基于 CT 的肺通气替代物与放射性治疗患者的超极化氦-3 和氙-129 气体 MRI 的空间比较。
Spatial Comparison of CT-Based Surrogates of Lung Ventilation With Hyperpolarized Helium-3 and Xenon-129 Gas MRI in Patients Undergoing Radiation Therapy.
机构信息
Academic Unit of Clinical Oncology, University of Sheffield, United Kingdom; POLARIS, Academic Radiology, University of Sheffield, United Kingdom.
POLARIS, Academic Radiology, University of Sheffield, United Kingdom.
出版信息
Int J Radiat Oncol Biol Phys. 2018 Nov 15;102(4):1276-1286. doi: 10.1016/j.ijrobp.2018.04.077. Epub 2018 May 10.
PURPOSE
To develop and apply an image acquisition and analysis strategy for spatial comparison of computed tomography (CT)-ventilation images with hyperpolarized gas magnetic resonance imaging (MRI).
METHODS AND MATERIALS
Eleven lung cancer patients underwent xenon-129 (Xe) and helium-3 (He) ventilation MRI and coregistered proton (H) anatomic MRI. Expiratory and inspiratory breath-hold CTs were used for deformable image registration and calculation of 3 CT-ventilation metrics: Hounsfield unit (CT), Jacobian (CT), and specific gas volume change (CT). Inspiration CT and hyperpolarized gas ventilation MRI were registered via same-breath anatomic H-MRI. Voxel-wise Spearman correlation coefficients were calculated between each CT-ventilation image and its corresponding He-/Xe-MRI, and for the mean values in regions of interest (ROIs) ranging from fine to coarse in-plane dimensions of 5 × 5, 10 × 10, 15 × 15, and 20 × 20, located within the lungs as defined by the same-breath H-MRI lung mask. Correlation of He and Xe-MRI was also assessed.
RESULTS
Spatial correlation of CT-ventilation against He/Xe-MRI increased with ROI size. For example, for CT, mean ± SD Spearman coefficients were 0.37 ± 0.19/0.33 ± 0.17 at the voxel-level and 0.52 ± 0.20/0.51 ± 0.18 for 20 × 20 ROIs, respectively. Correlations were stronger for CT than for CT or CT. Correlation of He with Xe-MRI was consistently higher than either gas against CT-ventilation maps over all ROIs (P < .05). No significant differences were observed between CT-ventilation versus He-MRI and CT-ventilation versus Xe-MRI.
CONCLUSION
Comparison of ventilation-related measures from CT and registered hyperpolarized gas MRI is feasible at a voxel level using a dedicated acquisition and analysis protocol. Moderate correlation between CT-ventilation and MRI exists at a regional level. Correlation between MRI and CT is significantly less than that between He and Xe-MRI, suggesting that CT-ventilation surrogate measures may not be measuring lung ventilation alone.
目的
开发并应用一种用于计算断层扫描(CT)-通气图像与极化气体磁共振成像(MRI)之间空间比较的图像采集和分析策略。
方法和材料
11 例肺癌患者接受氙-129(Xe)和氦-3(He)通气 MRI 和质子(H)解剖 MRI 配准。呼气和吸气屏气 CT 用于可变形图像配准和计算 3 种 CT-通气指标:CT 单位(CT)、Jacobian(CT)和特定气体体积变化(CT)。吸气 CT 和超极化气体通气 MRI 通过相同呼吸解剖 H-MRI 配准。计算每个 CT-通气图像与其相应的 He-/Xe-MRI 之间以及 ROI 内的均值之间的体素-wise Spearman 相关系数,ROI 范围从 5×5、10×10、15×15 和 20×20 的精细到粗糙的平面内尺寸,位于相同呼吸 H-MRI 肺掩模定义的肺部内。还评估了 He 和 Xe-MRI 的相关性。
结果
CT-通气与 He/Xe-MRI 的空间相关性随着 ROI 大小的增加而增加。例如,对于 CT,平均±标准偏差 Spearman 系数在体素水平分别为 0.37±0.19/0.33±0.17,在 20×20 ROI 中分别为 0.52±0.20/0.51±0.18。CT 的相关性强于 CT 或 CT。在所有 ROI 中,He 与 Xe-MRI 的相关性均高于任何一种气体与 CT-通气图的相关性(P<.05)。CT-通气与 He-MRI 和 CT-通气与 Xe-MRI 之间无显著差异。
结论
使用专用采集和分析协议,在体素水平上比较 CT 和注册的超极化气体 MRI 之间的通气相关测量值是可行的。在区域水平上,CT-通气与 MRI 之间存在中度相关性。MRI 与 CT 的相关性明显低于 He 与 Xe-MRI 的相关性,这表明 CT-通气替代指标可能不仅仅测量肺通气。
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