SRT中基于不同时相合成ITV几何差异研究

doi:10.3760/cma.j.issn.1004-4221.2015.06.020

摘要
图/表
参考文献()
相关文章 (15)
点击分布统计
下载分布统计

全文: PDF (0 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS) 背景资料

摘要目的研究NSCLC的SRT中基于四维CT不同ITV合成策略的几何差异性。方法对我院2013—2014年间收治的16例具有胸部SRT指征的NSCLC患者行4DCT扫描, 比较目前基于全时相勾画合成(金标准)得到的IGTV₁₀、EE或EI时相合成得到的IGTV_EI+EE、MIP重建序列MIP勾画合成得到的IGTV_MIP、AVG重建时相勾画方法得到的IGTV_AVG, 韩国顺天乡大学4个时相确定IGTV_yeo, 以及我们提出的基于奇数或偶数时相勾画合成的IGTV_ODD、IGTV_EVEN方法同IGTV₁₀的MI、DI和体积差异, 分析筛选出对肿瘤运动相关特性相对不敏感的ITV合成方法。组内、组间数据行Student-Newman-Keuls^a检验, 同时用多参数回归分析肿瘤三维运动量、肿瘤体积和MI和DI相关性。结果患者肿瘤中心平均三维运动幅度1.23 cm (0.25~5.53 cm), 三维运动矢量分别为左右3.5 mm (1.4~8.4 mm), 前后4.5 mm (1.1~8.6 mm), 上下9.5 mm (0~10 mm)。IGTV_MIP、IGTV_AVG、IGTV_EI+EE、IGTV_yeo 、IGTV_ODD、IGTV_EVEN、IGTV₁₀之间平均MI分别为0.69、0.62、0.80、0.86、0.93、0.91(P=0.006);平均DI分别为0.98、0.98、0.97、0.97、0.99、0.98(P=0.130), IGTV_x体积相比IGTV₁₀分别偏小25.7%、35.6%、17.9%、12.8%、3.6%、4.8%(P=0.000)。通过回归分析得到肿瘤大小、肿瘤运动幅度不是基于奇数或偶数时相形成ITV的影响因素。结论基于奇数或偶数时相确定ITV方法对肿瘤所在位置及肿瘤运动幅度等因素不敏感, 具有较好临床可靠性和较高勾画效率, 在无弹性形变配准的放疗单位可作为胸部SRT靶区勾画推荐方法。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	李夏东
	邓清华
	张丽丹
	任垚
	顾佳乐
	马胜林
	吴稚冰
	王佳浩
	李刚

关键词 ：癌, 非小细胞肺/立体定向放射疗法, 内靶体积, 几何差异

Abstract：Objective To study the geometric difference between six different ITV generation Methods from 4DCT for patients with non-small cell lung cancer (NSCLC) treated with stereotactic ablative radiotherapy technique (SABR). Methods Between Dec. 2013 and Mar. 2014, 16 patients were enrolled in this retrospective study. All patients underwent imaging with 4DCT scans. The MI and DI index were evaluated between six ITV generation methods:combining GTV from all 10 respiratory phases (ITV₁₀);combining GTV from four respiratory phases, including two extreme phases (0% and 50%) plus two intermediate phases (20% and 70%)(ITV_Yeo) which was proposed by Seung-Gu Yeo of Soonchunhyang University;combining GTV from two extreme phases (ITV_EI+EE).And combining GTV from five odd phases (10%, 30%, 50%, 70%, 90%)(ITV_odd).Accordingly the ITV_EVEN which was combined from the remaining five even phases (20%, 40%, 60%, 80%, 0%), and ITV_AVG, ITV_MIP were contoured from two reconstructed 4DCT sequences, finally, a method which was not sensitive to the tumor volume and motion characteristic was selected for clinical use. Data were compared using a variance analysis followed by Student-Newman-Keuls^a test both in same group or between groups. At the same time, the volume and the three dimensional movements of the tumor, the relativity of MI and DI were analyzed by Multi-parameter regression analysis. Results The mean (range) tumor motion (R_LR, R_AP, R_CC, and R_3D) are 3.5 mm (1.4-8.4 mm), 4.5 mm (1.1-8.6 mm), 9.5 mm (0-10 mm), 12.3 mm (2.5-55.3 mm) respectively. The IGTV_x volume are Underestimated by 25.7%, 35.6%, 17.9%, 12.8%, 3.6%, 4.8%(P=0.000) respectively. The MI index comparisons between six ITV generation Methods and ITV₁₀ showed statistical significance:0.69, 0.62, 0.80, 0.86, 0.93, 0.91(P=0.006).The DI index showed no statistical significance:0.98, 0.98, 0.97, 0.97, 0.99, 0.98(P=0.130).The tumor size and motion amplitude were certified not the independent factors for the MI index of ITV_odd and ITV_EVEN. Conclusions IGTV_ODD/EVEN based on odd or even 4DCT phases is not sensitive to the tumor size or motion characteristic and is proved to have a good marching with ITV₁₀ meanwhile maintaining a reasonable contouring efficiency, it can be recommend to the institutions which was not equipped with the deformable registration systems.

