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Development of Material Based on Hyaluronic Acid s Hydrogels for Myocardial Regeneration
Kovářová, Lenka ; Kubala,, Lukáš (referee) ; Prokš,, Vladimír (referee) ; Pekař, Miloslav (advisor)
The thesis is focused on material development based on hyaluronic acid usable in regenerative medicine, especially for heart tissue regeneration after myocardial infarction. The object of the study is the oxidized form of hyaluronic acid (HA-Ox) and hydroxyphenyl derivative of HA (HA-TA). HA-Ox can be crosslinked with a bifunctional alkoxyamine POA and HA-TA undergoes an enzymatic reaction in the presence of hydrogen peroxide catalysed by horseradish peroxidase leading to gel formation. To describe the materials, chemical and physical properties, gelation kinetics and conditions of crosslinking reactions were studied. Hydrogels were characterized by mechanical and viscoelastic properties, degradability or stability in simulated body fluids. These hydrogels serve as scaffolds for the selected cell type. To promote cell adhesion and viability, an RGD sequence has been bonded to the structure of HA-TA. This resulting material is also compatible with selected applicators. Its viscosity and extrusion force are low enough to allow application with a catheter with a very small internal diameter. The applicability of the material through the supply tube to the hydrogel reservoir of the second SPREADS device showed good homogeneity, cell distribution and viability. Finally, the material was applied in vivo using these devices during a preclinical study.
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Characterization of methylated humic acids
Solná, Irena ; Kislinger, Jiří (referee) ; Klučáková, Martina (advisor)
The main concern of this bachelor thesis was a characterization of the properties of methylated humic acids. Retrieval on modifications of acidic functional groups of humic substances was done. In addition appropriate experimental methods for assessing the impact of methylation of carboxylic groups of humic acids were selected. Methylation of formentioned carboxylic groups is used to improve stability of humic acids while working with them. The sample of methylated humic acids, produced by the University of Poitiers in France, was investigated by the following methods: UV-Vis spectroscopy, FT-IR spectroscopy, fluorescence spectroscopy and thermal analysis - TGA, DSC. The degree of methylation of carboxylic functional groups of methylated humic acids was considered using an indirect titration. Results were trade-off with the sample without methylation. The impact of gelation on properties of methylated and non-methylated humic acids was also studied.
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The gelation of hydroxyethylcellulose and hyaluronan using citric acid
Martinková, Martina ; Krouská, Jitka (referee) ; Hurčíková, Andrea (advisor)
This master's thesis deals with gelation of hydroxyethylcellulose and hyaluronan crosslinked with nontoxic crosslinking agent – citric acid. First of all, the optimalization of gelation process of hydroxyethylcellulose took place. After obtaining the product insolube in the ultrapure deionized water, a reaction mixture of hyaluronan and hydroxyethylcellulose in two different weight ratios were prepared. There was prepared solution containing only hyaluronan as the polymeric part too. Citric acid was used in concentrations of 5 %, 10 % and 20 % (w/w of polymer). These solutions of polymers and citric acid were gelated under the same conditions and the products were compared to each other using Differential Scanning Calorimetry, Thermogravimetry and Fourier Transform Infrared Spectroscopy. The products containing hydroxyethylcellulose and hyaluronan with hydroxyethylcellulose in weight ratio equal to 3 : 7 were considered crosslinked.
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Atelocollagen processing, gelation and characterization
Zubal, Lukáš ; Podzimek,, Štěpán (referee) ; Migliaresi, Claudio (referee) ; Vojtová, Lucy (advisor)
Předkládaná disertační práce se zabývá charakterizací, zpracováním a gelací rozpustného kolagenu. Literární rešerše shrnuje postavení kolagenu na trhu s transplantáty, jeho aplikace a jednotlivé typy kolagenu. Detailně jsou rozebrány jednotlivé metody charakterizace rozpustného kolagenu a způsoby jeho gelace. Experimentální část je rozdělena na dvě podkapitoly. První podkapitola experimentální části se zabývá rozpouštěním a gelací rozpustného kolagenu v natlakované CO2 atmosféře. Proti jiným podobným metodám, metoda pracuje na poměrně nízkém tlaku (do 0.9MPa) a je bezpečná z pohledu denaturace kolagenu neboť funguje za nízké teploty blízké 0°C. Tímto způsobem mohou být průhledné gely, obsahující velmi tenká vlákna kolagenu, vytvořeny mnohem rychleji než za použití konvenčních metod. Rychlost gelace a transparentnost dává konceptu potenciál v oblasti oftalmologie a měla by přinést podstatné výhody pro injektovatelné produkty, vytváření mikro kuliček a 3D tisk. Druhá část popisuje unikátní charakterizaci rozpustného kolagenu v nativním stavu pomocí metody průtokové frakcionace s víceúhlovým rozptylem světla (AF4-MALS). Získaná molekulová hmotnost (při nejvyšší detekované koncentraci) odpovídá předpovězené hmotnosti a nativní i denaturovaný kolagen lze snadno rozeznat v konformačním grafu. Tato nová metoda poskytuje konzistentní a stabilní výsledky ve srovnání s ostatními zavedenými metodami. Metoda může být použita pro optimalizaci kvality výtěžků během výroby rozpustného kolagenu, nebo pro citlivou detekci denaturace během zpracování kolagenu.
