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Preparation and characterization of complex liposomal for drug delivery systems
Szabová, Jana ; Pekař, Miloslav (referee) ; Mravec, Filip (advisor)
This diploma thesis deals with the preparation and characterization of stealth liposomes and their combination with trimethylchitosan (TMC). This complex could find application in the field of inhalation administration. Stealth liposomes were prepared from neutral phophatidylcholine, negatively charged fosfatidic acid and polyethyleneglycol bounded to phosphatidylethanolamine. We have managed to prepare stealth liposomes with suitable properties that should guarantee passive targeting without evocation an immune response, despite the content of the negative component. We also found a suitable method of preparation for stealth liposome–TMC complex, where the change of size and zeta potential confirmed the non–covalent bound between two components despite the content of the polyethyleneglycol.
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Synthesis of quantum dots for in-vivo imaging
Ferdusová, Helena ; Majzlíková, Petra (referee) ; Pekárková, Jana (advisor)
The aim of this work was to synthesise water-soluble QDs using different precursors and stabilizers and to determine the toxicity of the synthesized QDs by in vivo imaging. Experiments were performed on water-soluble QDs (MPA-CdTe, MPA-CdTe/ZnS, MSA-CdTe, MSA-CdTe/ZnS, GSH-CdTe, GSH-CdTe/ZnS, TGA-CdTe, TGA-CdTe/ZnS, GSH-ZnSe and GSH-ZnSe/ZnS ) and toxicity was measured. Synthesized QDs were characterized by high intensity (fluorescence spectroscopy), FWHM and zeta potential (ZS Zetasizer) were selected due to their suitability for this task. The toxicity of QDs was determined by the MTT assay on the cell line HEK 293. The experiments show that a core/shell structure is less toxic than a core structure. The results indicate that the toxicity of our synthesized QDs is the lowest for MPA-CdTe (core structure) and MPA-CdTe/ZnS (core/shell structure).
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Solubility analysis of lignocellulosic substances with antioxidative efficiency
Hrušková, Lucie ; Kalina, Michal (referee) ; Kovalčík, Adriána (advisor)
One of the main obstacles to efficiently valorise lignin is its heterogeneous solubility, which varies depending on the biological origin and the method of isolation. The theoretical part of the bachelor thesis is devoted to a basic description of lignin from its structure to its specific properties, which has led to a wide range of studies on lignin. The experimental part of the thesis deals with the determination of the solubility of commercially available lignin in selected organic solvents Solubility was determined in a total of 15 pure or mixed solvents. The highest solubility of lignin was achieved in water, in which a solubility of 99.16 % was measured. For the eight best solvents, the size and stability of the dissolved particles were further analyzed. It was found that nanoparticles can be prepared using water and DMSO. Further, the antioxidant activity (expressed by TEAC parameter) and its structure (by FTIR) were determined for the dissolved lignin and its change was recorded. Based on the solubility results, two and three step fractionations were performed. Size, stability, and antioxidant activity were determined for the final fractions. The results obtained showed that during each fractionation step, characteristic functional groups were removed, thus decreasing the antioxidant activity of the resulting fractions.
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The penetration features of the hydrofobized hyaluronic acid – based polymeric micelles.
Mischingerová, Monika ; Pekař, Miloslav (referee) ; Muthný, Tomáš (advisor)
The aim of this thesis was to investigate the penetration features of the hydrofobized hyaluronic acid – based polymeric micelles using Nile red as carried tracer. Furthermore, to implement basic characterization of polymeric micelles for potential cosmetic applications using Coenzyme Q10 (CoQ10) as carried substance. It was found that the size of the polymeric micelles with carried CoQ10 did not exceed 100 nm. Applied delivery systems based on hydrophobic hyaluronic acid were suitable for potential topical application. Delivery systems with Nile Red as carried tracer demonstrated excellent penetration features. We assume that delivery systems with CoQ10 will exhibit similar penetration features. An issue has appeared whether the carrier breaks or proceeds along with NR to the skin. Moreover, another experiments have been designed which could also verify the penetration features of these systems.
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Waste material based high-performance sulphate binders
Hájková, Iveta ; Kolář,, Karel (referee) ; Rovnaníková, Pavla (referee) ; Gazdič, Dominik (advisor)
The topic of this dissertation was the preparation of a high-quality sulphate binder based on secondary raw materials. For this purpose, the work was primarily focused on the laboratory preparation of beta gypsum from the selected industrial gypsum, the design of the technological process of production and its verification by pilot tests. In the next step, the thesis dealt with the modification of beta gypsum by a selected set of liquefiers. In addition to commercial dehumidifiers, the possible beta casting of beta gypsum was tested by increasing the zeta potential of the gypsum suspension. At the end, a complete complex of construction products was developed based on laboratory and semi-prepared beta plasters, consisting of gypsum plasters, mastics, gypsum premix and small plaster casts.
