Journal of IiME Volume 1 Issue 2 www.investinme.org Visible and near-infrared (Vis-NIR) spectroscopy: Introduction and Perspectives for Diagnosis of CFS (continued) [7] S. Nioka, and B. Chance, NIR spectroscopic detection of breast cancer. Technol Cancer Res Treat 4 (2005) 497512. [8] K. Konig, Multiphoton microscopy in life sciences. J Microsc 200 (2000) 83-104. [9] I. Murray, Forage analysis by near infra-red spectroscopy, in: A. Davies, R.D. Baker, S.A. Grant (Eds.), Sward Management Handbook, British Grassland Society, UK, 1993, pp. 285-312. [10] B.L. Horecker, The absorbance spectra of hemoglobin and its derivatives in the visible and near infra-red regions. J Biol Chem 148 (1973) 173-83. [11] K. Murayama, K. Yamada, R. Tsenkova, Y. Wang, Y. Ozaki, Near-infrared spectra of serum albumin and gamma-globulin and determination of their concentrations in phosphate buffer solutions by partial least squares regression. Vib Spectrosc 18 (1998) 33-40. [12] J.W. Hall, and A. Pollard, Near-infrared spectroscopic determination of serum total proteins, albumin, globulins, and urea. Clin Biochem 26 (1993) 483-90. [13] J.W. Hall, and A. Pollard, Near-infrared spectrophotometry: a new dimension in clinical chemistry. Clin Chem 38 (1992) 1623-31. [14] E. Peuchant, C. Salles, and R. Jensen, Determination of serum cholesterol by near-infrared reflectance spectrometry. Anal Chem 59 (1987) 1816-9. [15] N. Hirosawa, Y. Sakamoto, H. Katayama, S. Tonooka, and K. Yano, In vivo investigation of progressive alterations in rat mammary gland tumors by near-infrared spectroscopy. Anal Biochem 305 (2002) 156-65. [16] H.M. Heise, R. Marbach, T. Koschinsky, and F.A. Gries, Noninvasive blood glucose sensors based on near-infrared spectroscopy. Artif Organs 18 (1994) 439-47. [17] L.A. Marquardt, M.A. Arnold, and G.W. Small, Nearinfrared spectroscopic measurement of glucose in a protein matrix. Anal Chem 65 (1993) 3271-8. [18] I. Gabriely, R. Wozniak, M. Mevorach, J. Kaplan, Y. Aharon, and H. Shamoon, Transcutaneous glucose measurement using near-infrared spectroscopy during hypoglycemia. Diabetes Care 22 (1999) 2026-32. [19] G.W. Small, M.A. Arnold, and L.A. Marquardt, Strategies for coupling digital filtering with partial leastsquares regression: application to the determination of glucose in plasma by Fourier transform near-infrared spectroscopy. Anal Chem 65 (1993) 3279-89. [20] S. Pan, H. Chung, M.A. Arnold, and G.W. Small, Nearinfrared spectroscopic measurement of physiological glucose levels in variable matrices of protein and triglycerides. Anal Chem 68 (1996) 1124-35. [21] M.R. Robinson, R.P. Eaton, D.M. Haaland, G.W. Koepp, E.V. Thomas, B.R. Stallard, and P.L. Robinson, Noninvasive glucose monitoring in diabetic patients: a preliminary evaluation. Clin Chem 38 (1992) 1618-22. [22] S.A. Arnold, J. Crowley, N. Woods, L.M. Harvey, and B. McNeil, In-situ near infrared spectroscopy to monitor key analytes in mammalian cell cultivation. Biotechnol Bioeng 84 (2003) 13-9. [23] K. Maruo, M. Tsurugi, M. Tamura, and Y. Ozaki, Fig. 5. Plans for non-invasive CFS diagnosis using Vis-NIR spectroscopy Vis-NIR spectroscopy can be used for noninvasive analyse, because Vis-NIR is highly transmissible into the body. Now, we are trying to study the potential of Vis-NIR spectra collected from the thumb for the diagnosis of CFS. Modified from Fig. 5 in Sakudo et al. [103] with permission from Nippon Rinsho Co. In vivo noninvasive measurement of blood glucose by near-infrared diffuse-reflectance spectroscopy. Appl Spectrosc 57 (2003) 1236-44. [24] H.M. Heise, A. Bittner, R. Marbach, Clinical chemistry and near infrared spectroscopy: technology for non-invasive glucose monitoring. J Near Infrared Spectrosc 6 (1998) 349-59. [25] G. Domján, K.J. Kaffka, J.M. Jáko, I.T. VályiNagya, Rapid analysis of whole blood and blood serum using near infrared spectroscopy. J Near Infrared Spectrosc 2 (1995) 67-78. [26] A.W. van Toorenenbergen, B.G. Blijenberg, and B. Leijnse, Measurement of total serum protein by near-infrared reflectance spectroscopy. J Clin Chem Clin Biochem 26 (1988) 209-11. [27] R.A. Shaw, S. Kotowich, H.H. Mantsch, and M. Leroux, Quantitation of protein, creatinine, and urea in urine by near-infrared spectroscopy. Clin Biochem 29 (1996) 11-19. [28] K.S. Yeung, M. Hoare, N.F. Thornhill, T. Williams, and J.D. Vaghjiani, Near-infrared spectroscopy for bioprocess monitoring and control. Biotechnol Bioeng 63 (1999) 684-93. [29] H.M. Heise, and P. Lampen, Transcutaneous glucose measurements using near-infrared spectroscopy: validation of statistical calibration models. Diabetes Care 23 (2000) 1208-10. Invest in ME Charity Nr 1114035 (continued on page 16) Page 15/72

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