基于股骨颈截面形态调整术中C臂机的透视角度

doi:10.16098/j.issn.0529-1356.2023.05.013

摘要/Abstract

摘要：

目的根据股骨颈截面实体解剖特点，探讨完整显影股骨颈解剖结构的术中C形臂X线透视角度。方法观察并测量股骨颈截面解剖参数，将组成股骨颈的3个主要曲面（前曲面、后上曲面及后下曲面）分别用铝箔纸贴附，做成股骨颈的曲面透视模型。以股骨颈中点为投照中心点，设定0°~170°之间每间隔10°旋转C形臂，依次3种铝箔纸模型分别进行X线投照，取铝箔纸显影呈最小时的透视角度为该曲面的适宜投照角度。3枚克氏针分别穿出股骨颈前曲面、后上曲面及后下曲面做成股骨颈内固定穿出模型，用传统正、侧位以及实验所获得的3个适宜投照角度共5个角度透视，观察穿出股骨颈克氏针的显影情况。结果股骨颈3个主要曲面长度占股骨颈周长的8095%，其前曲面冠状角为18°，后上曲面冠状角为65°，后下曲面冠状角为165°，3个曲面的适宜投照角度分别为20°、70°和170°，在这3个投照角度的影像上,可以清晰地分别观察到穿出股骨颈前曲面、后上曲面及后下曲面的克氏针，而在传统的正、侧位影像上不能发现克氏针完全穿出股骨颈的相应曲面。结论术中传统的正、侧位透视不能精确显示股骨颈整体三维结构。增加适宜投照角度20°位、70°位及170°位，分别可以观察股骨颈前曲面、后上曲面及后下曲面的骨折复位质量和内固定对相应骨皮质损伤。

关键词: 股骨颈, 截面, 内固定, C型臂, 透视, 解剖学, 人

Abstract:

Objective To investigate the appropriate X-ray angle which image can represent total proximal of femur according to the anatomic shape of the femoral neck section. Methods The anatomic parameter of the femoral neck section was observed and measured. Found the femoral neck was contained with three main surfaces of anterior surface, posterosuperior surface and posteroinferior surface. A model of surface fluoroscopy has been made by covering aluminum foil papers on the three surfaces of femoral neck. Taking the midpoint of the femoral neck as the fluoroscopy center, the C-arm was rotated at an interval of 10° between 0° and 170°, and the three aluminum foil paper models were taken for X-ray projection respectively. The X-ray angle with the smallest image of aluminum foil paper was taken as the appropriate X-ray angle of the surface. A penetrating model of the femoral neck internal fixation was made of three Kirschner wires penetrating through the anterior, posterosuperior and posteroinferior surfaces of femoral neck. The images of the penetrating Kirschner wires were observed through the traditional anteroposterior, lateral view and the three appropriate X-ray angle views obtained from the above test. Results The length of the three main surfaces accounts for 80.95% of the circumference of the femoral neck. The anterior surface coronal angle was 18°, the posterosuperior surface coronal angle was 65°, and the posteroinferior surface coronal angle was 165°. The Appropriate X-ray angle of the three surfaces were 20°, 70° and 170° respectively. In the images of the three appropriate X-ray angles, the penetrating Kirschner wires of anterior surface, posterosuperior surface and posteroinferior surface of the femoral neck could be clearly observed respectively, while the penetrating Kirschner wire could not be completely found in the traditional anteroposterior and lateral images. Conclusion Traditional anteroposterior and lateral fluoroscopy can not accurately display the three-dimensional structure of femoral neck. By increasing the appropriate X-ray angle of 20°, 70° and 170°, the reduction quality and bony violation from internal fixation implants on the anterior surface, posterosuperior surface and posteroinferior surface of the femoral neck could be observed respectively.

Key words: Femoral neck, Section, Internal fixation, C-ram, Fluoroscopy, Anatomy, Human

中图分类号:

R683.42

朱求亮喻向萍马骏陈匀匀林芳阮文斌. 基于股骨颈截面形态调整术中C臂机的透视角度[J]. 解剖学报, 2023, 54(5): 586-592.

ZHU Qiu-liang YU Xiang-ping MA Jun CHEN Yun-yun LIN Fang RUAN Wen-bin . Adjustment of X-ray angle intraoperation based on the anatomic shape of femoral neck section [J]. Acta Anatomica Sinica, 2023, 54(5): 586-592.

参考文献

［1］Zhang ChQ，Wang Q，Qiu GL, et al. Three-dimensional interactive reduction of femoral neck and shaft for treatment of irreducible femoral neck fracture［J］. Chinese Journal of Trauma, 2014,30(3):217-220.(in Chinese)

张长青, 王清, 邱国良, 等. 股骨头、干三维互动复位技术治疗难复位性股骨颈骨折［J］. 中华创伤杂志, 2014,30(3): 217-220.

