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Development of new type of energy drinks based on coffee with active substances
Dudrová, Markéta ; Skoumalová, Petra (referee) ; Márová, Ivana (advisor)
This bachelor thesis deals with development and preparation of new energy drinks with active plant component in free and encapsulated form. The theoretical part is focused on characterization of the energy drinks, their components and properties. The experimental part deals with the preparation of plant extracts, their characterization and subsequent encapsulation into liposome particles. All particles were determined for size, colloidal stability, long-term stability, antioxidant activity and encapsulation efficiency. Energy drinks based on various types of coffee were prepared and enriched with free or encapsulated guarana, goji, matcha or cocoa extract. In prepared energy drinks the content of caffeine, sugar, phenolics and antioxidant aktivity was monitored. Finally, selected energy drinks were subjected to sensory analysis, where appearance, color, smell and taste were evaluated.
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Encapsulation of active and complementary components of energy drinks
Kšenžighová, Petra ; Vysoká, Marie (referee) ; Skoumalová, Petra (advisor)
This bachelor thesis was focused on the development of an energy drink containing plant powders and active substances in both free and encapsulated form. Green barley, matcha tea, moringa and young wheat were chosen as plant powder samples. The theoretical part describes the active and complementary constituents of energy drinks, their nutritional properties and impact on health. The encapsulation itself is also described in this section. In the practical part, extracts from plant powders were prepared, in which bioactive substances were determined, namely total phenolic content, flavonoids and antioxidants. The total content of carotenoids and chlorophylls was also determined in the samples. By juicing the fruit, fruit juices were obtained in which vitamin C and antioxidant content were subsequently determined. Liposome particles differing in soy and sunflower lecithin were prepared containing caffeine, taurine and vitamin C. Encapsulation activity, colloidal stability, size and long-term stability were determined in the particles. All prepared particles, with the exception of encapsulated taurine in sunflower particles, were stable. Finally, a sensory analysis was performed, where respondents evaluated the prepared energy drinks in terms of taste, consistency, smell and appearance. Based on the results of measurements, a new energy drink was designed.
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Characterization and application of microwave plasma on wound healing
Smejkalová, Kateřina ; Skoumalová, Petra (referee) ; Krčma, František (advisor)
The aim of the Master thesis is the investigation of the influence of microwave discharge for skin wound healing. Microwave discharge used for this work was argon microwave plasma generated by the surface wave and direct vortex torch. The theoretical part is focused on basic information about plasma and processes that occur in plasma discharge under specific conditions. Plasma generates various active particles such as hydroxyl radicals, nitric oxide radicals, excited nitrogen molecules, atomic nitrogen, argon and oxygen. All of these particles together with plasma generated photons are usable in biomedical applications and summary of them is shown in the theoretical part. The experimental part is focused on the comparison of torch discharge and microwave plasma generated surface wave in skin wound healing. The model wounds on laboratory mousses were treated by plasma and wound healing was examined during 3 weeks after the plasma treatment. Both plasma systems showed healing acceleration. Application of torch discharge was proved to be the most effective method in the healing of skin defects. Additionally, determination of active particles was taken by optical emission spectroscopy. Based on these measurements, plasma parameters were determined: electron temparutare, rotational and vibrational temperatures. To determine role of different plasma active species, the treatment of indigo coloured artificial skin model was treated under various conditions by both plasma systems. Results show that the direct interaction between plasma particles is the main effect, role of radiation, only, is more or less negligible. Finally, the plasma vortex system was visualized using fast camera at selected powers and gas flows.
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Potential microbial hazards in actual cosmetology trends - bio, vegan, raw
Jančíková, Simona ; Skoumalová, Petra (referee) ; Němcová, Andrea (advisor)
Bio-, vegan- and raw-cosmetics are continually more popular type of cosmetic products caused by an absence of synthetic and preservative substances but at the same time there is an increased probability of microbial contamination. The main aim of this thesis is a practical findings of potential microbiological contamination using a challenge test and a determination of any active ingredients in the cosmetic preparations. The legislation of cosmetic preparations as well as the information about certificates, which are awarded for bio-, vegan- and raw-cosmetics has been processed in the theory. This section also discusses a composition of vegetable and essential oils, which are used as raw materials in cosmetics production to a great extent and have a positive effect on skin. This thesis also deals with a possible microbiological contamination, listing the most frequently occurred pathogenic microorganisms, which can have a negative influence on consumer health. Operating life of selected samples using the Schülke Koko test by inoculating selected representatives of bacteria, yeasts and molds (Candida glabrata, Escherichia coli, Pseudomonas aeruginosa and Aspergillus niger) are being tested in the practical part. In addition a possible antimicrobial activity which may partially replace an effect of synthetic preservatives in the presence of essential oils is also being tested. Finally any biological active substances were analysed by the gas chromatography, in particular fatty acids contained in the creams.
