离线CBCT引导下头颈癌患者解剖亚区域的摆位不确定性

Setup uncertainties of anatomical sub-regions in head-and-neck cancer patients after offline CBCT guidance.

作者信息

van Kranen Simon, van Beek Suzanne, Rasch Coen, van Herk Marcel, Sonke Jan-Jakob

机构信息

Department of Radiation Oncology, The Netherlands Cancer Institute-Antoni van Leeuwenhoek Hospital, Amsterdam, The Netherlands.

出版信息

Int J Radiat Oncol Biol Phys. 2009 Apr 1;73(5):1566-73. doi: 10.1016/j.ijrobp.2008.11.035.

DOI:10.1016/j.ijrobp.2008.11.035

PMID:19306753

Abstract

PURPOSE

To quantify local geometrical uncertainties in anatomical sub-regions during radiotherapy for head-and-neck cancer patients.

METHODS AND MATERIALS

Local setup accuracy was analyzed for 38 patients, who had received intensity-modulated radiotherapy and were regularly scanned during treatment with cone beam computed tomography (CBCT) for offline patient setup correction. In addition to the clinically used large region of interest (ROI), we defined eight ROIs in the planning CT that contained rigid bony structures: the mandible, larynx, jugular notch, occiput bone, vertebrae C1-C3, C3-C5, and C5-C7, and the vertebrae caudal of C7. By local rigid registration to successive CBCT scans, the local setup accuracy of each ROI was determined and compared with the overall setup error assessed with the large ROI. Deformations were distinguished from rigid body movements by expressing movement relative to a reference ROI (vertebrae C1-C3).

RESULTS

The offline patient setup correction protocol using the large ROI resulted in residual systematic errors (1 SD) within 1.2 mm and random errors within 1.5 mm for each direction. Local setup errors were larger, ranging from 1.1 to 3.4 mm (systematic) and 1.3 to 2.5 mm (random). Systematic deformations ranged from 0.4 mm near the reference C1-C3 to 3.8 mm for the larynx. Random deformations ranged from 0.5 to 3.6 mm.

CONCLUSION

Head-and-neck cancer patients show considerable local setup variations, exceeding residual global patient setup uncertainty in an offline correction protocol. Current planning target volume margins may be inadequate to account for these uncertainties. We propose registration of multiple ROIs to drive correction protocols and adaptive radiotherapy to reduce the impact of local setup variations.

摘要

目的

量化头颈癌患者放疗期间解剖亚区域的局部几何不确定性。

方法和材料

分析了38例接受调强放疗的患者的局部摆位精度，这些患者在治疗期间定期进行锥束计算机断层扫描（CBCT）以进行离线患者摆位校正。除了临床上使用的大感兴趣区域（ROI）外，我们在计划CT中定义了八个包含刚性骨结构的ROI：下颌骨、喉、颈静脉切迹、枕骨、C1 - C3、C3 - C5和C5 - C7椎体以及C7尾侧的椎体。通过与连续的CBCT扫描进行局部刚性配准，确定每个ROI的局部摆位精度，并与用大ROI评估的总体摆位误差进行比较。通过相对于参考ROI（C1 - C3椎体）表达运动，将变形与刚体运动区分开来。

结果

使用大ROI的离线患者摆位校正方案在每个方向上产生的残余系统误差（1标准差）在1.2毫米以内，随机误差在1.5毫米以内。局部摆位误差更大，系统误差范围为1.1至3.4毫米，随机误差范围为1.3至2.5毫米。系统变形范围从参考C1 - C3附近的0.4毫米到喉部的3.8毫米。随机变形范围为0.5至3.6毫米。

结论

头颈癌患者表现出相当大的局部摆位变化，超过了离线校正方案中残余的整体患者摆位不确定性。当前的计划靶区边缘可能不足以考虑这些不确定性。我们建议配准多个ROI以驱动校正方案和自适应放疗，以减少局部摆位变化的影响。

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离线CBCT引导下头颈癌患者解剖亚区域的摆位不确定性

Setup uncertainties of anatomical sub-regions in head-and-neck cancer patients after offline CBCT guidance.

作者信息

机构信息

出版信息

PURPOSE

METHODS AND MATERIALS

RESULTS

CONCLUSION

目的

方法和材料

结果

结论

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