［2］Cai LY, Guo XSh, Zheng WH, et al. Re-evaluation of Garden indexes as a criterion for reduction of femoral neck fracture: a cadaveric study［J］. Chinese Journal of Orthopaedic Trauma, 2020,22(3):232-237. (in Chinese)

蔡乐益, 郭晓山, 郑文浩，等. 对Garden指数作为股骨颈骨折复位质量评价标准的再认识［J］.中华创伤骨科杂志，2020，22（3）：232-237.

［3］Liu GH, Mao YJ, Zha Y, et al. Clinical study to the cannulated screws with fluoroscopy in the operation of femoral neck fractures［J］. Chinese Journal of Surgery, 2010,48(14):1101-1105. (in Chinese)

刘国会, 毛玉江, 查晔, 等. 股骨颈骨折术中透视判断空心钉位置的临床研究［J］. 中华外科杂志，2010，48（14）：1101-1105.

［4］Zhu QL, Xu B. Distinguish differentiation between femora neck torsion angle and femora neck anteversion in description and clinic value by eyes［J］. Acta Anatomica Sinica, 2016,47(5):658-662. (in Chinese)

朱求亮，许斌. 肉眼直观区别股骨颈扭转角与前倾角［J］. 解剖学报，2016,47(5):658-662.

［5］Trikha V, Kumar A, Mittal S，et al. Risk of bony violation with standard triple screw configurations for fixation of femoral neck fractures: a preliminary computed tomography based analysis［J］. J Clin Orthop Trauma, 2020,11(4):s546-552.

［6］Hofmann JC, Kellam J, Kumaravel M, et al. Is the cranial and posterior screw of the “inverted triangle” configuration for femoral neck fractures safe［J］? J Orthop Trauma, 2019,33(7):331-334.

［7］Zhang YQ, Chang SM, Huang YG, et al. The femoral neck safe zone: a radiographic simulation study to prevent cortical perforation with multiple screw insertion［J］. J Orthop Trauma, 2015,29(5):e178-182.

［8］Li X, Chen Zh, Yang HCh. Analysis of close reduction under the C-arm X-ray perspective for femoral neck fractures［J］. Chinese Journal of Orthopaedic Trauma, 2011,13(1):25-28. (in Chinese)

李欣, 陈仲, 杨洪昌. 股骨颈骨折闭合复位的实际效果分析［J］. 中华创伤骨科杂志，2011，13（1）：25-28.

［9］Aibinder WR, Yuan BJ, Cross WW 3rd, et al. Sequential fluoroscopic rollover images reliably identify “in-out-in” posterosuperior screws during percutaneous fixation of femoral neck fractures［J］. Eur J Orthop Surg Traumatol, 2020,30(6):1061-1065.

［10］Adams JDJ, Walker JB, Loeffler M. Avoid the In-Out-In posterosuperior femoral neck screw: the use of the piriformis fossa radiographic landmark［J］. J Orthop Trauma, 2022,36(5):224-227.

［11］Shang HX, Liu AQ, Ding Q, et al. Treatment of femoral neck fracture with hollow screws internal fixation under the monitoring of G-arm X-ray［J］. Chinese Journal of Orthopaedic Trauma, 2013,15(2):180-182. (in Chinese)

尚宏喜,刘安庆,丁强,等. G型臂X线机监视下微创空心螺纹钉内固定治疗股骨颈骨折［J］.中华创伤骨科杂志, 2013, 15(2): 180-182.

［12］ Duan MM, Cao Q, Liu J, et al. Application value of G-arm X-ray machine in placement of cannulated screws for femoral neck fracture［J］. Chinese Journal of Surgery of Integrated Traditional and Western Medicine, 2019, 25(4):523-526. (in Chinese)

段明明,曹强,刘军,等. Ｇ型臂Ｘ线机在股骨颈骨折空心钉置入中的应用价值［J］.中国中西医结合外科杂志, 2019, 25(4): 523-526.

［13］Wei Zh, Xiong WF, Zhang ShM. The remnant circumferential cortex in pertrochanteric femoral fractures: CT image study and clinical implications［J］. Chinese Journal of Clinical Anatomy, 2020,38(6):639-645. (in Chinese)

卫禛,熊文峰,张世民.转子间骨折中股骨干近侧断面环周皮质的CT影像学测量及其临床意义［J］.中国临床解剖学杂志，2020，38(6）：639-645.

［14］Huang B, Rong ShY, Li JH, et al. Biplanar robot navigation for cannulated screw fixation in the treatment of femoral neck fractures［J］. Chinese Journal of Orthopaedics, 2017,37(9):528-534. (in Chinese)

黄波,荣绍远,李建华,等. 双平面机器人导航辅助下空心钉内固定治疗股骨颈骨折［J］. 中华骨科杂志, 2017,37(9):528-534.

［15］He M, Han W, Zhao CP, et al. Evaluation of a Bi-planar robot navigation system for insertion of cannulated screws in femoral neck fractures［J］. Orthop Surg, 2019, 11(3):373-379.

［16］Moulin B, Tselikas L, De Baere T, et al. CT guidance assisted by electromagnetic navigation system for percutaneous fixation by internal cemented screws (FICS)［J］. Eur Radiol,2020,30(2):943-949.

