Evaluating the Reliability of Human Brain White Matter Tractometry

• Published in: Aperture neuro Vol. 1; no. 1
• Main Authors: Kruper, John, Yeatman, Jason D, Richie-Halford, Adam, Bloom, David, Grotheer, Mareike, Caffarra, Sendy, Kiar, Gregory, Karipidis, Iliana I, Roy, Ethan, Chandio, Bramsh Q, Garyfallidis, Eleftherios, Rokem, Ariel
• Format: Journal Article
• Language: English
• Published: United States 01.01.2021
• Subjects: Brain Connectivity; Diffusion MRI; Robustness; Reproducibility; Tractography
• DOI: 10.52294/e6198273-b8e3-4b63-babb-6e6b0da10669

The validity of research results depends on the reliability of analysis methods. In recent years, there have been concerns about the validity of research that uses diffusion-weighted MRI (dMRI) to understand human brain white matter connections , in part based on the reliability of analysis methods used in this field. We defined and assessed three dimensions of reliability in dMRI-based tractometry, an analysis technique that assesses the physical properties of white matter pathways: (1) reproducibility, (2) test-retest reliability, and (3) robustness. To facilitate reproducibility, we provide software that automates tractometry (https://yeatmanlab.github.io/pyAFQ). In measurements from the Human Connectome Project, as well as clinical-grade measurements, we find that tractometry has high test-retest reliability that is comparable to most standardized clinical assessment tools. We find that tractometry is also robust: showing high reliability with different choices of analysis algorithms. Taken together, our results suggest that tractometry is a reliable approach to analysis of white matter connections. The overall approach taken here both demonstrates the specific trustworthiness of tractometry analysis and outlines what researchers can do to establish the reliability of computational analysis pipelines in neuroimaging.