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Solubility analysis of lignocellulosic substances with antioxidative efficiency
Hrušková, Lucie ; Kalina, Michal (referee) ; Kovalčík, Adriána (advisor)
One of the main obstacles to efficiently valorise lignin is its heterogeneous solubility, which varies depending on the biological origin and the method of isolation. The theoretical part of the bachelor thesis is devoted to a basic description of lignin from its structure to its specific properties, which has led to a wide range of studies on lignin. The experimental part of the thesis deals with the determination of the solubility of commercially available lignin in selected organic solvents Solubility was determined in a total of 15 pure or mixed solvents. The highest solubility of lignin was achieved in water, in which a solubility of 99.16 % was measured. For the eight best solvents, the size and stability of the dissolved particles were further analyzed. It was found that nanoparticles can be prepared using water and DMSO. Further, the antioxidant activity (expressed by TEAC parameter) and its structure (by FTIR) were determined for the dissolved lignin and its change was recorded. Based on the solubility results, two and three step fractionations were performed. Size, stability, and antioxidant activity were determined for the final fractions. The results obtained showed that during each fractionation step, characteristic functional groups were removed, thus decreasing the antioxidant activity of the resulting fractions.
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Preparation and characterization of complex liposomal for drug delivery systems
Szabová, Jana ; Pekař, Miloslav (referee) ; Mravec, Filip (advisor)
This diploma thesis deals with the preparation and characterization of stealth liposomes and their combination with trimethylchitosan (TMC). This complex could find application in the field of inhalation administration. Stealth liposomes were prepared from neutral phophatidylcholine, negatively charged fosfatidic acid and polyethyleneglycol bounded to phosphatidylethanolamine. We have managed to prepare stealth liposomes with suitable properties that should guarantee passive targeting without evocation an immune response, despite the content of the negative component. We also found a suitable method of preparation for stealth liposome–TMC complex, where the change of size and zeta potential confirmed the non–covalent bound between two components despite the content of the polyethyleneglycol.
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Waste material based high-performance sulphate binders
Hájková, Iveta ; Kolář,, Karel (referee) ; Rovnaníková, Pavla (referee) ; Gazdič, Dominik (advisor)
The topic of this dissertation was the preparation of a high-quality sulphate binder based on secondary raw materials. For this purpose, the work was primarily focused on the laboratory preparation of beta gypsum from the selected industrial gypsum, the design of the technological process of production and its verification by pilot tests. In the next step, the thesis dealt with the modification of beta gypsum by a selected set of liquefiers. In addition to commercial dehumidifiers, the possible beta casting of beta gypsum was tested by increasing the zeta potential of the gypsum suspension. At the end, a complete complex of construction products was developed based on laboratory and semi-prepared beta plasters, consisting of gypsum plasters, mastics, gypsum premix and small plaster casts.
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Synthesis of quantum dots for in-vivo imaging
Ferdusová, Helena ; Majzlíková, Petra (referee) ; Pekárková, Jana (advisor)
The aim of this work was to synthesise water-soluble QDs using different precursors and stabilizers and to determine the toxicity of the synthesized QDs by in vivo imaging. Experiments were performed on water-soluble QDs (MPA-CdTe, MPA-CdTe/ZnS, MSA-CdTe, MSA-CdTe/ZnS, GSH-CdTe, GSH-CdTe/ZnS, TGA-CdTe, TGA-CdTe/ZnS, GSH-ZnSe and GSH-ZnSe/ZnS ) and toxicity was measured. Synthesized QDs were characterized by high intensity (fluorescence spectroscopy), FWHM and zeta potential (ZS Zetasizer) were selected due to their suitability for this task. The toxicity of QDs was determined by the MTT assay on the cell line HEK 293. The experiments show that a core/shell structure is less toxic than a core structure. The results indicate that the toxicity of our synthesized QDs is the lowest for MPA-CdTe (core structure) and MPA-CdTe/ZnS (core/shell structure).
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Synthesis of quantum dots for in-vivo imaging
Ferdusová, Helena ; Majzlíková, Petra (referee) ; Pekárková, Jana (advisor)
The aim of this work was to synthesise water-soluble QDs using different precursors and stabilizers and to determine the toxicity of the synthesized QDs by in vivo imaging. Experiments were performed on water-soluble QDs (MPA-CdTe, MPA-CdTe/ZnS, MSA-CdTe, MSA-CdTe/ZnS, GSH-CdTe, GSH-CdTe/ZnS, TGA-CdTe, TGA-CdTe/ZnS, GSH-ZnSe and GSH-ZnSe/ZnS ) and toxicity was measured. Synthesized QDs were characterized by high intensity (fluorescence spectroscopy), FWHM and zeta potential (ZS Zetasizer) were selected due to their suitability for this task. The toxicity of QDs was determined by the MTT assay on the cell line HEK 293. The experiments show that a core/shell structure is less toxic than a core structure. The results indicate that the toxicity of our synthesized QDs is the lowest for MPA-CdTe (core structure) and MPA-CdTe/ZnS (core/shell structure).
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