基于“球体-面罩”光学定位系统的安装误差评估：一项多中心研究的结果

Setup error assessment based on "Sphere-Mask" Optical Positioning System: Results from a multicenter study.

作者信息

Zhang Yan, Zhou Han, Chu Kaiyue, Wu Chuanfeng, Ge Yun, Shan Guoping, Zhou Jundong, Cai Jing, Jin Jianhua, Sun Weiyu, Chen Ying, Huang Xiaolin

机构信息

School of Electronic Science and Engineering, Nanjing University, Nanjing, China.

Department of Radiotherapy, Nantong Tumor Hospital, Nantong, China.

出版信息

Front Oncol. 2022 Oct 4;12:918296. doi: 10.3389/fonc.2022.918296. eCollection 2022.

DOI:10.3389/fonc.2022.918296

PMID:36267985

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9577199/

Abstract

BACKGROUND

The setup accuracy plays an extremely important role in the local control of tumors. The purpose of this study is to verify the feasibility of "Sphere-Mask" Optical Positioning System (S-M_OPS) for fast and accurate setup.

METHODS

From 2016 to 2021, we used S-M_OPS to supervise 15441 fractions in 1981patients (with the cancer in intracalvarium, nasopharynx, esophagus, lung, liver, abdomen or cervix) undergoing intensity-modulated radiation therapy (IMRT), and recorded the data such as registration time and mask deformation. Then, we used S-M_OPS, laser line and cone beam computed tomography (CBCT) for co-setup in 277 fractions, and recorded laser line-guided setup errors and S-M_OPS-guided setup errors with CBCT-guided setup result as the standard.

RESULTS

S-M_OPS supervision results: The average time for laser line-guided setup was 31.75s. 12.8% of the reference points had an average deviation of more than 2 mm and 5.2% of the reference points had an average deviation of more than 3 mm. Co-setup results: The average time for S-M_OPS-guided setup was 7.47s, and average time for CBCT-guided setup was 228.84s (including time for CBCT scan and manual verification). In the LAT (left/right), VRT (superior/inferior) and LNG (anterior/posterior) directions, laser line-guided setup errors (mean±SD) were -0.21±3.13mm, 1.02±2.76mm and 2.22±4.26mm respectively; the 95% confidence intervals (95% CIs) of laser line-guided setup errors were -6.35 to 5.93mm, -4.39 to 6.43mm and -6.14 to 10.58mm respectively; S-M_OPS-guided setup errors were 0.12±1.91mm, 1.02±1.81mm and -0.10±2.25mm respectively; the 95% CIs of S-M_OPS-guided setup errors were -3.86 to 3.62mm, -2.53 to 4.57mm and -4.51 to 4.31mm respectively.

CONCLUSION

S-M_OPS can greatly improve setup accuracy and stability compared with laser line-guided setup. Furthermore, S-M_OPS can provide comparable setup accuracy to CBCT in less setup time.

摘要

背景

摆位精度在肿瘤的局部控制中起着极其重要的作用。本研究的目的是验证“球形面罩”光学定位系统（S-M_OPS）用于快速、准确摆位的可行性。

方法

2016年至2021年，我们使用S-M_OPS对1981例（颅内、鼻咽、食管、肺、肝、腹部或宫颈癌症患者）接受调强放射治疗（IMRT）的患者的15441个分次进行监测，并记录配准时间和面罩变形等数据。然后，我们在277个分次中使用S-M_OPS、激光线和锥形束计算机断层扫描（CBCT）进行联合摆位，并以CBCT引导的摆位结果为标准记录激光线引导的摆位误差和S-M_OPS引导的摆位误差。

结果

S-M_OPS监测结果：激光线引导摆位的平均时间为31.75秒。12.8%的参考点平均偏差超过2毫米，5.2%的参考点平均偏差超过3毫米。联合摆位结果：S-M_OPS引导摆位的平均时间为7.47秒，CBCT引导摆位的平均时间为228.84秒（包括CBCT扫描和人工验证时间）。在LAT（左/右）、VRT（上/下）和LNG（前/后）方向上，激光线引导的摆位误差（均值±标准差）分别为-0.21±3.13毫米、1.02±2.76毫米和2.22±4.26毫米；激光线引导摆位误差的95%置信区间（95%CI）分别为-6.35至5.93毫米、-4.39至6.43毫米和-6.14至10.58毫米；S-M_OPS引导的摆位误差分别为0.12±1.91毫米、1.02±1.81毫米和-0.10±2.25毫米；S-M_OPS引导摆位误差的95%CI分别为-3.86至3.62毫米、-2.53至4.57毫米和-4.51至4.31毫米。

结论

与激光线引导摆位相比，S-M_OPS可大大提高摆位精度和稳定性。此外，S-M_OPS能在更短的摆位时间内提供与CBCT相当的摆位精度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bc61/9577199/e1233812c863/fonc-12-918296-g001.jpg

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基于“球体-面罩”光学定位系统的安装误差评估：一项多中心研究的结果

Setup error assessment based on "Sphere-Mask" Optical Positioning System: Results from a multicenter study.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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