物种间激活相关性揭示了狨猴和人类大脑区域之间的功能对应

Y. Hori, Justine C. Cléry, D. Schaeffer, Ravi S. Menon, S. Everling
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引用次数: 23

摘要

普通狨猴作为非人类灵长类动物模型具有巨大的前景。虽然静息状态功能磁共振成像(fMRI)已经为狨猴和人类皮层的相似组织提供了证据,但该技术不能用于绘制物种之间大脑区域的功能对应关系。在这里,我们在狨猴和人类中使用电影驱动的功能磁共振成像来识别两种灵长类动物之间的全脑功能对应。特别是,我们描述了在狨猴中众所周知的人脸,身体和场景补丁的功能相关性。我们发现这些网络在这两个物种中有相似的组织,这表明狨猴和人类之间的高阶视觉区域的组织在很大程度上是保守的。普通狨猴作为人类大脑功能的非人类灵长类动物模型具有巨大的前景。虽然静息状态功能磁共振成像(fMRI)已经为狨猴和人类皮层的相似组织提供了证据,但该技术不能用于绘制物种之间大脑区域的功能对应关系。这种限制可以通过电影驱动的功能磁共振成像(md-fMRI)来克服,它已经成为一种流行的工具,用于无创性地绘制由丰富和自然刺激产生的神经模式。在这里,我们在狨猴和人类中使用了md-fMRI来识别这两种灵长类动物之间的全脑功能对应。特别是,我们描述了在狨猴中众所周知的人脸,身体和场景补丁的功能相关性。我们发现这些网络在这两个物种中有相似的组织,这表明新世界狨猴和人类之间的高阶视觉区域的组织在很大程度上是保守的。然而,当人类和狨猴的面部斑块被狨猴的面孔激活时,只有人类的面部斑块对其他动物的面孔有反应。总之,结果表明,高阶视觉处理可能是人类和新世界狨猴之间的保守特征,但存在微小的、潜在重要的功能差异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Interspecies activation correlations reveal functional correspondences between marmoset and human brain areas
Significance The common marmoset has enormous promise as a nonhuman primate model. While resting-state functional MRI (fMRI) has provided evidence for a similar organization of marmoset and human cortices, the technique cannot be used to map the functional correspondences of brain regions between species. Here, we used movie-driven fMRI in marmosets and humans to identify whole-brain functional correspondences between the two primate species. In particular, we describe functional correlates for the well-known human face, body, and scene patches in marmosets. We find that these networks have a similar organization in both species, suggesting a largely conserved organization of higher-order visual areas between marmoset monkeys and humans. The common marmoset has enormous promise as a nonhuman primate model of human brain functions. While resting-state functional MRI (fMRI) has provided evidence for a similar organization of marmoset and human cortices, the technique cannot be used to map the functional correspondences of brain regions between species. This limitation can be overcome by movie-driven fMRI (md-fMRI), which has become a popular tool for noninvasively mapping the neural patterns generated by rich and naturalistic stimulation. Here, we used md-fMRI in marmosets and humans to identify whole-brain functional correspondences between the two primate species. In particular, we describe functional correlates for the well-known human face, body, and scene patches in marmosets. We find that these networks have a similar organization in both species, suggesting a largely conserved organization of higher-order visual areas between New World marmoset monkeys and humans. However, while face patches in humans and marmosets were activated by marmoset faces, only human face patches responded to the faces of other animals. Together, the results demonstrate that higher-order visual processing might be a conserved feature between humans and New World marmoset monkeys but that small, potentially important functional differences exist.
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