[接受二维-二维和三维图像引导调强放射治疗的头颈癌患者的摆位边界]

[Setup margin for head-and-neck cancer patients receiving 2D-2D and 3D image-guided intensity-modulated radiation therapy].

作者信息

Kovács Péter, Szita Evelin, Schvarcz Kitti, Kamu Szabolcs, Kalincsák Judit, Kovács Árpád, Repa Imre, Hadjiev Janaki

机构信息

Képalkotó Diagnosztikai Tanszék, Pécsi Tudományegyetem, Egészségtudományi Kar Kaposvár.

Dr. Baka József Diagnosztikai, Onkoradiológiai, Kutatási és Oktatási Központ, Somogy Megyei Kaposi Mór Oktató Kórház Kaposvár.

出版信息

Orv Hetil. 2018 Jul;159(29):1193-1200. doi: 10.1556/650.2018.31093.

DOI:10.1556/650.2018.31093

PMID:30008233

Abstract

INTRODUCTION

Image-guided intensity-modulated radiation therapy is essential for oncology treatment of head-and-neck cancer patients.

AIM

MV-kV and CBCT modalities were compared in case of IGRT treatment for head-and-neck cancer patients. Setup error, setup margin (SM), imaging and evaluation times and imaging doses were analyzed.

METHOD

Eight patients' elective treatment was evaluated, 66 orthogonal MV-kV images and 66 CBCT series were acquired. Setup error measurement was based on bony manual image registration in three translational directions. Normality test and F-test were performed followed by the comparison with independent-samples T-test (p<0,05). The necessary target volume setup margin was calculated based on Van Herk's equation. Imaging time and setup error determination time were measured. Imaging doses were estimated based on the literature.

RESULTS

No statistically significant difference was found between setup errors determined by MV-kV and CBCT (VRT: 0.5 mm, SD = 1.9 vs. 0.4 mm, SD = 2.1, p = 0.371; LNG: 0.2 mm, SD = 2.2 vs. -0.1 mm, SD = 2.2, p = 0.188; LAT: 0.2 mm, SD = 2.2 vs. 0.3 mm, SD = 2.1, p = 0.41). SM values were: VRT: 2.7 mm vs. 2.5 mm; LNG: 2.1 mm vs. 1.3 mm; LAT: 2.2 mm vs. 2.3 mm. Mean imaging time was 0.65 min (MV-kV) vs. 2.29 min (CBCT). Mean setup error determination time was 2.41 min for both modalities. Estimated imaging doses were 6.88 mGy (MV-kV) vs. 17.2 mGy (CBCT) per fraction.

CONCLUSION

The bony anatomy derived image registration based translational setup error determination results in similar values either by MV-kV or by CBCT. Using 3 mm setup margin in all the directions might be adequate. Imaging time is less by MV-kV, significant difference in imaging doses did not appear. Using CBCT is generally suggested. MV-kV might be an alternative in case of need for shortened imaging time. Orv Hetil. 2018; 159(29): 1193-1200.

摘要

引言

图像引导调强放射治疗对头颈部癌患者的肿瘤治疗至关重要。

目的

比较MV-kV和CBCT模式在头颈部癌患者IGRT治疗中的应用。分析摆位误差、摆位边界（SM）、成像和评估时间以及成像剂量。

方法

评估8例患者的择期治疗，采集66幅正交MV-kV图像和66组CBCT图像。摆位误差测量基于在三个平移方向上的手动骨图像配准。进行正态性检验和F检验，随后用独立样本T检验进行比较（p<0.05）。根据范·赫克方程计算必要的靶区摆位边界。测量成像时间和摆位误差确定时间。根据文献估算成像剂量。

结果

MV-kV和CBCT确定的摆位误差之间未发现统计学显著差异（VRT：0.5 mm，标准差 = 1.9 vs. 0.4 mm，标准差 = 2.1，p = 0.371；LNG：0.2 mm，标准差 = 2.2 vs. -0.1 mm，标准差 = 2.2，p = 0.188；LAT：0.2 mm，标准差 = 2.2 vs. 0.3 mm，标准差 = 2.1，p = 0.41）。SM值为：VRT：2.7 mm vs. 2.5 mm；LNG：2.1 mm vs. 1.3 mm；LAT：2.2 mm vs. 2.3 mm。平均成像时间为0.65分钟（MV-kV）对2.29分钟（CBCT）。两种模式的平均摆位误差确定时间均为2.41分钟。每次分割的估算成像剂量为6.88 mGy（MV-kV）对17.2 mGy（CBCT）。

结论

基于骨解剖图像配准的平移摆位误差确定，MV-kV和CBCT得出的值相似。在所有方向使用3 mm的摆位边界可能足够。MV-kV的成像时间更短，成像剂量未出现显著差异。一般建议使用CBCT。在需要缩短成像时间的情况下，MV-kV可能是一种替代方法。《匈牙利医学周报》。2018年；159(29): 1193 - 1200。