Biotechnology & Biotechnological Equipment 27 (6), 4200 - 4207 (2013)http://dx.doi.org/10.5504/BBEQ.2013.0106
MEDICAL BIOTECHNOLOGY
APPLICATION OF FOURIER TRANSFORM INFRARED SPECTROSCOPY FOR TUMOR DIAGNOSIS
Desislava Simonova, Iliana Karamancheva University of Chemical Technology and Metallurgy, Sofia, Bulgaria>
Correspondence to: Iliana Karamancheva E-mail: ilianak@uctm.edu
Published 18 December 2013
Abstract The absence of sufficient reliable methods for early detection of cancers requires a search for new and more effective techniques for screening and prevention. The discovery and introduction of appropriate techniques to test risk groups would increase the chances of successful treatment and subsequently reduce mortality. Accurate diagnostic tests and minimally invasive procedures are a main requirement for cost-effective screening tests. Fourier transform infrared spectroscopy (FTIR) is a non-invasive technology and can detect changes in a functional group in molecules from tissues or cells. The changes can be visualized by a spectrum of wavenumbers in the mid infrared range (4000 to 400 cm-1 ). FTIR has shown promises as a sensitive diagnostic tool to distinguish malignant from normal cells in cancers including tumors of colon, ovaries, breast, skin, cervix, lung and oesophagus. The biochemical changes are often observed between tumor and normal cells within a wavenumber range known as the “fingerprint region” (encompassing 1800 to 950 cm-1 ). The aim of this review is to summarize the application of FTIR for diagnosis of different types of cancer cells.
Keywords FTIR spectroscopy, cancer diagnostics, early detection, absorption spectra
Hide ReferencesAuger M., Jarrell H.C., Smith I.C., Wong P.T., Siminovitch D.J., Mantsch H.H. (1987) Biochemistry, 26 , 8513-8516.Banyay M., Sarkar M., Graslund A. (2003) Biophys. Chem., 104 , 477-488.Bellamy L. (1954) Infrared Spectra of Complex Molecules, John Wiley & Sons Inc., USA, p. 31.Bonnier F., Rubin S., Venteo L., Murali Krishna C., Pluot M., Baehrel B. (2006) Biochim. Biophys. Acta, 1758 , 968-973.Cameron D.G., Moffatt D.J. (1984) J. Testing Eval., 12 , 78-85.Chang J.I., Huang Y.B., Wu P.C., Chen C.C., Huang S.C., Tsai Y.H. (2003) Gynecol. Oncol., 91 (3), 577-583.Chiriboga L., Yee H., Diem M., Wood B. (2002) Gynecol. Oncol., 85 , 170-174.Ci Y., Gao T., Feng J., Gio Z. (1999) Applied Spectrosc., 53 (3), 312-315.Demos S., Vogel A., Gandjbakhche A. (2006) J. Mammary Gland Biol. Neoplasia, 11 , 165-181.Dukor R.K. (2001) In: Handbook of Vibrational Spectroscopy, Volume 5 (J.M. Chalmers, P.R. Griffiths, Eds.), John Wiley & Sons Inc., New York.Franck P., Nabet P., Dousset B. (1998) Cell Mol. Biol., 44 , 273-275.Gao T., Feng J., Ci Y. (1999) Anal. Cell Pathol., 18 , 87-93.Gazi E., Baker M., Dwyer J., Lockyer N.P., Gardner P., Shanks J.H., Reeve R.S., Hart C.A., Clarke N.W., Brown M.D. (2006) Eur. Urol., 50 , 750-760.Guan Y., Thomas Jr. (1996) Biopolymers, 39 , 813-835.Haringsma J., Tytgat G.N. (1999) Baillieres Best Pract. Res. Clin. Gastroenterol., 13 , 1-10.Jackson M., Mantsch H. (1996) FTIR Spectroscopy in Clinical Scienses, Biomedical Application of Spectroscopy (R. Clark, R. Hester, Eds), John Wiley & Sons Inc., USA.Karamancheva I., Dobrev I., Milev A., Dimitrova M. (2009) J. of the University of Chemical Technology and Metallurgy, 44 (3), 297-300.Kondepati V.R., Heise H.M., Oszinda T., Mueller R., Keese M., Backhaus J. (2008) Vibrational Spectroscopy, 46 , 150-157.Kortum R.R. (1996) Ann. Rev. Phys. Chem., 47 , 555-606.Kondepati V., Heise M., Oszinda T. (2008) Vibrational Spectroscopy, 46 , 150-157.Krafft C., Sergo V. (2006) Spectroscopy, 20 , 195-218.Lasch P., Haensch W., Lewis N., Kidder L.H., Naumann D. (2002) Appl. Spectrosc., 48 , 1-10.Lasch P., Haensch W., Naumann D., Diem