开发用于多脑靶立体定向放射手术调试和质量保证的 3D 打印模型。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-06-01 Epub Date: 2024-01-29 DOI:10.1007/s13246-023-01374-w
Godfrey Mukwada, Andrew Hirst, Pejman Rowshanfarzad, Martin A Ebert
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引用次数: 0

摘要

多脑靶点(MBT)立体定向放射外科(SRS)的单计划技术现已成为常规技术。由于现有质量保证工具的能力有限,需要进行多次计划重新交付,这给 MBT 患者特定质量保证(QA)带来了挑战。本研究试图开发一种 SRS QA 模型,以便在一次交付中实现灵活的 MBT 患者特定 QA,同时进行复杂的 SRS 调试。根据文献和本部门以前进行的研究,选择了聚乳酸大理石和聚乳酸 StoneFil 材料。对 HU 数值进行了调查,以确定头骨和软组织等效的适当填充百分比。使用 Prusa MK3S 打印机和上述长丝来打印 SRS QA 模型。对打印的头骨、薄膜插入物和点剂量测量插头进行了质量控制(QC)。使用 CC04 电离室进行了 EBT3 薄膜和点剂量测量。质量控制表明,SRS QA 模型的横向、冠状和矢状胶片平面的正交角度在 0.5°以内。头骨、胶片插入物和塞子的 HU 值分别为 858 ± 20 和 35 ± 12。点剂量和EBT3胶片剂量测量的伽马通过率分别为2.5%和3%/2毫米95%,只有一个肿瘤总体积(GTV)的伽马通过率略低。在 CyberKnife 上使用 EBT3 胶片测量了单次计划投放中五个 GTV 的剂量分布。总之,我们设计并三维打印了一个 SRS QA 模型,并展示了它在单次给药中执行复杂 MBT 患者特定 QA 的用途。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Development of a 3D printed phantom for commissioning and quality assurance of multiple brain targets stereotactic radiosurgery.

Single plan techniques for multiple brain targets (MBT) stereotactic radiosurgery (SRS) are now routine. Patient specific quality assurance (QA) for MBT poses challenges due to the limited capabilities of existing QA tools which necessitates several plan redeliveries. This study sought to develop an SRS QA phantom that enables flexible MBT patient specific QA in a single delivery, along with complex SRS commissioning. PLA marble and PLA StoneFil materials were selected based on the literature and previous research conducted in our department. The HU numbers were investigated to determine the appropriate percentage infill for skull and soft-tissue equivalence. A Prusa MK3S printer in conjunction with the above-mentioned filaments were used to print the SRS QA phantom. Quality control (QC) was performed on the printed skull, film inserts and plugs for point dose measurements. EBT3 film and point dose measurements were performed using a CC04 ionisation chamber. QC demonstrated that the SRS QA phantom transverse, coronal and sagittal film planes were orthogonal within 0.5°. HU numbers for the skull, film inserts and plugs were 858 ± 20 and 35 ± 12 respectively. Point and EBT3 film dose measurements were within 2.5% and 3%/2 mm 95% gamma pass rate, respectively except one Gross Tumour Volume (GTV) that had a slightly lower gamma pass rate. Dose distributions to five GTVs were measured with EBT3 film in a single plan delivery on CyberKnife. In conclusion, an SRS QA phantom was designed, and 3D printed and its use for performing complex MBT patient specific QA in a single delivery was demonstrated.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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