Cross-species Standardised Cortico-Subcortical Tractography.

bioRxiv : the preprint server for biology Pub Date : 2025-06-11 DOI:10.1101/2025.04.29.651254

Stephania Assimopoulos, Shaun Warrington, Davide Folloni, Katherine Bryant, Wei Tang, Saad Jbabdi, Sarah Heilbronner, Rogier B Mars, Stamatios N Sotiropoulos

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Abstract

Despite their importance for brain function, cortico-subcortical white matter tracts are under-represented in diffusion MRI tractography studies. Their non-invasive mapping is more challenging and less explored compared to other major cortico-cortical bundles. We introduce a set of standardised tractography protocols for delineating tracts between the cortex and various deep subcortical structures, including the caudate, putamen, amygdala, thalamus and hippocampus. To enable comparative studies, our protocols are designed for both human and macaque brains. We demonstrate how tractography reconstructions follow topographical principles obtained from tracers in the macaque and how these translate to humans. We show that the proposed protocols are robust against data quality and preserve aspects of individual variability stemming from family structure in humans. Lastly, we demonstrate the value of these species-matched protocols in mapping homologous grey matter regions in humans and macaques, both in cortex and subcortex.

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跨物种标准化皮质-皮质下导管造影。

尽管皮质-皮层下白质束对脑功能很重要，但在弥散性MRI束造影研究中，它们的代表性不足。与其他主要皮质-皮质束相比，它们的非侵入性定位更具挑战性，探索较少。我们介绍了一套标准化的束造影方案，用于描绘皮层和各种深层皮层下结构之间的束，包括尾状核、壳核、杏仁核、丘脑和海马。为了进行比较研究，我们的方案是针对人类和猕猴的大脑设计的。我们展示了神经束成像重建如何遵循从猕猴示踪剂中获得的地形原理，以及这些原理如何转化为人类。我们表明，所提出的方案对数据质量具有鲁棒性，并保留了源自人类家庭结构的个体可变性方面。最后，我们证明了这些物种匹配协议在绘制人类和猕猴皮层和皮层下同源灰质区域的价值。

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bioRxiv : the preprint server for biology

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