脑功能连接在缺氧期间的关键氧阈值处启动结构性重组。

Brain functional connectivity initiates structured reorganization at a critical oxygen threshold during hypoxia.

作者信息

Kang Daehun, Uchida Koji, Haider Clifton R, Campeau Norbert G, In Myung-Ho, Gray Erin M, Trzasko Joshua D, Welker Kirk M, Bernstein Matt A, Trenerry Max R, Holmes David R, Joyner Michael J, Curry Timothy B, Huston John, Shu Yunhong

机构信息

Department of Radiology, Mayo Clinic, 200 First St. SW, Rochester, MN, 55905.

Department of Anesthesiology and Perioperative Medicine, Mayo Clinic, 200 First St. SW, Rochester, MN, 55905.

出版信息

bioRxiv. 2025 Aug 18:2025.08.18.670896. doi: 10.1101/2025.08.18.670896.

DOI:10.1101/2025.08.18.670896

PMID:40894714

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12393409/

Abstract

The human brain dynamically adapts to hypoxia, a reduction in oxygen essential for metabolism. The brain's adaptive response to hypoxia, however, remains unclear. We investigated dynamic functional connectivity (FC) in healthy adults under acute hypoxia (FiO = 7.7%, 11.8%) using BOLD fMRI, physiological monitoring (PetO, PetCO, SpO), and a Go/No-Go task. Principal component analysis identified a hypoxia-responsive FC component involving 400 cerebral parcels. This component emerged with a critical drop in PetO (~53 mmHg), preceding changes in SpO, BOLD signals, and behavior. These FC changes were network-specific and centered on the default mode network (DMN), which selectively synchronized with other high-level cognitive networks. In contrast, visual networks remained stable and segregated from the DMN. These results suggest that the brain proactively reorganizes its functional architecture in anticipation of oxygen decline, rather than in response to it. FC-based markers may offer early indicators of vulnerability in neurological or neurodegenerative conditions.

摘要

人类大脑会动态适应缺氧状态，即代谢所必需的氧气减少。然而，大脑对缺氧的适应性反应仍不清楚。我们使用血氧水平依赖性功能磁共振成像（BOLD fMRI）、生理监测（PetO₂、PetCO₂、SpO₂）以及一项Go/No-Go任务，研究了健康成年人在急性缺氧（FiO₂ = 7.7%，11.8%）状态下的动态功能连接（FC）。主成分分析确定了一个涉及400个脑区的缺氧反应性功能连接成分。该成分在PetO₂ 出现临界下降（约53 mmHg）时出现，早于SpO₂、BOLD信号和行为的变化。这些功能连接变化具有网络特异性，且以默认模式网络（DMN）为中心，该网络与其他高级认知网络选择性同步。相比之下，视觉网络保持稳定并与默认模式网络分离。这些结果表明，大脑会在预期氧气下降时而不是在氧气下降后主动重组其功能结构。基于功能连接的标志物可能为神经或神经退行性疾病的易感性提供早期指标。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8db2/12393409/f14f2e3da0f2/nihpp-2025.08.18.670896v1-f0001.jpg

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脑功能连接在缺氧期间的关键氧阈值处启动结构性重组。

Brain functional connectivity initiates structured reorganization at a critical oxygen threshold during hypoxia.

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