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本文引用的文献

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Anatomical guidance for functional near-infrared spectroscopy: AtlasViewer tutorial.功能性近红外光谱学的解剖学指导:AtlasViewer 教程。
Neurophotonics. 2015 Apr;2(2):020801. doi: 10.1117/1.NPh.2.2.020801. Epub 2015 May 5.
2
Specificity of hemodynamic brain responses to painful stimuli: a functional near-infrared spectroscopy study.血流动力学脑对疼痛刺激反应的特异性:一项功能近红外光谱研究。
Sci Rep. 2015 Mar 30;5:9469. doi: 10.1038/srep09469.
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Autonomic arousal and experimentally induced pain: a critical review of the literature.自主神经唤醒与实验性诱发疼痛:文献综述
Pain Res Manag. 2014 May-Jun;19(3):159-67. doi: 10.1155/2014/536859. Epub 2014 Feb 14.
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The use of near-infrared spectroscopy in the study of typical and atypical development.近红外光谱学在典型和非典型发育研究中的应用。
Neuroimage. 2014 Jan 15;85 Pt 1(0 1):264-71. doi: 10.1016/j.neuroimage.2013.10.009. Epub 2013 Oct 12.
5
Functional near-infrared spectroscopy for the measurement of propofol effects in conscious sedation during outpatient elective colonoscopy.功能近红外光谱法测量门诊选择性结肠镜检查中清醒镇静时丙泊酚的效应。
Neuroimage. 2014 Jan 15;85 Pt 1:626-36. doi: 10.1016/j.neuroimage.2013.07.009. Epub 2013 Jul 10.
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Neuroimaging-aided differential diagnosis of the depressive state.神经影像学辅助下的抑郁状态鉴别诊断。
Neuroimage. 2014 Jan 15;85 Pt 1:498-507. doi: 10.1016/j.neuroimage.2013.05.126. Epub 2013 Jun 10.
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Does the resting state connectivity have hemispheric asymmetry? A near-infrared spectroscopy study.静息态连接是否具有半球不对称性?一项近红外光谱研究。
Neuroimage. 2014 Jan 15;85 Pt 1(0 1):400-7. doi: 10.1016/j.neuroimage.2013.05.092. Epub 2013 May 28.
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Cortical changes underlying balance recovery in patients with hemiplegic stroke.偏瘫中风患者平衡恢复的皮层变化。
Neuroimage. 2014 Jan 15;85 Pt 1:547-54. doi: 10.1016/j.neuroimage.2013.05.014. Epub 2013 May 16.
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Neurovascular coupling in normal aging: a combined optical, ERP and fMRI study.正常衰老过程中的神经血管耦合:一项结合光学、ERP 和 fMRI 的研究。
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The neural correlates of the face attractiveness aftereffect: a functional near-infrared spectroscopy (fNIRS) study.面孔吸引力后效的神经关联:一项功能近红外光谱(fNIRS)研究。
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短间隔回归提高了统计显著性,并更好地定位了近红外光谱在具有不同自主反应任务中获得的血流动力学反应。

Short separation regression improves statistical significance and better localizes the hemodynamic response obtained by near-infrared spectroscopy for tasks with differing autonomic responses.

机构信息

Massachusetts General Hospital , Harvard Medical School, MGH/HST Athinoula A. Martinos Center for Biomedical Imaging, Department of Radiology, 149 13th Street, Charlestown, Massachusetts 02129, United States.

Boston Children's Hospital , Center for Pain and the Brain, Departments of Anaesthesia and Radiology, 300 Longwood Avenue, Boston, Massachusetts 02115, United States.

出版信息

Neurophotonics. 2015 Jul;2(3):035005. doi: 10.1117/1.NPh.2.3.035005. Epub 2015 Sep 11.

DOI:10.1117/1.NPh.2.3.035005
PMID:26835480
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4717232/
Abstract

Autonomic nervous system response is known to be highly task-dependent. The sensitivity of near-infrared spectroscopy (NIRS) measurements to superficial layers, particularly to the scalp, makes it highly susceptible to systemic physiological changes. Thus, one critical step in NIRS data processing is to remove the contribution of superficial layers to the NIRS signal and to obtain the actual brain response. This can be achieved using short separation channels that are sensitive only to the hemodynamics in the scalp. We investigated the contribution of hemodynamic fluctuations due to autonomous nervous system activation during various tasks. Our results provide clear demonstrations of the critical role of using short separation channels in NIRS measurements to disentangle differing autonomic responses from the brain activation signal of interest.

摘要

自主神经系统反应是高度依赖任务的。近红外光谱(NIRS)测量对浅层组织,特别是头皮,非常敏感,因此容易受到全身生理变化的影响。因此,NIRS 数据处理的一个关键步骤是去除 NIRS 信号中浅层组织的贡献,以获得实际的大脑反应。这可以通过使用仅对头皮血液动力学敏感的短分离通道来实现。我们研究了在各种任务中自主神经系统激活引起的血液动力学波动对 NIRS 测量的贡献。我们的结果清楚地证明了在 NIRS 测量中使用短分离通道来区分不同的自主反应与感兴趣的大脑激活信号的关键作用。