Peter Gardner is currently a senior lecturer in the school of Chemical Engineering and Analytical Science, based in the Manchester Interdisciplinary Biocentre. His research interests revolve round vibrational spectroscopy with focus on analytical and bioanalytical/biomedical spectroscopy. Peter obtained his BSc in Chemistry from the University of East Anglia before completing his PhD in Physical Chemistry in 1988 at the same institution under the supervision of Professor Mike Chesters. This was followed by two successful postdoctoral research appointments at the Fritz-Haber Institute der Max-Planck Gesselschaft in Berlin (1988-92) with Professor Alex Bradshaw looking at infrared spectroscopy of surface oscillatory reactions and then the Department of Chemistry at the University of Cambridge (1992-1994) with Sir David King, again in the field of surface vibrational spectroscopy.
In 1994 he Joined the Chemistry Department at UMIST as a Lecturer and was promoted to Senior Lecturer in 2000. In 2004 upon the merger to form The University of Manchester he moved to the School of Chemical Engineering and Analytical Science as part of the Instrumentation and Analytical Science group.
His early research was in the field of infrared spectroscopy and surface science with a special interest in infrared and far infrared spectroscopy using synchrotron radiation. He still maintaines a strong interest in far IR and THz spectroscopy of chemical and biological systems. In 2001 he moved into the field of bioanalytical spectroscopy, particularly infrared microspectroscopy and this has become the main focus of his research. He has now an internationally recognised biospectroscopy group which has focused on the use of infrared spectroscopy in the study of prostate and other urological cancers. In collaboration with the Paterson institute for Cancer Research it has been shown that infrared microspectroscopy can be used to distinguish different grades of cancer within tissue biopsy samples. In principle therefore it might be possible to develop an automated diagnostic system using infrared spectroscopy to augment routine histological pathology.
In addition using the infrared microspectroscopy at various synchrotron facilities e.g. Daresbury, Soleil, Trieste, infrared maps of single cancer cells have been obtained with sub-cellular resolution. It I hoped that this will enable to study how cells move through tissue providing a better understanding of metastasis.
Recently his group have been interested in unravelling spectral artefacts associated with single cell spectra. In collaboration with groups in Dublin and Norway significant progress has been made in developing correction algorithms.
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