立体 X 射线图像和热光表面引导在深吸气屏气中用于乳腺癌放射治疗。

Stereoscopic X-ray image and thermo-optical surface guidance for breast cancer radiotherapy in deep inspiration breath-hold.

机构信息

Department of Radiation Oncology, Comprehensive Cancer Center, Medical University of Vienna/AKH Wien, Währinger Gürtel 18-20, Vienna, 1090, Austria.

出版信息

Strahlenther Onkol. 2024 Apr;200(4):306-313. doi: 10.1007/s00066-023-02153-y. Epub 2023 Oct 5.

DOI:10.1007/s00066-023-02153-y

PMID:37796341

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10965739/

Abstract

PURPOSE

To investigate the feasibility of a thermo-optical surface imaging (SGRT) system combined with room-based stereoscopic X‑ray image guidance (IGRT) in a dedicated breast deep inspiration breath-hold (DIBH) irradiation workflow. In this context, benchmarking of portal imaging (EPID) and cone-beam CT (CBCT) against stereoscopic X‑rays was performed.

METHODS

SGRT + IGRT data of 30 left-sided DIBH breast patients (1 patient with bilateral cancer) treated in 351 fractions using thermo-optical surface imaging and X-ray IGRT were retrospectively analysed. Patients were prepositioned based on a free-breathing surface reference derived from a CT scan. Once the DIBH was reached using visual feedback, two stereoscopic X‑ray images were acquired and registered to the digitally reconstructed radiographs derived from the DIBH CT. Based on this registration, a couch correction was performed. Positioning and monitoring by surface and X-ray imaging were verified by protocol-based EPID or CBCT imaging at selected fractions and the calculation of residual geometric deviations.

RESULTS

The median X‑ray-derived couch correction vector was 4.9 (interquartile range [IQR] 3.3-7.1) mm long. Verification imaging was performed for 134 fractions (216 RT field verifications) with EPID and for 37 fractions with CBCT, respectively. The median 2D/3D deviation vector length over all verification images was 2.5 (IQR 1.6-3.9) mm/3.4 (IQR 2.2-4.8) mm for EPID/CBCT, both being well within the planning target volume (PTV) margins (7 mm). A moderate correlation (0.49-0.65) was observed between the surface signal and X-ray position in DIBH.

CONCLUSION

DIBH treatments using thermo-optical SGRT and X-ray IGRT were feasible for breast cancer patients. Stereoscopic X‑ray positioning was successfully verified by standard IGRT techniques.

摘要

目的

研究热光表面成像（SGRT）系统与基于房间的立体 X 射线图像引导（IGRT）在专用乳房深吸气屏气（DIBH）照射工作流程中的可行性。在此背景下，对门成像（EPID）和锥形束 CT（CBCT）与立体 X 射线进行了基准测试。

方法

回顾性分析了 30 例左侧 DIBH 乳腺癌患者（1 例双侧癌症患者）的 351 个分次的 SGRT+IGRT 数据，这些患者使用热光表面成像和 X 射线 IGRT 进行治疗。患者根据 CT 扫描得出的自由呼吸表面参考进行预定位。一旦通过视觉反馈达到 DIBH，就会采集两个立体 X 射线图像，并将其与来自 DIBH CT 的数字重建射线照相进行注册。基于此注册，对治疗床进行校正。通过基于协议的 EPID 或 CBCT 成像在选定的分次中验证和监测表面和 X 射线成像的定位和监测，并计算残余几何偏差。

结果

X 射线衍生的治疗床校正向量的中位数为 4.9（四分位距[IQR] 3.3-7.1）mm。分别对 134 个分次（216 个 RT 场验证）进行了 EPID 验证成像，对 37 个分次进行了 CBCT 验证成像。所有验证图像的中位 2D/3D 偏差向量长度分别为 2.5（IQR 1.6-3.9）mm/3.4（IQR 2.2-4.8）mm，均在计划靶区（PTV）边界（7mm）内。在 DIBH 中，观察到表面信号与 X 射线位置之间存在中度相关性（0.49-0.65）。

结论

使用热光 SGRT 和 X 射线 IGRT 的 DIBH 治疗对乳腺癌患者是可行的。立体 X 射线定位可通过标准 IGRT 技术成功验证。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3718/10965739/c3f36f00677b/66_2023_2153_Fig1_HTML.jpg

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立体 X 射线图像和热光表面引导在深吸气屏气中用于乳腺癌放射治疗。

Stereoscopic X-ray image and thermo-optical surface guidance for breast cancer radiotherapy in deep inspiration breath-hold.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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