逆行经皮髋臼后柱螺钉的影像解剖学

doi:10.16098/j.issn.0529-1356.2020.01.014

摘要/Abstract

摘要：

目的探讨逆行髋臼后柱螺钉的进钉位置、方向及固定范围。方法收集100例正常成人骨盆CT数据（男、女各50例），利用交互式医学图像控制系统（Mimics）17.0软件三维重建骨盆并导入Geomagic Studio 2015软件。从坐骨结节至髂窝方向进行透视，垂直后柱“三棱柱”通道横断面放置虚拟螺钉，测量螺钉的最大直径、进钉点、方向、出钉点及螺钉安全倾角。确定螺钉固定的范围，螺钉在后柱通道易穿出部位及术中判断螺钉是否穿出的透视体位。结果髋臼后柱安全通道近似“三棱柱”形，进钉点位于坐骨结节内外侧缘中线上，距离坐骨结节最远端男性为(12.99±1.99) mm，女性为 (13.26±2.58) mm，男女差异无显著性 (P＞0.05)；髂窝出钉点距离同侧前方骶髂关节线男性为(23.65±2.42)mm，女性为(24.94±2.39) mm；距离真骨盆缘男性为(19.33±2.60)mm，女性为(17.63±2.00) mm；最大螺钉直径男性为(17.21±1.41) mm，女性为(15.54±1.51) mm；髋臼后柱逆行置钉方向与矢状面夹角男性为(10.52±3.04)°，女性为(7.72±2.99)°；与冠状面夹角男性为(15.00±4.92) °，女性为 (12.94±4.72)°，以上数据男女间差异均有显著性（P＜0.05）。逆行经坐骨结节置钉可固定股骨头中心所在水平面近端 4 cm 以下所有的髋臼后柱骨折，易穿出部位分别为髋臼后壁与坐骨支移行处、髋臼中部、坐骨大切迹水平下1 cm。“三棱柱”的3个侧面的切线位分别是髂骨斜位10°，闭孔斜位60°，髂骨斜位60°。结论逆行髋臼后柱螺钉进钉点位于坐骨结节内外侧缘中线，距离坐骨结节最远端1.3 cm，方向约外倾10°，前倾15°，可固定股骨头中心所在水平面近端4 cm以下的髋臼后柱骨折。

关键词: 髋臼后柱, 逆行螺钉, 影像解剖学, 人

Abstract:

Objective To investigate the position, direction and fixation range of retrograde screw of the posterior column of acetabulum based on CT data. Methods Totally 100 cases (50 males, 50 females) of normal adult pelvic CT data were collected from the First Affilated Hospital of Chongqing Medical University. The pelvis was reconstructed by Mimics 17.0 software and imported into Geomagic Studio 2015 software. The virtual screw was placed in the posterior column from the ischial tuberosity to the iliac fossa, the maximum diameter, the entrance point, the exit point，the direction, safe fixation inclination angles of the screw were measured. The range of the screw fixing，the best fluoroscopic views and the easy-to-penetrate site of the screw in the posterior column were assessed. Results The safe corridor the posterior column of the acetabulum was similar to the “triangular prism” shape. The entrance point was located on the midline of the medial edge and lateral edge of the ischial tuberosity, which were (12.99±1.99) mm in male and (13.26±2.58) mm in female from farthest end of the ischial tuberosity. There were no stitistical significant differences between male and female(P>0.05). The exit points was located at the iliac fossa, which were (23.65±2.42)mm in male and (24.94±2.39) mm in female to the ipsilateral anterior sacroiliac joint line,and (19.33±2.60)mm in male and (17.63±2.00) mm in female to the arcus marginalis. The maximum diameters of screw were (17.21±1.41) mm in male and (15.54±1.51) mm in female. The angles between screw and coronal plane were (15.00±4.92)° in male and (12.94±4.72)° in female; the angles between screw and sagittal plane were (10.52±3.04)° in male and (7.72±2.99)° in female. The abore data had statistially significant differences between male and female (P<0.05). Percutaneous retrograde screw could fix the acetabular posterior column fracture that below the 4.0 cm proximal the horizontal plane of the femoral head center. The easy-to-penetrate sites were the junction of the acetabular posterior wall and the sciatic branch，the middle part of the acetabulum, and below 1.0 cm of the highest point of greater sciatic notch. The tangential position of three lateral faces of the “triangular prism” were ilium oblique position 10°, the ilium oblique position 60°, and obturator oblique position 60°. Conclusion The entrance point of the retrograde screw is located on the midline of the ischial tuberosity, which is 1.3 cm from farthest end of the ischial tuberosity and the direction is forward inclination about 15°, external inclination about 10°. The acetabular posterior column fracture that below 4.0 cm proximal plane to the femoral head center can be fixed by the retrograde screw.

