Optics and Precision Engineering, Volume. 26, Issue 8, 2074(2018)
Fluorescence molecular tomography of permissible region selected by ISODATA
[1] [1] DAML G M, THEMELIS G, CRANEL L M, et al.. Intraoperative tumor-specific fluorescence imaging in ovarian cancer by folate receptor-α targeting: first in-human results [J]. Nature Medicine, 2011, 17(10): 1315-1319.
[2] [2] DELIOLANIS N C, NTZIACHRISTOS V. Fluorescence molecular tomography of brain tumors in mice [J]. Cold Spring Harbor Protocols, 2013, 2013(5): 438-443.
[3] [3] GAEDICKE S, BRAUN F, PRASAD S, et al.. Noninvasive positron emission tomography and fluorescence imaging of CD133+ tumor stem cells [J]. Proceedings of the National Academy of Sciences of the United States of America, 2014, 111(6): E692-E701.
[4] [4] CAO X, ZHANG B, LIU F, et al.. Reconstruction for limited-projection fluorescence molecular tomography based on projected restarted conjugate gradient normal residual [J]. Optics Letters, 2011, 36(23): 4515-4517.
[5] [5] HE Y, CAO X, LIU F, et al.. Influence of limited-projection on fluorescence molecular tomography [J]. Journal of Innovative Optical Health Sciences, 2012, 05(03): 460-466.
[6] [6] SHI J, LIU F, ZHANG J, et al.. Fluorescence molecular tomography reconstruction via discrete cosine transform-based regularization [J]. Journal of Biomedical Optics, 2015, 20(5): 055004.
[7] [7] YI H J, ZHANG X, PENG J Y, et al.. Reconstruction for limited-projection fluorescence molecular tomography based on a double-mesh strategy [J]. BioMed Research International, 2016, 2016: 5682851.
[8] [8] LIU X, YAN ZH ZH, LU H B. Performance evaluation of a priori information on reconstruction of fluorescence molecular tomography [J]. IEEE Access, 2015, 3: 64-72.
[9] [9] CHEN D F, LIANG J M, LI Y, et al.. A sparsity-constrained preconditioned Kaczmarz reconstruction method for fluorescence molecular tomography [J]. BioMed Research International, 2016, 2016, 4504161.
[10] [10] ZHANG J L, SHI J W, CAO X, et al.. Fast reconstruction of fluorescence molecular tomography via a permissible region extraction strategy [J]. Optical Society of America A, 2014, 31(8): 1886-1894.
[11] [11] FENG J CH, JIA K B, YAN G R, et al.. An optimal permissible source region strategy for multispectral bioluminescence tomography [J]. Optics Express, 2008, 16(20): 15640-15654.
[12] [12] NASER M A, PATTERSON M S. Improved bioluminescence and fluorescence reconstruction algorithms using diffuse optical tomography, normalized data, and optimized selection of the permissible source region [J]. Biomedical Optics Express, 2011, 2(1): 169-184.
[13] [13] HE X W, DONG F, YU J J, et al.. Reconstruction algorithm for fluorescence molecular tomography using sorted L-one penalized estimation [J]. Optical Society of America A, 2015, 32(11): 1928-1935.
[15] [15] RIPOLL J, SCHULZ R B, NTZIACHRISTOS V. Free-space propagation of diffuse light: theory and experiments [J]. Physical Review Letters, 2003, 91(10): 103901.
[16] [16] CONG A X, WANG G. A finite-element-based reconstruction method for 3D fluorescence tomography [J]. Optics Express, 2005, 13(24): 9847-9857.
[17] [17] BALL G H, HALL D J. ISODATA, a novel method of data analysis and pattern classification [R]. California: Stanford Research Institute, 1965.
[18] [18] MEMARSADEGHI N, MOUNT D M, NETANYAHU N S, et al.. A fast implementation of the ISODATA clustering algorithm [J]. International Journal of Computational Geometry and Applications, 2007, 17(1): 71-103.
[19] [19] YI H J, CHEN D F, QU X CH, et al.. Multilevel, hybrid regularization method for reconstruction of fluorescent molecular tomography [J]. Applied Optics, 2012, 51(7): 975-986.
Get Citation
Copy Citation Text
HOU Yu-qing, HU Yue-lin, YI Huang-jian, JIAO Pu, HE Xiao-wei. Fluorescence molecular tomography of permissible region selected by ISODATA[J]. Optics and Precision Engineering, 2018, 26(8): 2074
Category:
Received: Nov. 16, 2017
Accepted: --
Published Online: Oct. 2, 2018
The Author Email: Yu-qing HOU (houyuqin@nwu.edu.cn)