Application of delayed-enhancement MRI in lumpectomy cavity delineation for patients after breast-conserving surgery in prone radiotherapy using deformable image registration
10.3760/cma.j.cn113030-20200407-00164
- VernacularTitle:MR增强延迟扫描成像在保乳术后俯卧位照射患者瘤床靶区勾画中的应用
- Author:
Changhui ZHAO
1
;
Jianbin LI
;
Wei WANG
;
Guanzhong GONG
;
Liang XU
;
Yingjie ZHANG
;
Fengxiang LI
;
Qian SHAO
;
Jinzhi WANG
;
Xijun LIU
;
Min XU
Author Information
1. 山东大学齐鲁医学院临床医学院,济南 250012
- From:
Chinese Journal of Radiation Oncology
2020;29(12):1054-1058
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To assess the feasibility of delayed-enhancement MRI in contouring the lumpectomy cavity (LC) for patients with invisible seroma or a low cavity visualization score (CVS≤2) in the excision cavity after breast-conserving surgery (BCS).Methods:Twenty-six patients with stage T 1-2N 0M 0 who underwent prone radiotherapy after BCS were recruited. The LC delineated on CT simulation images was denoted as LC CT. The LCs delineated on T 2WI, as well as on different delayed phases (2-, 5-and 10-minute) of delayed-enhancement T 1WI were defined as LC T2, LC 2T1, LC 5T1 and LC 10T1, respectively. Subsequently, the volumes and locations of the LCs were compared between CT simulation images and different sequences of MR simulation images using deformable image registration. Results:The volumes of LC T2, LC 2T1, LC 5T1 and LC 10T1 were all larger than that of LC CT. A statistical significance was found between the volume of LC CT and those of LC 2T1 or LC 5T1, respectively (both P<0.05). The conformal index (CI), degree of inclusion (DI), dice similarity coefficient (DSC) and the distance between the center of mass of the targets (COM) of LC CT-LC 10T1 were better than those of LC CT-LC T2, LC CT-LC 2T1 and LC CT-LC 5T1, however, there was no statistical difference among them (all P>0.05). Conclusions:It is feasible to delineate the LC based on prone delayed-enhancement MR simulation images in patients with low CVS after BCS. Meanwhile, the LCs derived from prone delayed-enhancement T 1WI of 10-minute are the most similar with those derived from prone CT simulation scans using titanium clips, regardless of the volumes and locations of LCs.