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Preparation and application of physical hyaluronan gel
Kovářová, Lenka ; Krouská, Jitka (referee) ; Venerová, Tereza (advisor)
Bachelor's work is concerning by research in physical hyaluronan gel area. Research is focusing on its preparation, especially by interaction of hyaluronan (HyA) solution with opposite charged surfactant in physiological solution (0,15 M NaCl). In the first part of work I found out influence of molecular weight, concentration of original hyaluronan solution and the ratio of binding sites on hyaluronan chain and surfactant on amount of solids in gel, expressed in percent. Finally we can say, that this value is not influenced by molecular weight of HyA neither relation of binding sides. On the other side, concentration of original HyA solution has significant influence on amount of solids in gel. There was also researched process of gel swelling, where was set amount of water (in percent) able to take dried gel back. Analogical conclusion has been reached like amount of solids in gel. In other part were researched influence of hyaluronan molecular weight and the ratio of binding sites on hyaluronan chain and surfactant on formation of excimers and spectrum change by fluorescence spectroscopy. Pyrene, 1,3-bis(pyren-1-yl)propane (P3P) and prodan were used as fluorescence probes. Excimer emission showed at P3P, while there was no growth of intensity at 470 nm for pyrene. It was found that molecular weight does not affect the value of the ratio of excimer and monomer probe P3P, or the ratio of the first and third peaks of pyrene. The ratio of binding sites HyA and surfactant influence only relation of excimer to monomer (P3P probe), while influence to relation 1:3 hasn't been noticed for pyrene. I have compared spectrum of developed gel for prodan probe, relevant solid and swelled gel by return. It also served for drying and swelling process visualisation.
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Study of physical gels with hydrophobic domains
Kovářová, Lenka ; Márová, Ivana (referee) ; Mravec, Filip (advisor)
The thesis is focused on physical hyaluronan gels. The object of study is the interaction of hyaluronan (HyA) with oppositely charged surfactants in physiologic solution (0.15 M NaCl), leading to the formation of gel. In the first part of work have been determined the solids´ contents (X) in gels and their supernatants in percentage and their correlation with molecular weight concentration of original HyA solution and the ratio of binding sites on hyaluronan chain and surfactant CTAB. To conclude, decrease in HyA concentration results in higher values of X and vice versa. On the other hand, increase in the value of X with increasing molecular weight of HyA is not so significant. Analogous conclusions have been made for supernatants and the amount of solids in gel. Drying process has been recorded by drying curves. Swelling process has been used for the characterization of gels. The percentage of water that can be absorbed by dried gel, was determined. The results are in agreement with the measurements of solids´ content in gels. In the next part, the correlation between rheological properties of gels and HyA concentration, HyA molecular weight and concentration of CTAB have been studied by the oscillation and flow tests. The samples with the highest molecular weight and concentration have the most viscoelastic character. The flow test confirmed the assumed pseudoplastic behavior of gels. A very interesting trend arose while comparing HyA concentrations and viscosity in stock solutions and gels. Whereas in stock solution viscosity (at low shear rate) is lower with increasing of HyA concentration, the situation was exactly the opposite in gels. The results are in agreement with frequency tests and observed character of gels.
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Gelcasting of Advanced Ceramics
Veselý, Jan ; Maca, Karel (referee) ; Trunec, Martin (advisor)
In Bachelor thesis, a literary overview of gelcasting method was worked out and pursuant to this overview, composition of alumina suspension was optimised for fabrication of bulky and complex-shape ceramic part. Four variants of ceramic powder filling in suspensions were prepared. Based on the experiments, a suspension with powder loading of 47,5 vol. % was chosen. The ratio between linear and crosslinking monomers was investigated for this suspension. A suspension with monomer ratio of 4 : 1 (linear : crosslinking) was chosen for preparation of bulky and complex-shape ceramic part. Gelcasting was verified by fabrication of ceramic medal and a knee-joint.
