| 1 |
Risk prediction by Raman spectroscopy for disease-free survival in oral cancers |
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| Atanu Bhattacharjee, Arti Hole, Akshat Malik, Aditi Sahu, S. P. Singh, Atul Deshmukh, Sudhir Nair, Pankaj Chaturvedi, C. Murali Krishna |
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| Lasers in Medical Science. 2021; 36(8): 1691 |
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| [Pubmed] [Google Scholar] [DOI] |
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| 2 |
A gated material as immunosensor for in-tissue detection of IDH1-R132H mutation in gliomas |
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| Luis Pla, Félix Sancenón, M. Carmen Martínez-Bisbal, Ricardo Prat-Acín, Inmaculada Galeano-Senabre, Marina Botello-Marabotto, Sarai Palanca-Suela, Elena Aznar, Sara Santiago-Felipe, Ramón Martínez-Máńez |
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| Sensors and Actuators B: Chemical. 2021; 345: 130406 |
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| 3 |
Molecular and radiological characterization of glioblastoma multiforme using magnetic resonance imaging |
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| Fazal M. ARAIN, Anjiya SHAIKH, Muhammad WAQAS, Muhammad U. TARIQ, Muhammad F. RAGHIB, Ghulam HAIDER, Muhammad S. SHAMIM, Fatima MUBARAK, Sheema H. HASSAN, Syed A. ENAM, Adnan A. JABBAR |
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| Journal of Neurosurgical Sciences. 2021; 65(1) |
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| 4 |
The accuracy of Raman spectroscopy in the detection and diagnosis of oral cancer: A systematic review and meta-analysis |
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| Qi Zhan, Yuan Li, Yihang Yuan, Jinchi Liu, Yi Li |
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| Journal of Raman Spectroscopy. 2020; 51(12): 2377 |
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| 5 |
Specific monoclonal antibodies against IDH1/2 mutations as diagnostic tools for gliomas |
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| Yukinari Kato |
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| Brain Tumor Pathology. 2014; |
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| 6 |
Raman spectroscopic studies of oral cancers: correlation of spectral and biochemical markers |
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| S. P. Singh,C. Murali Krishna |
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| Anal. Methods. 2014; 6(21): 8613 |
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| [Pubmed] [Google Scholar] [DOI] |
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| 7 |
Raman mapping of oral tissues for cancer diagnosis |
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| Amuthachelvi Daniel,Aruna Prakasarao,Balu David,Leena Joseph,C. Murali Krishna,Koteeswaran D,Singaravelu Ganesan |
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| Journal of Raman Spectroscopy. 2014; : n/a |
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| 8 |
Raman spectroscopic characterization of urine of normal and oral cancer subjects |
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| Brindha Elumalai,Aruna Prakasarao,Bharanidharan Ganesan,Koteeswaran Dornadula,Singaravelu Ganesan |
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| Journal of Raman Spectroscopy. 2014; : n/a |
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| 9 |
Alacsony grádusú glialis daganatok elo{combining double acute accent}fordulása és molekuláris patológiája | [Occurence and molecular pathology of low grade gliomas] |
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| Murnyák, B., Csonka, T., Klekner, Á., Hortobágyi, T. |
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| Ideggyogyaszati Szemle. 2013; 66(9-10): 305-311 |
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| 10 |
Magas grádusú gliomák elo{combining double acute accent}fordulása és molekuláris patológiája | [Occurence and molecular pathology of high grade gliomas] |
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| Murnyák, B., Csonka, T., Hegyi, K., (...), Klekner, Á., Hortobágyi, T. |
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| Ideggyogyaszati Szemle. 2013; 66(9-10): 312-321 |
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| 11 |
Transcutaneous in vivo Raman spectroscopy: Detection of age-related changes in mouse breast |
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| T. Bhattacharjee,G. Maru,A. Ingle,C. Murali Krishna |
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| Vibrational Spectroscopy. 2013; 67: 80 |
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| 12 |
In vivo Raman spectroscopy of oral buccal mucosa: a study on malignancy associated changes (MAC)/cancer field effects (CFE) |
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| S. P. Singh,Aditi Sahu,Atul Deshmukh,Pankaj Chaturvedi,C. Murali Krishna |
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| The Analyst. 2013; 138(14): 4175 |
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| 13 |
Swiss bare mice: a suitable model for transcutaneous in vivo Raman spectroscopic studies of breast cancer |
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| T. Bhattacharjee,Piyush Kumar,G. Maru,A. Ingle,C. Murali Krishna |
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| Lasers in Medical Science. 2013; |
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