|
|
Application of superabsorbents in soil and its influence on plant growth
Závodská, Petra ; Kalina, Michal (referee) ; Klučáková, Martina (advisor)
This thesis is focused on description of superabsorbents with controlled released of nutrients, specifically macronutrients nitrogen, phosphorus and kalium. Superabsorbents are polymers, mostly acrylic acid polymers, that can absorb huge amount of water without dissolving in it. In its structure they can hold water and thanks to this they are very perspective materials for agricultural usage. Experimental part was focused on growing corn with use of superabsorbents and control samples without use of superabsorbents. Plants were growth for 3 time periods, specifically 46, 60 and 74 days. During the experiments, plats were growth without water stress and in controlled conditions in growing box under UV lamp that simulated day and night by turning on and off after 12 hours. At the end, an image analysis was performed in HARFA program, from which we got information about branching of the roots. Results were supplemented by soil and plants analysis.
|
|
|
Modeling controlled release
Čelková, Ivana ; Smilek, Jiří (referee) ; Pekař, Miloslav (advisor)
This bachelor's thesis is focused on the controlled release of drugs from hydrogels and the subsequent simulation of this process using the COMSOL Multiphysics computing platform. The aim of the work is to propose a simple model describing the release from the hydrogel structure, to study the effect of diffusion coefficient and to perform simulations on this model and evaluate the results related to controlled release. As part of the thesis, two models were created to investigate the release of particles from the hydrogel. Simulations of this process were carried out for three selected diffusion coefficients (110-9, 110-10, 110-11 m2s-1) and were subsequently discussed in terms of the influence on the speed of particle transport. Two procedures were chosen to determine the total concentration of the released substance in vicinity of the hydrogel, i.e. using the integration of the area of the aqueous environment (in a two-dimensional model) and monitoring the flow of particles through the phase interface of the hydrogel and the aqueous environment.
|
|
|
Hydrophilic polymers-based delivery systems for the transport and controlled release of siRNA
Blažková, Jana ; Laga, Richard (advisor) ; Vopálenský, Václav (referee)
Therapeutics based on siRNA represent a promising hope for the treatment of many congenital and acquired disorders. This method is based on posttranscriptional silencing of pathological gene or set of genes (RNAi process), which are responsible for the actual cause of the disease. Access is therefore based on the assumption of treatment options for the disease at the point of origin of the defect intervention at the molecular level, which is different from the conventional, so-called symptomatic therapy, which focuses only on the treatment or suppression of symptoms. Despite rapidly increasing understanding of gene function and cause a number of genetic diseases, the expansion of siRNA therapeutics limited the development of efficient and safe transport systems (vectors). In order to ensure efficient transport of siRNA in vivo conditions, the vectors must sufficiently reduce the size of the siRNA, protect it against degradation during transport, and release in the cytoplasm of the target cell. For this purpose they were developed sophisticated transport systems based on viral and non-viral origin. This diploma thesis is focused on the preparation of new transport systems, siRNA-based synthetic hydrophilic polymers, such as non-viral vectors. For in vitro testing the effectiveness during transport of siRNA...
|
|
|
Beating Intracellular Bacterial Infections with Polymeric Nanobead-Based Interventions: Development, Structure Characterization, and Analysis
Trousil, Jiří ; Hrubý, Martin (advisor) ; Záruba, Kamil (referee) ; Kročová, Zuzana (referee)
One hundred years after the discovery of antimicrobials and antibiotics, intracellular bacterial pathogens remain a major cause of global morbidity and mortality. This is due to the complex and intricate ability of these pathogens to undergo intracellular replication while evading host cell immune defense. Bacterial agents such as Legionella pneumophila, Francisella tularensis, and Mycobacterium tuberculosis, as the causative agents of Legionnaires' disease, pulmonary tularemia, and tuberculosis (TB), respectively, contribute to this burden. Moreover, these agents are weaponizable pathogens due to their aerosolizability. TB represents a global health problem, although a potentially curative therapy has been available for approximately 50 years; this intracellular disease affects approximately 1 in 3 people worldwide, with over 10 million new cases per year and one death every three minutes. TB can usually be treated with a 6- to 9-month course of combined therapy. The necessity of using a cocktail of anti-TB drugs and the long-term treatment schedules required for conventional therapy, however, result in poor patient compliance; therefore, the risk of treatment failure and relapses is higher. Hence, improved drug delivery strategies for the existing drugs can be exploited to shorten the duration of TB...
