DeDe宝 (2024-03-04 22:05):
#paper, DOI: https://elifesciences.org/articles/17086, elife, A map of abstract relational knowledge in the human hippocampal–entorhinal cortex, 海马-内嗅系统编码指导空间导航的空间地图,这是一种连续的地图(map)。对连续地图信息的处理依赖于神经系统,但处理连续地图信息的原则是否能够拓展到隐式编码的离散地图尚未可知。在这篇文章中,研究者证明海马-内嗅系统可以使用联想强度的度量表示抽象对象之间的关系(距离),即使该关系式非空间的(抽象的)、离散不连续且隐式编码的。研究者通过海马-内嗅fmri适应信号重建了类似于空间地图的知识结构,且最佳预测度量是未来状态的加权和,这和位置细胞、网格细胞放电模式的后继表示相类似。
IF:6.400Q1 eLife, 2017-04-27. DOI: 10.7554/eLife.17086 PMID: 28448253
A map of abstract relational knowledge in the human hippocampal-entorhinal cortex
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Abstract:
The hippocampal-entorhinal system encodes a map of space that guides spatial navigation. Goal-directed behaviour outside of spatial navigation similarly requires a representation of abstract forms of relational knowledge. This information relies on the same neural system, but it is not known whether the organisational principles governing continuous maps may extend to the implicit encoding of discrete, non-spatial graphs. Here, we show that the human hippocampal-entorhinal system can represent relationships between objects using a metric that depends on associative strength. We reconstruct a map-like knowledge structure directly from a hippocampal-entorhinal functional magnetic resonance imaging adaptation signal in a situation where relationships are non-spatial rather than spatial, discrete rather than continuous, and unavailable to conscious awareness. Notably, the measure that best predicted a behavioural signature of implicit knowledge and blood oxygen level-dependent adaptation was a weighted sum of future states, akin to the successor representation that has been proposed to account for place and grid-cell firing patterns.
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