Peez Christian, Milstrey Alexander, Zderic Ivan, Deichsel Adrian, Richards R Geoff, Gueorguiev Boyko, Kittl Christoph, Raschke Michael J, Herbst Elmar
AO Research Institute Davos, Davos, Switzerland.
Department of Trauma, Hand and Reconstructive Surgery, University Hospital Münster, Münster, Germany.
Am J Sports Med. 2025 Apr 28:3635465251332593. doi: 10.1177/03635465251332593.
Lateral hinge fractures (LHFs) are considered risk factors for delayed union or nonunion after medial open-wedge high tibial osteotomies (MOWHTOs). However, there is limited evidence on the extent to which the morphology of the hinge fracture influences the stability of a MOWHTO.
PURPOSE/HYPOTHESIS: The purpose of this study was to validate the Takeuchi classification under axial and torsional loading to identify the LHF types requiring surgical treatment. It was hypothesized that (1) LHFs would reduce construct stiffness and increase interfragmentary instability across the osteotomy gap, and (2) shear displacement associated with impaired bone healing of >2 mm would be observed in Takeuchi type 2 and 3 fractures.
Descriptive laboratory study.
A total of 24 fresh-frozen human cadaveric proximal tibiae underwent MOWHTO fixed with a locking compression plate. The specimens were assigned to 3 different groups so that the mean bone mineral density values were similar between the groups. Each group simulated a different type of LHF according to the Takeuchi classification: (1) type 1 fracture, extension along the osteotomy plane; (2) type 2 fracture, extension distal to the proximal tibiofibular joint; and (3) type 3 fracture, proximal extension into the lateral tibial plateau. Each specimen was subjected to 10 quasi-static cycles of axial compression up to 720 N, followed by internal and external torsional loading up to 10 N·m, while the interfragmentary movements were captured with a motion tracking system.
Compared with a MOWHTO with a preserved lateral hinge, Takeuchi type 2 and 3 fractures significantly increased shear displacement and hinge rotation by 2.2 mm and 2.3°, respectively, resulting in at least 80% reduction in torsional stiffness ( < .001). In contrast, Takeuchi type 1 fractures did not significantly alter the torsional stability of a MOWHTO. Takeuchi type 2 and 3 fractures significantly increased axial displacement at the hinge site by 0.2 mm ( < .01) compared with an intact hinge MOWHTO, while axial displacement of the medial osteotomy gap remained unchanged. All Takeuchi types significantly reduced axial construct stiffness by at least 28% ( < .01).
From a biomechanical perspective, Takeuchi type 1 LHFs did not affect the torsional stability of MOWHTO, whereas Takeuchi type 2 and 3 fractures resulted in significantly reduced torsional stiffness, increased shear displacement, and hinge rotation across the osteotomy gap. All Takeuchi fracture types resulted in reduced axial construct stiffness, while axial displacement was not significantly affected by the type of hinge fracture.
The observed shear displacement of >2 mm for Takeuchi type 2 and 3 fractures may be indicative of impaired bone healing and may therefore qualify these fractures for hinge fixation to potentially reduce the risk of delayed union and nonunion.
外侧铰链骨折(LHFs)被认为是内侧开放楔形高位胫骨截骨术(MOWHTOs)后延迟愈合或不愈合的危险因素。然而,关于铰链骨折形态对MOWHTO稳定性影响程度的证据有限。
目的/假设:本研究的目的是在轴向和扭转负荷下验证竹内分类法,以确定需要手术治疗的LHF类型。假设为:(1)LHFs会降低内固定结构刚度,并增加截骨间隙处的骨折块间不稳定性;(2)在竹内2型和3型骨折中,会观察到与骨愈合受损相关的>2 mm的剪切位移。
描述性实验室研究。
对24个新鲜冷冻的人体尸体胫骨近端进行MOWHTO,并使用锁定加压钢板固定。将标本分为3个不同组,使各组间的平均骨密度值相似。根据竹内分类法,每组模拟一种不同类型的LHF:(1)1型骨折,沿截骨平面延伸;(2)2型骨折,向近端胫腓关节远端延伸;(3)3型骨折,向近端延伸至外侧胫骨平台。每个标本先承受10个准静态轴向压缩循环,最大压缩力达720 N,然后进行内、外扭转负荷,最大扭矩达10 N·m,同时用运动跟踪系统记录骨折块间的运动。
与保留外侧铰链的MOWHTO相比,竹内2型和3型骨折显著增加了剪切位移和铰链旋转,分别增加了2.2 mm和2.3°,导致扭转刚度至少降低80%(P<0.001)。相比之下,竹内1型骨折并未显著改变MOWHTO的扭转稳定性。与完整铰链的MOWHTO相比,竹内2型和3型骨折使铰链部位的轴向位移显著增加了0.2 mm(P<0.01),而内侧截骨间隙的轴向位移保持不变。所有竹内类型均使轴向内固定结构刚度至少降低28%(P<0.01)。
从生物力学角度来看,竹内1型LHFs不影响MOWHTO的扭转稳定性,而竹内2型和3型骨折导致扭转刚度显著降低、剪切位移增加以及截骨间隙处的铰链旋转增加。所有竹内骨折类型均导致轴向内固定结构刚度降低,而轴向位移不受铰链骨折类型的显著影响。
观察到竹内2型和3型骨折的剪切位移>2 mm,这可能表明骨愈合受损,因此这些骨折可能适合进行铰链固定,以潜在降低延迟愈合和不愈合的风险。
