基于扫描仪系统特征和采集参数的定量扩散加权成像的依赖性：一项大型多中心、多参数体模研究与无监督聚类分析。

On the dependence of quantitative diffusion-weighted imaging on scanner system characteristics and acquisition parameters: A large multicenter and multiparametric phantom study with unsupervised clustering analysis.

机构信息

S.O.C. Fisica Sanitaria Pistoia-Prato, A.U.S.L. Toscana Centro, Italy.

Bioinformatics Unit, Hospital of Prato, A.U.S.L. Toscana Centro, Italy.

出版信息

Phys Med. 2021 May;85:98-106. doi: 10.1016/j.ejmp.2021.04.020. Epub 2021 May 12.

DOI:10.1016/j.ejmp.2021.04.020

PMID:33991807

Abstract

PURPOSE

The purpose of this multicenter phantom study was to exploit an innovative approach, based on an extensive acquisition protocol and unsupervised clustering analysis, in order to assess any potential bias in apparent diffusion coefficient (ADC) estimation due to different scanner characteristics. Moreover, we aimed at assessing, for the first time, any effect of acquisition plan/phase encoding direction on ADC estimation.

METHODS

Water phantom acquisitions were carried out on 39 scanners. DWI acquisitions (b-value = 0-200-400-600-800-1000 s/mm) with different acquisition plans (axial, coronal, sagittal) and phase encoding directions (anterior/posterior and right/left, for the axial acquisition plan), for 3 orthogonal diffusion weighting gradient directions, were performed. For each acquisition setup, ADC values were measured in-center and off-center (6 different positions), resulting in an entire dataset of 84 × 39 = 3276 ADC values. Spatial uniformity of ADC maps was assessed by means of the percentage difference between off-center and in-center ADC values (Δ).

RESULTS

No significant dependence of in-center ADC values on acquisition plan/phase encoding direction was found. Ward unsupervised clustering analysis showed 3 distinct clusters of scanners and an association between Δ-values and manufacturer/model, whereas no association between Δ-values and maximum gradient strength, slew rate or static magnetic field strength was revealed. Several acquisition setups showed significant differences among groups, indicating the introduction of different biases in ADC estimation.

CONCLUSIONS

Unsupervised clustering analysis of DWI data, obtained from several scanners using an extensive acquisition protocol, allows to reveal an association between measured ADC values and manufacturer/model of scanner, as well as to identify suboptimal DWI acquisition setups for accurate ADC estimation.

摘要

目的

本多中心体模研究的目的是利用一种创新方法，基于广泛的采集方案和无监督聚类分析，以评估由于不同扫描仪特性而导致的表观扩散系数（ADC）估计中的任何潜在偏差。此外，我们旨在首次评估采集方案/相位编码方向对 ADC 估计的任何影响。

方法

在 39 台扫描仪上进行水模体采集。使用不同的采集方案（轴位、冠状位、矢状位）和相位编码方向（轴位采集方案的前后和左右）进行 DWI 采集（b 值=0-200-400-600-800-1000 s/mm），对于 3 个正交扩散加权梯度方向。对于每个采集设置，在中心和偏心（6 个不同位置）测量 ADC 值，得到一个完整的数据集，包含 84×39=3276 个 ADC 值。通过偏心和中心 ADC 值之间的百分比差异（Δ）评估 ADC 图的空间均匀性。

结果

未发现中心 ADC 值与采集方案/相位编码方向之间存在显著依赖性。Ward 无监督聚类分析显示了 3 个不同的扫描仪集群，并发现了Δ值与制造商/型号之间的关联，而Δ值与最大梯度强度、爬升率或静磁场强度之间没有关联。一些采集方案在组间显示出显著差异，表明在 ADC 估计中引入了不同的偏差。

结论

使用广泛的采集方案从多台扫描仪获得的 DWI 数据的无监督聚类分析，允许揭示测量的 ADC 值与扫描仪的制造商/型号之间的关联，以及识别用于准确 ADC 估计的次优 DWI 采集方案。

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基于扫描仪系统特征和采集参数的定量扩散加权成像的依赖性：一项大型多中心、多参数体模研究与无监督聚类分析。

On the dependence of quantitative diffusion-weighted imaging on scanner system characteristics and acquisition parameters: A large multicenter and multiparametric phantom study with unsupervised clustering analysis.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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