Müller M C, Belei P, de la Fuente M, Strake M, Weber O, Burger C, Radermacher K, Wirtz D C
Department of Orthopaedics and Trauma Surgery, University of Bonn.
Rofo. 2011 Jun;183(6):536-42. doi: 10.1055/s-0031-1273329. Epub 2011 Apr 19.
Dynamic hip screw (DHS) insertion for the fixation of lateral femoral neck fractures is an accepted surgical treatment method. A computer-assisted planning and navigation system based on 2D fluoroscopy has been developed for guidewire insertion in order to perform screw placement. The image acquisition process was supported by a radiation-saving procedure called "zero-dose C-arm navigation". The aim of this study was to evaluate this new system.
In the context of a sawbone study, we inserted dynamic hip screws. The procedure was performed under navigation control and in the conventional technique in 12 sawbones. Both procedures were performed in an open and closed technique.
The computer-assisted technique significantly reduced the number of intraoperative fluoroscopic images (open technique: -8.1 ± 0.5; p < 0.001 - closed technique: -12.3 ± 3.7; p < 0.001) and the number of guidewire passes (open technique: -1.3 ± 1.2; p < 0.05 - closed technique: -1.5 ± 1.2; p < 0,05). There was no difference with respect to precision in both groups. The operation time was significantly longer in the navigation-assisted groups (open technique: + 14.6 ± 5.4 min; p < 0.001 - closed technique: + 13 ± 3 min; p < 0.001).
The addition of computer-assisted planning and surgical guidance supported by "zero-dose C-arm navigation" may be useful for the fixation of lateral femoral neck fractures by the DHS as it reduces the amount of fluoroscopic images and requires fewer drill tracks. Further studies with the goal of reducing the operation time are necessary.
动力髋螺钉(DHS)置入术用于固定股骨颈外侧骨折是一种公认的外科治疗方法。已开发出一种基于二维荧光透视的计算机辅助规划和导航系统,用于引导导丝插入,以便进行螺钉置入。图像采集过程由一种名为“零剂量C形臂导航”的节省辐射程序支持。本研究的目的是评估这种新系统。
在一项人工骨研究中,我们置入动力髋螺钉。该操作在导航控制下以及在12块人工骨上采用传统技术进行。两种操作均采用开放和闭合技术。
计算机辅助技术显著减少了术中荧光透视图像数量(开放技术:-8.1±0.5;p<0.001 - 闭合技术:-12.3±3.7;p<0.001)以及导丝通过次数(开放技术:-1.3±1.2;p<0.05 - 闭合技术:-1.5±1.2;p<0.05)。两组在精度方面没有差异。导航辅助组的手术时间明显更长(开放技术:+14.6±5.4分钟;p<0.001 - 闭合技术:+13±3分钟;p<0.001)。
由“零剂量C形臂导航”支持的计算机辅助规划和手术引导的加入,可能对DHS固定股骨颈外侧骨折有用,因为它减少了荧光透视图像数量且所需的钻孔轨迹更少。有必要开展旨在减少手术时间的进一步研究。
