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J Comput Sci. 2011 Dec;2(4):377-381. doi: 10.1016/j.jocs.2011.06.007.
2
Analytically exact spiral scheme for generating uniformly distributed points on the unit sphere.用于在单位球面上生成均匀分布点的解析精确螺旋方案。
J Comput Sci. 2011 Mar 1;2(1):88-91. doi: 10.1016/j.jocs.2010.12.003.
3
Segmentation of fiber tracts based on an accuracy analysis on diffusion tensor software phantoms.基于扩散张量软件体模的精度分析的纤维束分割。
Neuroimage. 2011 Mar 15;55(2):532-44. doi: 10.1016/j.neuroimage.2010.12.069. Epub 2010 Dec 31.
4
Multiple q-shell diffusion propagator imaging.多 q-壳扩散传播子成像。
Med Image Anal. 2011 Aug;15(4):603-21. doi: 10.1016/j.media.2010.07.001. Epub 2010 Jul 14.
5
Diffusion tensor imaging detects axonal injury and demyelination in the spinal cord and cranial nerves of a murine model of globoid cell leukodystrophy.弥散张量成像检测球样细胞脑白质营养不良小鼠模型脊髓和颅神经的轴突损伤和脱髓鞘。
NMR Biomed. 2009 Dec;22(10):1100-6. doi: 10.1002/nbm.1420.
6
Optimal real-time Q-ball imaging using regularized Kalman filtering with incremental orientation sets.使用具有增量方向集的正则化卡尔曼滤波的最优实时Q球成像。
Med Image Anal. 2009 Aug;13(4):564-79. doi: 10.1016/j.media.2009.05.008. Epub 2009 Jun 12.
7
In vivo diffusion tensor imaging of the human optic chiasm at sub-millimeter resolution.人视交叉亚毫米分辨率的体内扩散张量成像
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8
Impact speed does not determine severity of spinal cord injury in mice with fixed impact displacement.固定撞击位移的小鼠中,撞击速度并不决定脊髓损伤的严重程度。
J Neurotrauma. 2009 Aug;26(8):1395-404. doi: 10.1089/neu.2008-0728.
9
The elliptical cone of uncertainty and its normalized measures in diffusion tensor imaging.扩散张量成像中的不确定性椭圆锥及其归一化度量。
IEEE Trans Med Imaging. 2008 Jun;27(6):834-46. doi: 10.1109/TMI.2008.915663.
10
Regularized, fast, and robust analytical Q-ball imaging.正则化、快速且稳健的解析Q球成像。
Magn Reson Med. 2007 Sep;58(3):497-510. doi: 10.1002/mrm.21277.

极其高效且确定的方法,用于生成扩散 MRI 测量的最佳排序。

Extremely efficient and deterministic approach to generating optimal ordering of diffusion MRI measurements.

出版信息

Med Phys. 2011 Aug;38(8):4795-801. doi: 10.1118/1.3615163.

DOI:10.1118/1.3615163
PMID:21928652
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3172961/
Abstract

PURPOSE

Diffusion MRI measurements are typically acquired sequentially with unit gradient directions that are distributed uniformly on the unit sphere. The ordering of the gradient directions has significant effect on the quality of dMRI-derived quantities. Even though several methods have been proposed to generate optimal orderings of gradient directions, these methods are not widely used in clinical studies because of the two major problems. The first problem is that the existing methods for generating highly uniform and antipodally symmetric gradient directions are inefficient. The second problem is that the existing methods for generating optimal orderings of gradient directions are also highly inefficient. In this work, the authors propose two extremely efficient and deterministic methods to solve these two problems.

METHODS

The method for generating nearly uniform point set on the unit sphere (with antipodal symmetry) is based upon the notion that the spacing between two consecutive points on the same latitude should be equal to the spacing between two consecutive latitudes. The method for generating optimal ordering of diffusion gradient directions is based on the idea that each subset of incremental sample size, which is derived from the prescribed and full set of gradient directions, must be as uniform as possible in terms of the modified electrostatic energy designed for antipodally symmetric point set.

RESULTS

The proposed method outperformed the state-of-the-art method in terms of computational efficiency by about six orders of magnitude.

CONCLUSIONS

Two extremely efficient and deterministic methods have been developed for solving the problem of optimal ordering of diffusion gradient directions. The proposed strategy is also applicable to optimal view-ordering in three-dimensional radial MRI.

摘要

目的

扩散磁共振成像(dMRI)测量通常采用单位梯度方向的顺序采集,这些梯度方向均匀分布在单位球上。梯度方向的顺序对 dMRI 衍生量的质量有显著影响。尽管已经提出了几种生成梯度方向最佳顺序的方法,但由于两个主要问题,这些方法并未在临床研究中广泛使用。第一个问题是,生成高度均匀和对映对称梯度方向的现有方法效率低下。第二个问题是,生成梯度方向最佳顺序的现有方法效率也非常低。在这项工作中,作者提出了两种极其高效和确定性的方法来解决这两个问题。

方法

用于生成单位球上几乎均匀点集(具有对映对称)的方法基于以下概念:同一纬度上两个连续点之间的间距应等于两个连续纬度之间的间距。生成扩散梯度方向最佳顺序的方法基于这样的想法:从规定的和完整的梯度方向集中导出的每个增量样本大小的子集,必须在针对对映对称点集设计的修改静电能方面尽可能均匀。

结果

所提出的方法在计算效率方面比最先进的方法提高了约六个数量级。

结论

已经开发了两种极其高效和确定性的方法来解决扩散梯度方向最佳顺序的问题。所提出的策略也适用于三维径向 MRI 中的最佳视图排序。