Hongbo Guo, Jingjing Yu, Xiaowei He, Yuqing Hou, Fang Dong, Shuling Zhang
Biomedical optics express 2015 May 1Fluorescence molecular tomography (FMT) is a promising imaging technique that allows in vivo visualization of molecular-level events associated with disease progression and treatment response. Accurate and efficient 3D reconstruction algorithms will facilitate the wide-use of FMT in preclinical research. Here, we utilize L1/2-norm regularization for improving FMT reconstruction. To efficiently solve the nonconvex L1/2-norm penalized problem, we transform it into a weighted L1-norm minimization problem and employ a homotopy-based iterative reweighting algorithm to recover small fluorescent targets. Both simulations on heterogeneous mouse model and in vivo experiments demonstrated that the proposed L1/2-norm method outperformed the comparative L1-norm reconstruction methods in terms of location accuracy, spatial resolution and quantitation of fluorescent yield. Furthermore, simulation analysis showed the robustness of the proposed method, under different levels of measurement noise and number of excitation sources.
Hongbo Guo, Jingjing Yu, Xiaowei He, Yuqing Hou, Fang Dong, Shuling Zhang. Improved sparse reconstruction for fluorescence molecular tomography with L1/2 regularization. Biomedical optics express. 2015 May 1;6(5):1648-64
PMID: 26137370
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