A preliminary study of a 3D-printed breast bracket to reduce radiation brachial plexus injury
10.12354/j.issn.1000-8179.2024.20240583
- VernacularTitle:3D打印乳腺托架减少放射性臂丛神经损伤初步探究
- Author:
Xu BO
1
;
Tang XIAOYAN
;
Huang FASHENG
;
Ye RONG
;
Tan LIN
Author Information
1. 四川省医学科学院,四川省人民医院肿瘤中心(成都市 610000)
- Keywords:
3D-printed breast bracket;
positioning error;
brachial plexus;
radiation damage
- From:
Chinese Journal of Clinical Oncology
2024;51(11):557-560
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To compare the positioning errors of the clavicular,cervical,and humeral regions during radiotherapy between a 3D-printed breast bracket and common head-occipital pillow in patients with breast cancer and to assess patients with brachial plexus damage to determine whether 3D-printed breast brackets can reduce radiation-induced brachial plexopathy(RIBP).Methods:A total of 58 patients admitted to Sichuan Provincial People's Hospital from January 2022 to October 2022 were randomly assigned into four groups:breast-con-serving patients with 3D-printed breast bracket,breast-conserving patients with common head pillow,postoperative patients with 3D-prin-ted breast bracket,and postoperative patients with common head pillow.The positioning error data were obtained for the clavicular,cer-vical,and humeral regions,and the errors in the elevating direction(vrt),head and foot direction(lng),and left and right direction(lat)were analyzed.At the same time,100 patients treated at Sichuan Provincial People's Hospital from January 2022 to November 2022 were ran-domly assigned into the above four groups,and their brachial plexus damage was assessed and classified.Results:In postoperative patients with 3D-printed breast bracket,the vrt,lng,and lat positioning errors in the clavicle,cervical,and humeral regions were(0.95±0.70)mm,(0.90±0.61)mm,(1.50±0.077)mm,(1.50±1.16)mm,(1.16±0.87)mm,(1.45±1.21)mm,(1.31±0.82)mm,(1.10±0.87)mm,and(1.64±1.04)mm,respectively.In breast-conserving patients,the positioning errors were(1.68±0.67)mm,(2.92±1.20)mm,(2.37±1.07)mm,(2.60±1.22)mm,(2.81±1.19)mm,(2.34±1.09)mm,(2.66±1.17)mm,(3.11±1.20)mm,and(2.52±1.21)mm,respectively.There was significant difference in the positioning error between the two groups(P<0.05).The return visit for brachial plexus damage showed that grade 0 was 24%higher in the 3D-printed breast bracket groups than in the ordinary headrest groups,grade 1 was 22%lower,and there were no significant differences in the other grades.Conclusions:The positioning error of the 3D-printed breast bracket in the three areas was smaller than that of the ordin-ary headrest.Brachial plexus damage in the 3D-printed breast bracket group was also better than that in the ordinary head pillow group.
