[1] Desmettre T, Devoisselle J M, Mordon S. Fluorescence properties and metabolic features of indocyanine green (ICG) as related to angiography[J]. Survey of Ophthalmology, 45, 15-27(2000).

[2] Bauer L A. Applied clinical pharmacokinetics[M]. New York: McGraw-Hill(2008).

[3] Alacam B, Yazici B. Direct reconstruction of pharmacokinetic-rate images of optical fluorophores from NIR measurements[J]. IEEE Transactions on Medical Imaging, 28, 1337-1353(2009).

[4] Zhang G L, Liu F, Zhang B et al. Imaging of pharmacokinetic rates of indocyanine green in mouse liver with a hybrid fluorescence molecular tomography/X-ray computed tomography system[J]. Journal of Biomedical Optics, 18, 040505(2013).

[5] Boutayeb M, Aubry D. A strong tracking extended Kalman observer for nonlinear discrete-time systems[J]. IEEE Transactions on Automatic Control, 44, 1550-1556(1999).

[6] Junghans P, Wagner B, Nickel A et al. Tracer kinetics and metabolic models in medicine[J]. Isotopes in Environmental and Health Studies, 48, 226-238(2012).

[7] Ozbek L, Efe M. An adaptive extended Kalman filter with application to compartment models[J]. Communications in Statistics-Simulation and Computation, 33, 145-158(2004).

[8] Kim K H, Lee J G, Park C G et al. The stability analysis of the adaptive fading extended Kalman filter[C]∥IEEE International Conference on Control Applications. 1-3 Oct. 2007, Singapore, Singapore., 982-987(2007).

[9] Wang X, Wu L H, Yi X et al. Performance enhancement of pharmacokinetic diffuse fluorescence tomography by use of adaptive extended Kalman filtering[J]. Computational and Mathematical Methods in Medicine, 2015, 739459(2015).

[10] Gao F, Zhao H J, Tanikawa Y et al. A linear, featured-data scheme for image reconstruction in time-domain fluorescence molecular tomography[J]. Optics Express, 14, 7109-7124(2006).

[11] Zhang L M, Zhao Y, Jiang S D et al. Direct regularization from co-registered anatomical images for MRI-guided near-infrared spectral tomographic image reconstruction[J]. Biomedical Optics Express, 6, 3618-3630(2015).

[12] Biesen P R, Jongsma F H, Tangelder G J et al. Yield of fluorescence from indocyanine green in plasma and flowing blood[J]. Annals of Biomedical Engineering, 23, 475-481(1995).

[13] Stoeckel K. McNamara P J, McLean A J, et al. Nonlinear pharmacokinetics of indocyanine green in the rabbit and rat[J]. Journal of Pharmacokinetics and Biopharmaceutics, 8, 483-496(1980).

[14] Zhang Y Q, Zhang L M, Yin G Y et al. Assessing indocyanine green pharmacokinetics in mouse liver with a dynamic diffuse fluorescence tomography system[J]. Journal of Biophotonics, 11, e201800041(2018).

[15] Zhang Y Q, Wang X, Yin G Y et al. Dynamic experimental system for indocyanine green pharmacokinetic imaging[J]. Chinese Journal of Lasers, 44, 0107001(2017).

[16] Shinohara H, Tanaka A, Kitai T et al. Direct measurement of hepatic indocyanine green clearance with near-infrared spectroscopy: separate evaluation of uptake and removal[J]. Hepatology, 23, 137-144(1996).

[17] Song W T, Tang Z H, Zhang D W et al. Comprehensive studies of pharmacokinetics and biodistribution of indocyanine green and liposomal indocyanine green by multispectral optoacoustic tomography[J]. RSC Advances, 5, 3807-3813(2015).