Baker Laurie M, Cabeen Ryan P, Cooley Sarah, Laidlaw David H, Paul Robert H
Department of Psychology, University of Missouri - Saint Louis, St. Louis, MO, USA.
Computer Science Department, Brown University, Providence, RI, USA.
Technol Innov. 2016 Apr;18(1):21-29. doi: 10.21300/18.1.2016.21.
This paper reviews basic methods and recent applications of length-based fiber bundle analysis of cerebral white matter using diffusion magnetic resonance imaging (dMRI). Diffusion weighted imaging (DWI) is a dMRI technique that uses the random motion of water to probe tissue microstructure in the brain. Diffusion tensor imaging (DTI) is an extension of DWI that measures the magnitude and direction of water diffusion in cerebral white matter, using either voxel-based scalar metrics or tractography-based analyses. More recently, quantitative tractography based on diffusion tensor imaging (qtDTI) technology has been developed to help quantify aggregate structural anatomical properties of white matter fiber bundles, including both scalar metrics of bundle diffusion and more complex morphometric properties, such as fiber bundle length (FBL). Unlike traditional scalar diffusion metrics, FBL reflects the direction and curvature of white matter pathways coursing through the brain and is sensitive to changes within the entire tractography model. In this paper, we discuss applications of this approach to date that have provided new insights into brain organization and function. We also discuss opportunities for improving the methodology through more complex anatomical models and potential areas of new application for qtDTI.
本文综述了利用扩散磁共振成像(dMRI)对脑白质进行基于长度的纤维束分析的基本方法和近期应用。扩散加权成像(DWI)是一种dMRI技术,它利用水的随机运动来探测大脑中的组织微观结构。扩散张量成像(DTI)是DWI的扩展,它使用基于体素的标量指标或基于纤维束成像的分析方法来测量脑白质中水扩散的大小和方向。最近,基于扩散张量成像(qtDTI)技术的定量纤维束成像已被开发出来,以帮助量化白质纤维束的总体结构解剖特性,包括纤维束扩散的标量指标和更复杂的形态计量学特性,如纤维束长度(FBL)。与传统的标量扩散指标不同,FBL反映了穿过大脑的白质通路的方向和曲率,并且对整个纤维束成像模型中的变化敏感。在本文中,我们讨论了迄今为止这种方法的应用,这些应用为脑组织结构和功能提供了新的见解。我们还讨论了通过更复杂的解剖模型改进该方法的机会以及qtDTI的新应用潜在领域。