A higher order motion region in human inferior parietal lobule: evidence from fMRI.

Claeys KG; Lindsey DT; De Schutter E; Orban GA

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A higher order motion region in human inferior parietal lobule: evidence from fMRI.

机译：人类下顶叶的高阶运动区域：来自功能磁共振成像的证据。

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摘要

The proposal that motion is processed by multiple mechanisms in the human brain has received little anatomical support so far. Here, we compared higher- and lower-level motion processing in the human brain using functional magnetic resonance imaging. We observed activation of an inferior parietal lobule (IPL) motion region by isoluminant red-green gratings when saliency of one color was increased and by long-range apparent motion at 7 Hz but not 2 Hz. This higher order motion region represents the entire visual field, while traditional motion regions predominantly process contralateral motion. Our results suggest that there are two motion-processing systems in the human brain: a contralateral lower-level luminance-based system, extending from hMT/V5+ into dorsal IPS and STS, and a bilateral higher-level saliency-based system in IPL.

机译：迄今为止，关于运动是由人脑中的多种机制处理的提议，几乎没有得到解剖学上的支持。在这里，我们比较了使用功能性磁共振成像在人脑中进行的高水平和低水平运动处理。我们观察到当一种颜色的显着性增加时，等离子红绿色光栅激活下顶小叶（IPL）运动区域，并且在7 Hz而不是2 Hz时通过远距离表观运动。这个较高阶的运动区域代表了整个视野，而传统的运动区域则主要处理对侧运动。我们的研究结果表明，人脑中存在两种运动处理系统：从hMT / V5 +扩展到背侧IPS和STS的对侧较低级别的基于亮度的系统，以及IPL中基于双侧较高级别的显着性的系统。

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《Neuron》 |2003年第3期|共12页
作者
Claeys KG; Lindsey DT; De Schutter E; Orban GA;
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正文语种 eng
中图分类基础医学;
关键词
Motion; Human; inferiority; fMRI; Brain; 运动(Motion); 脑;

机译：Motion;Human;inferiority;fMRI;Brain;运动(Motion);脑;

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1. A higher order motion region in human inferior parietal lobule: evidence from fMRI. [J] . Claeys KG, Lindsey DT, De Schutter E, Neuron . 2003,第3期

机译：人类下顶叶的高阶运动区域：来自功能磁共振成像的证据。
2. Modality-specific subregions in human inferior parietal lobule: a magnetoencephalographic study during cognitive tasks. [J] . Nishitani N, Nagamine T, Shibasaki H Neuroscience Letters: An International Multidisciplinary Journal Devoted to the Rapid Publication of Basic Research in the Brain Sciences . 1998,第2期

机译：人类下顶叶的形态特定子区域：认知任务期间的脑磁图研究。
3. Inferior parietal lobule supports decision making under uncertainty in humans. [J] . Vickery TJ, Jiang YV Cerebral cortex . 2009,第4期

机译：顶叶小叶支持人类不确定性下的决策。
4. Identifying the structural architecture of the human inferior parietal lobule using diffusion MRI [C] . Tungaraza R F, Howbert J J, Mehta S H, Biomedical Imaging (ISBI), 2012 9th IEEE International Symposium on . 2012

机译：使用扩散MRI识别人下壁小叶的结构
5. Parcellation of Human Inferior Parietal Lobule Based on Diffusion MRI and Resting State Functional MRI. [D] . Gui, Zhiqian. 2014

机译：基于扩散MRI和静息状态功能MRI的人下顶叶小块化。
6. Self-Face Recognition Begins to Share Active Region in Right Inferior Parietal Lobule with Proprioceptive Illusion During Adolescence [O] . Tomoyo Morita, Daisuke N Saito, Midori Ban, -1

机译：自我面孔识别开始共享青春期期间本体感受错觉的右下壁小叶的活动区域
7. A Higher Order Motion Region in Human Inferior Parietal Lobule Evidence from fMRI [O] . Claeys Kristl G, Lindsey Delwin T, De Schutter Erik, 2003

机译：来自功能磁共振成像的人类下壁顶叶证据的高阶运动区域
8. Some Ipsilateral Projections to Areas PF and PG of the Inferior Parietal Lobule in Monkeys. [R] . Stanton, G. B., Cruce, W. L. R., Goldberg, M. E., 1977

机译：对猴子下顶叶小叶pF和pG的一些同侧预测。

A higher order motion region in human inferior parietal lobule: evidence from fMRI.

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