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Optimization of condition of procedure of gelation hydroxyethylcellulose using citric acid
Burešová, Natálie ; Krouská, Jitka (referee) ; Hurčíková, Andrea (advisor)
The bachelor thesis dealt with hydrogels, which have the advantage detention large quantities of water, it allows large potential applications, such as in medicine. Hyaluronan and hydroxyethylcellulose were the reactants of crosslinking reaction. Citric acid was crosslinking agent which is nontoxic and inexpensive. Hydroxyethylcellulose and hyaluronan for crosslinking reaction were selected on the finding from available publications. The resulting gels can be used mainly in medicine because they are nontoxic. The main aim of the thesis was optimalizacion process of gelation and hydroxyethylcellulose and finding a suitable gelation process. Selected gelation procedure is applied to a mixture of hydroxyethyl cellulose and hyaluronan in two different weight ratios and hyaluronan. Chemicaly cross-linked were considered samples, which contained hydroxyethylcellulose and then a mixture of hyaluronate and hydroxyethyl cellulose in a weight ratio of 3:7.
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Development of Material Based on Hyaluronic Acid s Hydrogels for Myocardial Regeneration
Kovářová, Lenka ; Kubala,, Lukáš (referee) ; Prokš,, Vladimír (referee) ; Pekař, Miloslav (advisor)
The thesis is focused on material development based on hyaluronic acid usable in regenerative medicine, especially for heart tissue regeneration after myocardial infarction. The object of the study is the oxidized form of hyaluronic acid (HA-Ox) and hydroxyphenyl derivative of HA (HA-TA). HA-Ox can be crosslinked with a bifunctional alkoxyamine POA and HA-TA undergoes an enzymatic reaction in the presence of hydrogen peroxide catalysed by horseradish peroxidase leading to gel formation. To describe the materials, chemical and physical properties, gelation kinetics and conditions of crosslinking reactions were studied. Hydrogels were characterized by mechanical and viscoelastic properties, degradability or stability in simulated body fluids. These hydrogels serve as scaffolds for the selected cell type. To promote cell adhesion and viability, an RGD sequence has been bonded to the structure of HA-TA. This resulting material is also compatible with selected applicators. Its viscosity and extrusion force are low enough to allow application with a catheter with a very small internal diameter. The applicability of the material through the supply tube to the hydrogel reservoir of the second SPREADS device showed good homogeneity, cell distribution and viability. Finally, the material was applied in vivo using these devices during a preclinical study.
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Atelocollagen processing, gelation and characterization
Zubal, Lukáš ; Podzimek,, Štěpán (referee) ; Migliaresi, Claudio (referee) ; Vojtová, Lucy (advisor)
Předkládaná disertační práce se zabývá charakterizací, zpracováním a gelací rozpustného kolagenu. Literární rešerše shrnuje postavení kolagenu na trhu s transplantáty, jeho aplikace a jednotlivé typy kolagenu. Detailně jsou rozebrány jednotlivé metody charakterizace rozpustného kolagenu a způsoby jeho gelace. Experimentální část je rozdělena na dvě podkapitoly. První podkapitola experimentální části se zabývá rozpouštěním a gelací rozpustného kolagenu v natlakované CO2 atmosféře. Proti jiným podobným metodám, metoda pracuje na poměrně nízkém tlaku (do 0.9MPa) a je bezpečná z pohledu denaturace kolagenu neboť funguje za nízké teploty blízké 0°C. Tímto způsobem mohou být průhledné gely, obsahující velmi tenká vlákna kolagenu, vytvořeny mnohem rychleji než za použití konvenčních metod. Rychlost gelace a transparentnost dává konceptu potenciál v oblasti oftalmologie a měla by přinést podstatné výhody pro injektovatelné produkty, vytváření mikro kuliček a 3D tisk. Druhá část popisuje unikátní charakterizaci rozpustného kolagenu v nativním stavu pomocí metody průtokové frakcionace s víceúhlovým rozptylem světla (AF4-MALS). Získaná molekulová hmotnost (při nejvyšší detekované koncentraci) odpovídá předpovězené hmotnosti a nativní i denaturovaný kolagen lze snadno rozeznat v konformačním grafu. Tato nová metoda poskytuje konzistentní a stabilní výsledky ve srovnání s ostatními zavedenými metodami. Metoda může být použita pro optimalizaci kvality výtěžků během výroby rozpustného kolagenu, nebo pro citlivou detekci denaturace během zpracování kolagenu.
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