Biomedical Engineering Reference
In-Depth Information
15. Yang, Y., Sule-Suso, J., Sockalingum, G. D., Kegelaer, G., Manfait, M., and El Haj,
A. J. 2005. Study of tumour cell invasion by Fourier transform infrared micro-
spectroscopy. Biopolymers 78, 311-317.
16. Min, Y. K., Yamamoto, T., Kohoda, E., Ito, T., and Hamaguchi, H. 2005. 1064 nm
near-infrared multichannel Raman spectroscopy of fresh human lung tissues,
J. Raman Spectrosc . 36, 73-76.
17. Kaminaka, S., Yamazaki, H., Ito, T., Kohoda, E., and Hamaguchi, H. 2001. Near-
infrared Raman spectroscopy of human lung tissues: Possibility of molecular-
level cancer diagnosis. J. Raman Spectrosc . 32, 139-141.
18. Huleihel, M., Salman, A., Erukhimovich, V., Ramesh, J., Hammody, Z., and
Mordechai, S. 2002. Novel optical method for study of viral carcinogenesis
in vitro. J. Biochem. Biophys. Methods . 50, 111-121.
19. McIntosh, L. M., Jackson, M., Mantsch, H. H., Stranc, M. F., Pilavdzic, D., and
Crowson, A. N. 1999. Infrared spectra of basal cell carcinomas are distinct from
non-tumour-bearing skin components. J. Invest. Dermatol . 112, 951-956.
20. Andrus, P. G. 2006. Cancer monitoring by FTIR spectroscopy. Technol. Cancer.
Res. Treat . 5, 157-167.
21. Schultz, H., and Baranska, M. 2007. Identification and qualification of valuable
plant substances by IR and Raman spectroscopy. Vibrational Spectrosc. 43, 13-25.
22. Lakshmi, R. J., Kartha, V. B., Krishna, C. M., Solomon, J. G. R., Ullas, G., and
Uma Devi, P. 2002. Tissue Raman spectroscopy for the study of radiation dam-
age: Brain irradiation of mice. Radiat. Res. 157, 175-182.
23. Feld, M. S., Manoharan, R., Salenius. J., Orenstein-Carndona, J., Romer, T. J.,
Brennan III, J. F., Dasari, R. R., and Wang, Y. 1995. Detection and characterization
of human tissue lesions with near-infrared Raman spectroscopy. SPIE Advances
in Fluorescence Sensing Technology 2388, 99-104.
24. Chan, J. W., Taylor, D. S., Zwerdling, T., Lane, S. T., Ihara, K., and Huser, T. 2006.
Micro-Raman spectroscopy detects individual neoplastic and normal hemato-
poietic cells. Biophys . J . 90, 648-656.
25. Mahadevan-Jansen, A., and Richards-Kortum, R. 1997. Raman spectroscopy
for cancer detection, 19th International Conference IEEE EMBS Chicago, IL,
October 30-November 2.
26. Hanlon, E. B., Manoharan, R., Koo, T. W., Shafer, K. E., Motz, J. T., Fitzmaurice,
M., Kramer, J. R., Itzkan, I., Dasari, R. R., and Feld, M. S. 2000. Prospects for
in vivo Raman spectroscopy. Phys. Med. Biol . 45, 1-59.
27. Wang, H. P., Wang, H.-C., and Huang, Y.-J. 1997. Microscopic FTIR studies of
lung cancer cells in pleural fluid. Sci. Total Environ. 204, 283-287.
28. Wood, B. R., Quinn, M. A., Burden, F. R., and McNaughton, D. 1996. An inves-
tigation into FT-IR spectroscopy as a bio-diagnostic tool for cervical cancer.
Biospectroscopy 2, 143-153.
29. Wood, B. R., Quinn, M. A., Tait, B., Ashdown, M., Hislop, T., Romeo, M., and
McNaughton, D. 1998. FTIR microspectroscopic study of cell types and poten-
tial confounding variables in screening for cervical malignancies. Biospectroscopy
4, 75-91.
30. Gazi, E., Dwyer, J., Gardner, P., Ghanbari-Siakhani, A., Wde, A. P., Lockyer, N.
P., Vickerman, J. C., Clarke, N. W., Shanks, J. H., Scott, L. J., Hart, C. A., and
Brown, M. 2003. Applications of Fourier transform infrared microspectroscopy in
studies of benign prostate and prostate cancer: A pilot study. J. Pathol . 201, 99-108.
Search WWH ::




Custom Search