在0.2T磁场下进行质子密度加权脊髓功能磁共振成像并伴有感觉运动刺激。

Proton-density-weighted spinal fMRI with sensorimotor stimulation at 0.2 T.

作者信息

Ng Man Cheuk, Wong Kelvin K, Li Geng, Lai Song, Yang Edward S, Hu Yong, Luk Keith D

机构信息

Department of Orthopaedics and Traumatology, The University of Hong Kong, Pokfulam, 5/F, Professor Block, Queen Mary Hospital, Pokfulam, Hong Kong.

出版信息

Neuroimage. 2006 Feb 1;29(3):995-9. doi: 10.1016/j.neuroimage.2005.08.011. Epub 2005 Sep 6.

DOI:10.1016/j.neuroimage.2005.08.011

PMID:16140548

Abstract

Proton-density-weighted fMRI at low field (0.2 T) was carried out in the cervical spinal cord of healthy volunteers in this study to examine the feasibility of detecting proton density alteration accompanying activation in the spinal cord. Subjects were asked to grip both hands simultaneously, providing sensorimotor simulation for spinal fMRI. Over 70% subjects recruited had activation localized at C6-C7 spinal levels with discrete activation detected in both the anterior and posterior horns of the cervical spinal cord, and the average fractional signal change was 4.06%. The 0.2 T low magnetic field and the 24 ms short TE used in this study diminished the BOLD effect to a negligible level, thus the observed signal change was believed to be mainly attributable to proton density increase during neuronal stimulation. Our results suggested the existence of task-driven proton density change in the cervical spinal cord.

摘要

本研究在健康志愿者的颈脊髓中进行了低场（0.2T）质子密度加权功能磁共振成像，以检测脊髓激活时质子密度变化的可行性。受试者被要求同时双手紧握，为脊髓功能磁共振成像提供感觉运动模拟。招募的70%以上受试者的激活定位于C6-C7脊髓节段，在颈脊髓的前角和后角均检测到离散激活，平均分数信号变化为4.06%。本研究中使用的0.2T低磁场和24ms短回波时间将血氧水平依赖（BOLD）效应降低到可忽略不计的水平，因此观察到的信号变化被认为主要归因于神经元刺激期间质子密度的增加。我们的结果表明颈脊髓中存在任务驱动的质子密度变化。

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在0.2T磁场下进行质子密度加权脊髓功能磁共振成像并伴有感觉运动刺激。

Proton-density-weighted spinal fMRI with sensorimotor stimulation at 0.2 T.

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