Diffuse reflection ratio measurement on the surfaces of layered tissues with near infrared light

[in Chinese]; [in Chinese]

[1] Schmitt J M, Zhou G X, Walker E C. Multiplayer model of photon diffusion in skin[J]. J Opt Soc Am (A), 1990, 7(11): 2046-2055.

[2] Niwayama M, Lin L, Shao J, et al. Quantitative measurement of muscle oxygenation by NIRS: analysis of the influence of a subcutaneous fat layer and skin[A]. In Optical Tomography and Spectroscopy of Tissue III, Proc SPIE[C]. 1999,3597. 291-299.

[3] She-chao Feng, Fan-an Zeng, Britton Chance. Photon migration in the presence of a single defect: a perturbation analysis[J]. Applied Optics, 1995, 34(19): 3826-3837.

[4] Alwin Kienle, Michael S Patterson. Improved solution of the steady state and the time-resolved diffusion equation for reflectance from a semi-infinite turbid medium[J]. J Opt Soc Am (A), 1997, 14(1): 246-254.

[5] Andreas H Hielscher, Han- li liu, Britton Chance, et al. Time-resolved photon emission from layered turbid media[J]. Applied Optics, 1996, 35(4): 719-728.

[6] Maria Angela Franceschini, Sergio Fantini, Adelina Paunescu L, et al. Influence of a superficial layer in the quantitative spectroscopic study of strongly scattering media[J]. Applied Optics, 1998, 37(31): 7447-7458.

[7] Thomas J Farrell, Michael S Patterson, Matthias Essenpreis. Influence of layered tissue architecture on estimates of tissue optical properties obtained from spatially resolved diffuse reflectometry[J]. Applied Optics, 1998, 37(10): 1958-1972.