［17］Chen M, Fan XH, Zheng J, et al. C-arm hip fluoroscopy at primary position in the internal fixation of femoral neck fracture［J］. Chinese Journal of Orthopaedic Trauma, 2020,22(5): 445-449. (in Chinese)

陈敏,樊晓海,郑杰,等. 原位髋部透视法在股骨颈内固定术中的临床应用［J］. 中华创伤骨科杂志, 2020,22(5): 445-449.

［18］Zhang Q, Chen W, Zhang ZK, et al. Experimental study on the optimal projection angle of femoral neck fracture line［J］. Journal of Hebei Medical University, 2010,31(39):1115-1117. (in Chinese)

张奇, 陈伟, 张泽坤, 等. 股骨颈骨折线最佳投照角度的实验研究［J］. 河北医科大学学报，2010，31（9）：1115-1117.

［19］Li F, Ma JX, Wang XB, et al. The experimental of the optimal angle position of X-ray in the close reduction of femoral neck fracture using internal fixation［J］. Chinese Journal of Orthopaedics,2017,37(11):735-745.(in Chinese)

李飞,马剑雄,王兴博，等. 股骨颈骨折闭合复位最佳X线投照方式的实验研究［J］. 中华骨科杂志, 2017,37(11):735-745.

［20］Zhang L, Lin GM, Yang GJ, et al. Multiple radiographic projections in detecting intraarticular screw penetration during fixation of femoral neck fractures［J］. Orthopedics, 2014,37(10):e885-891.

［21］Kumar A, Jameel J, Qureshi OA, et al. Modified radiographic views to prevent the anterosuperior and posterosuperior bony violation during screw fixation of femoral neck fractures［J］. Eur J Orthopaedic Surg Traumatol, 2021,31(3):459-464.

［22］Kumar A, Kumar M, Arora R, et al. Radiographic quantification of safe zones for screw placement in the femoral neck: a computed tomography-based analysis［J］. J Orthop Trauma, 2021,35(3):136-142.

[1]	尹诗琴杨思艺王锐涵游贵宣杨迎秋张磊. 基于CT平扫下胫腓联合腓骨切迹分型及其临床意义[J]. 解剖学报, 2024, 55(1): 82-87.
[2]	杨洋史君李琨马渊张少杰侯二飞王超群陈杰王星李志军 . 切除不同范围钩突后颈椎椎间盘的有限元分析[J]. 解剖学报, 2024, 55(1): 88-97.
[3]	杜大鹏孙玉张敏王汉琴 . 切应力通过Pim1/Akt调节人脐静脉内皮细胞内皮型一氧化氮合酶Ser633和Ser1177位点磷酸化[J]. 解剖学报, 2023, 54(5): 546-552.
[4]	周春辉谢胜强王姜婷兰晓娟张剑宁赵虎林. 多模态电磁导航辅助新鲜尸头经鼻内镜的颅底解剖测量[J]. 解剖学报, 2023, 54(5): 560-566.
[5]	刘颜静史勇红. 基于FPFH-PointNet的术中膝关节软骨表面点云自动提取[J]. 解剖学报, 2023, 54(5): 553-559.
[6]	米思荣刘广星张镇武于鹏辉鞠晓军饶利兵李莉 . 不同CT层厚下3D打印颅骨的精准度[J]. 解剖学报, 2023, 54(5): 575-581.
[7]	刘建朱光琼刘坤祥 . 成人肘肌肌构筑学及肌内神经分布模式[J]. 解剖学报, 2023, 54(5): 582-585.
[8]	刘海蓝梅艺璇张翼柳澄刘树伟 . 基于活体CT数据的成人右肺动脉分支形式及其临床意义[J]. 解剖学报, 2023, 54(4): 453-459.
[9]	姚笑笑刘晓丽李如画李昌盛任传根陈成春 . 小脑浅静脉磁敏感加权成像[J]. 解剖学报, 2023, 54(4): 465-472.
[10]	成芷菡冉智宇凌亮优何嘉宁. 华北地区明清古代人群肱骨远端形态的性别差异[J]. 解剖学报, 2023, 54(3): 328-334.
[11]	李云庆. 神经解剖学研究的发展趋势[J]. 解剖学报, 2023, 54(3): 368-373.
[12]	李甲一席焕久温有锋桂超张晓明张海龙 . 辽宁省汉族成人少肌症、少肌性肥胖与骨质疏松症的相关性[J]. 解剖学报, 2023, 54(2): 238-243.
[13]	李帆马占兵张静杨梦怡王媛马茜陆宏霍正浩党洁 . 羟基类固醇脱氢酶基因家族单核苷酸多态性与指长比的关联性[J]. 解剖学报, 2023, 54(2): 208-215.
[14]	薛林涛王世凯毛献宝李政达张小慧韦娉嫔. 延时成像监测第二极体释放预测卵胞质内单精子注射卵子受精及胚胎发育效率[J]. 解剖学报, 2023, 54(2): 226-230.
[15]	徐高磊刘锦易诗琦张译铮张振华 . 肱二头肌短头近端起源部位的解剖学特征[J]. 解剖学报, 2023, 54(2): 216-219.