从 4DCT 导出的次区域呼吸动力学构建替代肺通气图。

IF 6.4 1区 医学 Q1 ONCOLOGY
Yu-Hua Huang, Zihan Li, Tianyu Xiong, Zhi Chen, Bing Li, Zhaoyang Lou, Yanjing Dong, Xinzhi Teng, Zongrui Ma, Hong Ge, Ge Ren, Jing Cai
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引用次数: 0

摘要

目的:提出一种两阶段框架,该框架可根据从四维计算机断层扫描(4DCT)图像中测量的次区域呼吸动力学(SRD),提取并绘制可靠的肺通气替代物,同时全面考虑呼吸周期中通气过程的空间和时间异质性:我们回顾性分析了 VAMPIRE 挑战赛的三个受试者队列,其中包含 4DCT 和参考通气成像(RefVI)扫描。使用解剖学约束简单线性迭代聚类对 4DCT 呼气末基础相进行肺亚区划分,同时在基础相和其他相之间进行滑动保留相间图像注册。利用位移场追踪呼吸引起的体积和强度变化的跨相 SRD。相应地,根据 SRD 构建了整合机械塌陷度和生理组织密度的体素级表示(VSRD)。根据 RefVI 扫描研究了 VSRD 作为所提议的代理通气图的成像性能,并与经典的双相雅各布图进行了比较。此外,还进行了剂量学性能评估,以评估将 VSRD 地图纳入功能性肺避让放疗(FLA-RT)计划的临床效益:结果:提取的 SRD 突出显示了与潜在功能生理学和病理学相关的、随时间变化的亚区域容积和 CT 强度变化。在成像性能方面,VSRD和RefVI扫描之间的中位Spearman相关系数分别为0.600、0.582和0.561,而显示高(低)功能肺区一致性的RefVI扫描的中位Dice相似性系数分别为0.611(0.626)、0.592(0.620)和0.601(0.611),两项指标均优于双相雅各布图。在剂量学性能方面,与基于双相雅各布图的FLA-RT计划相比,VSRD指导的FLA-RT计划对高功能肺区的剂量疏导效果明显更好:VSRD图捕捉了通气过程中的空间和时间异质性,与传统算法相比提供了更好的通气表征。从广泛可用的 4DCT 图像中提取多维通气相关图像信息的能力,为增强个性化 FLA-RT 实现带来了希望。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Constructing Surrogate Lung Ventilation Maps From 4-Dimensional Computed Tomography-Derived Subregional Respiratory Dynamics.

Purpose: To present a 2-stage framework that robustly extracts and maps reliable lung ventilation surrogates based on subregional respiratory dynamics (SRDs) measured from 4-dimensional computed tomography (4DCT) images, with comprehensive consideration of spatial and temporal heterogeneity in the ventilation process over the respiratory cycle.

Methods and materials: We retrospectively analyzed 3 subject cohorts from the Ventilation and Medical Pulmonary Image Registration Evaluation challenge containing 4DCT and reference ventilation imaging (RefVI) scans. Lung subregions were partitioned on the 4DCT end-of-exhale base phase using anatomically constrained simple linear iterative clustering, whereas sliding-preserved interphase image registrations were performed between the base and other phases. SRDs of breathing-induced volume and intensity changes were tracked across phases utilizing the displacement fields. Voxel-level representations integrating mechanical collapsibility and physiological tissue density (VSRD) were accordingly constructed from SRDs. Imaging performance of VSRD as the proposed surrogate ventilation map was studied against RefVI scans and compared with classical biphasic Jacobian maps. The dosimetric performance evaluation was also conducted to assess the clinical benefits of incorporating VSRD maps into functional lung avoidance radiation therapy (FLA-RT) planning.

Results: The extracted SRD highlighted temporally varying subregional volume and computed tomography intensity changes related to underlying functional physiology and pathologies. For imaging performance, the median Spearman correlation coefficients between VSRD and RefVI scans were 0.600, 0.582, and 0.561 for the 3 cohorts, whereas median Dice similarity coefficients against RefVI scans showing the high (low)-functioning lung regions' concordances were 0.611 (0.626), 0.592 (0.620), and 0.601 (0.611), superior to biphasic Jacobian maps for both metrics. For dosimetric performance, VSRD-guided FLA-RT plans achieved significantly better dose sparing of high-functioning lung regions compared with FLA-RT plans based on biphasic Jacobian maps.

Conclusions: VSRD maps captured spatial and temporal heterogeneity in the ventilation process, providing improved ventilation representations compared with classical algorithms. The capability to extract multidimensional ventilation-correlated image information from widely available 4DCT images showed promise in enhancing personalized FLA-RT implementations.

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来源期刊
CiteScore
11.00
自引率
7.10%
发文量
2538
审稿时长
6.6 weeks
期刊介绍: International Journal of Radiation Oncology • Biology • Physics (IJROBP), known in the field as the Red Journal, publishes original laboratory and clinical investigations related to radiation oncology, radiation biology, medical physics, and both education and health policy as it relates to the field. This journal has a particular interest in original contributions of the following types: prospective clinical trials, outcomes research, and large database interrogation. In addition, it seeks reports of high-impact innovations in single or combined modality treatment, tumor sensitization, normal tissue protection (including both precision avoidance and pharmacologic means), brachytherapy, particle irradiation, and cancer imaging. Technical advances related to dosimetry and conformal radiation treatment planning are of interest, as are basic science studies investigating tumor physiology and the molecular biology underlying cancer and normal tissue radiation response.
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