M. (2004) Biochim. Biophys. Acta, 1688 (2), 176-186.Lewis P., Lewis K. (2010) BMC Cancer, 10 , 640.Lin S.Y., Li M.J., Cheng W.T. (2007) Spectroscopy, 21 , 1-30.Li Q.B., Sun X.J., Xu Y.Z., Yang L.M., Zhang Y.F., Weng S.F., Shi J.S., Wu J.G. (2005) Clin. Chem., 51 (2), 346-350.Li Q.B., Xu Z., Zhand N.W. (2005) World J. Gastroenterology, 11 (3), 327-330.Malins D.C., Gilman N.K., Green V.M., Wheeler T.M., Barker E.A., Anderson K.M. (2005) Proc. Natl. Acad. Sci. USA, 102 (52), 19093-19096.Malins D.C., Gunselman S.M. (1994) Proc. Natl. Acad. Sci. USA, 91 , 13038-13041.Mantsch H.H., Choo-Smith L., Shaw R.A. (2002) Vib. Spectroscopy, 30 , 31-41.Markovich R.J., Pidgeon C. (1991) Pharm. Res., 8 , 663-675.Maziak D.E., Do M.T., Shamji F.M., Sundaresan S.R., Perkins D.G., Wong P.T. (2007) Cancer Detect. Prev., 31 , 244-253.Mc Donal R.S. (1986) Anal. Chem., 58 , 1906-1925.Mourant J.R., Short K.W., Carpenter S., Kunapareddy N., Coburn L., Powers T.M., Freyer J.P. (2005) J. Biomed. Opt., 10 (3), 031106.Murali Krishna C., Kegelaer G., Adt I., Rubin S., Kartha V.B., Manfait M. (2006) Biopolymers, 82 , 462-470.Murali Krishna C., Sockalingum G.D., Bhatra R.A., Venteo L., Kushtagi P., Pluot M. (2007) Anal. Bioanal. Chem., 387 , 1649-1656.Parker F.S. (1971) Application of Infrared Spectroscopy in Biochemistry, Biology and Medicine, Plenum, New York.Pikkula B.M., Shuhatovich O., Price R.L., Serachitopol D.M., Follen M., McKinnon N. et al. (2007) J. Biomed. Opt., 12 , 034014.Ramanujam N. (2000) Neoplasia, 2 , 89-117.Ranjana M., Alka G., Ajeet K. (2007) Indian Journal of Experimental Biology, 45 , 71-76.Ranjana M., Gunjan T. (2010), Journal of Ovarian Research, 3 , 27.Rigas B., Morgello S. (1990) Proc. Natl. Acad. Sci. USA, 87 , 8140-8144.Sahu R.K., Mordechai S. (2005) Future Oncol., 1 (5), 635-647.Sanchez-Ruiz J.M., Martinez-Carrion M.A. (1988) Biochemistry, 27 , 3338-3342.Sheeler P., Bianchi D.E. (1980) Cell Biology, John Wiley and Sons Ink., New York.Sokolov K., Follen M., Kortum R.R. (2002) Curr. Opin. Chem. Biol. 6 , 651-658.Stuart B.H. (2004) Infrared Spectroscopy: Fundamentals and Applications, John Wiley & Sons Inc., New York.Swai H., Timasheff S.N. (1969) In: Structure and Stability of Biological Macromolecules (G.D. Fasman, Ed.), Dekker, New York, 641-659.Takahashi H., French S.W., Wong P.T.T. (1989) Hepatology, 10 , 705.Takahashi H., French S.W., Wong P.T.T. (1991) Alcohol Clin. Exp. Res., 15 , 219-223.Tfayli A., Piot O., Durlach A., Bernard P., Manfait M. (2005) Biochim. Biophys. Acta, 1724 , 262-269.Wagnieres G.A., Star W.M., Wilson B.C. (1998) Photochem. Photobiol., 68 , 603-632.Wang J., Shi J. (2003) World Journal of Gastroenterology, 9 (9), 1897-1899.Wang H.P., Wang H.C., Huang Y.J. (1997) Sci. Total. Environ., 204 , 283-287.Wong P. (1987) Current Perspective in High Pressure Biology (R.E. Margulis, Ed.), Academic Press, London, 287-314.Wong P. (1987) High Pressure Chemistry and Biochemistry (R. Eldik, J. Jonas, Eds.), Reidel, Dordrecht, The Netherlands, NATO ASI Ser. C, 197 , 381-400.Wong P.T.T. (1987) Vibrational Spectra and Structure (J.R. Durig, Ed.), Elsevier, Amsterdam, 16 , 357-445.Wong P.T.T., Goldstein S.M., Grekin R.C., Godwin T.A., Pivik C., Rigas B. (1993) Cancer Research, 53 , 762-765.Wong P.T.T., Mantsch H.H. (1988) Chem. Phys. Lipids, 46 , 213-224.Wong P.T.T., Papavassiliou E.D., Rigas B. (1991) Appl. Spectrosc., 45 (9), 1563-1567.Wong P., Wong R., Caputo T. (1991) Proc. Natl. Aca. Sci. USA, 88 , 10988-10992.Yang Y., Sule-Suso J., Sockalingum G.D., Kegelaer G., Manfait M., El Haj A.J. (2005) Biopolymers, 78 (6), 311-317.Yano K., Ohoshima S., Gotou Y., Kumaido K., Moriguchi T., Katayama H. (2000) Anal. Biochem., 15 , 218-225.Yano K., Ohoshima S., Shimizu Y., Moriguchi T., Katayama H. (1996) Cancer Lett., 110 , 29-34.