Moopanar Terence R, Amaranath Jeevaka E, Sorial Rami M
Department of Orthopaedics, Nepean Public Hospital, Penrith, New South Wales, Australia.
ANZ J Surg. 2014 Sep;84(9):628-32. doi: 10.1111/ans.12674. Epub 2014 Jun 19.
The failure to restore mechanical alignment and appropriate rotational axis intraoperatively has been described as one of the most common causes of implant failure in total knee arthroplasty (TKA). Both conventional and computer-assisted TKA have their limitations. Patient-specific jigs (PSJ) offer a possible alternative method for TKA. The aim of this study was to investigate if the use of PSJ offers reproducible and accurate orientation of the components in TKA compared with conventional and computer-assisted surgery.
We conducted a prospective case series looking at 261 consecutive patients undergoing TKA for osteoarthritis using the Signature Patient Specific System (Biomet, North Ryde, NSW, Australia). Each patient underwent a preoperative magnetic resonance imaging for planning. Using a computer software program, specialized femoral and tibial pin placement jigs were generated. Post-operative femoral and tibial component alignment was measured using computed tomography.
Of patients, 96.2% achieved femoral rotational alignment ±3 degrees of the transepicondylar axis. Tibial coronal alignment showed 92.7% of cases were 90 ± 3 degrees to the tibial medullary axis. Implant measurements of the posterior tibial slope demonstrated 76.6% of cases were within our accepted 0 to 7 degrees slope and 81.2% of patients had an overall mechanical axis within ±3 degrees of neutral. We also recorded femoral coronal alignment of the last 98 patients of our group and found that 99% were within 90 ± 3 degrees.
PSJ for TKA shows good accuracy in alignment when compared with conventional TKA. However, improvements in the development of the tibial alignment cutting guides will aid in further increasing its overall accuracy and reproducibility.
术中未能恢复机械对线和合适的旋转轴被认为是全膝关节置换术(TKA)中植入物失败的最常见原因之一。传统TKA和计算机辅助TKA都有其局限性。患者特异性夹具(PSJ)为TKA提供了一种可能的替代方法。本研究的目的是调查与传统手术和计算机辅助手术相比,使用PSJ在TKA中是否能提供可重复且准确的假体组件定位。
我们进行了一项前瞻性病例系列研究,观察了连续261例因骨关节炎接受TKA手术的患者,使用Signature患者特异性系统(Biomet,澳大利亚新南威尔士州北莱德)。每位患者术前均接受磁共振成像以进行规划。使用计算机软件程序生成专门的股骨和胫骨销钉放置夹具。术后使用计算机断层扫描测量股骨和胫骨假体组件的对线情况。
96.2%的患者实现了股骨相对于经髁间轴的旋转对线在±3度以内。胫骨冠状面对线显示,92.7%的病例与胫骨髓内轴呈90±3度。胫骨后倾坡度的植入物测量显示,76.6%的病例在我们认可的0至7度坡度范围内,81.2%的患者整体机械轴在中立位±3度以内。我们还记录了本组最后98例患者的股骨冠状面对线情况,发现99%在90±3度以内。
与传统TKA相比,TKA使用PSJ显示出良好的对线准确性。然而,胫骨对线切割导向器的改进将有助于进一步提高其整体准确性和可重复性。
