English

A Deep Generative Model of Neonatal Cortical Surface Development

Neurons and Cognition 2022-06-23 v2 Computer Vision and Pattern Recognition Machine Learning Image and Video Processing

Abstract

The neonatal cortical surface is known to be affected by preterm birth, and the subsequent changes to cortical organisation have been associated with poorer neurodevelopmental outcomes. Deep Generative models have the potential to lead to clinically interpretable models of disease, but developing these on the cortical surface is challenging since established techniques for learning convolutional filters are inappropriate on non-flat topologies. To close this gap, we implement a surface-based CycleGAN using mixture model CNNs (MoNet) to translate sphericalised neonatal cortical surface features (curvature and T1w/T2w cortical myelin) between different stages of cortical maturity. Results show our method is able to reliably predict changes in individual patterns of cortical organisation at later stages of gestation, validated by comparison to longitudinal data; and translate appearance between preterm and term gestation (> 37 weeks gestation), validated through comparison with a trained term/preterm classifier. Simulated differences in cortical maturation are consistent with observations in the literature.

Keywords

Cite

@article{arxiv.2206.07542,
  title  = {A Deep Generative Model of Neonatal Cortical Surface Development},
  author = {Abdulah Fawaz and Logan Z. Williams and A. David Edwards and Emma Robinson},
  journal= {arXiv preprint arXiv:2206.07542},
  year   = {2022}
}
R2 v1 2026-06-24T11:52:28.875Z