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7T 下人类皮质深度依赖功能响应:3D GRASE 提高特异性。

Cortical depth dependent functional responses in humans at 7T: improved specificity with 3D GRASE.

机构信息

Center for Magnetic Resonance Research, University of Minnesota Medical School, Minneapolis, Minnesota, United States of America.

出版信息

PLoS One. 2013;8(3):e60514. doi: 10.1371/journal.pone.0060514. Epub 2013 Mar 22.

DOI:10.1371/journal.pone.0060514
PMID:23533682
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3606277/
Abstract

Ultra high fields (7T and above) allow functional imaging with high contrast-to-noise ratios and improved spatial resolution. This, along with improved hardware and imaging techniques, allow investigating columnar and laminar functional responses. Using gradient-echo (GE) (T2* weighted) based sequences, layer specific responses have been recorded from human (and animal) primary visual areas. However, their increased sensitivity to large surface veins potentially clouds detecting and interpreting layer specific responses. Conversely, spin-echo (SE) (T2 weighted) sequences are less sensitive to large veins and have been used to map cortical columns in humans. T2 weighted 3D GRASE with inner volume selection provides high isotropic resolution over extended volumes, overcoming some of the many technical limitations of conventional 2D SE-EPI, whereby making layer specific investigations feasible. Further, the demonstration of columnar level specificity with 3D GRASE, despite contributions from both stimulated echoes and conventional T2 contrast, has made it an attractive alternative over 2D SE-EPI. Here, we assess the spatial specificity of cortical depth dependent 3D GRASE functional responses in human V1 and hMT by comparing it to GE responses. In doing so we demonstrate that 3D GRASE is less sensitive to contributions from large veins in superficial layers, while showing increased specificity (functional tuning) throughout the cortex compared to GE.

摘要

超高场(7T 及以上)允许以高对比度噪声比和改进的空间分辨率进行功能成像。这一点,加上改进的硬件和成像技术,使得研究柱状和层状功能反应成为可能。使用梯度回波 (GE)(T2*加权)基序列,已经从人类(和动物)初级视觉区域记录了特定于层的反应。然而,它们对大表面静脉的敏感性增加可能会干扰对特定于层的反应的检测和解释。相反,自旋回波 (SE)(T2 加权)序列对大静脉的敏感性较低,并且已被用于在人类中绘制皮质柱。具有内部体积选择的 T2 加权 3D GRASE 在扩展体积上提供了高各向同性分辨率,克服了传统 2D SE-EPI 的许多技术限制,从而使特定于层的研究成为可能。此外,尽管 3D GRASE 的柱状特异性是由激发回波和常规 T2 对比共同作用的结果,但与 2D SE-EPI 相比,它仍然是一种有吸引力的替代方法。在这里,我们通过将其与 GE 反应进行比较,评估了人类 V1 和 hMT 中依赖于皮质深度的 3D GRASE 功能反应的空间特异性。通过这样做,我们证明了 3D GRASE 对浅层大静脉的贡献的敏感性较低,而与 GE 相比,在整个皮层中显示出更高的特异性(功能调谐)。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/11dc/3606277/d8e4678d9afd/pone.0060514.g008.jpg
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