Biomedical Engineering Reference
In-Depth Information
80. Tam, K., Armstrong, R. S., Carter, E. A., Lay, P. A., Mountford, C.,
Dowd, S., Himmelreich, U., and Russell, P. 2004. Raman spectroscopy
for breast cancer detection: A sample processing study. In Proceedings
of the XIX International Conference on Raman Spectroscopy, Victoria,
Australia: CSIRO Publishing, 457-457.
81. Abramczyk H., Placek I., Brozek-Pluska B., et al. 2008. Human breast tissue
cancer diagnosis by Raman spectroscopy.
Spectroscopy: An International Journal
22(2-3). 113-121.
82. Kast, R. E., Serhatkulu, G. K., Cao, A., et al. 2008. Raman spectroscopy can dif-
ferentiate malignant tumours from normal breast tissue and detect early neo-
plastic changes in a mouse model.
Biopolymers
89, 134-241.
83. Marzullo, A. C. D., Neto, O. P., Bitar, R., et al. 2007. FT-Raman spectra of the
border of infiltrating ductal carcinoma lesions.
Photomedicine and Laser Surgery
25, 455-460.
84. Sukuta, S., and Bruch, R. 1999. Factor analysis of cancer Fourier transform infra-
red evanescent wave fibreoptical (FTIR-FEW) spectra.
Lasers in Sur. and Med.
24,
382-388.
85. Cheng, W.-T., Liu, M.-T., Liu, H.-N., and Lin, S.-Y. 2005. Micro-Raman spectros-
copy used to identify and grade human skin pilomatrixoma.
Microscopy Research
and Technique
68, 75-79.
86. Kaminaka, S., Ito, T., Yamazaki, H., Kohoda, E., and Hamaguchi, H. 2002. Near-
infrared multichannel Raman spectroscopy toward real-time in vivo cancer
diagnosis.
J. Raman Spectrosc.
33, 498-502.
87. Sigurdsson, S., Philipsen, P. A., Hansen, L. K., Laesen, L., Gniadecka, M., and
Wulf, H. C. 2004. Detection of skin cancer by classification of Raman spectra.
IEEE Transcriptions on Biomedical Engineering
51(10), 1784-1793.
88. Gniadecka, M., Wulf, H. C., Mortensen, N. N., Nielsen, O. F., and Christensen,
D. H. 1997. Diagnosis of basal cell carcinoma by Raman spectroscopy.
J. Raman
Spectroscopy.
28, 125-129.
89. Panjehpour, M., Julius, C. E., Phan, M. N., and Vo-Dinh, T. 2002. Laser-induced
fluorescence spectroscopy for in vivo diagnosis of non-melanoma skin cancers.
Lasers in Sur. and Med.
31, 367-373.
90. Wong, P. T., Goldstein, S. M., Grekin, R. C., et al. 1993. Distinct infrared spectro-
scopic patterns of human basal cell carcinoma.
Cancer Res.
53, 762-765.
91. Lucassen, G. W., Van Veen, G. N., and Jansen, J. A. 1998. Band analysis of
hydrated human skin stratum corneum attenuated total reflectance Fourier
transform infrared spectra in vivo
. J. Biomed. Opt.
3, 267-280.
92. McIntosh, I. M., Jackson, M., Mantsch, H. H., et al. 1999. Infrared spectra of
basal cell carcinomas are distinct from non-tumour-bearing skin components.
J. Invest. Dermatol.
112, 951-956.
93. Barry, B. W., Edwards, H. G. M., and Williams, A. C. 1992. Fourier transform
Raman and infrared vibrational study of human skin: Assignment of spectral
bands.
J. Raman Spectroscopy.
23, 641-645.
94. Huang, Z., Lui, H., McLean, D. I., Korbelik, M., and Zeng, H. 2005. Raman
spectroscopy in combination with background near-infrared autofluores-
cence enhances the in vivo assessment of malignant tissues.
Photochemistry and
Photobiology
81, 1219-1226.
95. Caspers, P. J., Lucassen, G. W., Carter, E. A., Bruining, H. A., and Puppels, G.
J. 2001. In vivo confocal Raman microspectroscopy of the skin: Non-invasive
Search WWH ::
Custom Search