在 T2 加权磁共振成像采集参数的系统变化中,对活体健康脑组织区域的放射组学特征的可重复性和稳健性进行前瞻性评估。
Prospective Evaluation of Repeatability and Robustness of Radiomic Descriptors in Healthy Brain Tissue Regions In Vivo Across Systematic Variations in T2-Weighted Magnetic Resonance Imaging Acquisition Parameters.
机构信息
Department of Biomedical Engineering, Case Western Reserve University, Cleveland, Ohio, USA.
Imaging Institute, Cleveland Clinic, Cleveland, Ohio, USA.
出版信息
J Magn Reson Imaging. 2021 Sep;54(3):1009-1021. doi: 10.1002/jmri.27635. Epub 2021 Apr 16.
BACKGROUND
Radiomic descriptors from magnetic resonance imaging (MRI) are promising for disease diagnosis and characterization but may be sensitive to differences in imaging parameters.
OBJECTIVE
To evaluate the repeatability and robustness of radiomic descriptors within healthy brain tissue regions on prospectively acquired MRI scans; in a test-retest setting, under controlled systematic variations of MRI acquisition parameters, and after postprocessing.
STUDY TYPE
Prospective.
SUBJECTS
Fifteen healthy participants.
FIELD STRENGTH/SEQUENCE: A 3.0 T, axial T -weighted 2D turbo spin-echo pulse sequence, 181 scans acquired (2 test/retest reference scans and 12 with systematic variations in contrast weighting, resolution, and acceleration per participant; removing scans with artifacts).
ASSESSMENT
One hundred and forty-six radiomic descriptors were extracted from a contiguous 2D region of white matter in each scan, before and after postprocessing.
STATISTICAL TESTS
Repeatability was assessed in a test/retest setting and between manual and automated annotations for the reference scan. Robustness was evaluated between the reference scan and each group of variant scans (contrast weighting, resolution, and acceleration). Both repeatability and robustness were quantified as the proportion of radiomic descriptors that fell into distinct ranges of the concordance correlation coefficient (CCC): excellent (CCC > 0.85), good (0.7 ≤ CCC ≤ 0.85), moderate (0.5 ≤ CCC < 0.7), and poor (CCC < 0.5); for unprocessed and postprocessed scans separately.
RESULTS
Good to excellent repeatability was observed for 52% of radiomic descriptors between test/retest scans and 48% of descriptors between automated vs. manual annotations, respectively. Contrast weighting (TR/TE) changes were associated with the largest proportion of highly robust radiomic descriptors (21%, after processing). Image resolution changes resulted in the largest proportion of poorly robust radiomic descriptors (97%, before postprocessing). Postprocessing of images with only resolution/acceleration differences resulted in 73% of radiomic descriptors showing poor robustness.
DATA CONCLUSIONS
Many radiomic descriptors appear to be nonrobust across variations in MR contrast weighting, resolution, and acceleration, as well in test-retest settings, depending on feature formulation and postprocessing.
EVIDENCE LEVEL
2 TECHNICAL EFFICACY: Stage 2.
背景
磁共振成像(MRI)的放射组学特征在疾病诊断和特征描述方面具有广阔的应用前景,但可能对成像参数的差异敏感。
目的
在前瞻性采集的 MRI 扫描中,在受控的 MRI 采集参数系统变化以及后处理的测试-复测设置下,评估健康脑组织区域的放射组学特征的可重复性和稳健性。
研究类型
前瞻性。
受试者
15 名健康参与者。
磁场强度/序列:3.0T 轴向 T2 加权 2D 涡轮自旋回波脉冲序列,采集 181 次扫描(2 次测试/复测参考扫描,12 次每个参与者的对比度加权、分辨率和加速的系统变化;去除有伪影的扫描)。
评估
在每个扫描的白质连续 2D 区域中提取了 146 个放射组学特征,在进行后处理之前和之后。
统计学检验
在测试/复测设置中评估了重复性,并针对参考扫描进行了手动和自动注释之间的评估。稳健性在参考扫描和每个变体扫描组(对比度加权、分辨率和加速)之间进行了评估。可重复性和稳健性都用一致性相关系数(CCC)的离散范围的放射组学特征比例来量化:优秀(CCC>0.85),良好(0.7≤CCC≤0.85),中等(0.5≤CCC<0.7)和较差(CCC<0.5);分别针对未处理和后处理的扫描。
结果
在测试/复测扫描之间,52%的放射组学特征具有良好到优秀的可重复性,而在自动与手动注释之间,分别有 48%的特征具有良好到优秀的可重复性。对比度加权(TR/TE)的变化与高稳健性放射组学特征的最大比例(21%,处理后)相关。图像分辨率的变化导致较差稳健性的放射组学特征的最大比例(97%,预处理前)。仅对分辨率/加速度差异的图像进行后处理,会导致 73%的放射组学特征表现出较差的稳健性。
数据结论
许多放射组学特征似乎在磁共振对比度加权、分辨率和加速度的变化以及测试-复测设置中都不稳健,这取决于特征的构成和后处理。
证据水平
2 级技术功效。
Zotero 插件