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Development of a Wound Dressing for Detection of Bacteria with Wound Healing Properties


Reference:

Hong, S.-H., 2013. Development of a Wound Dressing for Detection of Bacteria with Wound Healing Properties. Thesis (Doctor of Philosophy (PhD)). University of Bath.

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    Abstract

    There has been a significant increase in children’s burns in the past several years and figures indicate that children suffer more burns compared to any other age groups. The main concern following a burn is the possibility of infections. The aim of this project is to construct a unique wound dressing, which enhances healing and stimulates wound closure by incorporation of collagen, as well as signalling the presence of pathogenic bacteria on colonisation. The process of signalling bacterial colonisation was achieved by incorporation of a phospholipid based nanocapsule, with a colourimetric response and a mechanism for release of a dye. This research invested into finding the optimum phospholipid composition to obtain a stable and sensitive system. The signalling device uses the biomimetic aspect of vesicles to signal the presence of pathogenic bacteria via the effect of secreted toxins on the sensor interface. The modified phospholipid based sensors were immobilised into gel matrices and further developed to produce prototype dressings. The healing enhancing property was achieved by a thin layer of collagen coating. This work presents the results obtained from the initial modification process of the sensor, to incorporation of the vesicles into gel matrices through to development of First and Second Generation Prototype dressings. Verification of stability and sensitivity of the vesicles was carried out following each stage of development, using clinically isolated strains of pathogenic bacteria. Initial cytotoxicity and verification of the wound healing property was achieved by in vitro cell assays.

    Details

    Item Type Thesis (Doctor of Philosophy (PhD))
    CreatorsHong, S.-H.
    DepartmentsFaculty of Science > Chemistry
    Publisher StatementFinal_Thesis_7.12.13.pdf: © The Author
    StatusPublished
    ID Code43957

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