三维患者特异性截骨导板能否用于实现胫骨高位截骨的最佳矫正？初步研究。

Can three-dimensional patient-specific cutting guides be used to achieve optimal correction for high tibial osteotomy? Pilot study.

作者信息

Munier M, Donnez M, Ollivier M, Flecher X, Chabrand P, Argenson J-N, Parratte S

机构信息

UMR CNRS 787/AMU, institut du mouvement et de l'appareil locomoteur, groupe interdisciplinaire en biomécanique, hôpital Sainte-Marguerite, centre hospitalo-universitaire Sud, boulevard de Sainte-Marguerite, 13009 Marseille, France.

出版信息

Orthop Traumatol Surg Res. 2017 Apr;103(2):245-250. doi: 10.1016/j.otsr.2016.11.020. Epub 2017 Jan 27.

DOI:10.1016/j.otsr.2016.11.020

PMID:28137553

Abstract

INTRODUCTION

Treatment of medial tibiofemoral osteoarthritis with a high-tibial osteotomy (HTO) is most effective when the optimal angular correction is achieved. However, conventional instrumentation is limited when multiplanar correction is needed.

HYPOTHESIS

Use of patient-specific cutting guides (PSCGs) for HTO provides an accurate correction (difference<2°) relative to the preoperative planning.

MATERIALS AND METHODS

Between February 2014 and February 2015, 10 patients (mean age: 46 years [range: 31-59]; grade 1 or 2 osteoarthritis in Ahlbäck's classification) were included prospectively in this reliability and safety study. All patients were operated using the same medial opening-wedge osteotomy technique. Preoperative planning was based on long-leg radiographs and CT scans with 3D reconstruction. The PSGCs were used to align the osteotomy cut and position the screw holes for the plate. The desired correction was achieved in the three planes when the holes on the plate were aligned with the holes drilled based on the PSCG. Preoperatively, the mean HKA angle was 171.9° (range: 166-179°), the mean proximal tibial angle was 87° (86-88°) and the mean tibial slope was 7.8° (1-22°). The postoperative correction was compared to the planned correction using 3D CT scan transformations. Intraoperative and postoperative complications were assessed at a minimum follow-up of 1 year.

RESULTS

The procedure was successfully carried out in all patients with the PSCGs. On postoperative long-leg radiographs, the mean HKA was 182.3° (180-185°); on the CT scan, the mean tibial mechanical angle was 94° (90-98°) and the mean tibial slope was 7.1° (4-11°). In 19 out of 20 postoperative HKA and slope measurements, the difference between the planned and achieved correction was <2° based on the 3D analysis of the three planes in space; in the other case, the slope was 13° instead of the planned 10°. The intra-class correlation coefficients between the postoperative and planned parameters were 0.98 [0.92-0.99] for the HKA and 0.96 [0.79-0.99] for the tibial slope. There were no surgical site infections; one patient had a postoperative hematoma that resolved spontaneously.

DISCUSSION

The results of this study showed that use of PSCGs in HTO procedures helps to achieve optimal correction in a safe and reliable manner.

LEVEL OF EVIDENCE

IV - Prospective cohort study.

摘要

引言

当实现最佳角度矫正时，采用高位胫骨截骨术（HTO）治疗胫股内侧骨关节炎最为有效。然而，当需要多平面矫正时，传统器械存在局限性。

假设

使用定制的截骨导板（PSCGs）进行HTO可实现相对于术前规划的精确矫正（差异<2°）。

材料与方法

在2014年2月至2015年2月期间，10例患者（平均年龄：46岁[范围：31 - 59岁]；Ahlbäck分类为1级或2级骨关节炎）被前瞻性纳入本可靠性和安全性研究。所有患者均采用相同的内侧开口楔形截骨技术进行手术。术前规划基于长腿X线片和三维重建的CT扫描。PSCGs用于对齐截骨切口并确定钢板螺孔的位置。当钢板上的孔与基于PSCG钻出的孔对齐时，在三个平面上实现了所需的矫正。术前，平均股胫角（HKA）为171.9°（范围：166 - 179°），平均胫骨近端角为87°（86 - 88°），平均胫骨坡度为7.8°（1 - 22°）。使用三维CT扫描变换将术后矫正与计划矫正进行比较。在至少1年的随访中评估术中及术后并发症。

结果

所有患者使用PSCGs均成功完成手术。术后长腿X线片上，平均HKA为182.3°（180 - 185°）；CT扫描显示，平均胫骨机械角为94°（90 - 98°），平均胫骨坡度为7.1°（4 - 11°）。在术后20次HKA和坡度测量中的19次中，基于空间三个平面的三维分析，计划矫正与实际矫正之间的差异<2°；在另1例中，坡度为13°，而非计划的10°。术后与计划参数之间的组内相关系数，HKA为0.98[0.92 - 0.99]，胫骨坡度为0.96[0.79 - 0.99]。无手术部位感染；1例患者术后出现血肿，自行消退。