Home About us Editorial board Ahead of print Current issue Search Archives Submit article Instructions Subscribe Contacts Login 

    Article Cited by others

REVIEW ARTICLE

An overview on applications of optical spectroscopy in cervical cancers

Chilakapati Murali Krishna, Sockalingum G D, Vidyasagar M S, Manfait M, Fernanades Donald J, Vadhiraja B M, Maheedhar K

Year : 2008| Volume: 4| Issue : 1 | Page no: 26-36

   This article has been cited by
 
1 Methods of IR spectroscopy in monitoring of chemotherapy of oncological pathologies using palladium complexes
G. B. Tolstorozhev,M. V. Bel’kov,I. V. Skornyakov,V. I. Pekhn’o,A. N. Kozachkova,N. V. Tsarik,I. P. Kutsenko,N. I. Sharykina
Optics and Spectroscopy. 2014; 117(5): 850
[Pubmed]  [Google Scholar] [DOI]
2 Fluorescence spectroscopic characterization of salivary metabolites of oral cancer patients
Manoharan Yuvaraj,Kanniyappan Udayakumar,Vadivel Jayanth,Prakasa Rao Aruna,Ganesan Bharanidharan,Dornadula Koteeswaran,Munusamy Balu David,Chilakapati Murali krishna,Singaravelu Ganesan
Journal of Photochemistry and Photobiology B: Biology. 2013;
[Pubmed]  [Google Scholar] [DOI]
3 Profiling serologic biomarkers in cirrhotic patients via high-throughput Fourier transform infrared spectroscopy: toward a new diagnostic tool of hepatocellular carcinoma
Xiaoqing Zhang,Gérard Thiéfin,Cyril Gobinet,Valérie Untereiner,Imane Taleb,Brigitte Bernard-Chabert,Alexandra Heurgué,Caroline Truntzer,Patrick Ducoroy,Patrick Hillon,Ganesh D. Sockalingum
Translational Research. 2013; 162(5): 279
[Pubmed]  [Google Scholar] [DOI]
4 Vibrational spectroscopy: a tool being developed for the noninvasive monitoring of wound healing
Nicole J. Crane, Eric A. Elster
Journal of Biomedical Optics. 2012; 17(1): 010902
[HTML Full text]  [Google Scholar] [DOI]
5 Optical spectroscopy: current advances and future applications in cancer diagnostics and therapy
DJ Evers, BHW Hendriks, GW Lucassen, TJM Ruers
Future Oncology. 2012; 8(3): 307
[HTML Full text]  [Google Scholar] [DOI]
6 Application of vibrational microspectroscopy to biology and medicine
Singh, B. and Gautam, R. and Kumar, S. and Vinay Kumar, B.N. and Nongthomba, U. and Nandi, D. and Mukherjee, G. and Santosh, V. and Somasundaram, K. and Umapathy, S.
Current Science. 2012; 102(2): 232-244
[Pubmed]  [Google Scholar]
7 Design of micro-arrayed multichannel optical filter for multispectral colposcope
Zhang, J.-H. and Zhang, C.-T. and Zhuo, Y. and Chen, Y.-P. and Lin, S. and Kong, L.-H.
Guangxue Jingmi Gongcheng/Optics and Precision Engineering. 2012; 20(9): 2035-2040
[Pubmed]  [Google Scholar]
8 Raman spectroscopy for clinical oncology
Fenn, M.B. and Xanthopoulos, P. and Pyrgiotakis, G. and Grobmyer, S.R. and Pardalos, P.M. and Hench, L.L.
Advances in Optical Technologies. 2011; (213783)
[Pubmed]  [Google Scholar]
9 Noninvasive assessment of hepatic fibrosis in patients with chronic hepatitis C using serum Fourier transform infrared spectroscopy
Elodie Scaglia, Ganesh D. Sockalingum, Juergen Schmitt, Cyril Gobinet, Nathalie Schneider, Michel Manfait, Gérard Thiéfin
Analytical and Bioanalytical Chemistry. 2011;
[HTML Full text]  [Google Scholar] [DOI]
10 Full range characterization of the Raman spectra of organs in a murine model
Naiyan Huang, Michael Short, Jianhua Zhao, Hequn Wang, Harvey Lui, Mladen Korbelik, Haishan Zeng
Optics Express. 2011; 19(23): 22892
[HTML Full text]  [Google Scholar] [DOI]
11 Raman Spectroscopy for Clinical Oncology
Michael B. Fenn,Petros Xanthopoulos,Georgios Pyrgiotakis,Stephen R. Grobmyer,Panos M. Pardalos,Larry L. Hench
Advances in Optical Technologies. 2011; 2011: 1
[Pubmed]  [Google Scholar] [DOI]
12 In-vitro micro-Raman study of tissue samples for detecting cervical and ovarian cancer with 785-nm laser excitation
Sharma, S.K., Kamemoto, L.E., Misra, A.K., Goodman, M.T., Luk, H.W., Killeen, J.L.
Progress in Biomedical Optics and Imaging. 2010; : art 76740I
[Pubmed]  [Google Scholar]
13 Early detection of premalignant changes in cell cultures using light-induced fluorescence spectroscopy
Bogomolny, E., Mordechai, S., Zwielly, A., Huleihel, M.
European Biophysics Journal. 2009; 38(7): 971-980
[Pubmed]  [Google Scholar]
14 Autofluorescence of breast tissues: Evaluation of discriminating algorithms for diagnosis of normal, Benign, and malignant conditions
Chowdary, M.V.P., Mahato, K.K., Kumar, K.K., Mathew, S., Rao, L., Krishna, C.M., Kurien, J.
Photomedicine and Laser Surgery. 2009; 27(2): 241-252
[Pubmed]  [Google Scholar]
15 Early detection of premalignant changes in cell cultures using light-induced fluorescence spectroscopy
E. Bogomolny,Shaul Mordechai,A. Zwielly,M. Huleihel
European Biophysics Journal. 2009; 38(7): 971
[Pubmed]  [Google Scholar] [DOI]
16 Autofluorescence of Breast Tissues: Evaluation of Discriminating Algorithms for Diagnosis of Normal, Benign, and Malignant Conditions
M.V.P. Chowdary,K.K. Mahato,K. Kalyan Kumar,Stanley Mathew,Lakshmi Rao,C. Murali Krishna,Jacob Kurien
Photomedicine and Laser Surgery. 2009; 27(2): 241
[Pubmed]  [Google Scholar] [DOI]
17 Biochemical correlation of Raman spectra of normal, benign and malignant breast tissues: A spectral deconvolution study
M. V. P. Chowdary,K. Kalyan Kumar,Stanley Mathew,Lakshmi Rao,C. Murali Krishna,Jacob Kurien
Biopolymers. 2009; 91(7): 539
[Pubmed]  [Google Scholar] [DOI]
18 Protein profile study of breast-tissue homogenates by HPLC-LIF
K. Kalyan Kumar,M. V. P. Chowdary,Stanley Mathew,Lakshmi Rao,C. Murali Krishna,Jacob Kurien
Journal of Biophotonics. 2009; 2(5): 313
[Pubmed]  [Google Scholar] [DOI]

 

Read this article