A framework to construct a longitudinal DW-MRI infant atlas based on mixed effects modeling of dODF coefficients
Building of atlases plays a crucial role in the analysis of brain images. In scenarios where early growth, aging or disease trajectories are of key importance, longitudinal atlases become necessary as references, most often created from cross-sectional data. New opportunities will be offered by crea...
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| Main Authors | , , , |
|---|---|
| Format | Journal Article |
| Language | English |
| Published |
10.03.2020
|
| Online Access | Get full text |
| DOI | 10.48550/arxiv.2003.05091 |
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| Abstract | Building of atlases plays a crucial role in the analysis of brain images. In
scenarios where early growth, aging or disease trajectories are of key
importance, longitudinal atlases become necessary as references, most often
created from cross-sectional data. New opportunities will be offered by
creating longitudinal brain atlases from longitudinal subject-specific image
data, where explicit modeling of subject's variability in slope and intercept
leads to a more robust estimation of average trajectories but also to estimates
of confidence bounds. This work focuses on a framework to build a continuous 4D
atlas from longitudinal high angular resolution diffusion images (HARDI) where,
unlike atlases of derived scalar diffusion indices such as FA, statistics on
dODFs is preserved. Multi-scalar images obtained from DW images are used for
geometric alignment, and linear mixed-effects modeling from longitudinal
diffusion orientation distribution functions (dODF) leads to estimation of
continuous dODF changes. The proposed method is applied to a longitudinal
dataset of HARDI images from healthy developing infants in the age range of 3
to 36 months. Verification of mixed-effects modeling is obtained by voxel-wise
goodness of fit calculations. To demonstrate the potential of our method, we
display changes of longitudinal atlas using dODF and derived generalized
fractional anisotropy (GFA) of dODF. We also investigate white matter
maturation patterns in genu, body, and splenium of the corpus callosum. The
framework can be used to build an average dODF atlas from HARDI data and to
derive subject-specific and population-based longitudinal change trajectories. |
|---|---|
| AbstractList | Building of atlases plays a crucial role in the analysis of brain images. In
scenarios where early growth, aging or disease trajectories are of key
importance, longitudinal atlases become necessary as references, most often
created from cross-sectional data. New opportunities will be offered by
creating longitudinal brain atlases from longitudinal subject-specific image
data, where explicit modeling of subject's variability in slope and intercept
leads to a more robust estimation of average trajectories but also to estimates
of confidence bounds. This work focuses on a framework to build a continuous 4D
atlas from longitudinal high angular resolution diffusion images (HARDI) where,
unlike atlases of derived scalar diffusion indices such as FA, statistics on
dODFs is preserved. Multi-scalar images obtained from DW images are used for
geometric alignment, and linear mixed-effects modeling from longitudinal
diffusion orientation distribution functions (dODF) leads to estimation of
continuous dODF changes. The proposed method is applied to a longitudinal
dataset of HARDI images from healthy developing infants in the age range of 3
to 36 months. Verification of mixed-effects modeling is obtained by voxel-wise
goodness of fit calculations. To demonstrate the potential of our method, we
display changes of longitudinal atlas using dODF and derived generalized
fractional anisotropy (GFA) of dODF. We also investigate white matter
maturation patterns in genu, body, and splenium of the corpus callosum. The
framework can be used to build an average dODF atlas from HARDI data and to
derive subject-specific and population-based longitudinal change trajectories. |
| Author | Styner, Martin Kim, Heejong Piven, Joseph Gerig, Guido |
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| BackLink | https://doi.org/10.48550/arXiv.2003.05091$$DView paper in arXiv |
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scenarios where early growth, aging or disease trajectories are of key
importance,... |
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| Title | A framework to construct a longitudinal DW-MRI infant atlas based on mixed effects modeling of dODF coefficients |
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