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Electrospinning of Modified Biopolymers for Medical Applications
Pavliňáková, Veronika ; Martinová,, Lenka (referee) ; Zajíčková, Lenka (referee) ; Vojtová, Lucy (advisor)
Předkládaná disertační práce se zabývá přípravou a charakterizací nových biokompatibilních nanovláken s potenciální aplikací v medicíně. V této práci byl výběr jednotlivých složek pro přípravu nanovlákenného materiálu zvolen tak, aby vyhovoval nárokům tkáňového inženýrství. Literární rešerše shrnuje poznatky o elektrostatickém zvlákňování a o jeho parametrech. Dále se věnuje možnostem elektrostatického zvlákňování proteinů kolagenu a želatiny a jejich směsmi se syntetickými polymery a biopolymery a anorganickými plnivy. Teoretická část řeší také různé postupy síťování nanovláken vedoucí ke zlepšení jejich hydrolytické stability a mechanických vlastností. Poslední část je zaměřena na anorganické nanotrubky halloysitu (HNT), které získaly svou pozornost díky svým vynikajícím fyzikálním a biologickým vlastnostem. V experimentální části byly zpracovány dvě případové studie, z nichž každá se zabývá přípravou nanovlákenných biomateriálů s potenciální aplikací v medicíně. První studie je zaměřena na přípravu a charakterizaci nových hydrolyticky stabilních antibakteriálních želatinových nanovláken modifikovaných pomocí oxidované celulózy. Unikátní inhibiční účinky nanovláken byly testovány na kmenu bakterie Escherichia coli pomocí metody chemické bioluminiscence. Kultivované buňky lidského papilárního adenokacinomu plic prokázaly dobrou adhezi a proliferaci k povrchu nanovláken. Druhá část popisuje vliv zdroje a množství anorganických halloysitových nanotrubek na strukturu a vlastnosti amfifilních nanovláken ze směsi želatiny a syntetického polykaprolaktonu. Přídavek HNT zlepšil tepelnou stabilitu, mechanické vlastnosti (jak tuhost, tak prodloužení) a snížil krystalinitu nanovláken. HNT z různých zdrojů neměl vliv na chování buněk, ale mírně ovlivnil proliferaci a životaschopnost buněk na povrchu nanovláken.
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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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Preparation and characterization of nanofiber wound dressings
Jiroušková, Pavla ; Uhlířová, Renata (referee) ; Skoumalová, Petra (advisor)
The presented bachelor thesis deals with the preparation and characterization of nanofiber wound dressings. The materials used for the preparation of nanofibers were poly(3-hydroxybutyrate) and gelatin. Active substances, such as ampicillin and ibuprofen, were incorporated into the wound dressings. In the theoretical part of the work skin, wound healing, and nanofibers and their properties were described. This part also deals with the use of nanofibers as wound dressings. Additionally, it depicts materials suitable for the preparation of nanofiber wound dressings. Furthermore, this section contains a review focused on various methods of preparation of nanofibers, drugs that can be incorporated into the fibers and the subsequent determination of the safety of the prepared dressings. In the experimental part, nanofiber wound dressings containing ampicillin and ibuprofen were produced. The maximum possible amount of active substance feasible to be incorporated into the nanofibers has been determined. Subsequently, combined wound dressings were prepared to study the release rate of active substances into the model environments. The release in the time intervals was determined spectrophotometrically. Finally, antimicrobial activity assays were performed to test the effect of dressings containing ampicillin on selected strains of microbiirganism: S. Epidermidis, E. Coli and M. Luteus
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Hydrogel phantoms for ultrasound diagnostics
Cerevatova, Kristina ; Smilek, Jiří (referee) ; Pekař, Miloslav (advisor)
This bachelor thesis deals with properties and preparation of hydrogel phantoms used in ultrasound diagnostics. The main object of this work was to get acquainted with the production and problems of phantom models. The theoretical part of the thesis focuses on phantom characterization, the principle of ultrasound, and phantom manufacturing companies. The practical part focuses on production of phantom models in Dansk Fantom Service, and on own production in the laboratory. Then on these phantoms was studied the speed of ultrasound, attenuation, and other physical changes.
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Preparation and application of combined functionalized nanomaterials with antimicrobial effect in food and cosmetics
Vojteková, Vanesa ; Skoumalová, Petra (referee) ; Márová, Ivana (advisor)
The presented diploma thesis is focused on the preparation of combined nanomaterials that were functionalized with an antimicrobial ingredient. Liposomes were prepared without the addition of polyhydroxybutyrate but also with its addition. The nanofibers were obtained from gelatin solution by electrospinning. Thymol, eugenol, curcumin and vitamin E were used for functionalization. In the theoretical part, individual bioactive components, materials for the preparation of nanoparticles and nanofibers as well as methods of synthesis of these materials were characterized. The applications of the prepared nanoparticles as preservatives in the food industry and applications of nanofibers in wound healing and in the cosmetics industry have also been described. In the experimental part, the antioxidant activity of the active substances was determined. Two types of liposomes were prepared and evaluated for size, stability and encapsulation efficiency. Subsequently, the release rate of active substances from the prepared liposomes was monitored. Nanofibers with combinations of substances that were encapsulated in liposomes were prepared by electrospinning. The antimicrobial activity of the active ingredients, nanofibers and nanomaterials was monitored on three strains of microorganisms, namely Micrococcus luteus, Staphylococcus epidermidis and Escherichia coli. The individual substances in pure as well as encapsulated form were combined with each other to observe the possible synergistic effect. The prepared nanoparticles and nanofibers with antimicrobial components were tested for cytotoxicity on human keratinocytes. The nanofibers were also subjected to a scratch test, which simulates the wound healing process.