Key words: Acetabular Posterior Column, Retrograde screw, Image anatomy, Human

中图分类号:

R683.3

余科权高仕长陈剑飞吴敏. 逆行经皮髋臼后柱螺钉的影像解剖学[J]. 解剖学报, 2020, 51(1): 78-85.

YU Ke-quan GAO Shi-chang CHEN Jian-fei WU Min. Image anatomy of percutaneous retrograde screw fixation of acetabular posterior column[J]. Acta Anatomica Sinica, 2020, 51(1): 78-85.

参考文献

［1］ Wright RD Jr, Hamilton DA Jr, Moghadamian ES, et al. Use of the obturator-outlet oblique view to guide percutaneous retrograde posterior column screw placement［J］. J Orthop Trauma, 2013, 27(6): e141-143.

［2］ Lin YC, Chen CH, Huang HT, et al. Percutaneous antegrade screwing for anterior column fracture of acetabulum with fluoroscopic-based computerized navigation［J］. Arch Orthop Trauma Surg, 2008, 128(2): 223-226.

［3］ Zheng Q, Liao ShH, Shi ShY, et al. The optimal computer aided design for lag screw internal fixation in the posterior column of the acetabulum［J］. Acta Anatomica Sinica, 2008, 39(2):238-242. (in Chinese)

郑琦, 廖胜辉, 石仕元, 等. 优化髋臼后柱螺钉内固定的计算机辅助设计［J］. 解剖学报, 2008,39(2):238-242.

［4］ Chen W, Zhang Z, Lu Y, et al. Fluoroscopic views for safe insertion of lag screws into the posterior column of the acetabulum［J］. BMC Musculoskelet Disord, 2014, 15:-303.

［5］ Azzam K, Siebler J, Bergmann K, et al. Percutaneous retrograde posterior column acetabular fixation: is the sciatic nerve safe? A cadaveric study［J］. J Orthop Trauma, 2014, 28(1): 37-40.

［6］ Zhang P, Tang J, Dong Y, et al. A new navigational apparatus for fixation of acetabular posterior column fractures with percutaneous retrograde lagscrew: design and application［J］. Medicine (Baltimore), 2018,97(36): e12134.

［7］ Mouhsine E, Garofalo R, Borens O, et al. Percutaneous retrograde screwing for stabilisation of acetabular fractures［J］. Injury, 2005,36(11): 1330-1336.

［8］ Lai JQ, Cao ShL, Wang YR, et al. Anatomy and radiology of the back zone of acetabular posterior column ［J］. Chinese Journal of Orthopaedic Trauma， 2015，17(5): 369-373. (in Chinese)

赖剑强, 曹生鲁, 汪祎然, 等. 髋臼后柱后区的解剖学和影像学研究［J］. 中华创伤骨科杂志，2015，17(5): 369-373.

［9］ Feng X, Sheng Z, Qiang L, et al. Definition of a safe zone for antegrade lag screw fixation of fracture of posterior column of the acetabulum by 3D technology［J］. Injury, 2016, 47(3): 702-706.

［10］Wang QX, Zhang YZ, Pan JSh, et al. Applied anatomy of retrograde lag screw internal fixation in the posterior column of the acetabulum［J］. Chinese Journal of Clinical Anatomy, 2006,24(1):38-40. (in Chinese)

王庆贤, 张英泽, 潘进社,等. 逆行髋臼后柱拉力螺钉内固定的应用解剖学［J］. 中国临床解剖学杂志, 2006, 24(1): 38-40.

［11］Yi C, Burns S, Hak DJ. Intraoperative fluoroscopic evaluation of screw placement during pelvic and acetabular surgery［J］. J Orthop Trauma, 2013, 28(1): 48-56.

［12］Mu WD, Wang XQ, Jia TH, et al. Quantitative anatomic basis of antegrade lag screw placement in posterior column of acetabulum［J］. Arch Orthop Trauma Surg, 2009, 129(11): 1531-1537.

