双平面低剂量 X 线在全髋关节置换术前三维规划中的准确性和可重复性：一项初步研究。

Accuracy and reproducibility of preoperative three-dimensional planning for total hip arthroplasty using biplanar low-dose radiographs : A pilot study.

机构信息

Department of Orthopedics and Trauma Surgery, hôpital Central, CHU de Nancy, 29, avenue de Lattre-de-Tassigny, 54000 Nancy, France.

出版信息

Orthop Traumatol Surg Res. 2017 Jun;103(4):531-536. doi: 10.1016/j.otsr.2017.03.001. Epub 2017 Mar 18.

DOI:10.1016/j.otsr.2017.03.001

PMID:28323248

Abstract

BACKGROUND

In total hip arthroplasty (THA), the acetabular cup and femoral stem must be correctly sized and positioned to avoid intraoperative and postoperative complications, achieve good functional outcomes and ensure long-term survival. Current two-dimensional (2D) techniques do not provide sufficient accuracy, while low-dose biplanar X-rays (EOS) had not been assessed in this indication. Therefore, we performed a case-control study to : (1) evaluate the prediction of stem and cup size for a new 3D planning technique (stereoradiographic imaging plus 3D modeling) in comparison to 2D templating on film radiographs and (2) evaluate the accuracy and reproducibility of this 3D technique for preoperative THA planning.

HYPOTHESIS

Accuracy and reproducibility are better with the 3D vs. 2D method.

PATIENTS AND METHODS

Stem and cup sizes were retrospectively determined by two senior surgeons, twice, for a total of 31 unilateral primary THA patients in this pilot study, using 3D preplanning software on low-dose biplanar X-rays and with 2D templating on conventional anteroposterior (AP) film radiographs. Patients with a modular neck or dual-mobility prosthesis were excluded. All patients but one had primary osteoarthritis; one following trauma did not have a cup implanted. The retrospectively planned sizes were compared to the sizes selected during surgery, and intraclass coefficients (ICC) calculated.

RESULTS

3D planning predicted stem size more accurately than 2D templating: stem sizes were planned within one size in 26/31 (84%) of cases in 3D versus 21/31 (68%) in 2D (P=0.04). 3D and 2D planning accuracies were not significantly different for cup size: cup sizes were planned within one size in 28/30 (92%) of cases in 3D versus 26/30 (87%) in 2D (P=0.30). ICC for stem size were 0.88 vs. 0.91 for 3D and 2D, respectively. Inter-operator ICCs for cup size were 0.84 vs. 0.71, respectively. Repetitions of the 3D planning were within one size (except one stem), with the majority predicting the same size.

DISCUSSION

Increased accuracy in 3D may be due to the use of actual size (non-magnified) images, and judging fit on AP and lateral images simultaneously. Results for other implant components may differ from those presented. Size selection may improve further with planning experience, based on a feedback loop between planning and surgical execution.

LEVEL OF EVIDENCE

Level III. Retrospective case-control study.

摘要

背景

在全髋关节置换术（THA）中，髋臼杯和股骨柄必须正确地进行尺寸和位置的选择，以避免术中及术后并发症的发生，达到良好的功能效果并确保长期生存。目前的二维（2D）技术无法提供足够的准确性，而低剂量双平面 X 射线（EOS）在该适应证中尚未得到评估。因此，我们进行了一项病例对照研究：（1）评估新的 3D 规划技术（立体射线照相成像加 3D 建模）在预测股骨柄和髋臼杯大小方面的准确性，与二维模板在胶片 X 射线上的表现进行比较；（2）评估该 3D 技术用于术前 THA 规划的准确性和可重复性。

假设

与 2D 方法相比，3D 方法的准确性和可重复性更好。

患者和方法

在这项初步研究中，共有 31 例单侧初次 THA 患者，两名资深外科医生分别两次使用低剂量双平面 X 射线的 3D 术前规划软件以及常规前后位（AP）胶片 X 射线的二维模板，对股骨柄和髋臼杯的尺寸进行了回顾性的确定。排除了有模块化颈或双动假体的患者。除了一名患者因创伤而未植入髋臼杯外，所有患者均患有原发性骨关节炎。回顾性计划的尺寸与手术中选择的尺寸进行了比较，并计算了组内相关系数（ICC）。

结果

3D 规划比 2D 模板更准确地预测了股骨柄的尺寸：在 3D 中，26/31（84%）的病例中股骨柄尺寸计划在一个尺寸范围内，而在 2D 中为 21/31（68%）（P=0.04）。3D 和 2D 规划在髋臼杯尺寸方面的准确性没有显著差异：在 3D 中，28/30（92%）的病例中髋臼杯尺寸计划在一个尺寸范围内，而在 2D 中为 26/30（87%）（P=0.30）。股骨柄尺寸的 ICC 分别为 0.88 和 0.91。髋臼杯尺寸的组间 ICC 分别为 0.84 和 0.71。除了一个股骨柄之外，3D 规划的重复均在一个尺寸范围内，且大多数情况下预测的是相同的尺寸。