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KMID : 1164220200320010041
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Journal of Korean Society for Radiotherapeutic Technology
2020 Volume.32 No. 1 p.41 ~ p.52
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The Application of 3D Bolus with Neck in the Treatment of Hypopharynx Cancer in VMAT
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An Ye-Chan
Kim Jin-Man
Kim Chan-Yang
Kim Jong-Sik
Park Yong-Chul
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Abstract
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Purpose: To find out the dosimetric usefulness, setup reproducibility and efficiency of applying 3D Bolus by comparing two treatment plans in which Commercial Bolus and 3D Bolus produced by 3D Printing Technology were applied to the neck during VMAT treatment of Hypopahrynx Cancer to evaluate the clinical applicability.
Materials and Methods: Based on the CT image of the RANDO phantom to which CB was applied, 3D Bolus were fabricated in the same form. 3D Bolus was printed with a polyurethane acrylate resin with a density of 1.2g/§¨ through the SLA technique using OMG SLA 660 Printer and MaterializeMagics software. Based on two CT images using CB and 3D Bolus, a treatment plan was established assuming VMAT treatment of Hypopharynx Cancer. CBCT images were obtained for each of the two established treatment plans 18 times, and the treatment efficiency was evaluated by measuring the setup time each time. Based on the obtained CBCT image, the adaptive plan was performed through Pinnacle, a computerized treatment planning system, to evaluate target, normal organ dose evaluation, and changes in bolus volume.
Results: The setup time for each treatment plan was reduced by an average of 28 sec in the 3D Bolus treatment plan compared to the CB treatment plan. The Bolus Volume change during the pretreatment period was 86.1¡¾2.70§¨ in 83.9§¨ of CB Initial Plan and 99.8¡¾0.46§¨ in 92.2§¨ of 3D Bolus Initial Plan. The change in CTV Min Value was 167.4¡¾19.38cGy in CB Initial Plan 191.6cGy and 149.5¡¾18.27cGy in 3D Bolus Initial Plan 167.3cGy. The change in CTV Mean Value was 228.3¡¾0.38cGy in CB Initial Plan 227.1cGy and 227.7¡¾0.30cGy in 3D Bolus Initial Plan 225.9cGy. The change in PTV Min Value was 74.9¡¾19.47cGy in CB Initial Plan 128.5cGy and 83.2¡¾12.92cGy in 3D Bolus Initial Plan 139.9cGy. The change in PTV Mean Value was 226.2¡¾0.83cGy in CB Initial Plan 225.4cGy and 225.8¡¾0.33cGy in 3D Bolus Initial Plan 224.1cGy. The maximum value for the normal organ spinal cord was the same as 135.6cGy on average each time.
Conclusion: From the experimental results of this paper, it was found that the application of 3D Bolus to the irregular body surface is more dosimetrically useful than the application of Commercial Bolus, and the setup reproducibility and efficiency are excellent. If further case studies along with research on the diversity of 3D printing materials are conducted in the future, the application of 3D Bolus in the field of radiation therapy is expected to proceed more actively.
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KEYWORD
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Hypopharynx Cancer, Tracheostomy, VMAT, 3D Bolus, Commercial Bolus, Adaptive Plan
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