Key words： Carcinoma,non-small cell lung/stereotactic radiotherapy Internal target volume Geometric difference

通讯作者: 吴稚冰,Email:wu_zhibing@163.com

引用本文:

李夏东,邓清华,张丽丹等. SRT中基于不同时相合成ITV几何差异研究[J]. 中华放射肿瘤学杂志, 2015, 24(6): 688-691.

Li Xiadong,Deng Qinghua,Zhang Lidan et al. Research on the geometric difference between different ITV generation methods in non-small cell lung cancer treated with stereotactic radiotherapy[J]. Chinese Journal of Radiation Oncology, 2015, 24(6): 688-691.

链接本文:

http://journal12.magtechjournal.com/Jweb_fszlx/CN/10.3760/cma.j.issn.1004-4221.2015.06.020 或 http://journal12.magtechjournal.com/Jweb_fszlx/CN/Y2015/V24/I6/688

[1] Rosenzweig KE,Fox JL,Yorke E,et al. Results of a phase I dose-escalation study using three-dimensional conformal radiotherapy in the treatment of inoperable nonsmall cell lung carcinoma[J].Cancer,2005,103(12):2118-2127. 103(10):2118-27 DOI:10.1007/L11767-005-0060-7
[2] 0nishi H,Shirato H,Nagata Y,et al. Hypofractionated stereotactic radiotherapy (HypoFXSRT) for stage Ⅰ non-small cell lung cancer:updated results of 257 patients in a Japanese multi-institutional study[J].J Thorac Oncol,2007,2(7 Suppl 3):S94-S100.
[3] Chang JY,Dong L,Liu H,et al. Image-guided radiation therapy for nonsmall cell lung cancer[J].J Thorac Oncol,2008,3(3):177-186. DOI:10.1097/JTO.0b013e3181622bdd.
[4] Ford EC, Mageras GS, Yorke E, Ling CC.Respiration-correlated spiral CT:a method of measuring respiratory-induced anatomic motion for radiation treatment planning[J].Med Phys,2003,30(1):88-97. DOI:10.1007/s11767-005-0060-7
[5] Yeo SG, Kim ES.Efficient approach for determining four-dimensional computed tomography-based internal target volume in stereotactic radiotherapy of lung cancer[J].Radiat Oncol J,2013,31(4):247-251.DOI:10.3857/roj.2013.31.4.247.
[6] Boldea V,Sharp GC,Jiang SB,et al.4DCT lung motion estimation with deformable registration:quantification of motion nonlinearity and hysteresis[J].Med Phys,2008,35(3):1008-1018.DOI:35(3):1008-18
[7] Ehler ED, Tomé WA.Step and shoot IMRT to mobile targets and techniques to mitigate the interplay effect[J].Phys Med Biol,2009,54(13):4311-4324.DOI:10.1088/0031-9155/54/13/023.
[8] Mancosu P,Sghedoni R,Bettinardi V,et al. Semiautomatic technique for defining the internal gross tumor volume of lung tumors close to liver/spleen cupola by 4DCT[J].Med Phys,2010,37(1):4572-4576.
[9] Ezhil M,Vedam S,Balter P,et al. Determination of patient-specific internal gross tumor volumes for lung cancer using four-dimensional computed tomography[J].Radiat Oncol,2009,4(6):4.DOI 10.1186/1748-717X-4-4.
[10] Hong Ge,Jing Cai,Chris R.et al. Quantification and minimization of uncertainties of internal target volume for stereotactic body radiation therapy of lung cancer[J]. Int J Radiat Oncol Biol Phys,2013,85(2):438-443. DOI:10.1016/j.ijrobp.2012.04.032.