Isotropic sampling of tensor-encoded diffusion MRI.

IF 3 3区医学 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Magnetic Resonance in Medicine Pub Date : 2024-12-17 DOI:10.1002/mrm.30404

Sune Nørhøj Jespersen

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Abstract

Purpose: The purpose of this study is to develop a method for selecting uniform wave vectors for double diffusion encoding (DDE) to improve the accuracy and reliability of diffusion measurements.

Methods: The method relies on identifying orthogonal wave vectors with rotations, and representing these rotations as points on a three-dimensional sphere in four dimensions using quaternions. This enables an electrostatic repulsion algorithm to achieve a uniform distribution of these points. The optimal points are then converted back into orthogonal wave vectors (or rotations).

Results: The method was validated by comparing the distribution of directions to those generated by uniform sampling and by evaluating the error in the powder-averaged signal for various models. Our results demonstrate that the electrostatic repulsion approach effectively achieves a uniform distribution of wave vectors.

Conclusion: The proposed method provides a systematic way to generate uniform diffusion directions suitable, for example, for DDE, enhancing the precision of diffusion measurements and reducing potential bias in experimental results. The method is also capable of generating uniform sets of B-tensors, and is thus applicable for general free waveform encoding.

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张量编码扩散核磁共振成像的各向同性采样。

目的：研究双扩散编码（DDE）中均匀波矢量的选择方法，以提高扩散测量的准确性和可靠性。方法：该方法依赖于识别具有旋转的正交波矢量，并使用四元数将这些旋转表示为三维球体上的四维点。这使得静电斥力算法能够实现这些点的均匀分布。然后将最优点转换回正交波矢量（或旋转）。结果：通过将方向分布与均匀采样产生的方向分布进行比较，并对各种模型的粉末平均信号误差进行评估，验证了该方法的有效性。我们的结果表明，静电斥力方法有效地实现了波矢量的均匀分布。结论：该方法提供了一种系统的方法来生成适合于DDE等的均匀扩散方向，提高了扩散测量的精度，减少了实验结果的潜在偏差。该方法还能够生成一致的b张量集，因此适用于一般的自由波形编码。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Magnetic Resonance in Medicine 医学-核医学

CiteScore

6.70

自引率

24.20%

发文量

376

审稿时长

2-4 weeks

期刊介绍： Magnetic Resonance in Medicine (Magn Reson Med) is an international journal devoted to the publication of original investigations concerned with all aspects of the development and use of nuclear magnetic resonance and electron paramagnetic resonance techniques for medical applications. Reports of original investigations in the areas of mathematics, computing, engineering, physics, biophysics, chemistry, biochemistry, and physiology directly relevant to magnetic resonance will be accepted, as well as methodology-oriented clinical studies.