Department of Neurological Surgery, University of Texas-Southwestern Medical Center, Dallas, Texas.
Center for Vital Longevity, University of Texas at Dallas, Dallas, Texas.
Hippocampus. 2019 Feb;29(2):68-72. doi: 10.1002/hipo.23016. Epub 2018 Nov 5.
The question of whether the anterior and posterior hippocampus serve different or complementary functional roles during episodic memory processing has been motivated by noteworthy findings in rodent experiments and from noninvasive studies in humans. Researchers have synthesized these data to postulate several models of functional specialization, However, the issue has not been explored in detail using direct brain recordings. We recently published evidence that theta power increases during episodic memory encoding occur in the posterior hippocampus in humans. In our current investigation we analyzed an expanded data set of 32 epilepsy patients undergoing stereo EEG seizure mapping surgery with electrodes precisely targeted to the anterior and posterior hippocampus simultaneously who performed an episodic memory task. Using a repeated measures design, we looked for an interaction between encoding versus retrieval differences in gamma oscillatory power and anterior versus posterior hippocampal location. Our findings are consistent with a recently articulated model (the HERNET model) favoring posterior hippocampal activation during retrieval related processing. We also tested for encoding versus retrieval differences in the preferred gamma frequency band (high versus low gamma oscillations) motivated by published rodent data.
内侧颞叶在情景记忆处理中是否具有不同的或补充的功能作用,这一问题的提出源于啮齿类动物实验和人类非侵入性研究中的显著发现。研究人员综合这些数据提出了几种功能专业化模型,但尚未使用直接的大脑记录来详细探讨这个问题。我们最近发表的证据表明,在人类中,情景记忆编码期间θ功率增加发生在后内侧海马体中。在我们目前的研究中,我们分析了 32 名癫痫患者的扩展数据集,这些患者在接受立体脑电图癫痫手术时,电极同时精确地靶向前内侧和后内侧海马体,他们执行了情景记忆任务。使用重复测量设计,我们在前内侧和后内侧海马体位置之间寻找与编码与检索差异相关的γ振荡功率的相互作用。我们的发现与最近提出的一个模型(HERNET 模型)一致,该模型支持在与检索相关的处理过程中后内侧海马体的激活。我们还基于已发表的啮齿动物数据,测试了在首选γ频带(高γ和低γ振荡)中的编码与检索差异。