|
|
|
Application of superabsorbents in soil and its influence on plant growth
Závodská, Petra ; Kalina, Michal (referee) ; Klučáková, Martina (advisor)
This thesis is focused on description of superabsorbents with controlled released of nutrients, specifically macronutrients nitrogen, phosphorus and kalium. Superabsorbents are polymers, mostly acrylic acid polymers, that can absorb huge amount of water without dissolving in it. In its structure they can hold water and thanks to this they are very perspective materials for agricultural usage. Experimental part was focused on growing corn with use of superabsorbents and control samples without use of superabsorbents. Plants were growth for 3 time periods, specifically 46, 60 and 74 days. During the experiments, plats were growth without water stress and in controlled conditions in growing box under UV lamp that simulated day and night by turning on and off after 12 hours. At the end, an image analysis was performed in HARFA program, from which we got information about branching of the roots. Results were supplemented by soil and plants analysis.
|
|
|
Beating Intracellular Bacterial Infections with Polymeric Nanobead-Based Interventions: Development, Structure Characterization, and Analysis
Trousil, Jiří ; Hrubý, Martin (advisor) ; Záruba, Kamil (referee) ; Kročová, Zuzana (referee)
One hundred years after the discovery of antimicrobials and antibiotics, intracellular bacterial pathogens remain a major cause of global morbidity and mortality. This is due to the complex and intricate ability of these pathogens to undergo intracellular replication while evading host cell immune defense. Bacterial agents such as Legionella pneumophila, Francisella tularensis, and Mycobacterium tuberculosis, as the causative agents of Legionnaires' disease, pulmonary tularemia, and tuberculosis (TB), respectively, contribute to this burden. Moreover, these agents are weaponizable pathogens due to their aerosolizability. TB represents a global health problem, although a potentially curative therapy has been available for approximately 50 years; this intracellular disease affects approximately 1 in 3 people worldwide, with over 10 million new cases per year and one death every three minutes. TB can usually be treated with a 6- to 9-month course of combined therapy. The necessity of using a cocktail of anti-TB drugs and the long-term treatment schedules required for conventional therapy, however, result in poor patient compliance; therefore, the risk of treatment failure and relapses is higher. Hence, improved drug delivery strategies for the existing drugs can be exploited to shorten the duration of TB...
|
|
| |
|
|
Cyclodextrin derivatives containing covalently bound volatile substances and studies of their release
Palágyi, Attila ; Jindřich, Jindřich (advisor) ; Smrček, Stanislav (referee)
The main aim of the work was to prepare a series of β-cyclodextrin derivatives containing covalently bound volatile compounds via an imine bond. The used volatile compounds were cinnamaldehyde, cyclamen aldehyde, lilal, benzaldehyde, anisaldehyde, vanillin, hexanal, heptanal, citral and 5-methylfurfural. Subsequently, the rate of the release of the active compound, as a function of the environment, was studied by 1 H NMR spectroscopy and static headspace-gas chromatography. Key words: cyclodextrin, aldehyde, imine, kinetics, controlled release
|
|
|
Hydrophilic polymers-based delivery systems for the transport and controlled release of siRNA
Blažková, Jana ; Laga, Richard (advisor) ; Vopálenský, Václav (referee)
Therapeutics based on siRNA represent a promising hope for the treatment of many congenital and acquired disorders. This method is based on posttranscriptional silencing of pathological gene or set of genes (RNAi process), which are responsible for the actual cause of the disease. Access is therefore based on the assumption of treatment options for the disease at the point of origin of the defect intervention at the molecular level, which is different from the conventional, so-called symptomatic therapy, which focuses only on the treatment or suppression of symptoms. Despite rapidly increasing understanding of gene function and cause a number of genetic diseases, the expansion of siRNA therapeutics limited the development of efficient and safe transport systems (vectors). In order to ensure efficient transport of siRNA in vivo conditions, the vectors must sufficiently reduce the size of the siRNA, protect it against degradation during transport, and release in the cytoplasm of the target cell. For this purpose they were developed sophisticated transport systems based on viral and non-viral origin. This diploma thesis is focused on the preparation of new transport systems, siRNA-based synthetic hydrophilic polymers, such as non-viral vectors. For in vitro testing the effectiveness during transport of siRNA...
|
guest ::
