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Lipid based nanoparticles: drug delivery platform
Voldřichová, Lenka ; Holas, Ondřej (advisor) ; Svačinová, Petra (referee)
Charles University in Prague, Faculty of Pharmacy in Hradec Králové Department of: Pharmaceutical Technology Supervisor: PharmDr. Ondřej Holas, Ph.D. Consultant: Mgr. Jana Kubačková Student: Lenka Voldřichová Title of thesis: Lipid based nanoparticles: drug delivery platform Lipic nanoparticles, as newly developed dosage forms, can overcome many drawbacks of conventional dosage forms. Their potential can be utilized in particular for prolonged, controlled and targeted release. They can also increase the bioavailability of drugs, especially those with poor solubility and also allow targeting, which causes increased accumulation of lipid nanoparticles in certain tissues compared to other tissues. nanoparticles suitable for drug encapsulation. The particles were prepared by the emulsion evaporation method. Their characterization was performed using a Zetasizer, which measured the particle size and the zeta potential. The properties of the formulations were evaluated in terms of nanoparticle size, polydispersity, zeta potential, and formulation properties. Differencial scanning calorimetry analysis was also performed on selected formulations. The selected final formulation was composed of 25 mg glycerol monostearate, 10 mg isopropyl myristate, 15 mg lecithin and Kolliphor P188 0,1% solution....
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Lipid based nanoparticles: drug delivery platform
Voldřichová, Lenka ; Holas, Ondřej (advisor) ; Svačinová, Petra (referee)
Charles University in Prague, Faculty of Pharmacy in Hradec Králové Department of: Pharmaceutical Technology Supervisor: PharmDr. Ondřej Holas, Ph.D. Consultant: Mgr. Jana Kubačková Student: Lenka Voldřichová Title of thesis: Lipid based nanoparticles: drug delivery platform Lipic nanoparticles, as newly developed dosage forms, can overcome many drawbacks of conventional dosage forms. Their potential can be utilized in particular for prolonged, controlled and targeted release. They can also increase the bioavailability of drugs, especially those with poor solubility and also allow targeting, which causes increased accumulation of lipid nanoparticles in certain tissues compared to other tissues. nanoparticles suitable for drug encapsulation. The particles were prepared by the emulsion evaporation method. Their characterization was performed using a Zetasizer, which measured the particle size and the zeta potential. The properties of the formulations were evaluated in terms of nanoparticle size, polydispersity, zeta potential, and formulation properties. Differencial scanning calorimetry analysis was also performed on selected formulations. The selected final formulation was composed of 25 mg glycerol monostearate, 10 mg isopropyl myristate, 15 mg lecithin and Kolliphor P188 0,1% solution....
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Preparation and evaluation of lipid based nanoparticles as drug carriers
Kučerová, Kateřina ; Holas, Ondřej (advisor) ; Vraníková, Barbora (referee)
Charles University in Prague, Faculty of Pharmacy in Hradci Králové Department of: Pharmaceutical Technology Supervisor: PharmDr. Ondřej Holas, Ph.D. Consultant: Mgr. Jana Kubačková Student: Kateřina Kučerová Title of thesis: Preparation and evaluation of lipid based nanoparticles as drug carriers Solid lipid nanoparticles (SLN) and nanostructured lipid carriers (NLC) are promising drug delivery systems. Their capability to encapsulate both hydrophilic and lipophilic molecules, biocompatibility and biodegradability of lipids make them a suitable alternative for well-established drug carries. The aim of this thesis was to determine suitable ratios of composition of nanoparticles with acceptable properties (especially reduced size and polydispersity, high zeta potential absolute values), to investigate status and thermodynamic behaviour of the nanoparticles and lipids used and to examine drug encapsulation efficiency. Nanoprecipitation method was used to prepare nanoparticles from stearic acid as a solid lipid and in the case of NLC preparation isopropyl myristate as a liquid lipid was used. Kolliphor® P 188 as a surfactant and Span® 20 as a co-surfactant were the best choice to meet intended characteristics. It was shown that usually lower the concentration of surfactant and co-surfactant was the...
