有氧运动对海马完整性和功能的影响:多模态成像分析的初步结果。

Brain plasticity (Amsterdam, Netherlands) Pub Date : 2018-12-26 DOI:10.3233/BPL-170053

Lauren Den Ouden, Aaron Kandola, Chao Suo, Joshua Hendrikse, Ricardo J S Costa, Matthew J Watt, Valentina Lorenzetti, Yann Chye, Linden Parkes, Kristina Sabaroedin, Murat Yücel

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引用次数: 20

摘要

有氧运动(AE)干预是一种很有前途的治疗海马完整性疾病的方法，但需要对AE在人脑中刺激的神经机制进行更全面的研究。我们进行了一项纵向先导研究，以评估12周声发射干预对10名健康人类参与者(50%女性;至59年)。使用一种新型的多模态MRI技术，我们发现左海马体积、菊核子区1、NAA浓度和即时言语回忆表现显著增加。我们的初步研究结果强调了多模式方法在评估海马完整性方面的实用性。

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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The Influence of Aerobic Exercise on Hippocampal Integrity and Function: Preliminary Findings of a Multi-Modal Imaging Analysis.

Aerobic exercise (AE) interventions represent promising therapeutic approaches in disorders that compromise hippocampal integrity, but a more comprehensive account of the neural mechanisms stimulated by AE in the human brain is needed. We conducted a longitudinal pilot-study to assess the impact of a 12-week AE intervention on hippocampal structure and function in 10 healthy, human participants (50% females; 25-59 years). Using a novel combination of multimodal MRI techniques, we found significant increases in left hippocampal volume, Cornu Ammonis subfield area 1, NAA concentration and immediate verbal recall performance. Our preliminary findings highlight the utility of a multimodal approach in assessing hippocampal integrity.

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Brain plasticity (Amsterdam, Netherlands)

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