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Ecotoxicity of cholesterol-lowering-drugs
Königsmarková, Kristýna ; Vávrová, Milada (referee) ; Zlámalová Gargošová, Helena (advisor)
This bachelor thesis is focused on the ecotoxicological testing of blood cholesterol lowering drugs. At first it considers the issue from a theoretical point of view – describes the effect of residual drugs on the environment, the distribution of hypolipidemics, the risks of elevated cholesterol, then deals with ecotoxicology and introduces the principles of ecotoxicological testing. In the experimental part, these following drugs were tested: Corsim, Atoris, Lipanthyl Supra, Lipanthyl 267M. In addition, clofibric acid – the metabolite of fibrates was tested. Residues of these drugs are found mainly in the aquatic ecosystem, that is why tests of aquatic organisms have been used to evaluate ecotoxicity. Test organisms were Thamnocephalus platyurus, Lemna minor and Vibrio fischeri. LC50, EC50 and IC50 values were determined on the basis of test results. Using these values, the ecotoxicity of the above mentioned hypolipidemics was evaluated.
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Removal of micropollutants during drinking water treatment
Císařová, Monika ; Lukášová, Daniela (referee) ; Biela, Renata (advisor)
The diploma thesis deals with the issue of micropollutants removal during drinking water treatment. The theoretical part characterizes individual types of micropollutants, their occurrence and possibilities of their removal. It also presents the removal of micropollutants already implemented in practice. The practical part deals with the removal of a selected micropollutant, namely perfluorinated substances. This is a laboratory experiment on the removal of perfluorinated substances from a given flow by filtration through granular activated carbon Filtrasorb F400. Finally, the results and evaluation of the experiment are presented.
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Evaluation of ecotoxicity of selected pharmaceuticals
Weiss, Jan ; Dvořáková, Dagmar (referee) ; Zlámalová Gargošová, Helena (advisor)
In recent years consumption of drugs and thus the quantity of their residues in natural ecosystems is increasing. It is necessary to deal with their possible negative effects on the environment. This thesis is focused on the ecotoxicological evaluation of pharmaceuticals. Diclofenac and ibuprofen from the group of non-steroidal anti-inflammatory substances, penicillin G and ampicillin from the group of antibiotics were tested. Mainly tests on aquatic organisms were used to evaluate of ecotoxicity, because the tested pharmaceuticals are predominantly occurred in the aquatic environment. Daphnia magna, Thamnocephalus platyurus, Artemia salina, Sinapis alba, Lemna minor, and Brachionus calyciflorus were used as testing organisms. Values of LC50, EC50 and IC50 were determinated and the ecotoxicity of pharmaceuticals was compared.
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Drug transport using microbubbles
Piňos, Ondřej ; Tancjurová, Jana (referee) ; Rudolf, Pavel (advisor)
This bachelor thesis deals with the research in field of medical usage of microbubbles, specially focused on ultrasound iniciated cavitation of microbubbles filled with drugs. Thesis includes technology of manufacturing, chemical composition, efects of cavitated microbubbles on tissue and description of mechanism that occurs during the aplication of ultrasound triggered microbubbles. Second part deals with mathematical description of microbubble under acustic pressure using the Rayleigh-Plesset equation and equation for microbubble with membrane are presented. The MATLAB script for calculation of physical parameters describing state of microbubble is also explained.
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Monitoring drug removal efficiency from water by selected adsorbents
Moravčíková, Světlana ; Talašová, Lucie (referee) ; Biela, Renata (advisor)
This diploma thesis deals with the efficiency of removal of pharmaceuticals from drinking water by selected adsorption materials. The first part describes sources of pharmaceuticals in drinking water and possible ways of contaminating water by pharmaceuticals. Subsequently, the pharmaceuticals most commonly found in the environment - nonsteroidal anti-inflammatory drugs, antibiotics, psychiatric drugs and sex hormones - are described in more detail. Next, the thesis describes the processes used for removal of pharmaceuticals. These are activated carbon adsorption, membrane processes and advanced oxidation processes. The last chapter of the theoretical part of the thesis deals with water treatment plants, where the technologies for removing drugs are already in operation. In the practical part of this thesis an experiment was performed and evaluated, for a purpose of comparing the efficiency of selected sorption materials in the removal of diclofenac from water. Filtrasorb F100, Bayoxide E33 and GEH were used.
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Controlled Drug Release from Biodegradable Hydrogels.
