使用傅里叶变换对胰腺癌立体定向放疗患者进行适应性运动映射。

Adaptive motion mapping in pancreatic SBRT patients using Fourier transforms.

作者信息

Jones Bernard L, Schefter Tracey, Miften Moyed

机构信息

Department of Radiation Oncology, University of Colorado School of Medicine, United States.

出版信息

Radiother Oncol. 2015 May;115(2):217-22. doi: 10.1016/j.radonc.2015.03.029. Epub 2015 Apr 15.

DOI:10.1016/j.radonc.2015.03.029

PMID:25890573

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4468008/

Abstract

BACKGROUND AND PURPOSE

Recent studies suggest that 4DCT is unable to accurately measure respiratory-induced pancreatic tumor motion. In this work, we assessed the daily motion of pancreatic tumors treated with SBRT, and developed adaptive strategies to predict and account for this motion.

MATERIALS AND METHODS

The daily motion trajectory of pancreatic tumors during CBCT acquisition was calculated using a model which reconstructs the instantaneous 3D position in each 2D CBCT projection image. We developed a metric (termed "Spectral Coherence," SC) based on the Fourier frequency spectrum of motion in the SI direction, and analyzed the ability of SC to predict motion-based errors and classify patients according to motion characteristics.

RESULTS

The amplitude of daily motion exceeded the predictions of pre-treatment 4DCT imaging by an average of 3.0mm, 2.3mm, and 3.5mm in the AP/LR/SI directions. SC was correlated with daily motion differences and tumor dose coverage. In a simulated adaptive protocol, target margins were adjusted based on SC, resulting in significant increases in mean target D95, D99, and minimum dose.

CONCLUSION

Our Fourier-based approach differentiates between consistent and inconsistent motion characteristics of respiration and correlates with daily motion deviations from pre-treatment 4DCT. The feasibility of an SC-based adaptive protocol was demonstrated, and this patient-specific respiratory information was used to improve target dosimetry by expanding coverage in inconsistent breathers while shrinking treatment volumes in consistent breathers.

摘要

背景与目的

近期研究表明，4DCT无法准确测量呼吸引起的胰腺肿瘤运动。在本研究中，我们评估了接受立体定向体部放疗（SBRT）的胰腺肿瘤的每日运动情况，并制定了适应性策略来预测和应对这种运动。

材料与方法

使用一种在每个二维CBCT投影图像中重建瞬时三维位置的模型，计算CBCT采集过程中胰腺肿瘤的每日运动轨迹。我们基于SI方向运动的傅里叶频谱开发了一种度量标准（称为“频谱相干性”，SC），并分析了SC预测基于运动的误差以及根据运动特征对患者进行分类的能力。

结果

在前后/左右/头脚方向上，每日运动幅度平均比治疗前4DCT成像的预测值超出3.0mm、2.3mm和3.5mm。SC与每日运动差异和肿瘤剂量覆盖相关。在模拟的适应性方案中，根据SC调整靶区边缘，导致平均靶区D95、D99和最小剂量显著增加。

结论

我们基于傅里叶的方法区分了呼吸的一致和不一致运动特征，并与治疗前4DCT的每日运动偏差相关。证明了基于SC的适应性方案的可行性，并且这种针对患者的呼吸信息被用于通过扩大不一致呼吸者的覆盖范围同时缩小一致呼吸者的治疗体积来改善靶区剂量测定。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2a52/4468008/45b62a4c1a5c/nihms680148f1.jpg

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