使用 4D 呼吸运动分辨超短回波时间稀疏 MRI 同时评估肺解剖结构和通气
Simultaneous Evaluation of Lung Anatomy and Ventilation Using 4D Respiratory-Motion-Resolved Ultrashort Echo Time Sparse MRI.
机构信息
Center for Advanced Imaging Innovation and Research (CAIR), and Bernard and Irene Schwartz Center for Biomedical Imaging, Department of Radiology, New York University School of Medicine, New York, New York, USA.
Department of Medical Physics, Memorial Sloan Kettering Cancer Center, New York, New York, USA.
出版信息
J Magn Reson Imaging. 2019 Feb;49(2):411-422. doi: 10.1002/jmri.26245. Epub 2018 Sep 25.
BACKGROUND
Computed tomography (CT) and spirometry are the current standard methods for assessing lung anatomy and pulmonary ventilation, respectively. However, CT provides limited ventilation information and spirometry only provides global measures of lung ventilation. Thus, a method that can enable simultaneous examination of lung anatomy and ventilation is of clinical interest.
PURPOSE
To develop and test a 4D respiratory-resolved sparse lung MRI (XD-UTE: eXtra-Dimensional Ultrashort TE imaging) approach for simultaneous evaluation of lung anatomy and pulmonary ventilation.
STUDY TYPE
Prospective.
POPULATION
In all, 23 subjects (11 volunteers and 12 patients, mean age = 63.6 ± 8.4).
FIELD STRENGTH/SEQUENCE: 3T MR; a prototype 3D golden-angle radial UTE sequence, a Cartesian breath-hold volumetric-interpolated examination (BH-VIBE) sequence.
ASSESSMENT
All subjects were scanned using the 3D golden-angle radial UTE sequence during normal breathing. Ten subjects underwent an additional scan during alternating normal and deep breathing. Respiratory-motion-resolved sparse reconstruction was performed for all the acquired data to generate dynamic normal-breathing or deep-breathing image series. For comparison, BH-VIBE was performed in 12 subjects. Lung images were visually scored by three experienced chest radiologists and were analyzed by two observers who segmented the left and right lung to derive ventilation parameters in comparison with spirometry.
STATISTICAL TESTS
Nonparametric paired two-tailed Wilcoxon signed-rank test; intraclass correlation coefficient, Pearson correlation coefficient.
RESULTS
XD-UTE achieved significantly improved image quality compared both with Cartesian BH-VIBE and radial reconstruction without motion compensation (P < 0.05). The global ventilation parameters (a sum of the left and right lung measures) were in good correlation with spirometry in the same subjects (correlation coefficient = 0.724). There were excellent correlations between the results obtained by two observers (intraclass correlation coefficient ranged from 0.8855-0.9995).
DATA CONCLUSION
Simultaneous evaluation of lung anatomy and ventilation using XD-UTE is demonstrated, which have shown good potential for improved diagnosis and management of patients with heterogeneous lung diseases.
LEVEL OF EVIDENCE
2 Technical Efficacy: Stage 2 J. Magn. Reson. Imaging 2019;49:411-422.
背景
计算机断层扫描(CT)和肺量计分别是当前评估肺解剖结构和肺通气的标准方法。然而,CT 仅提供有限的通气信息,而肺量计仅提供肺通气的整体测量值。因此,能够同时检查肺解剖结构和通气的方法具有临床意义。
目的
开发和测试一种用于同时评估肺解剖结构和肺通气的 4D 呼吸分辨稀疏肺 MRI(XD-UTE:Extra-Dimensional Ultrashort TE 成像)方法。
研究类型
前瞻性。
人群
共 23 名受试者(11 名志愿者和 12 名患者,平均年龄 63.6±8.4 岁)。
磁场强度/序列:3T MR;一种原型 3D 黄金角度径向 UTE 序列,一种笛卡尔屏气容积内插检查(BH-VIBE)序列。
评估
所有受试者在正常呼吸时均使用 3D 黄金角度径向 UTE 序列进行扫描。10 名受试者在正常呼吸和深呼吸之间交替进行了额外的扫描。对所有采集的数据进行呼吸运动分辨稀疏重建,以生成动态正常呼吸或深呼吸图像序列。为了比较,12 名受试者进行了 BH-VIBE 扫描。三位有经验的胸部放射科医生对肺图像进行了视觉评分,并由两位观察者对左、右肺进行分割,以得出与肺量计比较的通气参数。
统计学检验
非参数配对双侧 Wilcoxon 符号秩检验;组内相关系数,Pearson 相关系数。
结果
与笛卡尔 BH-VIBE 和无运动补偿的径向重建相比,XD-UTE 显著提高了图像质量(P<0.05)。在同一受试者中,全局通气参数(左、右肺测量值之和)与肺量计具有良好的相关性(相关系数为 0.724)。两位观察者的结果之间存在极好的相关性(组内相关系数范围为 0.8855-0.9995)。
数据结论
使用 XD-UTE 同时评估肺解剖结构和通气的方法已得到验证,这为改善异质性肺病患者的诊断和管理提供了良好的潜力。
证据水平
2 技术功效:第 2 阶段 J. Magn. Reson. Imaging 2019;49:411-422.
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