无论术前冠状面畸形如何,调整后的机械对线都会导致很大比例的非解剖学胫骨和股骨截骨。
Independent of the preoperative coronal deformity, adjusted mechanical alignment leads in a high percentage to non-anatomical tibial and femoral bone cuts.
机构信息
Universität Regensburg, Franz-Josef-Strauß-Allee 11, 93053, Regensburg, Germany.
Department for Arthroplasty, Sports Medicine, and General Orthopaedics, Asklepios Orthopedic Hospital Lindenlohe, Lindenlohe 18, 92421, Schwandorf, Germany.
出版信息
Knee Surg Sports Traumatol Arthrosc. 2023 Sep;31(9):3784-3791. doi: 10.1007/s00167-023-07337-8. Epub 2023 Feb 18.
PURPOSE
The technique of adjusted mechanical alignment (AMA) in total knee arthroplasty (TKA) has been described to achieve alignment and balancing goals in varus knees in a high percentage, albeit at the price of non-anatomical bone cuts. The purpose of this study was to analyze (1) whether AMA achieves similar alignment and balancing results in different types of deformity and (2) whether they can be achieved without altering the native anatomy.
METHODS
A series of 1000 patients with hip-knee-ankle (HKA) angles from 165° to 195° were analyzed. All patients were operated using AMA technique. According to the preoperative HKA angle, three groups of knee phenotypes (varus, straight, valgus) were defined. The bone cuts were analyzed for being anatomic (< 2 mm deviation of individual joint surface) or non-anatomic (> 4 mm deviation of individual joint surface).
RESULTS
AMA reached the goals for postoperative HKA in over 93% in every group (varus: 636 cases, 94%, straight: 191 cases, 98%, valgus: 123 cases, 98%). In 0° extension, the gaps were balanced in varus knees in 654 cases (96%), in straight knees in 189 cases (97%) and in valgus knees in 117 cases (94%). A balanced flexion gap was found in a similar number of cases (varus: 657 cases, 97%, straight: 191 cases, 98%, valgus: 119 cases, 95%). In the varus group, non-anatomical cuts were performed at the medial tibia (89%) and the lateral posterior femur (59%). The straight group showed similar values and distribution for non-anatomical cuts (medial tibia: 73%; lateral posterior femur 58%). Valgus knees showed a different distribution of values, being non-anatomical at the lateral tibia (74%), distal lateral femur (67%) and posterior lateral femur (43%).
CONCLUSION
In all knee phenotypes, the AMA goals were achieved in a high percentage by altering the patients' native anatomy. In varus knees, the alignment was corrected by non-anatomical cuts at the medial tibia, and in valgus knees at the lateral tibia and the lateral distal femur. All phenotypes showed non-anatomical resections on the posterior lateral condyle in approximately 50% of cases.
LEVEL OF EVIDENCE
III.
目的
在全膝关节置换术(TKA)中,已描述了调整机械对线(AMA)技术,以实现内翻膝关节的对线和平衡目标,但代价是牺牲非解剖骨切。本研究的目的是分析(1)AMA 是否在不同类型的畸形中达到相似的对线和平衡结果,以及(2)是否可以在不改变患者自然解剖结构的情况下达到这些结果。
方法
对 HKA 角在 165°至 195°之间的 1000 例患者进行了分析。所有患者均采用 AMA 技术进行手术。根据术前 HKA 角,将膝关节表型分为三组(内翻、直、外翻)。分析骨切是否为解剖学(单个关节面的偏差<2mm)或非解剖学(单个关节面的偏差>4mm)。
结果
AMA 在每个组中均达到术后 HKA 目标,超过 93%(内翻:636 例,94%;直:191 例,98%;外翻:123 例,98%)。在 0°伸展时,内翻膝关节中 654 例(96%)、直膝关节中 189 例(97%)和外翻膝关节中 117 例(94%)的间隙平衡。相似数量的病例出现平衡的屈曲间隙(内翻:657 例,97%;直:191 例,98%;外翻:119 例,95%)。在内翻组中,胫骨内侧(89%)和股骨外侧后髁(59%)进行了非解剖学骨切。直膝组的非解剖学骨切值和分布相似(胫骨内侧:73%;股骨外侧后髁 58%)。外翻膝的分布值不同,胫骨外侧(74%)、股骨远端外侧(67%)和股骨外侧后髁(43%)进行了非解剖学骨切。
结论
在所有膝关节表型中,通过改变患者的自然解剖结构,AMA 目标的达成率很高。在内翻膝关节中,通过胫骨内侧的非解剖学骨切纠正对线,在外翻膝关节中通过胫骨外侧和股骨远端外侧的非解剖学骨切纠正对线。所有表型在约 50%的病例中均在外侧后髁出现非解剖学切除。
证据水平
III 级。
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