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本文引用的文献

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Valsalva-induced elevation of intracranial pressure selectively decouples deoxygenated hemoglobin concentration from neuronal activation and functional brain imaging capability.瓦尔萨尔瓦动作引起的颅内压升高选择性地使去氧血红蛋白浓度与神经元激活和功能脑成像能力解耦。
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Prefrontal hemodynamic after-effects caused by rebreathing may predict affective states - A multimodal functional near-infrared spectroscopy study.重复呼吸引起的前额叶血流动力学后效应可能预测情感状态——一项多模态功能近红外光谱研究。
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Ultra-fast magnetic resonance encephalography of physiological brain activity - Glymphatic pulsation mechanisms?生理性脑活动的超快磁共振脑成像——类淋巴系统脉动机制?
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Time-frequency dynamics of the sum of intra- and extracerebral hemodynamic functional connectivity during resting-state and respiratory challenges assessed by multimodal functional near-infrared spectroscopy.通过多模态功能近红外光谱评估静息状态和呼吸刺激期间脑内和脑外血流动力学功能连接总和的时频动态变化。
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Agreement and repeatability of vascular reactivity estimates based on a breath-hold task and a resting state scan.基于屏气任务和静息状态扫描的血管反应性估计的一致性和可重复性。
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Brain Connect. 2014 Nov;4(9):677-89. doi: 10.1089/brain.2014.0258. Epub 2014 Sep 26.
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呼吸暂停对心脑血管脑搏动的影响——一项多模态磁共振脑功能成像研究。

Breath hold effect on cardiovascular brain pulsations - A multimodal magnetic resonance encephalography study.

机构信息

Oulu Functional Neuro Imaging Group, Research Unit of Medical Imaging Physics and Technology (MIPT), University of Oulu, Oulu, Finland.

Department of Diagnostic Radiology, Medical Research Center (MRC), Oulu University Hospital, Oulu, Finland.

出版信息

J Cereb Blood Flow Metab. 2019 Dec;39(12):2471-2485. doi: 10.1177/0271678X18798441. Epub 2018 Sep 11.

DOI:10.1177/0271678X18798441
PMID:30204040
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6893986/
Abstract

Ultra-fast functional magnetic resonance encephalography (MREG) enables separate assessment of cardiovascular, respiratory, and vasomotor waves from brain pulsations without temporal aliasing. We examined effects of breath hold- (BH) related changes on cardiovascular brain pulsations using MREG to study the physiological nature of cerebrovascular reactivity. We used alternating 32 s BH and 88 s resting normoventilation (NV) to change brain pulsations during MREG combined with simultaneously measured respiration, continuous non-invasive blood pressure, and cortical near-infrared spectroscopy (NIRS) in healthy volunteers. Changes in classical resting-state network BOLD-like signal and cortical blood oxygenation were reproduced based on MREG and NIRS signals. Cardiovascular pulsation amplitudes of MREG signal from anterior cerebral artery, oxygenated hemoglobin concentration in frontal cortex, and blood pressure decreased after BH. MREG cardiovascular pulse amplitudes in cortical areas and sagittal sinus increased, while cerebrospinal fluid and white matter remained unchanged. Respiratory centers in the brainstem - hypothalamus - thalamus - amygdala network showed strongest increases in cardiovascular pulsation amplitude. The spatial propagation of averaged cardiovascular impulses altered as a function of successive BH runs. The spread of cardiovascular pulse cycles exhibited a decreasing spatial similarity over time. MREG portrayed spatiotemporally accurate respiratory network activity and cardiovascular pulsation dynamics related to BH challenges at an unpreceded high temporal resolution.

摘要

超快速功能磁共振脑成像(MREG)可在无时间混淆的情况下,分别评估心血管、呼吸和血管运动波与脑搏动。我们使用 MREG 检查与屏息(BH)相关的变化对心血管脑搏动的影响,以研究脑血管反应性的生理性质。我们使用交替的 32 秒 BH 和 88 秒正常通气(NV)来改变 MREG 期间的脑搏动,同时测量呼吸、连续无创血压和皮质近红外光谱(NIRS)在健康志愿者中。基于 MREG 和 NIRS 信号重现了经典静息状态网络 BOLD 样信号和皮质血氧变化。MREG 信号从前脑动脉的心血管脉动幅度、额叶氧合血红蛋白浓度和血压在 BH 后降低。皮质区域和矢状窦的 MREG 心血管脉冲幅度增加,而脑脊液和白质保持不变。脑桥 - 下丘脑 - 丘脑 - 杏仁核网络中的呼吸中枢显示出最强的心血管脉动幅度增加。平均心血管脉冲的传播空间随 BH 运行而改变。心血管脉冲周期的传播表现出随时间的空间相似性降低。MREG 以前所未有的高时间分辨率描绘了与 BH 挑战相关的呼吸网络活动和心血管搏动动力学的时空准确图像。