Search for dissertations about: "removal of Pharmaceutical"
Showing result 1 - 5 of 30 swedish dissertations containing the words removal of Pharmaceutical.
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1. Investigation of degradation of toxic substances in fungal cultures by mass spectrometric techniques
Abstract : Micropollutants in water are biological or chemical contaminants that are present in ground and surface waters in trace quantities. They are a result of human activity and include pharmaceutically active compounds (PhACs) and endocrine disrupting compounds (EDCs). READ MORE
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2. Towards application of activated carbon treatment for pharmaceutical removal in municipal wastewater
Abstract : Many pharmaceuticals are found in municipal wastewater effluents due to their persistence in the human body as well as in conventional wastewater treatment processes. This discharge to the environment can lead to adverse effects in aquatic species, such as feminization of male fish. READ MORE
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3. Design, Synthesis and Thermodynamic Studies of Galectin Ligands
Abstract : The signaling within and between cells in biology is governed by molecular recognition between natural or synthetic ligands and proteins. This thesis project aimed to investigate the thermodynamic properties of specific interaction between synthetic ligands and galectin proteins. READ MORE
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4. Interrogation of drug effects on the lipid composition of single cells and Drosophila brain using ToF-SIMS imaging
Abstract : Lipids are essential for all living organisms on Earth. The most important function of lipids is that they act as the building blocks of cellular membranes. Lipids consist of polar head groups and non-polar tail groups and assemble into bilayer structures to create cell and organelle membranes. READ MORE
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5. The mucus layer and other barriers to intestinal drug absorption
Abstract : The extraepithelial mucus layer acts as a barrier to the absorption and diffusion of drugs. Three in vitro models have been used for studies of this and other intestinal barriers to drug transport. A drug absorption model based on monolayers of the mucus-producing human intestinal goblet HT29-H cell line was developed. READ MORE