Frontiers in Neuroinformatics (Jun 2022)

A Robust Modular Automated Neuroimaging Pipeline for Model Inputs to TheVirtualBrain

  • Noah Frazier-Logue,
  • Noah Frazier-Logue,
  • Justin Wang,
  • Zheng Wang,
  • Devin Sodums,
  • Devin Sodums,
  • Anisha Khosla,
  • Anisha Khosla,
  • Alexandria D. Samson,
  • Alexandria D. Samson,
  • Anthony R. McIntosh,
  • Anthony R. McIntosh,
  • Anthony R. McIntosh,
  • Anthony R. McIntosh,
  • Kelly Shen,
  • Kelly Shen

DOI
https://doi.org/10.3389/fninf.2022.883223
Journal volume & issue
Vol. 16

Abstract

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TheVirtualBrain, an open-source platform for large-scale network modeling, can be personalized to an individual using a wide range of neuroimaging modalities. With the growing number and scale of neuroimaging data sharing initiatives of both healthy and clinical populations comes an opportunity to create large and heterogeneous sets of dynamic network models to better understand individual differences in network dynamics and their impact on brain health. Here we present TheVirtualBrain-UK Biobank pipeline, a robust, automated and open-source brain image processing solution to address the expanding scope of TheVirtualBrain project. Our pipeline generates connectome-based modeling inputs compatible for use with TheVirtualBrain. We leverage the existing multimodal MRI processing pipeline from the UK Biobank made for use with a variety of brain imaging modalities. We add various features and changes to the original UK Biobank implementation specifically for informing large-scale network models, including user-defined parcellations for the construction of matching whole-brain functional and structural connectomes. Changes also include detailed reports for quality control of all modalities, a streamlined installation process, modular software packaging, updated software versions, and support for various publicly available datasets. The pipeline has been tested on various datasets from both healthy and clinical populations and is robust to the morphological changes observed in aging and dementia. In this paper, we describe these and other pipeline additions and modifications in detail, as well as how this pipeline fits into the TheVirtualBrain ecosystem.

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