Exercise Benefits Dentate Gyrus Function: Bridging from Animal Models to Human High-Resolution Functional MRI of Pattern Separation.

Q3 Neuroscience

Advances in neurobiology Pub Date : 2025-01-01 DOI:10.1007/978-981-95-0066-6_5

Kazuya Suwabe, Michael A Yassa, Kenji Suzuki, Yoshiyuki Sankai, Hideaki Soya

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Abstract

Animal studies have demonstrated that physical exercise enhances neural plasticity, particularly in the hippocampal dentate gyrus (DG), and improves learning and memory. Notably, these effects are more pronounced with light-intensity exercise compared to higher-intensity exercise. Recent advancements have enabled the investigation of hippocampal memory in humans, especially DG-dependent pattern separation, providing a bridge between animal and human research. In this chapter, we outline the methodological approaches for assessing hippocampal pattern separation using mnemonic discrimination tasks and high-resolution MRI, and we review key studies examining the effects of aerobic exercise on human DG function. Evidence from cross-sectional, acute, and chronic exercise intervention studies supports the positive impact of exercise and physical activity, with some findings aligning with the exercise hormesis observed in animals. However, further research is needed to determine the optimal exercise conditions for enhancing hippocampal memory and to elucidate the underlying neural mechanisms.

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运动有益于齿状回功能：从动物模型到人类模式分离的高分辨率功能性MRI的桥梁。

动物研究表明，体育锻炼可以增强神经的可塑性，尤其是海马齿状回（DG），并提高学习和记忆能力。值得注意的是，与高强度运动相比，这些影响在低强度运动中更为明显。最近的研究进展使人类海马记忆的研究成为可能，特别是对dg依赖模式分离的研究，为动物和人类的研究提供了一座桥梁。在本章中，我们概述了使用助记辨别任务和高分辨率MRI评估海马模式分离的方法方法，并回顾了研究有氧运动对人类DG功能影响的关键研究。来自横断面、急性和慢性运动干预研究的证据支持运动和身体活动的积极影响，其中一些发现与在动物身上观察到的运动刺激相一致。然而，需要进一步的研究来确定增强海马记忆的最佳运动条件和阐明潜在的神经机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advances in neurobiology Neuroscience-Neurology

CiteScore

2.80

自引率

0.00%

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