Wakelin Edgar A, Tran Linda, Twiggs Joshua G, Theodore Willy, Roe Justin P, Solomon Michael I, Fritsch Brett A, Miles Brad P
360 Knee Systems, Suite 3, Building 1, Sydney, NSW, 2073, Australia.
Department of Biomedical Engineering, University of Sydney, Sydney, NSW, 2006, Australia.
J Orthop Surg Res. 2018 Oct 30;13(1):275. doi: 10.1186/s13018-018-0957-0.
Successful component alignment is a major metric of success in total knee arthroplasty. Component translational placement, however, is less well reported despite being shown to affect patient outcomes. CT scans and planar X-rays are routinely used to report alignment but do not report measurements as precisely or accurately as modern navigation systems can deliver, or with reference to the pre-operative anatomy.
A method is presented here that utilises a CT scan obtained for pre-operative planning and a post-operative CT scan for analysis to recreate a computation model of the knee with patient-specific axes. This model is then used to determine the post-operative component position in 3D space.
Two subjects were investigated for reproducibility producing 12 sets of results. The maximum error using this technique was 0.9° ± 0.6° in rotation and 0.5 mm ± 0.3 mm in translation. Eleven subjects were investigated for reliability producing 22 sets of results. The intra-class correlation coefficient for each of the three axes of rotation and three primary resection planes was > 0.93 indicating excellent reliability.
Routine use of this analysis will allow surgeons and engineers to better understand the effect of component alignment as well as the placement on outcome.
组件对齐成功是全膝关节置换术成功的一项主要指标。然而,尽管已表明组件平移放置会影响患者预后,但相关报道较少。CT扫描和平面X射线通常用于报告对齐情况,但与现代导航系统相比,其测量的精确性和准确性较差,也无法参考术前解剖结构。
本文介绍了一种方法,该方法利用术前规划获取的CT扫描和术后CT扫描进行分析,以重建具有患者特定轴的膝关节计算模型。然后使用该模型确定术后组件在三维空间中的位置。
对两名受试者进行了重复性研究,得出12组结果。使用该技术的最大误差为旋转0.9°±0.6°,平移0.5毫米±0.3毫米。对11名受试者进行了可靠性研究,得出22组结果。三个旋转轴和三个主要切除平面中每个轴的组内相关系数均>0.93,表明可靠性极佳。
常规使用该分析方法将使外科医生和工程师能够更好地了解组件对齐以及放置对预后的影响。