The application of extended modified Lambert Beer model for measurement of blood carboxyhemoglobin and oxyhemoglobin saturation
Audrey Huong, Xavier Ngu. The application of extended modified Lambert Beer model for measurement of blood carboxyhemoglobin and oxyhemoglobin saturation[J]. Journal of Innovative Optical Health Sciences, 2014, 7(3): 1450026.
[1] A. L. Ilano, T. A. RaffinKienle, "Management of carbon monoxide poisoning," Chest 97, 165–169 (1990).
[2] M. Touger, A. Birnbaum, J. Wang, K. Chou, D. Pearson, P. Bijur, "Performance of the RAD-57 Pulse Co-oximeter compared with standard laboratory carboxyhemoglobin measurement," Am. College of Emergency Phys. 56(4), 382–388 (2010).
[3] G. Zhang, A. Katz, R. R. Alfano, A. D. Kofinas, D. A. Kofinas, P. G. Stubblefield, W. Rosenfeld, D. Beyer, D. Maulik, M. R. Stankovic, "Brain perfusion monitoring with frequency-domain and continuous-wave near-infrared spectroscopy: A cross-correlation study in newborn piglets," Phys. Med. Biol. 45, 3143–3158 (2000).
[4] A. Vogel, V. V. Chernomordik, J. D. Riley, M. Hassan, F. Amyot, B. Dasgeb, S. G. Demos, R. Pursley, R. F. Little, R. Yarchoan, Y. Tao, A. H. Gandjbakhche, "Using noninvasive multispectral imaging to quantitatively assess tissue vasculature," J. Biomed. Opt. 12(5), 051604 (2007).
[5] A. Pifferi, P. Taroni, G. Valentini, S. Andersson- Engels, "Real-time method for fitting time-resolved reflectance and transmittance measurements with a Monte Carlo Model," Appl. Opt. 37(13), 2774–2780 (1998).
[6] M. Kobayashi, Y. Ito, N. Sakauchi, I. Oda, I. Konishi, Y. Tsunazawa, "Analysis of nonlinear relation for skin hemoglobin imaging," Opt. Exp. 9(13), 802–812, (2001).
[7] D. Yudovsky, L. Pilon, "Rapid and accurate estimation of blood saturation, melanin content, and epidermis thickness from spectral diffuse reflectance," Appl. Opt. 49(10), 1707–1719 (2010).
[8] I. V. Meglinski, S. J. Matcher, "Quantitative assessment of skin layers absorption and skin reflectance spectra simulation in the visible and near-infrared spectral regions," Physiol. Measurement 23(4), 741– 753 (2002).
[9] T. Maeda, N. Arakawa, M. Takahashi, Y. Aizu, "Monte Carlo simulation of spectral reflectance using a multilayered skin tissue model," Opt. Rev. 17(3), 223–229 (2010).
[10] A. Kienle, R. Hibst, "A new optimal wavelength for treatment of port wine stains " Phys. Med. Biol. 40(10), 1559–1576 (1996).
[11] H. J. Van Staveren, C. J. M. Moes, J. Van Marle, M. J. C. Van Gemert, S. A. Prahl, "Light scattering in Intralipid-10 in the wavelength range of 400– 1100 nm," Appl. Opt. 30, 4507–4514 (1991).
[12] A. N. Bashkatov, E. A. Genina, V. I. Kochubey, V. V. Tuchin, "Optical properties of human skin, subcutaneous and mucous tissues in the wavelength range from 400 to 2000 nm," J. Phys. Appl. Phys. 38, 2543–2555 (2005).
[13] S. L. Jacques, D. J. McAuliffe, "The melasome: Threshold temperature for explosive vaporization and internal absorption coefficient during pulsed laser irradiation," Photochem. Photobiol. 53, 769–775 (1991).
[14] W. G. Zijlistra, A. Buursma, O. W. Van Assendelft, Visible and Near Infrared Absorption Spectra of Human and Animal Haemoglobin: Determination and Application, VSP International Science Publisher, Netherlands (2000), pp. 180–194.
[15] P. C. Y. Chang, J. G. Walker, K. I. Hopcraft, B. Ablitt, E. Jakeman, "Polarization discrimination for active imaging in scattering media," Opt. Commun. 159, 1–6 (1999).
[16] R. N. Pittman, B. R. Duling, "A new method for the measurement of percent oxyhemoglobin," J. Appl. Physiol. 38(2), 315–320 (1975).
Audrey Huong, Xavier Ngu. The application of extended modified Lambert Beer model for measurement of blood carboxyhemoglobin and oxyhemoglobin saturation[J]. Journal of Innovative Optical Health Sciences, 2014, 7(3): 1450026.
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