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    Publisher: Academic Journals Inc., USA
   
  Trends in Medical Research publishes original, peer-reviewed research work in all areas of medical and applied health sciences. Scope of the journal includes: Medicine, dentistry, nursing and allied health sciences, pharmacy, pathology, anatomy, surgery, physiology, pharmacology and toxicology.

Trends in Medical Research now accepting new submissions. Submit your best paper via online submission system.

  Editor-in-Chief:  Nima Rezaei
 
 
Argov, S., J. Ramesh, A. Salman, J. Goldstein, I. Sinelnikov, H. Guterman and S. Mordechai, 2002. Diagnostic Potential of FTIR Microspectroscopy and Advanced Computational Methods in Colon Cancer Patients. J. Biomed. Optics, 7: 248-254.
Argov, S., R.K. Sahu, E. Bernshtain, A. Salman, G. Shohat, U. Zelig and S. Mordechai, 2004. Inflamatory Bowel Diseases as an Intermediate Stage Between Normal and Cancer:A FTIR-Microspectroscopy Approach. Biopolym., 75: 384-392.
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Barlev, E., U. Zelig, O. Bar, C. Segev and S. Mordechai et al., 2016. A novel method for screening colorectal cancer by infrared spectroscopy of peripheral blood mononuclear cells and plasma. J. Gastroenterol., 51: 214-221.
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Bogomolny, E., M. Huleihel, A. Salman, A. Zwielly, R. Moreh and S. Mordech, 2010. Attenuated Total Reflectance spectroscopy: promising technique for early detection of premalignancy in vivo. Analyst., 135: 1934-1940.
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Bogomolny, E., M. Huleihel, Y. Suproun, R.K. Sahu and S. Mordechai, 2007. Early spectral changes of cellular malignant transformation using FTIR-Microspectroscopy. J. Biomed. Optics, 10.1117/1.2717186.
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Bogomolny, E., S. Argov, S. Mordechai and M. Huleihel, 2008. Monitoring of viral cancer progression using FTIR-Microscopy: a comparative study of intact cells and tissues. Biochem. Biophys. Acta, 1780: 1038-1046.
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Bogomolny, E., S. Mordechai, A. Zwielly and M. Huleihel, 2009. Early detection of premalignant changes in cell cultures using light-induced fluorescence spectroscopy. Eur. Biophys. J., 38: 971-980.
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Grossman, N., E. Ilovitz, O. Chaims, A. Salman and R. Jagannathan et al., 2001. Fluorescence Spectroscopy for Detection of Malignancy: H-Ras Overexpressing Fibroblasts as a Model. J. Biochem. Biophys. Methods, 50: 53-63.
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Hammody, Z., M. Huleihal, A. Salma, S. Argov, R. Moreh, A. Katzer and S. Mordechai, 2007. Potential of Flat Fiber Evanescent Wave Spectroscopy to Discriminate Between Normal and Malignant Cells in vitro. J. Microsco., 228: 200-210.
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Hammody, Z., S. Argov, R.K. Sahu, E. Cagnano, R. Moreh and S.Mordechai, 2008. Distinction of Malignant Melanoma and Epidermis using IR Micro-Spectroscopy and Statistical Methods. Analyst., 132: 372-378.
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Huleihel, M., A. Salman, V. Erukhimovitch, R. Jagannathan, Z. Hammody and S. Mordechai, 2002. Novel Optical Method For Study of Viral Carcinogenesis In Vitro. J. Biochem. Biophys. Methods, 50: 111-121.
Jagannathan, R., A. Salman, N. Grossman, Z. Hammody, B. Cohen and S. Mordechai, 2001. FTIR Microscopic Studies on Normal and H-Ras Oncogene Transfected Cultured Mouse Fibroblasts. Eur. Biophys. J., 30: 250-255.
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Jagannathan, R., A. Salman, S. Argov, J. Goldstein, I. Sinelnikov, S. Walfisch, H. Guterman and S. Mordechai, 2001. FTIR Microscopic Studies on Normal, Polyp and Malignant Human Colonic Tissues. Subsurface Sens. Technol. Appli., 2: 99-117.
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Jagannathan, R., A. Salman, Z. Hammody, B. Cohen, J. Gopas, N. Grossman and S. Mordechai, 2001. Application of FTIR Microscopy for the Characterization of Malignancy: H-Ras Transfected Murine Fibroblasts as an Example. J. Biochem. Biophys. Methods, 50: 33-42.
