[1] Durduran T, Choe R, Baker W B, et al. Diffuse optics for tissue monitoring and tomography[J]. Rep. Prog. Phys, 2010, 73(7): 076701.
[2] Hawrysz D J, Sevick-Muraca E M. Developments toward diagnostic breast cancer imaging using near-infrared optical measurements and fluorescent contrast agents[J]. Neoplasia, 2000, 2(5): 388417.
[4] Gulsen G, Xiong B, Birgul O, et al. Design and implementation of a multi-frequency near-infrared diffuse optical tomography system [J]. J. Biomed. Opt, 2006, 11(1): 014020.
[5] Ducros N, Silva A, Dinten J, et al. Continuous Wave and Time-Resolved Fluorescence Diffuse Optical Tomography Comparison for different Lifetimes and Optical Properties [J]. OSA/ BIOMED/DH/LACSEA, 2008.
[6] Fang Q Q, Boas A D. Monte Carlo simulation of photon migration in 3D turbid media accelerated by graphics processing units [J].Opt. Express, 2009, 17(22): 2017820190.
[7] Ren N N, Liang J M, Qu X C, et al. GPU-based Monte Carlo simulation for light propagation in complex heterogeneous tissues [J].Opt. Express, 2010, 18(7): 68116823.
[8] Quan G T, Gong H, Deng Y, et al. Monte Carlo-based fluorescence molecular tomography reconstruction method accelerated by a cluster of graphic processing units [J].J. Biomed. Opt, 2011, 16(2): 026018.
[9] Schweiger M, Arridge S R, Nissila I. Gauss-Newton method for image reconstruction in diffuse optical tomography [J]. Physics in Medicine and Biology, 2005, 50(10): 23652386.
[10] Ma Y W, Gong S R, Gao F, et al. Improvement of Performances in Time-Domain Breast DOT by the Aid of Image Segmentation, California, Proc. SPIE6850, 2008[C].