Precise Topology of Adjacent Domain-General and Sensory-Biased Regions in the Human Brain

M. Assem, Sneha Shashidhara, M. Glasser, J. Duncan
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引用次数: 17

Abstract

Recent functional MRI studies identified sensory-biased regions across much of the association cortices and cerebellum. However, their anatomical relationship to multiple-demand (MD) regions, characterized as domain-general due to their co-activation during multiple cognitive demands, remains unclear. For a better anatomical delineation, we used multimodal MRI techniques of the Human Connectome Project to scan subjects performing visual and auditory versions of a working memory (WM) task. The contrast between hard and easy WM showed strong domain generality, with essentially identical patterns of cortical, subcortical and cerebellar MD activity for visual and auditory materials. In contrast, modality preferences were shown by contrasting easy WM with baseline; most MD regions showed visual preference while immediately adjacent to cortical MD regions, there were interleaved regions of both visual and auditory preference. The results may exemplify a general motif whereby domain-specific regions feed information into and out of an adjacent, integrative MD core.
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人脑邻域通用区和感觉偏置区的精确拓扑
最近的功能性核磁共振研究发现,感觉偏倚的区域横跨许多联合皮层和小脑。然而,它们与多需求区(MD)的解剖关系尚不清楚,由于它们在多种认知需求中共同激活,因此被称为一般域。为了更好的解剖描述,我们使用人类连接组项目的多模态MRI技术来扫描执行工作记忆(WM)任务的视觉和听觉版本的受试者。硬、易WM的对比显示出较强的区域共性,视觉和听觉材料的皮层、皮层下和小脑MD活动模式基本相同。相比之下,通过对比简单WM和基线来显示模式偏好;大多数MD区表现为视觉偏好,而紧挨着皮层MD区,存在视觉和听觉偏好交错的区域。结果可以举例说明一个一般的基序,即领域特定区域将信息输入和输出相邻的综合MD核心。
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