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Article Dans Une Revue Biomedical Physics & Engineering Express Année : 2016

Reconstruction of an optical inhomogeneity map improves fluorescence diffuse optical tomography

Résumé

We propose a new reconstruction algorithm for fluorescence diffuse optical tomography, which is designed for highly heterogeneous objects, such as biological tissues. It is a two-step algorithm that exploits continuous-wave measurements acquired at both excitation and fluorescence wavelengths. First, an optical inhomogeneity map, which depends on both absorption and diffusion coefficients, is obtained from excitation measurements. Second, the fluorescence distribution is reconstructed considering the recovered optical inhomogeneity map. The algorithm includes dimensionality reduction techniques, namely measurement compression and structured illumination, which significantly reduce acquisition and reconstruction times. The algorithm has been tested on experimental data acquired from tissue-mimicking phantoms considering sparsity priors. We demonstrate the feasibility and effectiveness of this new approach that allows the fluorescence reconstruction quality to be improved with respect to that provided by the standard normalized Born method.
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Dates et versions

hal-01159029 , version 1 (02-06-2015)
hal-01159029 , version 2 (09-10-2015)
hal-01159029 , version 3 (14-03-2016)
hal-01159029 , version 4 (18-05-2017)

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Nicolas Ducros, Teresa Correia, Andrea Bassi, Gianluca Valentini, Simon Arridge, et al.. Reconstruction of an optical inhomogeneity map improves fluorescence diffuse optical tomography. Biomedical Physics & Engineering Express, 2016, 2, pp.055020. ⟨10.1088/2057-1976/2/5/055020⟩. ⟨hal-01159029v4⟩
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