Dynamic chest radiography (DCR) is a recent advanced modality to acquire dynamic and functional images. We developed a new method using DCR and the free analysis software, Kinovea, to assess lung tumor motion. This study aimed to demonstrate the usefulness of our method. Phantom and clinical studies were performed. In the phantom study, dynamic images of a moving lead sphere were acquired using DCR, and the motion of the phantom was tracked using Kinovea in a DCR video. The amplitude of phantom motion was measured and compared with a predetermined baseline amplitude. In a clinical study, DCR and respiratory-gated four-dimensional computed tomography (4D-CT) were performed on 15 patients who underwent stereotactic body radiation therapy for lung tumors. The amplitudes of tumor motion in DCR and 4D-CT were measured in the superior-inferior (SI), left-right (LR), and anterior-posterior (AP) directions, and the square root of the sum of squares (SRSS) of the amplitude was calculated in all directions. Spearman's rank correlation and the Wilcoxon signed-rank test were performed to determine the correlations of the amplitudes of tumor motion obtained using DCR and 4D-CT. In the phantom study, the absolute mean error between the measured and predetermined amplitudes was 0.60 mm (range: 0.061.53 mm). In the clinical study, the amplitudes of tumor motion obtained using DCR correlated significantly with those of 4D-CT in the SI and LR directions, as did the SRSS values. The median amplitudes for DCR were significantly higher than those for 4D-CT in all (SI, LR, and AP) directions, as were the SRSS values. Our proposed method based on DCR and Kinovea is useful for assessing lung tumor motion, visually and quantitatively. Therefore, DCR has potential as a new modality for evaluating lung tumor motion in radiotherapy.
CITATION STYLE
Kitamura, K., Takayama, K., Yamazaki, R., Ueda, Y., & Nishiki, S. (2022). A new method for assessing lung tumor motion in radiotherapy using dynamic chest radiography. Journal of Applied Clinical Medical Physics, 23(10). https://doi.org/10.1002/acm2.13736
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