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    • Performance of mid infrared spectroscopy in skin cancer cell type identification 

      Kastl, L.; Kemper, B.; Lloyd, G. R.; Nallala, J.; Stone, Nick; Naranjo, V.; Penaranda, F.; Schnekenburger, J. (SPIE, 2017-02-17)
      Marker free optical spectroscopy is a powerful tool for the rapid inspection of pathologically suspicious skin lesions and the non-invasive detection of early skin tumors. This goal can be reached by the combination of ...
    • Mirrored stainless steel substrate provides improved signal for Raman spectroscopy of tissue and cells. 

      Lewis, A.T.; Gaifulina, R.; Isabelle, M.; Dorney, J.; Woods, M. L.; Lloyd, G. R.; Lau, K.; Rodriguez-Justo, M.; Kendall, C.; Stone, Nick; Thomas, G. M. (Wiley, 2017-01)
      Raman spectroscopy (RS) is a powerful technique that permits the non-destructive chemical analysis of cells and tissues without the need for expensive and complex sample preparation. To date, samples have been routinely ...
    • Assessment of Compressive Raman versus Hyperspectral Raman for Microcalcification Chemical Imaging 

      Scotté, C.; de Aguiar, H. B.; Marguet, D.; Green, E. M.; Bouzy, P.; Vergnole, S.; Winlove, C. P.; Stone, Nick; Rigneault, H. (American Chemical Society, 2018-05-15)
    • Noninvasive Determination of Depth in Transmission Raman Spectroscopy in Turbid Media Based on Sample Differential Transmittance. 

      Gardner, B.; Stone, Nick; Matousek, P. (American Chemical Society, 2017-09-19)
      Here we propose a simple noninvasive approach to determine the depth of a buried object using transmission Raman spectroscopy. In accordance with theory, the photons arising from spectral peaks that are suitably separated ...
    • Determination of Depth in Transmission Raman Spectroscopy in Turbid Media Using a Beam Enhancing Element. 

      Vardaki, M. Z.; Sheridan, H.; Stone, Nick; Matousek, P. (Sage, 2017-08)
      This study demonstrates experimentally a method to enable prediction of depth of a chemical species buried in a turbid medium by using transmission Raman spectroscopy alone. The method allows the prediction of the depth ...
    • Developing Raman spectroscopy as a diagnostic tool for label-free antigen detection. 

      Lewis, A. T.; Gaifulina, R.; Guppy, N. J.; Isabelle, M.; Dorney, J.; Lloyd, G. R.; Rodriguez-Justo, M.; Kendall, C.; Stone, Nick; Thomas, G. M. (Wiley, 2017-07-12)
      For several decades, a multitude of studies have documented the ability of Raman spectroscopy (RS) to differentiate between tissue types and identify pathological changes to tissues in a range of diseases. Furthermore, ...
    • High sensitivity non-invasive detection of calcifications deep inside biological tissue using Transmission Raman Spectroscopy. 

      Ghita, A.; Matousek, P.; Stone, Nick (Wiley, 2017-06-21)
      The aim of this research was to develop a novel approach to probe non-invasively the composition of inorganic chemicals buried deep in large volume biological samples. The method is based on advanced Transmission Raman ...
    • Multimodal registration of optical microscopic and infrared spectroscopic images from different tissue sections: An application to colon cancer 

      Peñaranda, F.; Naranjo, V.; Verdú-Monedero, R.; Lloyd, G. R.; Nallala, J.; Stone, Nick (Elsevier, 2017-09)
      Fourier transform infrared (FTIR) spectroscopic images provide rich information of the biochemical tissue composition that can be analyzed together with other microscopy modalities to perform objective pathological diagnoses. ...
    • Discrimination of skin cancer cells using Fourier transform infrared spectroscopy. 

      Peñaranda, F.; Naranjo, V.; Lloyd, G. R.; Kastl, L.; Kemper, B.; Schnekenburger, J.; Nallala, J.; Stone, Nick (Elsevier, 2018-09-01)
      Fourier transform infrared (FTIR) spectroscopy is a highly versatile tool for cell and tissue analysis. Modern commercial FTIR microspectroscopes allow the acquisition of good-quality hyperspectral images from cytopathological ...
    • Determination of inclusion depth in ex vivo animal tissues using surface enhanced deep Raman spectroscopy 

      Stone, Nick (Wiley, 2020-01)
      This work presents recent developments in spatially offset and transmission Raman spectroscopy for noninvasive detection and depth prediction of a single SERS inclusion located deep inside ex vivo biological tissues. The ...
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    AuthorStone, Nick (10)Lloyd, G. R. (5)Matousek, P. (3)Nallala, J. (3)Naranjo, V. (3)Dorney, J. (2)Gaifulina, R. (2)Isabelle, M. (2)Kastl, L. (2)Kemper, B. (2)... View MoreSubject
    Biochemistry (12)
    Biomarkers (1)congenital abnormalities (1)HNRNPH1 gene (1)intellectual disability (1)microcephaly (1)whole exome sequencing (1)... View MoreDate Issued2017 (7)2018 (2)2020 (2)2019 (1)Has File(s)No (11)Yes (1)

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