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Transport properties of hyaluronan-based hydrogel systems
Káčeríková, Martina ; Smilek, Jiří (referee) ; Klučáková, Martina (advisor)
This bachelor thesis deals with the study of trasport properties of hydrogels, that were prepared by interaction of hyaluronan with karbethopendecinium bromide (Septonex), as a surfactant. Nile red is a fluorescent probe to determine the ability of the system to absorb or to release the substance. All the hydrogels were prepared by the „wet“ way, where the solutions of hyaluronan and surfactant were prepared first. Nile red was prepared in the solution of tenzide, which after the mixing with hyaluronan produced colorful gels. By the spectrophotometric measurement, the absorbance of supernatants were observed. The absorbance was measured in original but also in changed supernatatns after 24, 72 and 168 hours.
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Transport properties of dextran-based hydrogel systems
Vyroubal, David ; Kalina, Michal (referee) ; Klučáková, Martina (advisor)
This bachelor thesis is focused on study of transport properties of dextran-based hydrogel systems. The aim of this work is to determine their ability to absorb and release substances. Nile red was used as a probe to examine the transport properties of these systems. All hydrogels were prepared by the so-called wet way. At first stock solutions of dextran and surfactants were prepared and subsequently mixed to form a hydrogel. Nile red was dissolved in the surfactant stock solution and colored gels were formed upon mixing with dextran stock solution. Several types of gels were thus formed which differ in the concentration of the surfactant and nile red used. Supernatants were spectrophotometrically measured at various time intervals. For study of transport properties in multiple surroundings, the original supernatant was replaced after hydrogel preparation with a surfactant solution or physiological saline solution.
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Releasing of the solubilized substances from the phase-separated hydrogels
Havlíková, Martina ; Krouská, Jitka (referee) ; Mravec, Filip (advisor)
This bachelor thesis is focused on releasing of the solubilized substances from the phase separeted hydrogels. The aim of this work is to determine the solubilization capacity of these hydrogels. Preparation of them were based on interaction between hyaluronan and cationic surfactant carbethopendecinium bromide. Hydrogels were prepared by two possible ways, „wet“ and „dry way“. For solubilization experiments were used fluorescein and acridine orange as fluorescent probes. Primarily UV-VIS spectrophotometry was used to determine if these probes are released form hydrogel or not. Hydrogels were monitored after 24, 48 and 72 hours from their preparation. But this method proved to be inappropriate and inaccurate, because of cloudy supernatants over the hydrogels and also because of very low concentrations of fluorescent probe in this solution. For these reasons instead of this metod was used method, which is based on fluorescence. The instrument is called MicroTime 200. It´s very accurate method and results of this are considered like relevant. It was proved that fluorescein as a negatively charged molecule is released less than acridine orange.
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Transport properties of hyaluronan-based hydrogel systems
Káčeríková, Martina ; Smilek, Jiří (referee) ; Klučáková, Martina (advisor)
This bachelor thesis deals with the study of trasport properties of hydrogels, that were prepared by interaction of hyaluronan with karbethopendecinium bromide (Septonex), as a surfactant. Nile red is a fluorescent probe to determine the ability of the system to absorb or to release the substance. All the hydrogels were prepared by the „wet“ way, where the solutions of hyaluronan and surfactant were prepared first. Nile red was prepared in the solution of tenzide, which after the mixing with hyaluronan produced colorful gels. By the spectrophotometric measurement, the absorbance of supernatants were observed. The absorbance was measured in original but also in changed supernatatns after 24, 72 and 168 hours.
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Transport properties of dextran-based hydrogel systems
Vyroubal, David ; Kalina, Michal (referee) ; Klučáková, Martina (advisor)
This bachelor thesis is focused on study of transport properties of dextran-based hydrogel systems. The aim of this work is to determine their ability to absorb and release substances. Nile red was used as a probe to examine the transport properties of these systems. All hydrogels were prepared by the so-called wet way. At first stock solutions of dextran and surfactants were prepared and subsequently mixed to form a hydrogel. Nile red was dissolved in the surfactant stock solution and colored gels were formed upon mixing with dextran stock solution. Several types of gels were thus formed which differ in the concentration of the surfactant and nile red used. Supernatants were spectrophotometrically measured at various time intervals. For study of transport properties in multiple surroundings, the original supernatant was replaced after hydrogel preparation with a surfactant solution or physiological saline solution.
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Releasing of the solubilized substances from the phase-separated hydrogels
Havlíková, Martina ; Krouská, Jitka (referee) ; Mravec, Filip (advisor)
This bachelor thesis is focused on releasing of the solubilized substances from the phase separeted hydrogels. The aim of this work is to determine the solubilization capacity of these hydrogels. Preparation of them were based on interaction between hyaluronan and cationic surfactant carbethopendecinium bromide. Hydrogels were prepared by two possible ways, „wet“ and „dry way“. For solubilization experiments were used fluorescein and acridine orange as fluorescent probes. Primarily UV-VIS spectrophotometry was used to determine if these probes are released form hydrogel or not. Hydrogels were monitored after 24, 48 and 72 hours from their preparation. But this method proved to be inappropriate and inaccurate, because of cloudy supernatants over the hydrogels and also because of very low concentrations of fluorescent probe in this solution. For these reasons instead of this metod was used method, which is based on fluorescence. The instrument is called MicroTime 200. It´s very accurate method and results of this are considered like relevant. It was proved that fluorescein as a negatively charged molecule is released less than acridine orange.
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