In vivo mapping of the deep and superficial white matter connectivity in the chimpanzee brain

Autor: Maëlig Chauvel, Ivy Uszynski, Bastien Herlin, Alexandros Popov, Yann Leprince, Jean-François Mangin, William D. Hopkins, Cyril Poupon
Jazyk: angličtina
Rok vydání: 2023
Předmět:
Zdroj: NeuroImage, Vol 282, Iss , Pp 120362- (2023)
Druh dokumentu: article
ISSN: 1095-9572
DOI: 10.1016/j.neuroimage.2023.120362
Popis: Mapping the chimpanzee brain connectome and comparing it to that of humans is key to our understanding of similarities and differences in primate evolution that occurred after the split from their common ancestor around 6 million years ago. In contrast to studies on macaque species’ brains, fewer studies have specifically addressed the structural connectivity of the chimpanzee brain and its comparison with the human brain. Most comparative studies in the literature focus on the anatomy of the cortex and deep nuclei to evaluate how their morphology and asymmetry differ from that of the human brain, and some studies have emerged concerning the study of brain connectivity among humans, monkeys, and apes. In this work, we established a new white matter atlas of the deep and superficial white matter structural connectivity in chimpanzees. In vivo anatomical and diffusion-weighted magnetic resonance imaging (MRI) data were collected on a 3-Tesla MRI system from 39 chimpanzees. These datasets were subsequently processed using a novel fiber clustering pipeline adapted to the chimpanzee brain, enabling us to create two novel deep and superficial white matter connectivity atlases representative of the chimpanzee brain. These atlases provide the scientific community with an important and novel set of reference data for understanding the commonalities and differences in structural connectivity between the human and chimpanzee brains. We believe this study to be innovative both in its novel approach and in mapping the superficial white matter bundles in the chimpanzee brain, which will contribute to a better understanding of hominin brain evolution.
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