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Lipid based nanoparticles: drug delivery platform
Voldřichová, Lenka ; Holas, Ondřej (advisor) ; Svačinová, Petra (referee)
Charles University in Prague, Faculty of Pharmacy in Hradec Králové Department of: Pharmaceutical Technology Supervisor: PharmDr. Ondřej Holas, Ph.D. Consultant: Mgr. Jana Kubačková Student: Lenka Voldřichová Title of thesis: Lipid based nanoparticles: drug delivery platform Lipic nanoparticles, as newly developed dosage forms, can overcome many drawbacks of conventional dosage forms. Their potential can be utilized in particular for prolonged, controlled and targeted release. They can also increase the bioavailability of drugs, especially those with poor solubility and also allow targeting, which causes increased accumulation of lipid nanoparticles in certain tissues compared to other tissues. nanoparticles suitable for drug encapsulation. The particles were prepared by the emulsion evaporation method. Their characterization was performed using a Zetasizer, which measured the particle size and the zeta potential. The properties of the formulations were evaluated in terms of nanoparticle size, polydispersity, zeta potential, and formulation properties. Differencial scanning calorimetry analysis was also performed on selected formulations. The selected final formulation was composed of 25 mg glycerol monostearate, 10 mg isopropyl myristate, 15 mg lecithin and Kolliphor P188 0,1% solution....
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Lipid based nanoparticles: drug delivery platform
Voldřichová, Lenka ; Holas, Ondřej (advisor) ; Svačinová, Petra (referee)
Charles University in Prague, Faculty of Pharmacy in Hradec Králové Department of: Pharmaceutical Technology Supervisor: PharmDr. Ondřej Holas, Ph.D. Consultant: Mgr. Jana Kubačková Student: Lenka Voldřichová Title of thesis: Lipid based nanoparticles: drug delivery platform Lipic nanoparticles, as newly developed dosage forms, can overcome many drawbacks of conventional dosage forms. Their potential can be utilized in particular for prolonged, controlled and targeted release. They can also increase the bioavailability of drugs, especially those with poor solubility and also allow targeting, which causes increased accumulation of lipid nanoparticles in certain tissues compared to other tissues. nanoparticles suitable for drug encapsulation. The particles were prepared by the emulsion evaporation method. Their characterization was performed using a Zetasizer, which measured the particle size and the zeta potential. The properties of the formulations were evaluated in terms of nanoparticle size, polydispersity, zeta potential, and formulation properties. Differencial scanning calorimetry analysis was also performed on selected formulations. The selected final formulation was composed of 25 mg glycerol monostearate, 10 mg isopropyl myristate, 15 mg lecithin and Kolliphor P188 0,1% solution....
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Preparation and evaluation of lipid based nanoparticles as drug carriers
Kučerová, Kateřina ; Holas, Ondřej (advisor) ; Vraníková, Barbora (referee)
Charles University in Prague, Faculty of Pharmacy in Hradci Králové Department of: Pharmaceutical Technology Supervisor: PharmDr. Ondřej Holas, Ph.D. Consultant: Mgr. Jana Kubačková Student: Kateřina Kučerová Title of thesis: Preparation and evaluation of lipid based nanoparticles as drug carriers Solid lipid nanoparticles (SLN) and nanostructured lipid carriers (NLC) are promising drug delivery systems. Their capability to encapsulate both hydrophilic and lipophilic molecules, biocompatibility and biodegradability of lipids make them a suitable alternative for well-established drug carries. The aim of this thesis was to determine suitable ratios of composition of nanoparticles with acceptable properties (especially reduced size and polydispersity, high zeta potential absolute values), to investigate status and thermodynamic behaviour of the nanoparticles and lipids used and to examine drug encapsulation efficiency. Nanoprecipitation method was used to prepare nanoparticles from stearic acid as a solid lipid and in the case of NLC preparation isopropyl myristate as a liquid lipid was used. Kolliphor® P 188 as a surfactant and Span® 20 as a co-surfactant were the best choice to meet intended characteristics. It was shown that usually lower the concentration of surfactant and co-surfactant was the...
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