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Preparation of mitotic inhibitors in the form of nanotransporters
Meskařová, Veronika ; Indra, Radek (advisor) ; Hýsková, Veronika (referee)
Cancer is one of the most widespread diseases that every third person will encounter it. It is a disease arising from the sudden growth and rapid division of own cells. Despite progress in treatment, an effectiveness is not sufficient, and cancer is the second most common cause of death. In addition, the treatment is associated with several side effects. Currently nanomedicine uses nanomaterials for transport drugs in cancer treatment. It is possible to deliver the drug to the target site, but also to reduce the systemic toxicity of the drug by binding the drug to a suitable nanotransporter. This diploma thesis deals with seeking the appropriate mass ratio of antitumor drugs, colchicine and docetaxel, and the nanotransporter apoferritin. The aim was to find suitable in vitro conditions for high drugs encapsulation into the nanotransporter. Drugs encapsulation took place under active and passive conditions. Active encapsulation was under way on opening and closing nanotransporter by changing pH environment in test tube. Drugs were dissolved in DMSO or water with addition of HCl to charge the drug molecules and improve the binding of the drug into nanotransporter. As part of passive encapsulation, drugs were incubated in surroundings of urea or bivalent metal ions. Overall, it can be concluded that...
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Anticancer drugs in forms of nanoparticles and mechanisms potentiating their anticancer efficiency
Meskařová, Veronika ; Indra, Radek (advisor) ; Bělonožníková, Kateřina (referee)
Cancer has been one of the most common diseases of civilization for centuries. In the 18th century, some cancers were described and the first treatments were proposed. Currently, oncosurgery, chemotherapy, radiotherapy, immunotherapy and hormonal treatment are used to treat cancer. At the same time, efforts are being made to find new anticancer drugs that target tumor cells more selectively. Recently, nanomedicine has also started to be used. This bachelor thesis deals with minimizing the binding of the amount of cytostatic ellipticine to the surface of the nanotransporter apoferritin and achieving higher encapsulation efficiency. Two types of apoferritins at different weight ratios to ellipticine were studied. It has been found that by finding a suitable weight ratio of the two molecules, binding can be minimized, and encapsulation efficiency can be increased. When working with commercial apoferritin, there was a higher encapsulation and a lower binding of ellipticine to the surface at the weight ratio of 1:10. In contrast, when working with recombinant apoferritin, the encapsulation is higher and ellipticine binding are lower at the lower ratio of 1: 2,5. Key words: oncological diseases, anticancer drugs, nanomedicine, cytostatic, nanotransporter, ellipticine, apoferritin [IN CZECH]
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