Simulations and phantom measurements are used to evaluate the ability of time-domain diffuse optical tomography using Mellin-Laplace transforms to quantify the absorption perturbation of centimetric objects immersed at depth 1-2 cm in turbid media. We find that the estimated absorption coefficient varies almost linearly with the absorption change in the range of 0-0.15 cm-1 but is underestimated by a factor that depends on the inclusion depth (~2, 3 and 6 for depths of 1.0, 1.5 and 2.0 cm respectively). For larger absorption changes, the variation is sublinear with ~20% decrease for δμa = 0.37 cm-1. By contrast, constraining the absorption change to the actual volume of the inclusion may considerably improve the accuracy and linearity of th...
La tomographie optique diffuse (TOD) est une technique d'imagerie médicale émergente utilisant la lu...
Diffuse optical tomography (DOT) is an emerging medical imaging technique using near-infrared light ...
In order to increase sensitivity in the depth of diffusive media and to separate chromophores with d...
Simulations and phantom measurements are used to evaluate the ability of time-domain diffuse optical...
International audienceSimulations and phantom measurements are used to evaluate the ability of time-...
International audienceWe show how to apply the Mellin-Laplace transform to process time-resolved ref...
We evaluate the ability of time-resolved diffuse optical tomography to quantify the absorption coeff...
International audienceWe evaluate the ability of time-resolved diffuse optical tomography to quantif...
International audienceWe design a Time-Resolved (TR) instrumentation coupled with a reconstruction m...
International audienceWe investigate the use of the Mellin–Laplace transform for reconstructing opti...
Detecting and localizing precisely contrast in depth is the major challenge of reflectance Diffuse O...
La tomographie optique diffuse (TOD) est une technique d'imagerie médicale émergente utilisant la lu...
Diffuse optical tomography (DOT) is an emerging medical imaging technique using near-infrared light ...
In order to increase sensitivity in the depth of diffusive media and to separate chromophores with d...
Simulations and phantom measurements are used to evaluate the ability of time-domain diffuse optical...
International audienceSimulations and phantom measurements are used to evaluate the ability of time-...
International audienceWe show how to apply the Mellin-Laplace transform to process time-resolved ref...
We evaluate the ability of time-resolved diffuse optical tomography to quantify the absorption coeff...
International audienceWe evaluate the ability of time-resolved diffuse optical tomography to quantif...
International audienceWe design a Time-Resolved (TR) instrumentation coupled with a reconstruction m...
International audienceWe investigate the use of the Mellin–Laplace transform for reconstructing opti...
Detecting and localizing precisely contrast in depth is the major challenge of reflectance Diffuse O...
La tomographie optique diffuse (TOD) est une technique d'imagerie médicale émergente utilisant la lu...
Diffuse optical tomography (DOT) is an emerging medical imaging technique using near-infrared light ...
In order to increase sensitivity in the depth of diffusive media and to separate chromophores with d...