使用患者特异性器械和植入物评估双髁膝关节置换术后植入物的适配性和额状面排列。
Evaluation of implant fit and frontal plane alignment after bi-compartmental knee arthroplasty using patient-specific instruments and implants.
作者信息
Arnholdt Joerg, Kamawal Yama, Holzapfel Boris Michael, Ripp Axel, Rudert Maximilian, Steinert Andre Friedrich
机构信息
Department of Orthopaedic Surgery, König-Ludwig-Haus, Julius-Maximilians-University, Würzburg, Germany.
Department of Trauma and Orthopaedic Surgery, Elblandkliniken, Radebeul, Germany.
出版信息
Arch Med Sci. 2018 Oct;14(6):1424-1431. doi: 10.5114/aoms.2018.79007. Epub 2018 Oct 23.
INTRODUCTION
The goals of successful bi-compartmental knee arthroplasty are to achieve correct fit and positioning of the implant, while appropriately correcting the mechanical alignment of the leg after surgery. As these requirements are not always reliably fulfilled using off-the-shelf implant systems, newer approaches for bi-compartmental resurfacing have been explored.
MATERIAL AND METHODS
In this article we report the radiographic results of 30 patients with anteromedial osteoarthritis (OA) who were treated with a novel patient-specific fixed-bearing bi-compartmental knee resurfacing system using custom-made implants and instruments. Utilizing standardized pre- and postoperative radiographic analyses (based on anterior-posterior and lateral, anterior-posterior weight-bearing full-length radiographs, patella skyline views and preoperative computed tomography (CT) scanning) implant fit and positioning as well as correction of the mechanical axis (hip-knee-ankle angle, HKA) were determined.
RESULTS
On average, HKA was corrected from 173.4 ±3.47° preoperatively to 179.4 ±2.85° postoperatively. The coronal femoro-tibial angle was corrected on average 5.61°. The preoperative tibial slope measured on lateral views was 6.38 ±2.4°, while the average slope in the CT-based planning protocol (iView) was 6.14 ±2.40°. Postoperative lateral tibial slope was determined to be 5.77 ±1.97°. The thickness of the posterior femoral cuts was measured intraoperatively and, in all cases, corresponded well to the targeted thickness of the cuts provided by the iView. The joint line was preserved in all cases and the average Insall-Salvati index was 1.078 ±0.11 pre- and 1.072 ±0.11 postoperatively. The fit of the implant components measured by over- or underhang was excellent throughout (< 1.01 mm).
CONCLUSIONS
Custom-made bicompartmental knee arthroplasty can ensure optimized fitting and positioning of the implant with restoration of the leg axis. These implants could be considered as an alternative primary solution for knee surgeons treating bi-compartmental disease.
引言
成功的双髁膝关节置换术的目标是实现植入物的正确适配和定位,同时在术后适当地矫正下肢的机械对线。由于使用现成的植入系统并不总能可靠地满足这些要求,因此人们探索了双髁表面置换的新方法。
材料与方法
在本文中,我们报告了30例患有前内侧骨关节炎(OA)的患者的影像学结果,这些患者接受了一种新型的定制固定承重双髁膝关节表面置换系统治疗,该系统使用定制的植入物和器械。利用标准化的术前和术后影像学分析(基于前后位和侧位、前后位负重全长X线片、髌骨切线位片以及术前计算机断层扫描(CT))来确定植入物的适配和定位以及机械轴(髋-膝-踝角,HKA)的矫正情况。
结果
平均而言,HKA从术前的173.4±3.47°矫正至术后的179.4±2.85°。冠状面股骨-胫骨角平均矫正了5.61°。术前侧位片测量的胫骨坡度为6.38±2.4°,而基于CT的规划方案(iView)中的平均坡度为6.14±2.40°。术后外侧胫骨坡度确定为5.77±1.97°。术中测量了股骨后侧截骨的厚度,在所有病例中,均与iView提供的截骨目标厚度相符。所有病例中关节线均得以保留,术前和术后的平均Insall-Salvati指数分别为1.078±0.11和1.072±0.11。通过悬垂或不足来测量的植入物组件的适配情况在整个过程中都非常出色(<1.01mm)。
结论
定制双髁膝关节置换术能够确保植入物的优化适配和定位,并恢复下肢轴线。这些植入物可被视为膝关节外科医生治疗双髁疾病的一种替代的主要解决方案。
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