A model that predicts a real-time tumour surface using intra-treatment skin surface and end-of-expiration and end-of-inhalation planning CT images.

IF 1.8 4区 医学 Q3 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING British Journal of Radiology Pub Date : 2024-05-07 DOI:10.1093/bjr/tqae067
Ziwen Wei, Xiang Huang, Aiming Sun, Leilei Peng, Zhixia Lou, Zongtao Hu, Hongzhi Wang, Ligang Xing, Jinming Yu, Junchao Qian
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Abstract

Objectives: To develop a mapping model between skin surface motion and internal tumour motion and deformation using end-of-exhalation (EOE) and end-of-inhalation (EOI) 3D CT images for tracking lung tumours during respiration.

Methods: Before treatment, skin and tumour surfaces were segmented and reconstructed from the EOE and the EOI 3D CT images. A non-rigid registration algorithm was used to register the EOE skin and tumour surfaces to the EOI, resulting in a displacement vector field that was then used to construct a mapping model. During treatment, the EOE skin surface was registered to the real-time, yielding a real-time skin surface displacement vector field. Using the mapping model generated, the input of a real-time skin surface can be used to calculate the real-time tumour surface. The proposed method was validated with and without simulated noise on 4D CT images from 15 patients at Léon Bérard Cancer Center and the 4D-lung dataset.

Results: The average centre position error, dice similarity coefficient (DSC), 95%-Hausdorff distance and mean distance to agreement of the tumour surfaces were 1.29 mm, 0.924, 2.76 mm, and 1.13 mm without simulated noise, respectively. With simulated noise, these values were 1.33 mm, 0.920, 2.79 mm, and 1.15 mm, respectively.

Conclusions: A patient-specific model was proposed and validated that was constructed using only EOE and EOI 3D CT images and real-time skin surface images to predict internal tumour motion and deformation during respiratory motion.

Advances in knowledge: The proposed method achieves comparable accuracy to state-of-the-art methods with fewer pre-treatment planning CT images, which holds potential for application in precise image-guided radiation therapy.

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利用治疗期间皮肤表面、呼气末和吸气末计划 CT 图像实时预测肿瘤表面的模型。
目的:利用呼气末(EOE)和吸气末(EOI)三维 CT 图像建立皮肤表面运动与肿瘤内部运动和变形之间的映射模型,以追踪呼吸过程中的肺部肿瘤:治疗前,根据呼气末(EOE)和吸气末(EOI)三维 CT 图像对皮肤和肿瘤表面进行分割和重建。采用非刚性配准算法将 EOE 皮肤和肿瘤表面配准到 EOI,得到位移矢量场 (DVF),然后用于构建映射模型。在治疗过程中,EOE 皮肤表面被实时注册,产生实时皮肤表面 DVF。利用生成的映射模型,输入的实时皮肤表面可用于计算实时肿瘤表面。在 Léon Bérard 癌症中心 15 名患者的 4D CT 图像和 4D 肺部数据集上,对所提出的方法进行了有模拟噪声和无模拟噪声的验证:在没有模拟噪声的情况下,肿瘤表面的平均中心位置误差、Dice相似系数(DSC)、95%-Hausdorff距离和平均一致距离分别为1.29毫米、0.924毫米、2.76毫米和1.13毫米。有模拟噪声时,这些数值分别为 1.33 毫米、0.920 毫米、2.79 毫米和 1.15 毫米:仅使用 EOE 和 EOI 3D CT 图像和实时皮肤表面图像构建了一个特定于患者的模型,用于预测呼吸运动时肿瘤内部的运动和变形,并对该模型进行了验证:提出的方法以较少的治疗前计划 CT 图像实现了与最先进方法相当的准确性,有望应用于精确图像引导放射治疗。
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来源期刊
British Journal of Radiology
British Journal of Radiology 医学-核医学
CiteScore
5.30
自引率
3.80%
发文量
330
审稿时长
2-4 weeks
期刊介绍: BJR is the international research journal of the British Institute of Radiology and is the oldest scientific journal in the field of radiology and related sciences. Dating back to 1896, BJR’s history is radiology’s history, and the journal has featured some landmark papers such as the first description of Computed Tomography "Computerized transverse axial tomography" by Godfrey Hounsfield in 1973. A valuable historical resource, the complete BJR archive has been digitized from 1896. Quick Facts: - 2015 Impact Factor – 1.840 - Receipt to first decision – average of 6 weeks - Acceptance to online publication – average of 3 weeks - ISSN: 0007-1285 - eISSN: 1748-880X Open Access option
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