Use of 3D printers to create a patient‐specific 3D bolus for external beam therapy

机译：使用3D打印机创建特定于患者的3D推注以进行外部束治疗

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摘要

The purpose of this paper is to demonstrate that an inexpensive 3D printer can be used to manufacture patient‐specific bolus for external beam therapy, and to show we can accurately model this printed bolus in our treatment planning system for accurate treatment delivery. Percent depth‐dose measurements and tissue maximum ratios were used to determine the characteristics of the printing materials, acrylonitrile butadiene styrene and polylactic acid, as bolus material with physical density of 1.04 and

1.2 g / {cm}^{3}

, and electron density of

3.38 \times 10^{23} electrons / {cm}^{3}

and

3.80 \times 10^{23} electrons / {cm}^{3}

, respectively. Dose plane comparisons using Gafchromic EBT2 film and the RANDO phantom were used to verify accurate treatment planning. We accurately modeled a printing material in Eclipse treatment planning system, assigning it a Hounsfield unit of 260. We were also able to verify accurate treatment planning using gamma analysis for dose plane comparisons. With gamma criteria of 5% dose difference and 2 mm DTA, we were able to have 86.5% points passing, and with gamma criteria of 5% dose difference and 3 mm DTA, we were able to have 95% points passing. We were able to create a patient‐specific bolus using an inexpensive 3D printer and model it in our treatment planning system for accurate treatment delivery.PACS numbers: 87.53.Jw, 87.53.Kn, 87.56.ng

机译：本文的目的是证明可以使用便宜的3D打印机制造用于外部束治疗的特定于患者的推注，并表明我们可以在我们的治疗计划系统中准确模拟此打印推注，以实现准确的治疗。深度剂量百分比和组织最大比值用于确定印刷材料，丙烯腈丁二烯苯乙烯和聚乳酸的特性，这些材料是团聚材料，其物理密度为1.04，且

1.2g/cm3和3.38\times1023电子/cm3和3.80\times1023电子/cm3ly。使用Gafchromic EBT2胶片和RANDO体模进行剂量平面比较，以验证准确的治疗计划。我们在Eclipse治疗计划系统中对打印材料进行了精确建模，将其分配为260的Hounsfield单位。我们还能够使用伽马分析对剂量平面比较来验证准确的治疗计划。在5％剂量差异和2 mm DTA的伽玛标准下，我们能够通过86.5％的点，在5％剂量差异和3 mm DTA的伽玛标准下，我们能够通过95％的点。我们能够使用廉价的3D打印机创建特定于患者的推注并将其建模到治疗计划系统中以实现准确的治疗.PACS编号：87.53.Jw，87.53.Kn，87.56.ng

著录项

期刊名称 Wiley-Blackwell Online Open
作者
Sarah Burleson; Jamie Baker; An Ting Hsia; Zhigang Xu;
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作者单位

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年(卷),期 -1(16),3
年度 -1
页码 166–178
总页数 13
原文格式 PDF
正文语种
中图分类
关键词
bolus 3D printer compensator electron conformal therapy;

机译：大剂量;3D打印机;补偿器;电子适形治疗;

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专利

1. Use of 3D printers to create a patient‐specific 3D bolus for external beam therapy [J] . Burleson Sarah, Baker Jamie, Hsia An Ting, Journal of applied clinical medical physics / . 2015,第3期

机译：使用3D打印机创建特定于患者的3D推注，以进行外部束治疗
2. Perception and Time Effectiveness of Utilizing 3D Printer Technology to Create Rigid Bolus for Radiation Therapy [J] . Dubey A., Sharma A. M., Sasaki D., International Journal of Radiation Oncology, Biology, Physics . 2017,第2Suppla期

机译：利用3D打印机技术创造刚性推注的辐射治疗的感知和时间效率
3. Clinical implementation of 3D printing in the construction of patient specific bolus for electron beam radiotherapy for non-melanoma skin cancer [J] . Canters Richard A., Lips Irene M., Wendling Markus, Radiotherapy and oncology: Journal of the European Society for Therapeutic Radiology and Oncology . 2016,第1期

机译：3D打印在非黑素瘤皮肤癌电子束放射治疗患者特异性推注构建中的临床实施
4. Use of 3D-Printers to Create Intensity-Modulated Radiotherapy Compensator Blocks [C] . Samuel R. Avelino, Luis Felipe O. Silva, Cristiano J. Miosso Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2012

机译：使用3D打印机创建强度调制的放射疗法补偿块
5. The Cadillac of Hot Glue Guns: On Replicating Objects for Still Life Using the 3D Pen and 3D Printer [D] . ?Hickey, Charles 2020

机译：热胶枪的凯迪拉克：在复制对象的静物使用3D 笔和 3D打印机
6. A Patient-Specific Polylactic Acid Bolus Made by a 3D Printer for Breast Cancer Radiation Therapy [O] . So-Yeon Park, Chang Heon Choi, Jong Min Park, 2011

机译：由3D打印机制造的针对患者的聚乳酸小丸，用于乳腺癌放射治疗
7. A Patient-Specific Polylactic Acid Bolus Made by a 3D Printer for Breast Cancer Radiation Therapy. [O] . So-Yeon Park, Chang Heon Choi, Jong Min Park, 2016

机译：用于乳腺癌放射治疗的3D打印机制造的患者特异性聚乳酸bolus。

Use of 3D printers to create a patient‐specific 3D bolus for external beam therapy

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