关于零填充对定量磁化率映射中非线性运算的影响
On the influence of zero-padding on the nonlinear operations in Quantitative Susceptibility Mapping.
作者信息
Eskreis-Winkler Sarah, Zhou Dong, Liu Tian, Gupta Ajay, Gauthier Susan A, Wang Yi, Spincemaille Pascal
机构信息
Department of Radiology, Weill Cornell Medicine, 525 East 70th Street, New York, NY, USA.
Medimagemetric, LLC, 445 Main St, #7H, New York, NY, USA.
出版信息
Magn Reson Imaging. 2017 Jan;35:154-159. doi: 10.1016/j.mri.2016.08.020. Epub 2016 Aug 29.
PURPOSE
Zero padding is a well-studied interpolation technique that improves image visualization without increasing image resolution. This interpolation is often performed as a last step before images are displayed on clinical workstations. Here, we seek to demonstrate the importance of zero padding before rather than after performing non-linear post-processing algorithms, such as Quantitative Susceptibility Mapping (QSM). To do so, we evaluate apparent spatial resolution, relative error and depiction of multiple sclerosis (MS) lesions on images that were zero padded prior to, in the middle of, and after the application of the QSM algorithm.
MATERIALS AND METHODS
High resolution gradient echo (GRE) data were acquired on twenty MS patients, from which low resolution data were derived using k-space cropping. Pre-, mid-, and post-zero padded QSM images were reconstructed from these low resolution data by zero padding prior to field mapping, after field mapping, and after susceptibility mapping, respectively. Using high resolution QSM as the gold standard, apparent spatial resolution, relative error, and image quality of the pre-, mid-, and post-zero padded QSM images were measured and compared.
RESULTS
Both the accuracy and apparent spatial resolution of the pre-zero padded QSM was higher than that of mid-zero padded QSM (p<0.001; p<0.001), which was higher than that of post-zero padded QSM (p<0.001; p<0.001). The image quality of pre-zero padded reconstructions was higher than that of mid- and post-zero padded reconstructions (p=0.004; p<0.001).
CONCLUSION
Zero padding of the complex GRE data prior to nonlinear susceptibility mapping improves image accuracy and apparent resolution compared to zero padding afterwards. It also provides better delineation of MS lesion geometry, which may improve lesion subclassification and disease monitoring in MS patients.
目的
零填充是一种经过充分研究的插值技术,可在不提高图像分辨率的情况下改善图像可视化效果。这种插值通常在图像显示于临床工作站之前作为最后一步执行。在此,我们旨在证明在执行非线性后处理算法(如定量磁化率映射(QSM))之前而非之后进行零填充的重要性。为此,我们评估了在应用QSM算法之前、中间和之后进行零填充的图像上的表观空间分辨率、相对误差以及多发性硬化症(MS)病变的描绘情况。
材料与方法
对20名MS患者采集高分辨率梯度回波(GRE)数据,并通过k空间裁剪从中获取低分辨率数据。分别在磁场映射之前、磁场映射之后以及磁化率映射之后进行零填充,从这些低分辨率数据重建零填充前、零填充中和零填充后的QSM图像。以高分辨率QSM作为金标准,测量并比较零填充前、零填充中和零填充后的QSM图像的表观空间分辨率、相对误差和图像质量。
结果
零填充前的QSM的准确性和表观空间分辨率均高于零填充中的QSM(p<0.001;p<0.001),而零填充中的QSM又高于零填充后的QSM(p<0.001;p<0.001)。零填充前重建的图像质量高于零填充中和零填充后重建的图像质量(p=0.004;p<0.001)。
结论
与之后进行零填充相比,在非线性磁化率映射之前对复杂GRE数据进行零填充可提高图像准确性和表观分辨率。它还能更好地描绘MS病变的几何形状,这可能有助于改善MS患者的病变更细分类和疾病监测。
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