[3] Arnold M A, Small G W. Noninvasive glucose sensing[J]. Analytical Chemistry,2005,77(17):54295439.
[7] Heise H M, Marbach R. Multivariate determination of blood substrates in human plasma by FT-NIR spectroscopy[J]. Proc. SPIE,1992,1575:507508.
[8] Chen J, Arnold M A, Small G W. Comparison of combination and first overtone spectral regions for near-infrared calibration models for glucose and other biomolecules in aqueous solutions[J]. Analytical Chemistry,2004,76(18):54055413.
[9] Hazen K H, Arnold M A, Small G W. Measurement of glucose and other analytes in undiluted human serum with near-infrared transmission spectroscopy[J]. Analytica Chimica Acta,1998,371(23):255267.
[11] Peuchant E, Salles C, Jensen R. Determination of serum cholesterol by near-infrared reflectance spectrometry[J]. Analytical Chemistry,1987,59(14):18161819.
[12] Haaland D M, Robinson M R, Koepp G W, et al. Reagentless near-infrared determination of glucose in whole blood using multivariate calibration[J]. Applied Spectroscopy,1992,46(10):15751578.
[13] Hall J W, Pollard A. Near-infrared spectroscopic determination of serum total proteins, albumin, globulins, and urea. clinical biochemistry[J]. Clinical Biochemistry,1993,26(6):483490.
[14] da Costa Filho P A, Poppi R J. Determination of triglycerides in human plasma using near-infrared spectroscopy and multivariate calibration methods[J]. Analytica Chimica Acta,2001,446(12):3947.
[15] Saptari V, Youcef-Toumi K. Design of a mechanical-tunable filter spectrometer for noninvasive glucose measurement[J]. Applied Optics,2004,43(13):26802688.
[16] Olesberg J T, Arnold M A, Mermelstein C, et al. Tunable laser diode system for noninvasive blood glucose measurements[J]. Applied Spectroscopy,2005,59(12):14801484.