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Identification of a Glass Substrate to Study Cells Using Fourier Transform Infrared Spectroscopy: Are We Closer to Spectral Pathology? (2019)
Journal Article
Rutter, A., Crees, J., Wright, H., Raseta, M., van Pittius, D., Roach, P., & Sulé-Suso, J. (2019). Identification of a Glass Substrate to Study Cells Using Fourier Transform Infrared Spectroscopy: Are We Closer to Spectral Pathology?. Applied Spectroscopy, 74(2), 178-186. https://doi.org/10.1177/0003702819875828

The rising incidence of cancer worldwide is causing an increase in the workload in pathology departments. This, coupled with advanced analysis methodologies, supports a developing need for techniques that could identify the presence of cancer cells i... Read More about Identification of a Glass Substrate to Study Cells Using Fourier Transform Infrared Spectroscopy: Are We Closer to Spectral Pathology?.

Artificial Neural Network Analysis of Volatile Organic Compounds for the detection of lung cancer (2017)
Presentation / Conference Contribution
Butcher, J. B., Rutter, A. V., Wootton, A. J., Day, C. R., & Sulé-Suso, J. (2017, September). Artificial Neural Network Analysis of Volatile Organic Compounds for the detection of lung cancer. Presented at 17th Annual UK Workshop on Computational Intelligence, Cardiff, Wales, UK

Lung cancer is a widespread disease and it is well understood that systematic, non-invasive and early detection of this progressive and life-threatening disorder is of vital importance for patient outcomes. In this work we present a convergence of fa... Read More about Artificial Neural Network Analysis of Volatile Organic Compounds for the detection of lung cancer.

Effects of nilotinib on leukaemia cells using vibrational microspectroscopy and cell cloning (2016)
Journal Article
Siddique, M., Rutter, A., Wehbe, K., Cinque, G., Bellisola, G., & Sule-Suso, J. (2016). Effects of nilotinib on leukaemia cells using vibrational microspectroscopy and cell cloning. Analyst, 8(142), 1299-1307. https://doi.org/10.1039/c6an01914e

Over the last few years, both synchrotron-based FTIR (S-FTIR) and Raman microspectroscopies have helped to better understand the effects of drugs on cancer cells. However, cancer is a mixture of cells with different sensitivity/resistance to drugs. F... Read More about Effects of nilotinib on leukaemia cells using vibrational microspectroscopy and cell cloning.