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Preparation of nanoparticles and nanofibers with antimicrobial components
Kubišová, Veronika ; Slaninová, Eva (referee) ; Skoumalová, Petra (advisor)
This thesis addresses the problem of inadequate current wound therapy and presents a solution in the form of nanomaterial-based wound dressings (coverings). Specifically, it focuses on the development and characterization of various nanofibrous materials with integrated liposome particles that could serve as a source of therapeutic agents and be useful specifically in the field of a wound therapy. The review in the introductory part of the thesis first focused on the mentioned problem, which describes the shortcomings of existing conventional dressing materials. A description of human skin from an anatomical and functional point of view was not omitted, nor was the wound healing process itself. Different types of covering materials were also presented. However, a large part was focused on nanomaterials and their use in the field of the skin wound therapy. The nanomaterials mentioned were mainly liposome particles and nanofibres, as the experimental part of the work was focused on these structures. The description dealt with the characterization of these structures as well as the biopolymers used for their preparation. However, the aim was to prepare nanofibers with liposome content, so the method of forming such systems was described. Various therapeutic agents are also an integral part of the covering materials, especially those that suppress the development of infection and reduce wound pain; therefore, the search focused on the antibiotic ampicillin and the analgesic ibuprofen. The experimental part was devoted to the actual production of nanofibers with liposomes and also to the qualitative demonstration of the presence of liposomes in electrostatically prepared nanofibers. The selected polymeric components of these systems were polyhydroxybutyrate (PHB) and gelatine. However, the nanofibers and liposome particles (as well as combined liposomes with PHB) were first prepared in their own form and characterized mainly in terms of the gradual release of the drug substances. The results obtained were then compared with those of therapeutic drug delivery via combined nanofibrous structures with liposomes. For these combined structures, the aim was to achieve synergy in drug delivery between these systems. The aim of this work was to create a biomaterial covering with the controlled drug release. The drugs contained in these materials were the aforementioned ampicillin and ibuprofen. An important part of the work was then to determine the safety of the prepared materials which were tested for cytotoxicity, where the tests performed were MTT test and LDH test. And the actual wound healing ability of the nanofibers was then monitored in a scratch test or a "wound healing" test. At the end of the paper, recommendations for future work on this topic are given.
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Application of natural antibiotics components in hygienic gels
Kubišová, Veronika ; Pavelková, Renata (referee) ; Skoumalová, Petra (advisor)
This bachelor thesis was focused on the preparation and characterization of gels containing a natural component exhibiting an antifungal effect. A part of this work was the research, which was focused on the description of superficial and systemic fungal diseases, antifungal drugs and plant products with a potential antifungal effect. Moreover, biologically active substances found in selected plants was described. Liposome particles that were part of the experimental part were also described and characterized. Considering the subject of this thesis was the preparation of antifungal gel, the basic characteristics of gels such as their drug delivery systems were described. Descriptions of basic methods for the determination of active substances and antifungal activity were not omitted. In the experimental part, three types of extracts (aqueous, ethanolic and lipidic) were prepared from selected plants, which were subsequntly characterized. Also, all kinds of prepared extracts were encapsulated into liposome particles, in which encapsulation efficiency, size and stability by electrokinetic potential were subsequently determined. Prepared extracts in free and encapsulated form were tested for antifungal activity, when testing was performed on Candida glabrata yeast. Moreover, the antimycotic effect of these natural substances was compared with a commercially available antifungal drug, where the drug was also tested in free and encapsulated form. Extracts in which higher active compound content and higher percent inhibitory activity of C. glabrata cells were determined were selected for incorporation into the prepared gels. The result of this work are natural-based gels that could be used to treat infectious fungal diseases. An example of a prepared gel is a gel containing a lipidic extract of marigold or containing liposomes prepared from a lipidic extract of elm pincushion.
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Preparation of nanoparticles and nanofibers with antimicrobial components
Kubišová, Veronika ; Slaninová, Eva (referee) ; Skoumalová, Petra (advisor)
This thesis addresses the problem of inadequate current wound therapy and presents a solution in the form of nanomaterial-based wound dressings (coverings). Specifically, it focuses on the development and characterization of various nanofibrous materials with integrated liposome particles that could serve as a source of therapeutic agents and be useful specifically in the field of a wound therapy. The review in the introductory part of the thesis first focused on the mentioned problem, which describes the shortcomings of existing conventional dressing materials. A description of human skin from an anatomical and functional point of view was not omitted, nor was the wound healing process itself. Different types of covering materials were also presented. However, a large part was focused on nanomaterials and their use in the field of the skin wound therapy. The nanomaterials mentioned were mainly liposome particles and nanofibres, as the experimental part of the work was focused on these structures. The description dealt with the characterization of these structures as well as the biopolymers used for their preparation. However, the aim was to prepare nanofibers with liposome content, so the method of forming such systems was described. Various therapeutic agents are also an integral part of the covering materials, especially those that suppress the development of infection and reduce wound pain; therefore, the search focused on the antibiotic ampicillin and the analgesic ibuprofen. The experimental part was devoted to the actual production of nanofibers with liposomes and also to the qualitative demonstration of the presence of liposomes in electrostatically prepared nanofibers. The selected polymeric components of these systems were polyhydroxybutyrate (PHB) and gelatine. However, the nanofibers and liposome particles (as well as combined liposomes with PHB) were first prepared in their own form and characterized mainly in terms of the gradual release of the drug substances. The results obtained were then compared with those of therapeutic drug delivery via combined nanofibrous structures with liposomes. For these combined structures, the aim was to achieve synergy in drug delivery between these systems. The aim of this work was to create a biomaterial covering with the controlled drug release. The drugs contained in these materials were the aforementioned ampicillin and ibuprofen. An important part of the work was then to determine the safety of the prepared materials which were tested for cytotoxicity, where the tests performed were MTT test and LDH test. And the actual wound healing ability of the nanofibers was then monitored in a scratch test or a "wound healing" test. At the end of the paper, recommendations for future work on this topic are given.
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Application of natural antibiotics components in hygienic gels
Kubišová, Veronika ; Pavelková, Renata (referee) ; Skoumalová, Petra (advisor)
This bachelor thesis was focused on the preparation and characterization of gels containing a natural component exhibiting an antifungal effect. A part of this work was the research, which was focused on the description of superficial and systemic fungal diseases, antifungal drugs and plant products with a potential antifungal effect. Moreover, biologically active substances found in selected plants was described. Liposome particles that were part of the experimental part were also described and characterized. Considering the subject of this thesis was the preparation of antifungal gel, the basic characteristics of gels such as their drug delivery systems were described. Descriptions of basic methods for the determination of active substances and antifungal activity were not omitted. In the experimental part, three types of extracts (aqueous, ethanolic and lipidic) were prepared from selected plants, which were subsequntly characterized. Also, all kinds of prepared extracts were encapsulated into liposome particles, in which encapsulation efficiency, size and stability by electrokinetic potential were subsequently determined. Prepared extracts in free and encapsulated form were tested for antifungal activity, when testing was performed on Candida glabrata yeast. Moreover, the antimycotic effect of these natural substances was compared with a commercially available antifungal drug, where the drug was also tested in free and encapsulated form. Extracts in which higher active compound content and higher percent inhibitory activity of C. glabrata cells were determined were selected for incorporation into the prepared gels. The result of this work are natural-based gels that could be used to treat infectious fungal diseases. An example of a prepared gel is a gel containing a lipidic extract of marigold or containing liposomes prepared from a lipidic extract of elm pincushion.
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