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Polymer microspheres for microbial detection.

Atthakor, Wisrutta (2009) Polymer microspheres for microbial detection. PhD thesis, Edinburgh Napier University.

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      Abstract/Description

      Microspheres have become an important material in the biomedical and environmental sciences,
      particularly for use in the detection of pathogenic microorganisms and toxins as well as for use as
      carriers in drug delivery. In this study, their use in microbial detection, with particular emphasis on
      immunochromatographic assays, was investigated. Two main types of microspheres were studied:
      colloidal gold and polymeric. The original plan to combine the use of colloidal gold and fluorescentdye-
      labelled PMMA microspheres as a signal generator, in order to enhance detection signals and
      improve detection limit, was abandoned when preliminary detection experiments showed that the use
      of colloidal gold was not so beneficial after all, taking into account the amount of light lost to
      absorption by the gold particles. Therefore, it was decided to use Rhodamine B-labelled PMMA
      microspheres. PMMA particles, both unlabelled and internally labelled with Rhodamine B, were
      synthesised by emulsion polymerisation and yielded monodisperse particles of around 200 nm and
      300 nm, respectively. An attempt to co-polymerise MMA with HEMA to form 200 nm-sized
      monodisperse P(MMA-HEMA) microspheres in order to create functional –OH groups on the
      microsphere surface to be used in chemical covalent coupling with monoclonal antibodies resulted in
      aggregated microspheres and non-uniform particles, and were therefore not used for covalent
      coupling. Attachment of monoclonal antibodies onto the surface of Rhodamine-B labelled PMMA
      microspheres by passive adsorption also resulted in aggregated particles. Diffusion and detection
      experiments were carried out on the Rhodamine-B labelled PMMA microspheres. Diffusion of
      PMMA microspheres along a nitrocellulose strip was found to be 42% slower than the diffusion of
      colloidal gold along a nitrocellulose strip. Using a spectrophotometer, detection experiments were
      performed on dilutions of an original stock solution of 1% w/v PMMA in distilled water. The
      detection limit was found to be of the order of 10-3.

      This study has investigated the materials that constitute an immunochromatographic assay and has
      illustrated some of the complications associated with the synthesis of copolymer microspheres and
      immobilisation of antibodies onto their surfaces. Further work on how to improve on the methods
      discussed in this study have also been recommended.

      Item Type: Thesis (PhD)
      Uncontrolled Keywords: Microspheres: Applications; Biomedicine; Environmental science; Microbial detection; Immunochromographic assays; Colloidal gold; Fluorescent dye labelled PMMA; Rhodamine-B labelled PMMA; Methodology; Evaluations; Benefits;
      University Divisions/Research Centres: Faculty of Engineering, Computing and Creative Industries > School of Engineering and the Built Environment
      Dewey Decimal Subjects: 600 Technology > 610 Medicine & health > 610 Medicine & health
      600 Technology > 620 Engineering > 620 Engineering & allied operations > 620.5 Nanotechnology & nanoparticles
      500 Science > 570 Life sciences; biology > 579 Microorganisms, fungi & algae
      Library of Congress Subjects: R Medicine > R Medicine (General)
      Q Science > QR Microbiology
      Item ID: 3049
      Depositing User: Dr. David A. Cumming
      Date Deposited: 11 Nov 2009 17:07
      Last Modified: 31 Dec 2011 01:38
      URI: http://researchrepository.napier.ac.uk/id/eprint/3049

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