naphthol and 8-hydroxypyrene-1,3,6-trisulphonic acid (HPTS) were studied in this diploma thesis, using steady-state and time-resolved fluorescence spectroscopy. Two cationic surfactants, Septonex and cetyltrimethylammonium bromide (CTAB), were studied. These surfactants were measured in the complex with hyaluronan (1.75 MDa, 1 MDa and 300 kDa). Steady-state fluorescence was used for determination of critical aggregation concentration of each surfactant and pKa*. Time-resolved fluorescence decays were used to calculate the average lifetimes and the deprotonation constants of naphthol and HPTS. The measurement with hyaluronan were compared with the polystyrenesulfonate (PSS) – surfactant system. The effect of hydration shell of hyaluronan on hyaluronan – surfactant complex formation results from the comparison of above mentioned systems. Large differences were found in the deprotonation characteristic between surfactants and even between individual molecular weights of hyaluronan. The measurement shows that the hydration shell is located near to the dissociated carboxyl groups of hyaluronan chain, where the interaction with the positively charged surfactants occurs. Furthermore, the aggregation number of Septonex was determined by quenching of pyrene using cetylpyridinium chloride (CPC) as a quencher. The aggregation number for 20 mM Septonex solution was determined as a value of 104 molecules. CPC was used for confirmation of the localization of -naphthol in the micelles of CTAB and polymer – CTAB, respectively.

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