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Native hyaluronan as delivery agent for hydrophobic molecules
Michalicová, Petra ; Márová, Ivana (referee) ; Pekař, Miloslav (advisor)
Hyaluronan is a chemical, which can be qualified as essential for vertebrates. It is a part of the extracellular matrix in most of tissues and also a major component of some other tissues. Besides of the mechanical functions this compound is important for many biological processes such as growth of tumor cells. The objective of this thesis was development of carrier systems containing native hyaluronan and hydrophobic drugs. For purposes of this work fluorescence probes (pyrene, prodan, perylene, DPH, mereocynine 540) instead of drugs were used. By using further mentioned sophisticated methods the properties of these systems were studied. The systems were prepared by freeze-drying. The effect of freeze-drying on support of interactions was observed by fluorescence spectrometry (steady-state and time-resolved). The stability of freeze-dried systems was determined by zeta potential, which was measured by electrophoretic light scattering. Cakes obtained by freeze-drying were analyzed by several methods. First one was effluence gas chromatography connected with FT-IR spectrometry. In this method the present of tertiary butyl alcohol in product was observed. The cakes were also analyzed by scanning electron microscopy, which can provide the information about the surface and elemental constitution of the material. The results of this work can shed light on the area of developing of drugs with targeted distribution of active compound.
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Program-controlled freeze drying for the preparation of the delivery system of native hyaluronan and hydrophobic molecules
Waczulíková, Kristína ; Sedláček, Petr (referee) ; Enev, Vojtěch (advisor)
The amphiphilic nature of the hyaluronan biopolymer facilitates interactions between its hydrophobic portions of the chain and the hydrophobic ligands, making it one of the promising compounds that can be used as a suitable carrier for drug delivery. Therefore, the aim of this diploma work was by means of a program-controlled freeze-drying to prepare a system based on native hyaluronan, which would be capable of transporting hydrophobic drugs. Perylene, pyrene, prodan and 1,6-diphenyl-1,3,5-hexatriene fluorescence probes were used as model compounds to simulate hydrophobic drug-hyaluronan interactions. Freeze-drying efficiency was studied using infrared spectrometry and scanning electron microscopy. ATR-FTIR spectrometry confirmed for all probes but pyrene the hydrophobic interactions between the hyaluronan and probe molecules based on the presence of the C=C bond valence vibration absorption band in the aromatic probe rings. From the IR spectra, it was not possible to confirm with certainty the presence of residual tert-butyl alcohol in the samples. SEM photographs revealed that increasing the pressure during drying process had a positive effect on the quality of the lyophilized sample in the second series of samples. Interactions of individual fluorescent probes with hyaluronan were studied using steady-state and time-resolved fluorescence spectrometry. Positive results have been obtained, indicating the presence of fluorescent probes interacting with the hydrophobic regions of the hyaluronan chains. The results of this work can contribute to the development of carrier systems in the field of targeted drug distribution.
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Effect of freeze-drying conditions on the hydrophobic interaction between native hyaluronan and fluorescent probe
Říha, Karel ; Venerová, Tereza (referee) ; Enev, Vojtěch (advisor)
The biopolymer native hyaluronan possesses the amphiphilic character of its molecule. Which means that it contains both a hydrophilic and a hydrophobic part. This character of the molecule favors interactions between hydrophobic ligands and hydrophobic parts of the chain, making hyaluronan one of the compounds potentially suitable as drug carrier systems. The aim of this bachelor thesis was to prepare a carrier system based on hyaluronan and model hydrophobic compounds (fluorescent probes). The fluorescent probe we used was pyrene. Furthermore, the work was focused on the study of lyophilization conditions, which would lead to the actual influence of hydrophobic interactions between the substances we used. The main techniques that served us to verify the effectiveness of lyophilization (in the sense of supporting the creation of a hydrophobic effect between individual hyaluronan chains) were: thermogravimetric analysis, fluorescence spectrometry, and last but not least, infrared spectroscopy with Fourier transformation.
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Program-controlled freeze drying for the preparation of the delivery system of native hyaluronan and hydrophobic molecules
Waczulíková, Kristína ; Sedláček, Petr (referee) ; Enev, Vojtěch (advisor)
The amphiphilic nature of the hyaluronan biopolymer facilitates interactions between its hydrophobic portions of the chain and the hydrophobic ligands, making it one of the promising compounds that can be used as a suitable carrier for drug delivery. Therefore, the aim of this diploma work was by means of a program-controlled freeze-drying to prepare a system based on native hyaluronan, which would be capable of transporting hydrophobic drugs. Perylene, pyrene, prodan and 1,6-diphenyl-1,3,5-hexatriene fluorescence probes were used as model compounds to simulate hydrophobic drug-hyaluronan interactions. Freeze-drying efficiency was studied using infrared spectrometry and scanning electron microscopy. ATR-FTIR spectrometry confirmed for all probes but pyrene the hydrophobic interactions between the hyaluronan and probe molecules based on the presence of the C=C bond valence vibration absorption band in the aromatic probe rings. From the IR spectra, it was not possible to confirm with certainty the presence of residual tert-butyl alcohol in the samples. SEM photographs revealed that increasing the pressure during drying process had a positive effect on the quality of the lyophilized sample in the second series of samples. Interactions of individual fluorescent probes with hyaluronan were studied using steady-state and time-resolved fluorescence spectrometry. Positive results have been obtained, indicating the presence of fluorescent probes interacting with the hydrophobic regions of the hyaluronan chains. The results of this work can contribute to the development of carrier systems in the field of targeted drug distribution.
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Native hyaluronan as delivery agent for hydrophobic molecules
Michalicová, Petra ; Márová, Ivana (referee) ; Pekař, Miloslav (advisor)
Hyaluronan is a chemical, which can be qualified as essential for vertebrates. It is a part of the extracellular matrix in most of tissues and also a major component of some other tissues. Besides of the mechanical functions this compound is important for many biological processes such as growth of tumor cells. The objective of this thesis was development of carrier systems containing native hyaluronan and hydrophobic drugs. For purposes of this work fluorescence probes (pyrene, prodan, perylene, DPH, mereocynine 540) instead of drugs were used. By using further mentioned sophisticated methods the properties of these systems were studied. The systems were prepared by freeze-drying. The effect of freeze-drying on support of interactions was observed by fluorescence spectrometry (steady-state and time-resolved). The stability of freeze-dried systems was determined by zeta potential, which was measured by electrophoretic light scattering. Cakes obtained by freeze-drying were analyzed by several methods. First one was effluence gas chromatography connected with FT-IR spectrometry. In this method the present of tertiary butyl alcohol in product was observed. The cakes were also analyzed by scanning electron microscopy, which can provide the information about the surface and elemental constitution of the material. The results of this work can shed light on the area of developing of drugs with targeted distribution of active compound.
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