Oborná, Jana ; Chýlková, Jaromíra (referee) ; Kráčmar, Stanislav (referee) ; Kučerík, Jiří (referee) ; Vávrová, Milada (advisor)
This dissertation is focused on the controlled release of drugs from a biodegradable amphiphilic hydrogel based on hydrophobic poly(lactic acid), poly(glycolic acid) and hydrophilic poly(ethylene glycol) (PLGA-PEG-PLGA, ABA) and its modification with itaconic anhydride (ITA). The resulting ,-itaconyl(PLGA-PEG-PLGA) copolymer is referred to as ITA/PLGA-PEG-PLGA/ITA or ITA/ABA/ITA. Itaconic acid provides reactive double bonds and a functional carboxyl group at the ends of the PLGA-PEG-PLGA copolymer chain, thereby rendering the modified ITA/ABA/ITA copolymer less hydrophobic and offering the possibility of forming a carrier for hydrophilic drug substances. These functional copolymers are thermosensitive and change in the external environment (e.g. temperature) causes a sol-gel phase transition due to the formation of micellar structure. The bioactive substances can thus be mixed with a copolymer which is in a low viscous phase (sol phase) and subsequently the mixture can be injected into patient's body at the target site where it forms a gel at 37 °C. This hydrogel becomes a drug depot, which gradually releases the active substance. Prediction of the substance’s release profile from the hydrogel is an effective tool to determine the frequency of administration, potentially enhancing efficacy, and assessment of side effects associated with dosing. The analgesic paracetamol and the sulfonamide antibiotic sulfathiazole were used as model drugs, representing hydrophilic and hydrophobic substances, respectively. The active substances had a significant effect on the resulting hydrogel stiffness. Type of solvent, incubation medium and nanohydroxyapatite also influenced on the gel stiffness and subsequent stability of the hydrogel-drug system. Controlled release of drugs took place in simulated conditions of the human body. Verification of Korsmeyer-Peppas (KP) drug-release model is also discussed in this thesis. The KP model was found suitable for simulating the release of sulfathiazole from ABA and ITA/ABA/ITA hydrogels. On the contrary, the performance of KP model was not suitable for describing the release of paracetamol from the ABA hydrogels. Therefore, a new regression model suitable for both buffered simulated media and water has been proposed. The proposed model fitted better the release of both sulfathiazole and paracetamol from composite material prepared from ABA hydrogel and nanohydroxyapatite.
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Selected drugs in drinking water sources and possibilities of their removal by adsorption
Lukášová, Daniela ; Ilavský,, Ján (referee) ; Kyncl, Miroslav (referee) ; Biela, Renata (advisor)
The dissertation deals with the occurrence of a selected group of drugs in drinking water sources and their subsequent removal. The work presents information on the occurrence of pharmaceuticals in the environment, their consumption in recent years and their division into different groups. Various options for waterworks processes that remove drugs from water are also described. For the experimental part of the dissertation, adsorption on selected sorption materials was chosen as the removal process. The removal of drugs from water was carried out in two ways, a static and a dynamic test. At the end of the work, the efficiency of sorption materials and other parameters related to adsorption are evaluated.
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Interactions of pharmaceuticals with humic acids
Libiger, Jan ; Enev, Vojtěch (referee) ; Klučáková, Martina (advisor)
The bachelor thesis is focused on interaction of drugs with humic substances, which are part of organic soil matter. The results would help in understanding the behavior of drugs in soil and other natural systems. Three drugs were selected. Humic acid was selected as a sorbent, which was extracted from lignin, the lower one is assumed to be the same as that in organic soil. Based on a comparison of the measurement results using the UV-VIS method, it was determined how much the acid of the given drug is able to absorb and how much it is released back into the water. The theoretical part deals with the information about soil organic matter, with the information about humic substances, with the information about drugs such as ibuprofen, sulfamethoxazol or sulfapyridine. Furthermore, the theoretical part deals with methods of analysis.
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Micropollutants in water resources and ways of their elimination
Lukášová, Daniela ; Látal,, Milan (referee) ; Biela, Renata (advisor)
The diploma thesis deals with micro-fuels in drinking water sources and their subsequent removal. In the thesis mainly pesticides and pharmaceuticals are described. The reader is first introduced to the most common pesticides occurring in water and their consumption. Drugs are described in a similar context. In addition, there are practical studies on the occurrence, degradation and removal of micro-pollutants from water. The final thesis is a laboratory experiment dealing with the removal of salicylic acid from water by filtration through the filtration material Bayoxide E33 and activated carbon. The thesis describes the procedure and results of the experiment.
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Monitoring the effectiveness of selected adsorbents to remove micropollutants from drinking water
Kabelíková, Eva ; Svoboda,, Miroslav (referee) ; Biela, Renata (advisor)
This diploma thesis deals with the effectiveness of selected adsorbents for the removal of micropollutants from drinking water. In the first part there are described individual types of micropollutants and their occurrence in water. Further, there are described pharmaceuticals and their consumption in the world. At the end of the first part, the possibilities of removing micropollutants in drinking water treatment are approached and two water treatment plants in the Czech Republic have been selected, which already use the technology of the removal of some micropollutants. In the practical part of this diploma thesis is performed an experiment of removal of Ibuprofen from model water by adsorption on selected materials, which are Filtrasorb F100, Bayoxide E33 and GEH.
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