Abstract
The purpose of this study is to investigate changes in lung tumor internal target volume during stereotactic body radiotherapy treatment (SBRT) using magnetic resonance imaging (MRI). Ten lung cancer patients (13 tumors) undergoing SBRT (48 Gy over four consecutive days) were evaluated. Each patient underwent three lung MRI evaluations: before SBRT (MRI‐1), after fraction 3 of SBRT (MRI‐3), and three months after completion of SBRT (MRI‐3m). Each MRI consisted of T1‐weighted images in axial plane through the entire lung. A cone‐beam CT (CBCT) was taken before each fraction. On MRI and CBCT taken before fractions 1 and 3, gross tumor volume (GTV) was contoured and differences between the two volumes were compared. Median tumor size on CBCT before fractions 1 (CBCT‐1) and 3 (CBCT‐3) was 8.68 and 11.10 cm3, respectively. In 12 tumors, the GTV was larger on CBCT‐3 compared to CBCT‐1 (median enlargement, 1.56 cm3). Median tumor size on MRI‐1, MRI‐3, and MRI‐3m was 7.91, 11.60, and 3.33 cm3, respectively. In all patients, the GTV was larger on MRI‐3 compared to MRI‐1 (median enlargement, 1.54 cm3). In all patients, GTV was smaller on MRI‐3m compared to MRI‐1 (median shrinkage, 5.44 cm3). On CBCT and MRI, all patients showed enlargement of the GTV during the treatment week of SBRT, except for one patient who showed minimal shrinkage (0.86 cm3). Changes in tumor volume are unpredictable; therefore, motion and breathing must be taken into account during treatment planning, and image‐guided methods should be used, when treating with large fraction sizes.PACS number: 87.53.Ly
Highlights
26 Saito et al.: Lung tumor motion during stereotactic body radiotherapy treatment (SBRT) two weeks, independent of the type of fractionation schedule used
In all but one lesion, the tumor volume was larger on cone-beam computed tomography (CT) (CBCT) on Day
Three of SBRT compared to the volume on the preradiotherapy image
Summary
26 Saito et al.: Lung tumor motion during SBRT two weeks, independent of the type of fractionation schedule used. Radiotherapy volumes and fields derived from the initial planning computed tomography (CT) images are typically used throughout the treatment without any modifications. May change in size and location between planning and treatment or between each treatment. Breathing patterns may alter, or the pattern recorded at simulation may not reflect the pattern seen at treatment. Such changes in size and motion can affect the internal target volume (ITV), thereby affecting the accuracy of the SBRT. The aim of this study was to investigate changes in lung tumor ITV during SBRT using magnetic resonance imaging (MRI) and cone-beam CT (CBCT)
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