分离功能近红外光谱信号中广泛存在的生理波动源。
Isolating the sources of widespread physiological fluctuations in functional near-infrared spectroscopy signals.
机构信息
McLean Hospital, Brain Imaging Center, 115 Mill Street, Belmont, Massachusetts 02478, USA.
出版信息
J Biomed Opt. 2011 Oct;16(10):106005. doi: 10.1117/1.3638128.
Abstract
Physiological fluctuations at low frequency (<0.1 Hz) are prominent in functional near-infrared spectroscopy (fNIRS) measurements in both resting state and functional task studies. In this study, we used the high spatial resolution and full brain coverage of functional magnetic resonance imaging (fMRI) to understand the origins and commonalities of these fluctuations. Specifically, we applied a newly developed method, regressor interpolation at progressive time delays, to analyze concurrently recorded fNIRS and fMRI data acquired both in a resting state study and in a finger tapping study. The method calculates the voxelwise correlations between blood oxygen level dependent (BOLD) fMRI and fNIRS signals with different time shifts and localizes the areas in the brain that highly correlate with the fNIRS signal recorded at the surface of the head. The results show the wide spatial distribution of this physiological fluctuation in BOLD data, both in task and resting states. The brain areas that are highly correlated with global physiological fluctuations observed by fNIRS have a pattern that resembles the venous system of the brain, indicating the blood fluctuation from veins on the brain surface might strongly contribute to the overall fNIRS signal.
摘要
在静息状态和功能任务研究中,功能近红外光谱(fNIRS)测量中低频(<0.1 Hz)的生理波动很明显。在这项研究中,我们使用功能磁共振成像(fMRI)的高空间分辨率和全脑覆盖范围来了解这些波动的起源和共性。具体来说,我们应用了一种新开发的方法,即随着时间的推移逐步延迟的回归插值,来分析同时记录的静息状态研究和手指敲击研究中获得的 fNIRS 和 fMRI 数据。该方法计算血氧水平依赖(BOLD)fMRI 和具有不同时间延迟的 fNIRS 信号之间的体素相关性,并定位与头部表面记录的 fNIRS 信号高度相关的大脑区域。结果表明,在任务和静息状态下,BOLD 数据中这种生理波动具有广泛的空间分布。与 fNIRS 观察到的全局生理波动高度相关的大脑区域的模式类似于大脑的静脉系统,表明来自大脑表面静脉的血液波动可能强烈影响整体 fNIRS 信号。
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