［13］Mosheiff R, Khoury A, Weil Y, et al. First generation computerized fluoroscopic navigation in percutaneous pelvic surgery［J］. J Orthop Trauma,2004,18(2): 106-111.

［14］Xu P, Wang H, Liu ZY, et al. An evaluation of three-dimensional image-guided technologies in percutaneous pelvic and acetabular lag screw placement［J］. J Surg Res, 2013,185(1): 338-346.

［15］Wong JSY, Lau JCH, Chui KH, et al. Three-dimensional-guided navigation percutaneous screw fixation of fragility fractures of the pelvis［J］. J Orthop Surg (Hong Kong), 2019,27(1):2309499019833897.

［16］Schaefer TK, Spross C, Stoffel KK, et al. Biomechanical properties of a posterior fully threaded positioning screw for cannulated screw fixation of displaced neck of femur fractures［J］. Injury, 2015,46(11):2130-2133.

［17］Dragoni M, Heiner AD, Costa S, et al. Biomechanical study of 16-mm threaded, 32-mm threaded, and fully threaded SCFE screw fixation［J］. J Pediatr Orthop, 2012,32(1):70-74.

[1]	姚婕温有锋陈影宋佳刘莹莹. 拉萨藏族成人握力调查[J]. 解剖学报, 2020, 51(1): 124-127.
[2]	安凤杨孙中武王玉辉白铭宇孙健斌朱丽. 3D数字化重建技术在成人基于鼻窦CT的容积中的应用[J]. 解剖学报, 2020, 51(1): 72-77.
[3]	陈剑飞高仕长余科权. 经皮Magic螺钉固定髋臼后柱骨折的影像解剖学[J]. 解剖学报, 2020, 51(1): 86-92.
[4]	夏有辰李比陈小迅杨欣马建勋邹力君王建伟张卫光. 背阔肌肌皮瓣的血管解剖及其临床应用[J]. 解剖学报, 2020, 51(1): 93-97.
[5]	廖立青李红李义凯. 封闭治疗跗骨窦综合征的解剖学基础[J]. 解剖学报, 2020, 51(1): 98-102.
[6]	仝雷王世广杨占峰岳丽晓张玲玲王鹏. 藤黄酸通过核因子κB抑制剂激酶α/p65信号通路抑制人胃癌细胞系SGC-7901的侵袭[J]. 解剖学报, 2020, 51(1): 47-50.
[7]	刘中娇窦龙涛庄振刘玲周永维刘曼李晶张红梅. 乳头状甲状腺癌差异表达基因的筛选及生存分析[J]. 解剖学报, 2020, 51(1): 51-57.
[8]	齐玉林韩慧芳张海新. 微小RNA-145 影响乳腺癌细胞系MCF-7增殖和凋亡的机制[J]. 解剖学报, 2020, 51(1): 58-61.
[9]	李新田蜜彭冰何莉莉 . 黏蛋白16基因通过磷酸肌醇3-激酶/蛋白激酶B通路调节胆囊癌细胞活力和迁移[J]. 解剖学报, 2019, 50(5): 613-619.
[10]	代金林旭郭梦姚张静张文静薛刚吴靖芳. 三叶因子3对甲状腺乳头状癌细胞周期的影响及机制[J]. 解剖学报, 2019, 50(2): 211-219.
[11]	房超尹晶于秋爽陈云云黄瑛*. RNA干扰MEX3A基因对膀胱癌细胞增殖和凋亡的影响[J]. 解剖学报, 2017, 48(6): 688-692.
[12]	吴丽萍续力云胡晓斐张国强* . 鳕鱼皮寡肽对人胃癌细胞SGC-7901增殖凋亡的影响及机制[J]. 解剖学报, 2017, 48(6): 698-703.
[13]	王文佳张兴华 * 宇克莉严实包金萍杨亚军王子善郑连斌. 木雅人的手长宽、足长宽与身高的关系[J]. 解剖学报, 2016, 47(6): 829-832.
[14]	陈争珍乔会煌郭玉任传根张小芬李建策陈成春*. 脑深髓静脉的磁敏感加权成像[J]. 解剖学报, 2016, 47(6): 796-801.
[15]	姜海张晶王文娟王珂秦丽华* 白文佩*. 低雌激素引发潮热的外周机制[J]. 解剖学报, 2016, 47(5): 709-713.