Literature DB >> 23859922

Depth-compensated diffuse optical tomography enhanced by general linear model analysis and an anatomical atlas of human head.

Fenghua Tian1, Hanli Liu.   

Abstract

One of the main challenges in functional diffuse optical tomography (DOT) is to accurately recover the depth of brain activation, which is even more essential when differentiating true brain signals from task-evoked artifacts in the scalp. Recently, we developed a depth-compensated algorithm (DCA) to minimize the depth localization error in DOT. However, the semi-infinite model that was used in DCA deviated significantly from the realistic human head anatomy. In the present work, we incorporated depth-compensated DOT (DC-DOT) with a standard anatomical atlas of human head. Computer simulations and human measurements of sensorimotor activation were conducted to examine and prove the depth specificity and quantification accuracy of brain atlas-based DC-DOT. In addition, node-wise statistical analysis based on the general linear model (GLM) was also implemented and performed in this study, showing the robustness of DC-DOT that can accurately identify brain activation at the correct depth for functional brain imaging, even when co-existing with superficial artifacts. Published by Elsevier Inc.

Entities:  

Keywords:  3D; Anatomical atlas of human head; BOLD; Con-DOT; DC; DC-DOT; DCA; DOT; Depth compensation; Diffuse optical tomography; FEM; GLM; General linear model; HRF; Hb; HbO(2); MNI; MRI; Montreal Neurological Institute coordinates; NIRFAST; NIRS; NIRS-SPM; Near infrared spectroscopy; OD; SCF; SNR; SPM; SVR; SVR-DOT; Superficial artifacts; a FEM-based MATLAB package for modeling propagation of near infrared light in biological tissues; a SPM-based software package for functional NIRS data analysis; absorption coefficient; apply spatially variant regularization to regular DOT reconstruction; blood oxygen level dependent; conventional DOT without any spatially variant regularization or depth compensation; deoxy-hemoglobin concentration; depth compensation; depth-compensated DOT; depth-compensated algorithm; diffuse optical tomography; fMRI; finite element mesh; functional magnetic resonance imaging; general linear model; hemodynamic response function; magnetic resonance imaging; n; near infrared spectroscopy; optical density; oxy-hemoglobin concentration; reduced scattering coefficient; refractive index; sensitivity correction factor; signal-to-noise ratio; spatially variant regularization; statistical parametric mapping; three-dimensional; μ(a); μ(s)′

Mesh:

Year:  2013        PMID: 23859922      PMCID: PMC4524535          DOI: 10.1016/j.neuroimage.2013.07.016

Source DB:  PubMed          Journal:  Neuroimage        ISSN: 1053-8119            Impact factor:   6.556


  49 in total

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8.  Validating atlas-guided DOT: a comparison of diffuse optical tomography informed by atlas and subject-specific anatomies.

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9.  A method for generating patient-specific finite element meshes for head modelling.

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10.  Algorithmic depth compensation improves quantification and noise suppression in functional diffuse optical tomography.

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  20 in total

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2.  Quantification and normalization of noise variance with sparsity regularization to enhance diffuse optical tomography.

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3.  Anticipatory alpha oscillation predicts attentional selection and hemodynamic response.

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Journal:  Hum Brain Mapp       Date:  2019-05-07       Impact factor: 5.038

4.  Low-resolution mapping of the effective attenuation coefficient of the human head: a multidistance approach applied to high-density optical recordings.

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Journal:  Neurophotonics       Date:  2017-04-21       Impact factor: 3.593

5.  Automated voxel classification used with atlas-guided diffuse optical tomography for assessment of functional brain networks in young and older adults.

Authors:  Lin Li; Mary Cazzell; Olajide Babawale; Hanli Liu
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6.  Bundled-optode implementation for 3D imaging in functional near-infrared spectroscopy.

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7.  Combining energy and Laplacian regularization to accurately retrieve the depth of brain activity of diffuse optical tomographic data.

Authors:  Antonio M Chiarelli; Edward L Maclin; Kathy A Low; Kyle E Mathewson; Monica Fabiani; Gabriele Gratton
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8.  Prefrontal hemodynamic mapping by functional near-infrared spectroscopy in response to thermal stimulations over three body sites.

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9.  Individual differences in regional cortical volumes across the life span are associated with regional optical measures of arterial elasticity.

Authors:  Antonio M Chiarelli; Mark A Fletcher; Chin Hong Tan; Kathy A Low; Edward L Maclin; Benjamin Zimmerman; Tania Kong; Alexander Gorsuch; Gabriele Gratton; Monica Fabiani
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10.  Optical measures of cerebral arterial stiffness are associated with white matter signal abnormalities and cognitive performance in normal aging.

Authors:  Chin Hong Tan; Kathy A Low; Antonio M Chiarelli; Mark A Fletcher; Riccardo Navarra; Agnieszka Z Burzynska; Tania S Kong; Benjamin Zimmerman; Edward L Maclin; Bradley P Sutton; Gabriele Gratton; Monica Fabiani
Journal:  Neurobiol Aging       Date:  2019-08-10       Impact factor: 4.673
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