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Enzymatic hydrolysis of wastes associated with coffee production
Kovářová, Markéta ; Skoumalová, Petra (referee) ; Obruča, Stanislav (advisor)
This bachelor thesis is focused on study of potential production of extracellular hydrolytic enzymes by microorganisms – bacterium and moulds, which have been cultivated on spent coffee grounds. The theoretical part deals with characterization of coffee and utilization of coffee by-products. There are also subscribed microorganisms and enzymes which have been noticed. In experimental part coffee ground was used as the sole substrate for production of extracellular hydrolytic enzymes. Productions of protease, cellulase, mannase and lipase enzymes were observed. None-identified isolate of mould spontaneously contaminating spent coffee grounds was identified as the best producer of these enzymes. Subsequently the conditions of cultivation such as water content and shaking vs. static cultivation of this moulds were optimized. Further, we performed partial purification and pre-concentration of the enzyme cocktail by ultrafiltration, ultradialysis and PAGE-SDS characterization of extracellular enzymes was performed as well.
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Preparation of edible antimicrobial packaging
Kozubová, Petra ; Dzurická, Lucia (referee) ; Skoumalová, Petra (advisor)
This bachelor’s thesis is focused on preparation and characterization of eatable packaging. Eatable packaging consists of two components, antimicrobial component and base of packaging. The task of eatable packaging is to protect product against antimicrobial attack and to extend durability of the product. As antimicrobial components were used water and oil extracts of several herbs (mint, nettle, lavender, cinnamon, cloves, vanilla, ginger and rhinoceros). Oil extracts were also encapsulated into liposomes for better application. Firstly, concentrations of polyphenoles and antioxidants of extracts were determined. Oil extract of clove contained the highest concentration of both determined substances. Encapsulation efficiency, stability and size of liposomes were tested too. All prepared liposomes were stable and relatively of the same size. Also high encapsulation efficiency was observed. Next, antimicrobial activity of prepared extracts and liposome particles against yeast Candida glabrata and two bacteria strains Escherichia coli and Staphycococcus epidermidis was tested and the high antimicrobial activity reported mainly all tested liposomes. Then alginate, chitosan and carboxymethylcellulose and their combinations respectively were used as bases of packaging. Created film had to meet several parameters, especially suitable sensory properties such as pleasant taste and smell, as well as invisibility, gloss, affordability and suitable manipulability. Combination of 2% carboxymethylcellulose and 1% alginate in a ration of 2:1 with liposomes of mint as antimicrobial component achieved the best results.
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Effect of antimicrobial substances on "raw food" durability
Horká, Daniela ; Skoumalová, Petra (referee) ; Němcová, Andrea (advisor)
Submitted diploma thesis deals with an effect of antimicrobial substances on raw food durability. Nowadays, the raw food has become very required style of nutrition, which is being practised by more and more people. The issue is that this kind of alimentation, especially vegetable raw food is not prepared in heat treatment which is higher than 42–45 °C. The main aim of the thesis is to study antioxidant and antibacterial properties of the herbal and spice extracts and their following implementation into raw desserts to prolong their durability. At the beginning of the theoretical part, there is an analysis of the issue of raw food and the description of micro-organisms, which are mostly occurred on plant materials. Afterwards, selected herbs and spices, and mechanisms of their antimicrobial effects, and also the methods used to test the products are characterised. The experimental part focuses on characterization of ethanol extracts from 13 selected kinds of spices and herbs. The determination of biologically active substance was accomplished, specifically, polyphenols, flavonoids, anthocyanins and their antioxidant properties. Moreover, these extracts were tested to antimicrobial effect towards gram-positive species of germs Micrococcus luteus, gram-negative species of germs Escherichia coli and yeast Candida glabrata. The molecular part of the thesis contains the DNA isolation from the tested raw material, which was enriched of combination of the selected herbs and spices. Change of expiry date of selected samples of raw desserts was monitored. The presence of chosen micro-organisms was confirmed by the PCR method.
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Study of plasma jet effects on yeast
Trebulová, Kristína ; Skoumalová, Petra (referee) ; Krčma, František (advisor)
The purpose of this work is to study the effects of a 2.45 GHz microwave plasma jet on the yeast Candida glabrata. The microwave plasma was generated by a surfatron resonator and as a working gas pure argon at constant flow rate 5 Slm was used. Thanks to a high number of active particles generated in a low temperature plasma, this type of plasma has become highly popular, especially thanks to its bactericidal effects. However, its antifungal effects and mechanisms of fungal inactivation have still not been fully understood. Therefore, the study focuses on the antimycotic effects of the low temperature plasma in a form of a microwave discharge on Candida glabrata as a model yeast example. The principal focus is on the measurement and evaluation of changes in inactivation effects caused by varying the initial concentration of Candida glabrata cells, applied power, and the exposure time. The theoretical part presents the basic information concerning Candida glabrata, its pathogenicity, virulence and infectivity. Furthermore, plasma in general, various types of discharges and their applications in the food and biomedical industries are discussed. The experimental part focalizes on the determination of the inactivating effects of the microwave plasma jet on the yeast Candida glabrata. The experiment consists of applying the discharge on a freshly inoculated colony of Candida glabrata on agar plates and observing inhibitory effects in the form of inhibitory zones formed after subsequent cultivation. The inhibition of yeasts by the microwave discharge is interesting scientifically due to its promising results, which have also been proven in this work, but also economically, especially due to the use of argon. Argon as a carrier gas is much cheaper than helium and colder than common atmospheric pressure discharges in air such as DBDs, corona or glow discharges.
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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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