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Jagannathan, R., S. Argov, A. Salman, M. Yuzhelevski and I. Sinelnikov et al., 2002. Spectroscopic Evidence for Site Specific Cellular Activity in the Tubular Gland in Human Intestine. Eur. Biophys. J., 30: 612-616.
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Mann, M.P., S. Mark, Y. Raichlin, A. Katzir and S. Mordechai, 2009. Optimization of fiber-optic evanescent wave spectroscopy: a Monte Carlo approach. Appl. Spectrosc., 63: 1057-1061.
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Mark, S., A. Salman, N. Grossman, J. Gopas, R.K. Sahu and S. Mordechai, 2010. Fluorescence spectroscopy of H-ras transfected murine fibroblasts: A comparison with monte carlo simulations. Biopolym., 93: 132-140.
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Mark, S., D. Khankin and S. Mordechai, 2012. Optimization efficiency of Monte Carlo Simulation Tool of Evanescent Waves Spectroscopy Fiber - Optic Probe. Adv. Opt. Technol., 10.1155/2012/187678.
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Mark, S., R.K. Sahu, K. Kantarovich, A. Podshyvalov and H. Guterman et al., 2004. Fourier Transform Infrared Microspectroscopy as a Quantitative Diagnostic Tool for Assignment of Premalignancy Grading in Cervical Neoplasia. J. Biomed. Optics, 9: 558-567.
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Mizrachi, Y., N. Porat, S. Lifshitz, S. Novick and A. Levi et al., 2004. Virulence of Streptococcus Pneumoniae May Be Determined Independently of Capsular Polysaccharide. FEMS Microbiol. Lett., 233: 147-152.
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Mordechai, S., E. Shufan, B.S.P. Katz and A. Salman, 2016. Early Diagnosis of Alzheimer`s Disease Using Infrared Spectroscopy of Isolated Blood Samples Followed by Multivariate Analyses. Analyst., 10.1039/C6AN01580H.
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Mordechai, S., R.K. Sahu, Z. Hammody, S. Mark, K. Kantarovich, A. Podshyvalov, J. Goldestein and S. Argov, 2004. Possible Common Biomarkers from FTIR-Microspectroscopy of Cervical Cancer and Melanoma. J. Microsc., 214: 86-91.
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Mordechai, S., S. Argov, R.K. Sahu, S. Walfisch and H. Gutrman et al., 2003. FTIR-Microspectroscopy: A New Effective Quantitative Method for Diagnosis of Cancer. Acta Histochem., 105: 354-354.
Mordehai, J., J. Ramesh, M. Huleihel, Z. Cohen and O. Kleiner et al., 2004. Studies on Acute Human Infections Using FTIR Microspectroscopy and Cluster Analysis. Biopolym., 73: 494-502.
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Ostrovsky, E., U. Zelig, I. Gusakova, S. Ariad, S. Mordechai, I. Nisky and J. Kapilushnik, 2012. Detection of Cancer Using Advanced Computerized Analysis of Infrared Spectra of Peripheral Blood. IEEE Trans. Biomed. Eng., 60: 343-353.
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Podshyvalov, A., R.K. Sahu, S. Mark, K. Kantarovich and H. Guterman et al., 2005. Distinction of Cervical Cancer Biopsies by Use of Infrared Microspectroscopy and Probabilistic Neural Networks. Appl. Opt., 44: 3725-3734.
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Pomerantz, A., Y. Cohen, E. Shufan, Y. Ben-Naim, S. Mordechai, A. Salman and M. Huleihel, 2014. Characterization of Phytophthora infestans resistance to mefenoxam using FTIR spectroscopy. J. Photochem. Photobiol. Biol., 141: 308-314.
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Ramesh, J., J. Kapelushnik, J. Mordehai, A. Moser, M. Huleihel, V. Erukhimovitch, C. Levi and S. Mordechai, 2002. Novel Methodology for the Follow-up of Acute Lymphoblastic Leukemia in Children. J. Biochem. Biophys. Methods, 51: 251-261.
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Ramesh, J., M. Huleihel, J. Mordehai, A. Moser and V. Erukhimovitch et al., 2003. Preliminary Results of Evaluation of Progress in Chemotherapy for Childhood Leukemia Patients Employing Fourier-Transform Infrared Microspectroscopy and Cluster Analysis. J. Lab. Clin. Med., 141: 385-394.
