Raman Imaging for Biomedical Applications in Clinics   297


        70.  B. W. D. de Jong, T. C. Bakker Schut, J. Coppens, K. P. Wolffenbuttel, D. J. Kok,
           and G. J. Puppels, “Raman Spectroscopic Detection of Changes in Molecular
           Composition of Bladder Muscle Tissue Caused by Outlet Obstruction,”
           Vibrational Spectroscopy, 32(1):57–65, 2003.
        71.  P. Crow, B. Barrass, C. Kendall, M. Hart-Prieto, M. Wright, R. Persad, and N.
           Stone, “The Use of Raman Spectroscopy to Differentiate between Different
           Prostatic Adenocarcinoma Cell Lines,” British Journal of Cancer, 92:2166–2170,
           2005.
        72.  C. M. Krishna, G. D. Sockalingum, B. M. Vadhiraja, K. Maheedhar, A. C. K. Rao,
           L. Rao, L. Venteo, et al., “Vibrational Spectroscopy Studies of Formalin-Fixed
           Cervix Tissues,” Biopolymers, 85(3):214–221, 2006.
        73.  I. A. Boere, T. C. Bakker Schut, J. van den Boogert, R. W. F. de Bruin, and G. J.
           Puppels, “Use of Fibre Optic Probes for Detection of Barrett’s Epithelium in the
           Rat Oesophagus by Raman Spectroscopy,” Vibrational Spectroscopy, 32:47–55,
           2003.
        74.  C. Kendall, N. Stone, N. Shepherd, K. Geboes, B. Warren, R. Bennett, and H.
           Barr, “Raman Spectroscopy, a Potential Tool for the Objective Identification
           and Classification of Neoplasia in Barrett’s Oesophagus,” Journal of Pathology,
           200:602–609, 2003.
        75.  S. W. E. van de Poll, K. Kastelijn, T. C. Bakker Schut, C. Strijder, G. Pasterkamp,
           G. J. Puppels, and A. van der Laarse, “On-Line Detection of Cholesterol and
           Calcification by Catheter Based Raman Spectroscopy in Human Atherosclerotic
           Plaque Ex Vivo,” Heart, 89:1078–1082, 2003.
        76.  S. W. E. van de Poll, T. C. Bakker Schut, A. van der Laarse, and G. J. Puppels, “In Situ
           Investigation of the Chemical Composition of Ceroid in Human Atherosclerosis
           by Raman Spectroscopy,” Journal of Raman Spectroscopy, 33:544–551, 2002.
        77. K.  Das, N. Stone, C. Kendall, C. Fowler, and J. Christie-Brown, “Raman
           Spectroscopy of Parathyroid Tissue Pathology,”  Lasers in Medical Science,
           21:192–197, 2006.
        78.  L. Fu and M. Gu, “Fibre-Optic Nonlinear Optical Microscopy and Endoscopy,”
           Journal of Microscopy, 226(3):195–206, 2007.
        79.  T. D. Wang and J. van Dam, “Optical Biopsy: A New Frontier in Endoscopic
           Detection and Diagnosis,” Clinical Gastroenterology and Hepatology, 2(9):744–753,
           2004.
        80.  T. Dieing and O. Hollricher, “High Resolution, High Speed Confocal Raman
           Imaging,” Vibrational Spectroscopy, 48(1):22–27, 2008.
        81. L.  Duponchel, P. Milanfar, C. Ruckebusch, and J.-P. Huvenne, “Super-
           Resolution and Raman Chemical Imaging: From Multiple Low Resolution
           Images to a High Resolution Image,” Analytica Chimica Acta, 607:168–175,
           2008.
        82. G.  Evans, “High Quality Imaging and Spectrographic Data  Available in
           Minutes, Not Hours,” Renishaw Biophotonics International, 2:28–32, 2008.
        83.  H. Grahn and P. Geladi (eds), Techniques and Applications of Hyperspectral Image
           Analysis, Wiley, Chichester, 2007, ISBN: 978-0-470-01086-0.