经皮骶髂螺钉置入术前CT理想螺钉路径及安全角度的计算
Calculation of CT ideal screw path and safety angle before percutaneous sacroiliac screw placement.
作者信息
Zhang Zhuangzhuang, Chen Jie, Chen Xu, Sun Rongbin
机构信息
The Affiliated Changzhou No.2 People's Hospital of Nanjing Medical University, Changzhou, China.
Changzhou No.3 People's Hospital, Changzhou, China.
出版信息
Arch Orthop Trauma Surg. 2025 Feb 1;145(1):153. doi: 10.1007/s00402-025-05774-3.
INTRODUCTION
Percutaneous sacroiliac screw placement is the main surgical approach to treat unstable posterior pelvic ring injuries. Intraoperative fluoroscopic imaging is an important part of safe sacroiliac screw placement. However, how to determine the right perspective view is challenging. We developed a trigonometric algorithm to verify how preoperative pelvic computed tomography (CT) can be used to predict ideal screw path and safety angle.
MATERIALS AND METHODS
The normal pelvic CT data of 30 volunteers from our hospital between September 2021 and June 2023 were collected, and analyzed and reconstructed using Materialise Mimics 21.0. The angle between the cross-sectional ideal screw path and the horizontal plane (∠α), the angles of the pelvic inlet and outlet on the sagittal plane (∠1, ∠2), and the insertion angles of virtual screws at the inlet and outlet (∠a, ∠b) were measured. The ideal insertion angles (∠A, ∠B) and safety angles of the screws at the pelvic inlet and outlet were calculated using trigonometric functions.
RESULTS
The virtual screw insertion angle ∠a of 30 pelvises measured at the inlet was 18.57 ± 4.33°, and the ideal screw angle ∠A calculated using trigonometric functions was 18.72 ± 4.71° (range, 13.84 ± 0.75°-23.36 ± 0.98°). The difference between the measurement and calculation was only 0.15 ± 0.19° and not significant. The angle ∠b of the virtual screw insertion measured at the outlet was 25.37 ± 5.13°, and the ideal screw angle ∠B calculated using trigonometric functions was 25.58 ± 4.93 ° (range, 19.02 ± 0.88°-31.31 ± 1.01°). The difference between the measurement and calculation was only 0.20 ± 0.13° and not significant. The distance e from the optimal screw insertion point to the vertical line through the anterior superior iliac spine is 32.34 ± 1.76 mm, and the distance f to the horizontal line through the posterior superior iliac spine is 28.61 ± 0.81 mm.
CONCLUSIONS
During preoperative planning, trigonometric calculations were used to determine the ideal screw placement angles and safety angle at the inlet and outlet of the screw path. Combined with intraoperative C-arm fluoroscopy, individualized screw insertion can help orthopedic surgeons quickly and accurately obtain intraoperative images and accurately determine the direction of screw insertion.
引言
经皮骶髂螺钉置入是治疗不稳定型骨盆后环损伤的主要手术方法。术中透视成像对于安全置入骶髂螺钉至关重要。然而,如何确定正确的透视角度具有挑战性。我们开发了一种三角算法,以验证术前骨盆计算机断层扫描(CT)如何用于预测理想的螺钉路径和安全角度。
材料与方法
收集我院2021年9月至2023年6月30名志愿者的正常骨盆CT数据,并使用Materialise Mimics 21.0进行分析和重建。测量横断面理想螺钉路径与水平面之间的夹角(∠α)、矢状面上骨盆入口和出口的角度(∠1、∠2)以及入口和出口处虚拟螺钉的插入角度(∠a、∠b)。使用三角函数计算骨盆入口和出口处螺钉的理想插入角度(∠A、∠B)和安全角度。
结果
30例骨盆在入口处测量的虚拟螺钉插入角度∠a为18.57±4.33°,使用三角函数计算的理想螺钉角度∠A为18.72±4.71°(范围为13.84±0.75°-23.36±0.98°)。测量值与计算值之间的差异仅为0.15±0.19°,无统计学意义。在出口处测量得到的虚拟螺钉插入角度∠b为25.37±5.13°,使用三角函数计算的理想螺钉角度∠B为25.58±4.93°(范围为19.02±0.88°-31.31±1.01°)。测量值与计算值之间的差异仅为0.20±0.13°,无统计学意义。最佳螺钉插入点到通过髂前上棘的垂直线的距离e为32.34±1.76mm,到通过髂后上棘的水平线的距离f为28.61±0.81mm。
结论
在术前规划中,使用三角计算来确定螺钉路径入口和出口处的理想螺钉置入角度和安全角度。结合术中C形臂透视,个体化螺钉置入可帮助骨科医生快速准确地获得术中图像,并准确确定螺钉插入方向。
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