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Ranjit, K.S., A. Salman, S. Mordechai and E. Manor, 2013. Study of plasma induced peripheral blood mononuclear cells Survival using FTIR microspectroscopy. J. Biomed. Opt., 10.1117/1.JBO.18.11.115004.
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Sahu, R.K. and S. Mordechai, 2005. Fourier transform infrared (FTIR) spectroscopy in cancer detection. Future Oncol., 1: 635-647.
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Sahu, R.K. and S. Mordechai, 2010. Spectral signatures of colonic malignancies in mid IR region: from basic research to clinical applicability. Future Oncol., 6: 1653-1667.
Sahu, R.K. and S. Mordechai, 2015. The increasing relevance of FTIR spectroscopy in biomedicine. Insights Med. Phys., .
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Sahu, R.K. and S. Mordechai, 2016. Spectroscopic techniques in medicine: The future of diagnostics. J. Appl. Spectrosco. Rev., 51: 484-499.
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Sahu, R.K., S. Argov, A. Salman, M. Huleihel, N. Grossman, Z. Hammody, J. Kapelushnik and S. Mordechai, 2004. Characteristic absorbance of nucleic acids in the Mid-IR region as possible common biomarkers for diagnosis of malignancy. Technol. Cancer Res. Treat., 3: 629-638.
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Sahu, R.K., S. Argov, A. Salman, U. Zelig and M. Huleihel et al., 2005. Can FTIR-Spectroscopy at Higher Wavenumbers (mid IR) Shed Light on Biomarkers for Carcinogenesis in Tissues? J. Biomed. Opt., 10.1117/1.2080368.
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Sahu, R.K., S. Argov, E. Bernshtain, A. Salman, S. Walfisch, J. Goldestein and S. Mordechai, 2004. Detection of Abnormal Proliferation in Histologically ''Normal'' Colonic Biopsies Using FTIR-Microspectroscopy. Scan. J. Gastroenterol., 39: 557-566.
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Sahu, R.K., S. Argov, S. Walfisch, E. Bogomolny, R. Moreh and S. Mordechai, 2010. Prediction potential of IR-micro spectroscopy for colon cancer relapse. Analyst., 135: 538-544.
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Sahu, R.K., S. Mordechai and E. Manor, 2008. Nucleic acids absorbance in mid IR and its effect on diagnostic variates during cell division: A case study with lymphoblastic cells. Biopolym., 89: 993-1001.
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Sahu, R.K., S. Mordechai, S. Pesakhov, R. Dagan and N. Porat, 2006. Use of FTIR Spectroscopy to Distinguish between Capsular Types and Capsular Quantities in Streptococcus pneumoniae. Biopolym., 83: 434-442.
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Sahu, R.K., U. Zelig, M. Huleihel, N. Brosh and M. Talyshinsky et al., 2006. Continuous monitoring of WBC (biochemistry) in an adult leukemia patient using advanced FTIR-spectroscopy. Leukemia Res., 30: 687-693.
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Salman, A., A. Pomerantz, L. Tsror, I. Lapidot and A. Zwielly et al., 2011. Distinction of Fusarium oxysporum fungal isolates (strains) using FTIR-ATR spectroscopy and advanced statistical methods. Analyst., 136: 988-995.
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Salman, A., A. Pomerantz, L. Tsror, I. Lapidot, R. Moreh, S. Mordechai and M. Huleihel, 2012. Utilizing FTIR-ATR spectroscopy for classification and relative spectral similarity evaluation of different Colletotrichum coccodes isolates. Analyst., 137: 3558-3564.
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Salman, A., E. Shufan, I. Lapidot, L. Tsror, R. Moreh, S. Mordechai and M. Huleihel, 2015. Assignment of Colletotrichum coccodes isolates into vegetative compatibility groups using infrared spectroscopy: a step towards practical application. Analyst., 140: 3098-3106.
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Salman, A., E. Shufan, L. Tsror, R. Moreh, S. Mordechai and M. Huleihel, 2014. Classification of Colletotrichum coccodes isolates into vegetative compatibility groups using infrared attenuated total reflectance spectroscopy. Methods, 68: 325-330.
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Salman, A., E. Shufan, R.K. Sahu, S. Mordechai and G. Sebbag, 2016. Insights on colorectal cancer relapse by infrared microscopy from anastomosis tissues: further analysis. Vib. Spectrosco., 83: 17-25.
