人类海马体的θ振荡比啮齿动物慢：对空间导航和记忆模型的启示。

Hippocampal theta oscillations are slower in humans than in rodents: implications for models of spatial navigation and memory.

作者信息

Jacobs Joshua

机构信息

School of Biomedical Engineering, Science and Health Systems, Drexel University, , Philadelphia, PA 19104, USA.

出版信息

Philos Trans R Soc Lond B Biol Sci. 2013 Dec 23;369(1635):20130304. doi: 10.1098/rstb.2013.0304. Print 2014 Feb 5.

DOI:10.1098/rstb.2013.0304

PMID:24366145

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3866455/

Abstract

The theta oscillation is a neuroscience enigma. When a rat runs through an environment, large-amplitude theta oscillations (4-10 Hz) reliably appear in the hippocampus's electrical activity. The consistency of this pattern led to theta playing a central role in theories on the neural basis of mammalian spatial navigation and memory. However, in fact, hippocampal oscillations at 4-10 Hz are rare in humans and in some other species. This presents a challenge for theories proposing theta as an essential component of the mammalian brain, including models of place and grid cells. Here, I examine this issue by reviewing recent research on human hippocampal oscillations using direct brain recordings from neurosurgical patients. This work indicates that the human hippocampus does indeed exhibit rhythms that are functionally similar to theta oscillations found in rodents, but that these signals have a slower frequency of approximately 1-4 Hz. I argue that oscillatory models of navigation and memory derived from rodent data are relevant for humans, but that they should be modified to account for the slower frequency of the human theta rhythm.

摘要

θ振荡是神经科学中的一个谜。当一只老鼠在环境中奔跑时，海马体的电活动中会可靠地出现大幅度的θ振荡（4 - 10赫兹）。这种模式的一致性使得θ在关于哺乳动物空间导航和记忆的神经基础的理论中发挥核心作用。然而，事实上，4 - 10赫兹的海马体振荡在人类和其他一些物种中很少见。这给将θ作为哺乳动物大脑重要组成部分的理论带来了挑战，包括位置细胞和网格细胞模型。在这里，我通过回顾近期对接受神经外科手术患者进行直接脑记录的人类海马体振荡研究来探讨这个问题。这项研究表明，人类海马体确实表现出与啮齿动物中发现的θ振荡功能相似的节律，但这些信号的频率较慢，约为1 - 4赫兹。我认为，从啮齿动物数据得出的导航和记忆振荡模型与人类相关，但应进行修改以考虑人类θ节律较慢的频率。

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