Medical image software in anatomical measurements and precision craniotomy via suboccipital retrosigmoid sinus approach
10.3760/cma.j.cn115354-20210625-00403
- VernacularTitle:一款医学影像软件在枕下乙状窦后入路相关解剖学测量及精准开颅中的应用
- Author:
Jin GONG
1
;
Zhuang KANG
;
Lanfang ZHONG
;
Manting LI
;
Baoyu ZHANG
;
Chaofeng LIANG
;
Ying GUO
Author Information
1. 中山大学附属第三医院神经外科,广州 510000
- Keywords:
Suboccipital retrosigmoid sinus approach;
3D reconstruction;
Transverse sinus;
Sinus sigmoideus;
Asterion
- From:
Chinese Journal of Neuromedicine
2021;20(9):921-926
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To evaluate the application of a medical image software (RadiAnt) in anatomical measurements and precision craniotomy via suboccipital retrosigmoid sinus approach.Methods:A total of 43 inpatients who underwent craniocerebral CT venography (CTV) in our hospital from June 2020 to June 2021 were selected for the study; the CTV data of 35 patients was used to measure the spatial relations between transverse sigmoid sinus junction (TSSJ) and asterion; the preoperative planning in suboccipital retrosigmoid sinus craniotomy with the software was performed in the left 8 patients. Craniotomy time (subjected to exposure of venous sinus margin), venous sinus injury and incidence of complications within 2 weeks of craniotomy in these 8 patients were recorded.Results:(1) Anatomic measurement: for the left side, TSSJ was located at (0.89±0.33) cm lateral and (0.63±0.46) cm inferior to the asterion, and their direct distance was (1.15±0.42) cm; TSSJ was located at (0.76±0.49) cm interior and (1.97±0.52) cm superior to the starting point of the mastoid notch, and their direct distance was (2.18±0.49) cm; about 29% asterion were located superior to the transverse sinus, 37% were located on the surface of the transverse sinus, and 34% were located inferior to the transverse sinus. For the right side, TSSJ was located at (0.88±0.39) cm lateral and (0.64±0.43) cm inferior to the asterion, and their direct distance was (1.12±0.54) cm; TSSJ was located at (0.74±0.40) cm interior and (1.93±0.45) cm superior to the starting point of the mastoid notch, and their direct distance was (2.16±0.43) cm; about 26% asterion were located superior to the transverse sinus, 40% were located on the surface of the transverse sinus, and 34% were located inferior to the transverse sinus. (2) Preoperative planning and surgeries: in these 8 patients, the key-hole was located at (0.96±0.49) cm lateral and (0.53±0.18) cm inferior to the asterion, and (0.46±0.35) cm interior and (1.76±0.47) superior to the starting point of mastoid notch. The interior of sigmoid sinus was located (0.13±0.51) cm interior and (0.21±0.46) cm superior to the starting point of mastoid notch. The inferior of the transverse sinus was located (2.17±0.45) cm interior and (0.53±0.35) cm inferior to the asterion. An accurate localization of the real position of TSSJ, inferior of transverse sinus and interior of sigmoid sinus was performed in all 8 surgical patients. The distance between the margin of the bone window and the interior of sigmoid sinus was (3.5±1.0) mm, and the craniotomy time was (25.7±4.1) min; no sinus injury was noted. Post-operative CT showed good reposition of the bone flaps and less bone defect. There was no cerebrospinal fluid leakage or subcutaneous effusion during the 2 weeks of follow-up.Conclusion:Anatomical measurements and preoperative planning can be quickly finished with low cost with Radiant ?, which provides an efficient and safe method for accurate craniotomy via suboccipital retrosigmoid approach.