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The effects of age on the spontaneous low-frequency oscillations in cerebral and systemic cardiovascular dynamics.
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Oscillatory cerebral hemodynamics--the macro- vs. microvascular level.振荡性脑血流动力学——宏观与微血管水平
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Dynamic cerebral autoregulation in acute lacunar and middle cerebral artery territory ischemic stroke.急性腔隙性和大脑中动脉供血区缺血性卒中的动态脑自动调节
Stroke. 2005 Dec;36(12):2595-600. doi: 10.1161/01.STR.0000189624.06836.03. Epub 2005 Oct 27.
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Dynamic cerebral autoregulation in acute ischemic stroke assessed from spontaneous blood pressure fluctuations.基于自发性血压波动评估急性缺血性卒中患者的脑血流自动调节功能
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近红外光谱评估头颈部血管的低频振荡。

Low frequency oscillations in cephalic vessels assessed by near infrared spectroscopy.

机构信息

Danish Headache Center, Glostrup Hospital, University of Copenhagen, Copenhagen, Denmark.

出版信息

Eur J Clin Invest. 2012 Nov;42(11):1180-8. doi: 10.1111/j.1365-2362.2012.02704.x. Epub 2012 Aug 16.

DOI:10.1111/j.1365-2362.2012.02704.x
PMID:22897146
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3730271/
Abstract

BACKGROUND AND METHODS

Low frequency oscillations (LFO) of cerebral vessels are believed to reflect cerebral autoregulation. We investigated day-to-day and hemispheric variations in 0.1 Hz LFO with near infrared spectroscopy (NIRS) and transcranial Doppler (TCD) to determine phase shift and gain of oxygenated haemoglobin (oxyHb) and the velocity of the middle cerebral artery (Vmca) to the arterial blood pressure (ABP). The direct left-right phase shifts of oxyHb and Vmca were also assessed. We examined 44 healthy volunteers by simultaneous recordings of ABP, oxyHb and Vmca during spontaneous and paced breathing at 6 breaths per minute on two separate days.

RESULTS

The variation between hemispheres had a prediction interval (PI) of ± 39° for ABP-oxyHb phase shift and ± 69% for gain. ABP-Vmca showed ± 57° PI phase shift and ± 158% PI for gain. The variation from day to day showed ± 61° PI for ABP-oxyHb phase shift and ± 297% PI for gain. ABP-Vmca showed ± 45° PI phase shift and ± 166% PI for gain. We found a linear relation between phase shift of oxyHb and Vmca at paced breathing (P=0.0005), but not at rest (P=0.235).

CONCLUSION

Our results show that LFO phase shift ABP-oxyHb may be used as a robust measurement of differences in autoregulation between hemispheres and over time. In addition, we found a strong relation between oxyHb and Vmca during paced breathing. Gain showed too large variation for clinical use, as the SD was up to 100-fold of mean values.

摘要

背景与方法

低频振荡(LFO)被认为可以反映脑自动调节。我们通过近红外光谱(NIRS)和经颅多普勒(TCD)来研究 0.1Hz 的 LFO 的日间和半球变化,以确定含氧血红蛋白(oxyHb)和大脑中动脉(Vmca)的速度与动脉血压(ABP)之间的相位差和增益。我们还评估了直接左右 oxyHb 和 Vmca 的相位差。我们在两天的时间里,通过在每分钟 6 次的自主和有节奏呼吸期间同时记录 ABP、oxyHb 和 Vmca,对 44 名健康志愿者进行了检查。

结果

ABP-oxyHb 相位差的半球间变化具有预测区间(PI)为±39°,增益的 PI 为±69%。ABP-Vmca 显示 PI 相位差为±57°,增益的 PI 为±158%。从一天到另一天的变化显示 ABP-oxyHb 相位差的 PI 为±61°,增益的 PI 为±297%。ABP-Vmca 显示 PI 相位差为±45°,增益的 PI 为±166%。我们发现在有节奏呼吸时,oxyHb 和 Vmca 的相位差之间存在线性关系(P=0.0005),但在休息时没有(P=0.235)。

结论

我们的结果表明,ABP-oxyHb 的 LFO 相位差可能是测量半球间和随时间自动调节差异的可靠指标。此外,我们在有节奏的呼吸时发现了 oxyHb 和 Vmca 之间的强烈关系。增益的变化太大,不适合临床使用,因为其标准差高达平均值的 100 倍。