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Salman, A., G. Sebbag, S. Argov, S. Mordechai and R.K. Sahu, 2015. Early detection of colorectal cancer relapse by infrared spectroscopy in normal anastomosis tissue. J. Biomed. Opt., 10.1117/1.JBO.20.7.075007.
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Salman, A., I. Lapidot, A. Pomerantz, L. Tsror and E. Shufan et al., 2012. Detection of Fusarium oxysporum fungal isolates using ATR spectroscopy. Spectrosco. Int. J., 27: 551-556.
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Salman, A., I. Lapidot, A. Pomerantz, L. Tsror and E. Shufan et al., 2012. Identification of fungal phytopathogens using Fourier transform infrared-attenuated total reflection spectroscopy and advanced statistical methods. J. Biomed. Opt., 10.1117/1.JBO.17.1.017002.
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Salman, A., J. Ramesh, V. Erukhimovitch, S. Mordechai and M. Huleihel, 2003. FTIR Microscopy of Malignant Fibroblasts Infected with Mouse Sarcoma Virus. J. Biochem. Biophys. Methods, 55: 141-153.
Salman, A., L. Tsror, A. Pomerantz, R. Moreh, S. Mordechai and M. Huleihel, 2010. FTIR spectroscopy for detection and identification of fungal phytopathogenes. Spectrosc. 24: 261-267.
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Salman, A., R.K. Sahu, E. Bernshtain, J. Goldestein, S. Walfisch, S. Argov and S. Mordechai, 2004. Probing Cell Proliferation in the Human Colon Using Vibrational Spectroscopy: A Novel Use of FTIR-Microspectroscopy. Vib. Spectro., 34: 301-308.
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Salman, A., S. Argov, R. Jagannathan, J. Goldstein, I. Sinelnikov, H. Guterman and S. Mordechai, 2001. FT-IR Microscopic Characterization of Normal and Malignant Human Colonic Tissues. Cell. Mol. Biol., 47: 159-166.
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Zelig, U., E. Barlev, O. Bar, I. Gross and F. Flomen et al., 2015. Early Detection of Breast Cancer Using Total Biochemical Analysis of Peripheral Blood Components. BMC Cancer, 10.1186/s12885-015-1414-7.
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Zelig, U., E. Ostrovsky, I. Gusakova, I. Gross and S. Ariad et al., 2012. Early detection of solid tumors by infrared biochemical analysis of mononuclear cells - a preliminary study. Tumor Bio., 33: 65-65.
Zelig, U., J. Kapelushnik, R. Moreh, S. Mordechai and I. Nathan, 2009. Diagnosis of cell death by means of infrared spectroscopy. Biophys. J., 97: 2107-2114.
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Zelig, U., S. Mordechai, G. Shubinsky, R.K. Sahu and M. Huleihel et al., 2011. Pre-screening and Follow-up of Childhood Acute Leukemia using Biochemical Infrared Analysis of Peripheral Blood Mononuclear Cells. Biochim. Biophys. Acta, 1810: 827-835.
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Zelig, U., Z. Dror, S. Iskovich, A. Zwielly and M. Ben-Harush et al., 2010. Biochemical Analysis and Quantification of Hematopoietic Stem Cells by Infrared-Spectroscopy. J. Biomed. Opt., 10.1117/1.3442728.
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Zwielly, A., J. Gopas and S. Mordechai, 2009. Discrimination between drug-resistant and non-resistant human melanoma cell lines by FTIR spectroscopy. Analyst., 134: 294-300.
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Zwielly, A., S. Argov, A. Salman, E. Bogomolny and S. Mordechai, 2010. Classification of human colonic tissues using FTIR spectra and advanced statistical techniques. Proc. SPIE, 10.1117/12.856279.
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Zwielly, A., S. Mordechai, G. Brkic, E. Bogomolny, I.Z. Pelly, R. Moreh and J. Gopas, 2011. Grading of intrinsic and acquired cisplatin-resistant human melanoma cell lines: an infrared ATR study. Eur. Biophys. J., 40: 795-804.
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Zwielly, A., S. Mordechai, I. Sinielnikov, A. Salman, E. Bogomolny and S. Argov, 2010. Advanced statistical techniques applied to comprehensive FTIR spectra on human colonic tissues. Medical Phys., 37: 1047-1047.
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