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Identification of cytotoxic constituents of selected plants and the synthesis of liposome-stabilized metal oxide nanoparticles for delivery into cancerous cells

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dc.contributor.advisor Sekhoacha, MP
dc.contributor.advisor Mashele, SS
dc.contributor.advisor Mfengwana, PH
dc.contributor.author Mofolo, Motshewa Justina
dc.date.accessioned 2024-08-29T04:47:27Z
dc.date.available 2024-08-29T04:47:27Z
dc.date.issued 2022
dc.identifier.uri http://hdl.handle.net/11462/2584
dc.description Thesis (Master: Health Sciences: Biomedical Technology)--Central University of Technology en_US
dc.description.abstract Nanotechnology has led to synthesis of small molecules that are used in pharmacology and many other fields. Historically, plants were used to treat a variety of ailments and currently nanotechnology and ethnomedicine is being adjoined to created safer and smaller medicinal molecules for treatment of these ailments. Brain cancer is one of the difficult ailments to treat due to the presence of the blood brain barrier which is very selective of molecules it permits. In this research, three plants were selected: Dieffenbachia camilla, Adenium multiflorum, and Pechuel-loeschea leibnitziae. Plant-based molecules were extracted from these plants, and the phytochemicals of these plants was analysed. Furthermore, to mimic the brain and the normal human cells, cancerous brain cells and two normal cells were selected to observe the effect of the plant the plant-based molecule and nanoparticles. The inhibitory activity of these molecules was calculated and graphed. The research found that the plant P. leibnitziae exhibited the highest - inhibitory activity against the cancerous cell line. The fractionation of P. leibnitziae extract showed the presence of Xerantholide compound. This plant extract was further used to synthesize silver nanoparticles which were further stabilized in liposomes. The inhibitory effect of the plant P. leibnitziae (3 µg/mL) extract was shown to have increased when silver nanoparticles were synthesized using this plant, which ranged from 0, 64-0, 71 µg/mL. en_US
dc.publisher Central University of Technology en_US
dc.subject Nanotechnology en_US
dc.subject Brain cancer en_US
dc.subject Ethnomedicine en_US
dc.subject Plant-based molecules en_US
dc.subject Inhibitory activity en_US
dc.title Identification of cytotoxic constituents of selected plants and the synthesis of liposome-stabilized metal oxide nanoparticles for delivery into cancerous cells en_US
dc.type Thesis en_US


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