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Mesoscopic fluorescence molecular tomography (MFMT) is new imaging modality aiming at 3-D imaging of molecular probes in a few millimeter thick biological samples with high-spatial resolution. In this paper, we develop a compressive sensing-based reconstruction method with $l_{1}$ -norm regularization for MFMT with the goal of improving spatial resolution and stability of the optical inverse problem...
In this work, we present the design of a time-resolved Diffuse Optical Tomography system based on wide-field illumination and wide-field hyperspectral detection for fast, quantitative, high-resolution 3D turbid media imaging. Phantom studies are conducted to establish the feasibility of this novel instrumental paradigm.
Detection of autofluorescence is employed for measuring early dysfunctions of the fundus. Laser scanning confocal ophthalmoscope has greatly facilitated the study of fundus autofluorescence, but the complexity of fundus endogenous fluorophores makes it hard to interpret the results. To better understand the autofluorescence characteristics of fluorophores at fundus, such as spectra, intensity, distribution...
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