海马体和内嗅皮层在导航过程中编码通往目标的路径和欧几里得距离。

The hippocampus and entorhinal cortex encode the path and Euclidean distances to goals during navigation.

作者信息

Howard Lorelei R, Javadi Amir Homayoun, Yu Yichao, Mill Ravi D, Morrison Laura C, Knight Rebecca, Loftus Michelle M, Staskute Laura, Spiers Hugo J

机构信息

UCL Institute of Behavioural Neuroscience, Research Department of Experimental Psychology, Division of Psychology and Language Sciences, University College London, London WC1H 0AP, UK; Aging & Cognition Research Group, German Center for Neurodegenerative Diseases (DZNE), 39120 Magdeburg, Germany.

UCL Institute of Behavioural Neuroscience, Research Department of Experimental Psychology, Division of Psychology and Language Sciences, University College London, London WC1H 0AP, UK.

出版信息

Curr Biol. 2014 Jun 16;24(12):1331-1340. doi: 10.1016/j.cub.2014.05.001. Epub 2014 Jun 5.

DOI:10.1016/j.cub.2014.05.001

PMID:24909328

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4062938/

Abstract

BACKGROUND

Despite decades of research on spatial memory, we know surprisingly little about how the brain guides navigation to goals. While some models argue that vectors are represented for navigational guidance, other models postulate that the future path is computed. Although the hippocampal formation has been implicated in processing spatial goal information, it remains unclear whether this region processes path- or vector-related information.

RESULTS

We report neuroimaging data collected from subjects navigating London's Soho district; these data reveal that both the path distance and the Euclidean distance to the goal are encoded by the medial temporal lobe during navigation. While activity in the posterior hippocampus was sensitive to the distance along the path, activity in the entorhinal cortex was correlated with the Euclidean distance component of a vector to the goal. During travel periods, posterior hippocampal activity increased as the path to the goal became longer, but at decision points, activity in this region increased as the path to the goal became closer and more direct. Importantly, sensitivity to the distance was abolished in these brain areas when travel was guided by external cues.

CONCLUSIONS

The results indicate that the hippocampal formation contains representations of both the Euclidean distance and the path distance to goals during navigation. These findings argue that the hippocampal formation houses a flexible guidance system that changes how it represents distance to the goal depending on the fluctuating demands of navigation.

摘要

背景

尽管对空间记忆进行了数十年的研究，但令人惊讶的是，我们对大脑如何引导导航至目标知之甚少。虽然一些模型认为向量被表征用于导航引导，但其他模型假设未来路径是被计算出来的。尽管海马结构已被认为与处理空间目标信息有关，但尚不清楚该区域处理的是与路径相关还是与向量相关的信息。

结果

我们报告了从在伦敦苏豪区导航的受试者收集的神经影像数据；这些数据显示，在导航过程中，内侧颞叶对到目标的路径距离和欧几里得距离均进行了编码。后海马体的活动对沿路径的距离敏感，而内嗅皮质的活动与到目标的向量的欧几里得距离分量相关。在行进期间，随着到目标的路径变长，后海马体的活动增加，但在决策点，当到目标的路径变得更近且更直接时，该区域的活动增加。重要的是，当由外部线索引导行进时，这些脑区对距离的敏感性消失。

结论

结果表明，海马结构在导航过程中包含对到目标的欧几里得距离和路径距离的表征。这些发现表明，海马结构拥有一个灵活的引导系统，该系统会根据导航需求的变化改变其对到目标距离的表征方式。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7719/4062938/c2f931f4a460/fx1.jpg

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海马体和内嗅皮层在导航过程中编码通往目标的路径和欧几里得距离。

The hippocampus and entorhinal cortex encode the path and Euclidean distances to goals during navigation.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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