Smooth Normative Brain Mapping of Three‐Dimensional Morphometry Imaging Data Using Skew‐Normal Regression
Marco Palma, Shahin Tavakoli, Julia Brettschneider, Ana‐Maria Staicu, Thomas E. Nichols

TL;DR
This paper introduces a new brain mapping method using skew-normal regression to create normative maps and assess individual risk of brain degeneration.
Contribution
The novel contribution is a normative model that accounts for asymmetric voxel distributions in brain imaging data.
Findings
A model was developed where mean, variance, and skewness functions vary smoothly across brain locations.
The model transforms TBM images into normative maps based on Gaussian distributions.
Indices of deviation from healthy brain conditions are derived to assess individual risk of degeneration.
Abstract
Tensor‐based morphometry (TBM) aims at showing local differences in brain volumes with respect to a common template. TBM images are smooth, but they exhibit (especially in diseased groups) higher values in some brain regions called lateral ventricles. More specifically, our voxelwise analysis shows both a mean–variance relationship in these areas and evidence of spatially dependent skewness. We propose a model for three‐dimensional imaging data where mean, variance and skewness functions vary smoothly across brain locations. We model the voxelwise distributions as skew‐normal. We illustrate an interpolation‐based approach to obtain smooth parameter functions based on a subset of voxels. The effects of age and sex are estimated on a reference population of cognitively normal subjects from the Alzheimer's Disease Neuroimaging Initiative (ADNI) data set and mapped across the whole brain.…
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Taxonomy
TopicsAdvanced Neuroimaging Techniques and Applications · Functional Brain Connectivity Studies · Statistical Methods and Inference
