高分辨率 7T fMRI 观察人类海马亚区在联想学习中的活动。
High-resolution 7T fMRI of Human Hippocampal Subfields during Associative Learning.
机构信息
University of California, Los Angeles.
出版信息
J Cogn Neurosci. 2015 Jun;27(6):1194-206. doi: 10.1162/jocn_a_00772. Epub 2014 Dec 16.
Abstract
Examining the function of individual human hippocampal subfields remains challenging because of their small sizes and convoluted structures. Previous human fMRI studies at 3 T have successfully detected differences in activation between hippocampal cornu ammonis (CA) field CA1, combined CA2, CA3, and dentate gyrus (DG) region (CA23DG), and the subiculum during associative memory tasks. In this study, we investigated hippocampal subfield activity in healthy participants using an associative memory paradigm during high-resolution fMRI scanning at 7 T. We were able to localize fMRI activity to anterior CA2 and CA3 during learning and to the posterior CA2 field, the CA1, and the posterior subiculum during retrieval of novel associations. These results provide insight into more specific human hippocampal subfield functions underlying learning and memory and a unique opportunity for future investigations of hippocampal subfield function in healthy individuals as well as those suffering from neurodegenerative diseases.
摘要
由于个体海马亚区体积小且结构复杂,对其功能进行检测仍然具有挑战性。先前在 3T 场强下进行的人类 fMRI 研究已经成功地检测到在联想记忆任务中,海马 CA1 角回、联合 CA2、CA3 和齿状回(DG)区(CA23DG)以及下托之间的激活差异。在这项研究中,我们使用高分辨率 fMRI 扫描在 7T 场强下进行的联想记忆范式,在健康参与者中研究了海马亚区的活动。我们能够在学习过程中定位到前 CA2 和 CA3 的 fMRI 活动,在检索新联想时定位到后 CA2 区、CA1 和后下托的 fMRI 活动。这些结果为更具体的人类海马亚区学习和记忆功能提供了深入了解,也为未来研究健康个体以及患有神经退行性疾病个体的海马亚区功能提供了独特的机会。
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