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Preparation and characterization of enzyme-containing wound dressings
Jurová, Bronislava ; Szotkowski, Martin (referee) ; Skoumalová, Petra (advisor)
This diploma thesis is focused on the study and characterization of nanofiber wound dressings from natural biopolymers. Proteolytic enzymes, specifically collagenase and bromelain, were incorporated into these nanofiber covers. The theoretical part deals with a brief description of skin wounds, their healing and skin covers. There are also methods for preparing these covers and the methods used to characterize them. The practical part deals with the optimization of the preparation of nanofiber coatings based on polyhydroxybutyrate, gelatin, alginate and chitosan. These nanofibers were then enriched with active substances and their gradual release into the model environment was monitored. Finally, their proteolytic activity was determined for these substances.
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Adhesion of the Hydrogels based on Poly(vinylalcohol)
Přibyl, Jiří ; Trudičová, Monika (referee) ; Kalina, Michal (advisor)
This bachelor thesis was focused on the study of adhesion properties of hydrogels based on polyvinyl alcohol using a rheometer. The used hydrogels were divided into three groups, physical, chemical, and modified with starch, PEG or gelatin. Subsequently, the adhesion properties of the hydrogels were determined using a pull off test measured on a rheometer. From the experimental results, the dependences of the adhesion properties on various parameters such as concentration, molecular weight, freezing / thawing process, amount of glutaraldehyde addition and on the type and ratio of added additive were determined. From the following results, it was found that starch is suitable as an additive for increasing the adhesion properties, and on the other side, PEG can be used to reduce the adhesion properties.
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Preparation of organic fibers with the addition of algae extracts
Tuhrinská, Terézia ; Skoumalová, Petra (referee) ; Němcová, Andrea (advisor)
The presented bachelor thesis is focused on the preparation and characterization of organic fibers with an admixture of pre-prepared extracts of microalgae and cyanobacteria containing valuable active compounds. The theoretical part describes selected metabolites of microalgae and cyanobacteria, methods of their analysis, the issue of encapsulation and incorporation of active substances into nanofibers and presents some methods of their preparation. In the experimental part of this thesis, selected strains from the CCALA collection were first cultured. Subsequently, aqueous, ethanol and hexane extracts of biomass from cultured and commercial microalgae and cyanobacteria were prepared. The prepared extracts were spectrophotometrically evaluated in terms of the concentration of chlorophylls, carotenoids, antioxidants, polyphenols, and total proteins present. In addition, 96 % ethanol extracts were subjected to more accurate analysis of chlorophylls and carotenoids by HPLC. The highest antioxidant activity was observed for aqueous extracts. Gelatin nanofibers containing selected extracts were formed by electrospinning method. The formed fibers were examined afterwards to identify a mass fraction of incorporated microalgal and cyanobacterial substances. The fibers were further tested for antioxidant activity with the TEAC assay. The most pronounced antioxidant effect was detected for the fiber with incorporated aqueous extract of the cyanobacterium Arthrospira maxima. Finally, the fibers were tested for their safety in contact with human cells. The amount of fibers used did not show any cytotoxic effect on human keratinocytes and the tested materials can thus be considered safe for application in cosmetics.
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New possibilities in wound healing
Nováková, Laura ; Szotkowski, Martin (referee) ; Skoumalová, Petra (advisor)
The diploma thesis is focused on the study of fibrous wound dressings prepared by electrospinning method from natural biopolymers. Three active ingredients were added to the dressings: ampicillin, ibuprofen and collagenase, which are responsible for relieving pain, reducing the risk of infection and selectively removing necrotic tissue in the wound. The theoretical part describes the therapeutic dressings currently available on the market and the most common methods of nanofiber production. The experimental part evaluates the optimization of the preparation of gelatin, alginate and chitosan fibrous wound dressings, which were subsequently enriched with active substances and their gradual release into the model environment was determined spectrophotometrically. Antimicrobial effects against E.coli and S. epidermidis strains andantifungal activity against C. glabrata yeast were monitored. Finally, two cytotoxicity tests on the human keratinocyte cell line HaCaT confirmed the safety of the prepared products, which can serve as bioactive skin dressings in the future.
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Hyaluronan hydrogels
Vaculíková, Hana ; Pekař, Miloslav (referee) ; Hurčíková, Andrea (advisor)
In this thesis there was preparation optimized for agarose-gelatin hydrogels with addition of various concentrations of low-molecular and high-molecular hyaluronan and than there were examined viscoelastic properties of them by rheological oscilation tests and high-resolution ultrasonic spektrometry. By rheology were measured values of elastic and viscous modulus for selected amplitude of strain, oscilation frequencies and temperatures. In the second method there were recorded values of ultrasonic velocities of samples at temperature scanning from 85 to 25 °C and from 25 to 85 °C in HR-US 102, which were compared with ultrasonic velocities measured at the temperature 27,0±0,5 °C by gel-modul HR-EX-SSC.
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