在胫骨高位截骨术中增加保护性 K 线可增加外侧铰链抵抗骨折的能力。
Adding a protective K-wire during opening high tibial osteotomy increases lateral hinge resistance to fracture.
机构信息
Department of Orthopedics and Traumatology, Institute of movement and locomotion, St Marguerite Hospital, 270 Boulevard Sainte Marguerite, BP 29, 13274, Marseille, France.
Department of Orthopedics and Traumatology, Institute for Locomotion, Aix Marseille Univ, APHM, CNRS, ISM, Sainte-Marguerite Hospital, Marseille, France.
出版信息
Knee Surg Sports Traumatol Arthrosc. 2020 Mar;28(3):751-758. doi: 10.1007/s00167-019-05404-7. Epub 2019 Feb 19.
PURPOSE
It was hypothesized in this in-vitro study that positioning a K-wire intersecting the cutting plane at the theoretical lateral hinge location would limit the cut depth and help preserve the lateral hinge during the opening of the osteotomy. Objectives were (1) to compare the mechanical resistance of the hinge and the protective effect of leaving the K-wire during the opening procedure (2) to check if the K-wire would limit the depth of the osteotomy.
METHODS
An ex-vivo mechanical study, testing 5 pairs of fresh-frozen tibias, was designed. CT-scan based Patient-specific cutting guides were obtained to define the cutting plane and the location of the K-wire at the hinge, using standardized 3D planning protocol. In each pair, OWHTO was performed either with or without the K-wire. To evaluate the hinge's resistance to fracture, the specimens were rigidly fixed at the proximal tibia and a direct load was applied on the free tibial diaphysis to open the osteotomy. The maximum load at breakage, maximum permissible displacement and maximal angulation of the osteotomy before hinge failure was measured. To assess the preservation of an unscathed hinge (protected by the K-wire), the distance from the end of the osteotomy cut to the lateral tibial cortical was measured in mm.
RESULTS
The maximum load to hinge breakage in the K-wires PsCG knees compared to the control group (48.3 N vs 5.5 N, p = 0.004), the maximum permissible displacement (19.8 mm vs 7.5 mm, p = 0.005) and the maximal angulation of the osteotomy before hinge breakage (9.9° vs 2.9°, p = 0.002) were all statistically superior in the K-wires PsCG knees compared to the control group. A mean distance of 10 ± 1 mm between cut-bone (saw-print) and lateral hinge cortical bone was found post-performing the osteotomy and the hinge failing.
CONCLUSION
The maximum load to breakage and the maximum permissible displacement were, respectively, 880% and 260% higher during the opening of the OWHTO in using K-wires compared to the non-K-wire control group. This confirms the mechanical advantage of using a K-wire for both stabilization and protecting the Hinge during OWHTO. This comparative cadaveric study shows an improvement of the lateral hinges resistance to failing during the opening of the osteotomy. This can be achieved by the placement of a K-wire intersecting the cutting plane at the theoretical location of the lateral hinge.
目的
本体外研究假设在理论外侧铰链位置交叉切割平面的 K 线将限制切割深度并有助于在截骨术打开过程中保护外侧铰链。目的是 (1) 比较铰链的机械阻力和在打开过程中保留 K 线的保护作用,(2) 检查 K 线是否会限制截骨术的深度。
方法
设计了一项离体力学研究,测试了 5 对新鲜冷冻的胫骨。使用标准化的 3D 规划方案,通过 CT 扫描获得基于患者的截骨导向器,以定义切割平面和铰链处的 K 线位置。在每对中,OWHTO 要么使用 K 线,要么不使用 K 线。为了评估铰链的抗断裂能力,将标本在胫骨近端刚性固定,并在游离胫骨骨干上施加直接载荷以打开截骨术。测量断裂时的最大载荷、最大允许位移和铰链失效前截骨术的最大角度。为了评估未受损铰链(受 K 线保护)的保留情况,以毫米为单位测量截骨术末端到胫骨外侧皮质的距离。
结果
与对照组相比,K 线 PS CG 膝关节铰链断裂的最大载荷(48.3 N 比 5.5 N,p = 0.004)、最大允许位移(19.8 mm 比 7.5 mm,p = 0.005)和铰链断裂前截骨术的最大角度(9.9°比 2.9°,p = 0.002)均具有统计学优势。在进行截骨术和铰链失效后,发现截骨术末端和外侧铰链皮质骨之间的平均距离为 10 ± 1 毫米。
结论
与非 K 线对照组相比,在使用 K 线进行 OWHTO 打开时,铰链断裂的最大载荷和最大允许位移分别提高了 880%和 260%。这证实了在 OWHTO 期间使用 K 线进行稳定和保护铰链的机械优势。这项比较尸体研究显示,通过在理论外侧铰链位置交叉切割平面放置 K 线,可以提高外侧铰链在截骨术打开过程中的抗失效能力。
Zotero 插件