Orthopedic University Hospital Friedrichsheim gGmbH, Frankfurt/Main, Germany.
Dr. Rolf M. Schwiete Research Unit for Osteoarthritis, Orthopedic University Hospital Friedrichsheim gGmbH, Frankfurt/Main, Germany.
J Arthroplasty. 2021 Mar;36(3):1149-1155. doi: 10.1016/j.arth.2020.10.016. Epub 2020 Oct 17.
Accurate preoperative planning is a key component of successful total hip arthroplasty (THA). The purpose of the present study was to compare the accuracy and reliability of three-dimensional (hipEOS) and common digital two-dimensional (TraumaCad) templating with special focus on stem morphology.
51 patients undergoing THA were randomized to two groups. Preoperative planning was performed on 23 patients with hipEOS (3D) and on 28 patients with TraumaCad (2D) planning software. Planning results were compared with the implanted component size. Inter- and intraobserver reliability as well as planning accuracy of both planning methods with special focus on straight and short stem design were recorded.
Intraobserver reliability of both planning methods was good for component planning (ICC: 0.835-0.967). Interobserver ICC for stem and cup planning were higher for 3D templating (3D ICC: 0.906-0.918 vs. 2D ICC: 0.835-0.843). Total stem and cup size predictions were within 2 sizes for 3D and within 3 sizes for 2D planning. Comparing short stem planning accuracy of both planning methods, absolute difference between implanted and planned component size was significantly lower in 3D planning (P = .029). There was no significant difference in straight stem (P = .935) and cup (P = .954) planning accuracy.
Our findings suggest that 3D templating with hipEOS software has a good overall reliability and may have a better planning accuracy of short stem prostheses than digital templating with TraumaCad software. Assuming that the number of implanted short stem prostheses will further increase in coming years, a more precise planning with 3D technique can contribute to improve surgery outcome.
准确的术前规划是全髋关节置换术(THA)成功的关键组成部分。本研究的目的是比较三维(hipEOS)和常见的数字二维(TraumaCad)模板在特别关注于柄形态方面的准确性和可靠性。
51 例接受 THA 的患者被随机分为两组。23 例患者采用 hipEOS(3D)进行术前规划,28 例患者采用 TraumaCad(2D)规划软件进行规划。将规划结果与植入物的大小进行比较。记录两种规划方法的组内和组间可靠性以及规划准确性,特别关注直柄和短柄设计。
两种规划方法的组内可靠性对于组件规划都很好(ICC:0.835-0.967)。对于柄和杯的规划,3D 模板的观察者间 ICC 更高(3D ICC:0.906-0.918 与 2D ICC:0.835-0.843)。3D 规划的总柄和杯的尺寸预测在 2 个尺寸内,2D 规划的在 3 个尺寸内。比较两种规划方法的短柄规划准确性,植入物和规划组件之间的绝对差值在 3D 规划中显著较低(P=0.029)。在直柄(P=0.935)和杯(P=0.954)规划准确性方面无显著差异。
我们的研究结果表明,使用 hipEOS 软件的 3D 模板具有良好的整体可靠性,并且可能比使用 TraumaCad 软件的数字模板对短柄假体具有更好的规划准确性。假设在未来几年内植入的短柄假体数量将进一步增加,使用 3D 技术进行更精确的规划可以有助于改善手术结果。
