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Use of nanofluidic mixing for preparation of liposome carriers stained by gadolinium for contrast imaging by magnetic resonance (MRI)
Velínská, Kamila ; Mašek,, Josef (referee) ; Turánek, Jaroslav (advisor)
This diploma thesis focuses on the preparation of the liposomes, containing lipids with gadolinium, which are used for a contrast magnetic resonance imaging. The liposomes were prepared by the lipid film hydration followed by an extrusion and also by a new nanofluid mixing method on the NanoAssemblr Benchtop. The preparation technology has been optimized for parameters such as the composition of lipids, the flow rate ratio and total flow rate. The method of modification of the liposomes surface by gadolinium complexes has been developed. This method is using a conjugation reaction between the lipids containing cyanuric acid and Gd-DOTA. Prepared Gd-liposomes, which contain gadolinium, were complexly defined by the characterization techniques of DLS and NTA. The morphology of liposomes was observed by TEM and cryo-TEM. Methods for the determination of phospholipid content (Stewart test) and residual water in the lyophylisates of liposomes (Karl-Fischer titration) were used. Gadolinium in liposomal preparations was determined by ICP-OES. Using MR, the concept of gadolinium liposomes was verified and designed for MRI imaging of thrombi. The concept describing the mechanism of liposomes formation based on the experimentally proven existence of a phospholipid bilayer fragment has been developed. This concept is based on the experimentally proven existence of a phospholipid bilayer fragment.
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Preparation and characterization of nanoliposomal carriers of hydrophobic cytostatics using nanofluidic mixing
Zelníčková, Jaroslava ; Mašek,, Josef (referee) ; Turánek, Jaroslav (advisor)
This diploma thesis is focused on preparation of liposome by relatively new method called nanofluidisation. This method allows the controlled preparation of small unilamellar liposomes in one step. In my thesis I was dealing with optimalization of liposomes preparation which carry hydrophobic cytostatics using this method. Cytotoxic effect of liposomes carrying hydrophobic cytostatics in vitro on cell lines A549 and MCF-7 was determined. In cytotoxicyty test I compared the effect of hydrophobic cytostatics (paclitaxel and derivates of vitamin E specifically alfa-Tos, alfa-TEA) that were incorporated into liposomes prepared via nanofluidisation method and lipid film hydration method. Moreover, a technology of lyophilisation in the presence of cryoprotectants for preparation of liposomes using the method of nanofluidisation was developed.
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Preparation and characterization of nanoliposomal carriers of hydrophobic cytostatics using nanofluidic mixing
Zelníčková, Jaroslava ; Mašek,, Josef (referee) ; Turánek, Jaroslav (advisor)
This diploma thesis is focused on preparation of liposome by relatively new method called nanofluidisation. This method allows the controlled preparation of small unilamellar liposomes in one step. In my thesis I was dealing with optimalization of liposomes preparation which carry hydrophobic cytostatics using this method. Cytotoxic effect of liposomes carrying hydrophobic cytostatics in vitro on cell lines A549 and MCF-7 was determined. In cytotoxicyty test I compared the effect of hydrophobic cytostatics (paclitaxel and derivates of vitamin E specifically alfa-Tos, alfa-TEA) that were incorporated into liposomes prepared via nanofluidisation method and lipid film hydration method. Moreover, a technology of lyophilisation in the presence of cryoprotectants for preparation of liposomes using the method of nanofluidisation was developed.
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Use of nanofluidic mixing for preparation of liposome carriers stained by gadolinium for contrast imaging by magnetic resonance (MRI)
Velínská, Kamila ; Mašek,, Josef (referee) ; Turánek, Jaroslav (advisor)
This diploma thesis focuses on the preparation of the liposomes, containing lipids with gadolinium, which are used for a contrast magnetic resonance imaging. The liposomes were prepared by the lipid film hydration followed by an extrusion and also by a new nanofluid mixing method on the NanoAssemblr Benchtop. The preparation technology has been optimized for parameters such as the composition of lipids, the flow rate ratio and total flow rate. The method of modification of the liposomes surface by gadolinium complexes has been developed. This method is using a conjugation reaction between the lipids containing cyanuric acid and Gd-DOTA. Prepared Gd-liposomes, which contain gadolinium, were complexly defined by the characterization techniques of DLS and NTA. The morphology of liposomes was observed by TEM and cryo-TEM. Methods for the determination of phospholipid content (Stewart test) and residual water in the lyophylisates of liposomes (Karl-Fischer titration) were used. Gadolinium in liposomal preparations was determined by ICP-OES. Using MR, the concept of gadolinium liposomes was verified and designed for MRI imaging of thrombi. The concept describing the mechanism of liposomes formation based on the experimentally proven existence of a phospholipid bilayer fragment has been developed. This concept is based on the experimentally proven existence of a phospholipid bilayer fragment.
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