Abstract
We study reflection diffuse optical tomography using two-dimensional (2D) continuous-wave source-detector arrays on the surface of semi-infinite medium, aiming at imaging the perfusion and the hemoglobin oxygen saturation variation of human cerebral cortex with brain activation. We had previously formulated the inverse problem with Moore-Penrose inversion. When we use simple regularization in this inverse problem, the reconstruction sensitivity decreases markedly with the depth so that the signal in the deep range may be masked by an unwanted signal in the shallow range. In this paper, we propose a depth-adaptive regularized reconstruction, in which we assign a smaller regularization parameter with the depth. We demonstrate improvement of the three-dimensional (3D) reconstruction uniformity using the proposed scheme.
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Endoh, R., Fujii, M. & Nakayama, K. Depth-adaptive regularized reconstruction for reflection diffuse optical tomography. OPT REV 15, 51–56 (2008). https://doi.org/10.1007/s10043-008-0009-9
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DOI: https://doi.org/10.1007/s10043-008-0009-9