仅一个组分?两个?三个?在多组分驱动平衡单次脉冲观测 T1 和 T2 中加入非交换“自由”水组分的影响。
One component? Two components? Three? The effect of including a nonexchanging "free" water component in multicomponent driven equilibrium single pulse observation of T1 and T2.
机构信息
Advanced Baby Imaging Lab, School of Engineering, Brown University, Providence, Rhode Island 02912, USA.
出版信息
Magn Reson Med. 2013 Jul;70(1):147-54. doi: 10.1002/mrm.24429. Epub 2012 Aug 22.
Abstract
Quantitative myelin content imaging provides novel and pertinent information related to underlying pathogenetic mechanisms of myelin-related disease or disorders arising from aberrant connectivity. Multicomponent driven equilibrium single pulse observation of T1 and T2 is a time-efficient multicomponent relaxation analysis technique that provides estimates of the myelin water fraction, a surrogate measure of myelin volume. Unfortunately, multicomponent driven equilibrium single pulse observation of T1 and T2 relies on a two water-pool model (myelin-associated water and intra/extracellular water), which is inadequate within partial volume voxels, i.e., containing brain tissue and ventricle or meninges, resulting in myelin water fraction underestimation. To address this, a third, nonexchanging "free-water" component was introduced to the multicomponent driven equilibrium single pulse observation of T1 and T2 model. Numerical simulations and experimental in vivo data show that the model to perform advantageously within partial volume regions while providing robust and reproducible results. It is concluded that this model is preferable for future studies and analysis.
摘要
定量髓鞘含量成像提供了与髓鞘相关疾病或异常连接引起的疾病相关的潜在发病机制相关的新的和相关的信息。多分量驱动平衡单脉冲观察 T1 和 T2 是一种高效的多分量弛豫分析技术,可提供髓鞘水分数的估计值,这是髓鞘体积的替代测量值。不幸的是,多分量驱动平衡单脉冲观察 T1 和 T2 依赖于双水池模型(髓鞘相关水和细胞内/细胞外水),在部分体积体素内(即包含脑组织和脑室或脑膜)不足,导致髓鞘水分数低估。为了解决这个问题,向多分量驱动平衡单脉冲观察 T1 和 T2 模型中引入了第三个非交换的“自由水”分量。数值模拟和体内实验数据表明,该模型在部分体积区域内表现良好,同时提供了稳健和可重复的结果。得出的结论是,该模型更适合未来的研究和分析。
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