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利用深度神经网络优化 b 值进行体素内不相干运动定量分析。

Quantification of intravoxel incoherent motion with optimized b-values using deep neural network.

机构信息

Department of Electrical Engineering, Korea Advanced Institute of Science and Technology, Daejeon, Republic of Korea.

出版信息

Magn Reson Med. 2021 Jul;86(1):230-244. doi: 10.1002/mrm.28708. Epub 2021 Feb 16.

DOI:10.1002/mrm.28708
PMID:33594783
Abstract

PURPOSE

To develop a framework for quantifying intravoxel incoherent motion (IVIM) parameters, where a neural network for quantification and b-values for diffusion-weighted imaging are simultaneously optimized.

METHOD

A deep neural network (DNN) method is proposed for accurate quantification of IVIM parameters from multiple diffusion-weighted images. In addition, optimal b-values are selected to acquire the multiple diffusion-weighted images. The proposed framework consists of an MRI signal generation part and an IVIM parameter quantification part. Monte-Carlo (MC) simulations were performed to evaluate the accuracy of the IVIM parameter quantification and the efficacy of b-value optimization. In order to analyze the effect of noise on the optimized b-values, simulations were performed with five different noise levels. For in vivo data, diffusion images were acquired with the b-values from four b-values selection methods for five healthy volunteers at 3T MRI system.

RESULTS

Experiment results showed that both the optimization of b-values and the training of DNN were simultaneously performed to quantify IVIM parameters. We found that the accuracies of the perfusion coefficient (D ) and perfusion fraction (f) were more sensitive to b-values than the diffusion coefficient (D) was. Furthermore, when the noise level changed, the optimized b-values also changed. Therefore, noise level has to be considered when optimizing b-values for IVIM quantification.

CONCLUSION

The proposed scheme can simultaneously optimize b-values and train DNN to minimize quantification errors of IVIM parameters. The trained DNN can quantify IVIM parameters from the diffusion-weighted images obtained with the optimized b-values.

摘要

目的

开发一种量化体素内不相干运动(IVIM)参数的框架,其中对扩散加权成像的神经网络进行量化和 b 值同时进行优化。

方法

提出了一种基于深度神经网络(DNN)的方法,用于从多个扩散加权图像中准确量化 IVIM 参数。此外,还选择了最佳 b 值以获取多个扩散加权图像。所提出的框架由 MRI 信号生成部分和 IVIM 参数量化部分组成。通过蒙特卡罗(MC)模拟来评估 IVIM 参数量化的准确性和 b 值优化的效果。为了分析噪声对优化 b 值的影响,在五种不同的噪声水平下进行了模拟。对于体内数据,使用四个 b 值选择方法从五个健康志愿者在 3T MRI 系统上获取扩散图像。

结果

实验结果表明,同时进行 b 值的优化和 DNN 的训练以量化 IVIM 参数。我们发现,灌注系数(D)和灌注分数(f)的准确性比扩散系数(D)对 b 值更敏感。此外,当噪声水平发生变化时,优化的 b 值也会发生变化。因此,在进行 IVIM 量化的 b 值优化时,必须考虑噪声水平。

结论

所提出的方案可以同时优化 b 值并训练 DNN 以最小化 IVIM 参数的量化误差。经过训练的 DNN 可以从优化 b 值获得的扩散加权图像中量化 IVIM 参数。

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