全膝关节置换术的机械对线技术:是否存在内在技术限制?
Mechanical alignment technique for TKA: Are there intrinsic technical limitations?
作者信息
Rivière C, Iranpour F, Auvinet E, Aframian A, Asare K, Harris S, Cobb J, Parratte S
机构信息
The MSK Lab, Charing Cross Camus, Imperial College London, Laboratory Block, W6 8RP London, United Kingdom.
The MSK Lab, Charing Cross Camus, Imperial College London, Laboratory Block, W6 8RP London, United Kingdom.
出版信息
Orthop Traumatol Surg Res. 2017 Nov;103(7):1057-1067. doi: 10.1016/j.otsr.2017.06.017. Epub 2017 Sep 6.
BACKGROUND
Mechanically aligned (MA) total knee arthroplasty (TKA) is affected by disappointing functional outcomes in spite of the recent improvements in surgical precision and implant designs. This might suggest the existence of intrinsic technical limitations. Our study aims to compare the prosthetic and native trochlear articular surfaces and to estimate the extent of collateral ligament imbalance, which is technically uncorrectable by collateral ligament release when TKA implants are mechanically aligned.
STUDY HYPOTHESIS
Conventional MA technique generates a high rate of prosthetic overstuffing of the distal groove, distal lateral trochlear facet and distal lateral femoral condyle (Hypothesis 1), and technically uncorrectable collateral ligament imbalance (hypothesis 2)? Disregarding the distal femoral joint line obliquity (DFJLO) when performing femoral cuts explains distal lateral femoral prosthetic stuffing and uncorrectable imbalance (hypothesis 3)?
METHODS
Twenty patients underwent a conventional MA TKA. Pre-operative MRI-based 3D knee models were generated and MA TKA was simulated. Native and prosthetic trochlear articular surfaces were compared using in-house analysis software. Following the automatic determination by the planning software of the size of the extension and flexion gaps, an algorithm was applied to balance the gaps and the frequency and amplitude of technically uncorrectable knee imbalance were estimated.
RESULTS
The conventional MA technique generates a significant slight distal lateral femoral prosthetic overstuffing (mean 0.6mm, 0.8mm, 1.25mm for the most distal lateral facet point, groove, and at the most distal point of lateral femoral condyle, respectively) and a high rate of type 1 and 2 uncorrectable knee imbalance (30% and 40%, respectively). The incidence of distal lateral prosthetic overstuffing (trochlea and condyle) and uncorrectable knee imbalance were strongly to very strongly correlated with the DFJLO (r=0.53 to 0.89).
CONCLUSION
Conventional MA technique for TKA generates frequent lateral distal femoral prosthetic overstuffing and technically uncorrectable knee imbalance secondary to disregarding the DFJLO when adjusting the femoral component frontal and axial rotations, respectively.
LEVEL OF EVIDENCE
level 4.
背景
尽管手术精度和植入物设计最近有所改进,但机械对线(MA)全膝关节置换术(TKA)的功能结果仍不尽人意。这可能表明存在内在的技术局限性。我们的研究旨在比较假体和天然滑车关节面,并评估侧副韧带失衡的程度,当TKA植入物进行机械对线时,侧副韧带松解在技术上无法纠正这种失衡。
研究假设
传统的MA技术会导致远端沟、远端外侧滑车小面和远端外侧股骨髁的假体过度填充率较高(假设1),以及技术上无法纠正的侧副韧带失衡(假设2)?在进行股骨截骨时忽略远端股骨关节线倾斜度(DFJLO)可解释远端外侧股骨假体填充和无法纠正的失衡(假设3)?
方法
20例患者接受了传统的MA TKA。生成基于术前MRI的3D膝关节模型并模拟MA TKA。使用内部分析软件比较天然和假体滑车关节面。在规划软件自动确定伸展和屈曲间隙的大小后,应用一种算法来平衡间隙,并估计技术上无法纠正的膝关节失衡的频率和幅度。
结果
传统的MA技术会导致明显的远端外侧股骨假体轻微过度填充(最远端外侧小面点、沟和外侧股骨髁最远端点的平均值分别为0.6mm、0.8mm、1.25mm),以及1型和2型无法纠正的膝关节失衡发生率较高(分别为30%和40%)。远端外侧假体过度填充(滑车和髁)和无法纠正的膝关节失衡的发生率与DFJLO密切相关(r = 0.53至0.89)。
结论
TKA的传统MA技术在调整股骨组件的额状面和轴向旋转时,由于忽略了DFJLO,经常导致远端外侧股骨假体过度填充和技术上无法纠正的膝关节失衡。
证据水平
4级。
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