Application of computer navigation system in orbit-zygomatic fibrous dysplasia
10.3760/cma.j.cn114453-20201118-00582
- VernacularTitle:计算机导航技术在眶颧部骨纤维异常增生症治疗中的应用
- Author:
Yehong ZHONG
1
;
Liang XU
;
Xifeng LIN
;
Zheyuan YU
;
Jie YUAN
;
Huichuan DUAN
;
Min WEI
Author Information
1. 上海交通大学医学院附属第九人民医院整复外科 200023
- Keywords:
Surgery, computer-assisted;
Orbit;
Zygoma;
Fibrous dysplasia
- From:
Chinese Journal of Plastic Surgery
2021;37(1):22-28
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To evaluate the clinical value and effect of the application of computer navigation system in orbital-zygomatic fibrous dysplasia.Methods:From March 2016 to December 2018, 16 patients with orbital-zygomatic fibrous dysplasia admitted to Shanghai 9th People’s Hospital, Shanghai Jiao Tong University School of Medicine were included in this study. CT scans and computer aided designs were finished preoperatively. By mirrored and compared with the healthy side, preoperative-designed lesion removal area was determined and surgical regions were highlighted. Digital reference frame was fixed rigidly to patient’s forehead. After accurate registration, lesion area was removed with the aid of surgical navigation system according to preoperative-designed plan restrictively through lower eyelid-intraoral approach. The symmetric morphology of orbital-zygomatic region was analyzed postoperatively. Zygomaxillare, oribitale, zygomaticand lower orbital point of zygomatic maxillary were marked both in preoperative and postoperative three-dimensional reconstructions, and the distance between them and mid-sagittal plane was measured. Paired- t tests were applied in this study for symmetric analysis. Results:In this study, 16 patients with orbital zygomatic bone fiber dysplasia assisted by computer navigation were included, consisted of 12 males and 4 females, ranging from 18 years old to 35 years old. The differences of preoperative symmetric analysis in zygomaxillare, oribitale, zygomatic had statistical significance( P<0.01). The difference of preoperative symmetric analysis in lower orbital point of zygomatic maxillary had no statistical significance( P>0.05). The differences of postoperative symmetric analysis in zygomaxillare, oribitale, zygomatic and lower orbital point of zygomatic maxillary had no statistical significance( P>0.05). The difference in zygomaxillare decreased from(10.1±6.2) mm to(2.7±6.4) mm. The difference in oribitale(ORI)decreased from(7.7±4.6) mm to(1.9±3.9) mm. The difference in zygomatic decreased from(8.5±7.5) mm to(0.7±1.5)mm. The difference in lower orbital point of zygomatic maxillary decreased from(1.9±3.5) mm to(0.6±2.1) mm. The morphology of the affected side and the healthy side was symmetrical. The contour was natural and no postoperative complications occurred. The postoperative satisfaction rate was high. Conclusions:Computer navigation system can solve the problem of limited exposure of lower eyelid-intraoral approach in orbital-zygomatic fibrous dysplasia and significantly improve the accuracy, effectiveness and safety during surgery.
