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Multi-projection magnetic resonance inverse imaging of the human visuomotor system

机译：人体保护系统的多投影磁共振逆成像

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摘要

Using highly parallel radiofrequency (RF) detection, magnetic resonance inverse imaging (InI) can achieve 100 ms temporal resolution with whole brain coverage. This is achieved by trading off partition encoding steps and thus spatial resolution for a higher acquisition rate. The reduced spatial information is estimated by solving under-determined inverse problems using RF coil sensitivity information. Here we propose multi projection inverse imaging (mInI) to combine different projection images to improve the spatial resolution of InI. Specifically, coronal, sagittal, and transverse projection images were acquired from different runs of the fMRI acquisitions using a 32-channel head coil array. Simulations show that mInI improves the quality of the instantaneous image reconstruction significantly. Going from one projection to three projections, the spatial resolution quantified by the full width at half maximum of the point-spread function (PSF) is improved from 2.6 pixels to 1.4 pixels (4 mm nominal resolution per pixel). Considering the shape of the PSF, the effective spatial resolution is improved from 16.9 pixels to 4.7 pixels. In vivo fMRI experiments using a two-choice reaction time tasks shows visual and sensorimotor cortical activity spatially consistent with typical EPI data, yet mInI offers 100 ms temporal resolution with the whole brain coverage. The mInI data with three projections revealed that the sensorimotor cortex was activated 700 ms after the visual cortex. mInI can be applied to BOLD-contrast fMRI experiments to characterize the dynamics of the activated brain areas with a high spatiotemporal resolution.

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期刊名称 other
作者
Kevin Wen-Kai Tsai; Aapo Nummenmaa; Thomas Witzel; Wei-Tang Chang; Wen-Jui Kuo; Fa-Hsuan Lin;
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作者单位

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年(卷),期 -1(61),1
年度 -1
页码 304–313
总页数 24
原文格式 PDF
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关键词
event-related fMRI InI visual motor MRI inverse problem projection;

机译：事件相关;fMRI;InI;视觉;运动;MRI;逆问题;投影;

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专利

1. Multi-projection magnetic resonance inverse imaging of the human visuomotor system [J] . Wen-KaiTsaiK., NummenmaaA., WitzelT., NeuroImage . 2012,第1期

机译：人体运动系统的多投影磁共振逆像
2. Functional magnetic resonance inverse imaging of human visuomotor systems using eigenspace linearly constrained minimum amplitude (eLCMA) beamformer. [J] . Liou ST, Witzel T, Numenmaa A, NeuroImage . 2011,第1期

机译：使用本征空间线性约束最小振幅（eLCMA）波束形成器对人体视觉运动系统进行功能磁共振逆成像。
3. K-space reconstruction of magnetic resonance inverse imaging (K-InI) of human visuomotor systems. [J] . Lin FH, Witzel T, Chang W NeuroImage . 2010,第4期

机译：人体视觉运动系统磁共振逆成像（K-InI）的K空间重构。
4. A novel Skull Stripping Method for Tl Coronal and T2 Axial Magnetic Resonance Images of Human Head Scans Based on Resonance Principle [C] . ICSomasundaram, R. Siva Shankar International conference on image processing, computer vision, pattern recognition . 2012

机译：基于共振原理的人脑Tl冠状和T2轴磁共振图像的颅骨剥离新方法
5. Natural image coding in early visual areas: Functional magnetic resonance imaging and psychophysical studies of the human visual system. [D] . Olman, Cheryl Annette. 2003

机译：早期视觉领域的自然图像编码：人类视觉系统的功能磁共振成像和心理物理学研究。
6. Functional Magnetic Resonance Inverse Imaging of Human Visuomotor Systems Using Eigenspace Linearly Constrained Minimum Amplitude (eLCMA) Beamformer [O] . Shr-Tai Liou, Thomas Witzel, Aapo Numenmaa, -1

机译：使用Eigenspace线性约束的最小振幅（ELCMA）波束形成器的人物磁体系统的功能磁共振逆成像
7. Multi-projection magnetic resonance inverse imaging of the human visuomotor system [O] . Kevin Wen-Kai Tsai, Aapo Nummenmaa, Thomas Witzel, 2012

机译：人体保护系统的多投影磁共振逆成像

Multi-projection magnetic resonance inverse imaging of the human visuomotor system

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