Baylor University Medical Center, Dallas, Texas, USA.
Hospital for Special Surgery, New York City, New York, USA.
Am J Sports Med. 2020 Dec;48(14):3557-3565. doi: 10.1177/0363546520966609. Epub 2020 Nov 2.
Adult medial patellofemoral ligament (MPFL) reconstruction techniques are not appropriate for the skeletally immature patient given the proximity of the distal femoral physis. Biomechanical consequences of reconstructions aimed at avoiding the physis have not been adequately studied.
To quantify the biomechanical effects of MPFL reconstruction techniques intended for skeletally immature patients.
Controlled laboratory study.
Four MPFL reconstruction techniques were evaluated using a computationally augmented cadaveric model: (1) Schoettle point: adult-type reconstruction; (2) epiphyseal: socket distal to the femoral physis; (3) adductor sling: graft wrapped around the adductor tendon; (4) adductor transfer: adductor tendon transferred to patella. A custom testing frame was used to cycle 8 knees for each technique from 10° to 110° of flexion. Patellofemoral kinematics were recorded using a motion camera system, contact stresses were recorded using Tekscan pressure sensors, and MPFL length was computed using an inverse kinematics computational model. Change in MPFL length, patellar facet forces, and patellar kinematics were compared using generalized estimating equation modeling.
Schoettle point reconstruction was the most isometric, demonstrating isometry from 10° to 100°. The epiphyseal technique was isometric until 60°, after which the graft loosened with increasing flexion. The adductor sling and adductor transfer techniques were significantly more anisometric from 40° to 110°. Both grafts tightened with knee flexion and resulted in significantly more lateral patellar tilt versus the intact state in early flexion and significantly higher contact forces on the medial facet versus the epiphyseal technique in late flexion.
In this cadaveric simulation, the epiphyseal technique allowed for a more isometric ligament until midflexion, when the patella engaged within the trochlear groove. The adductor sling and adductor transfer grafts became tighter in flexion, resulting in potential loss of motion, pain, graft stretching, and failure. Marginal between-condition differences in patellofemoral contact mechanics and patellar kinematics were observed in late flexion.
In the skeletally immature patient, using an epiphyseal type MPFL reconstruction with the femoral attachment site distal to the physis results in a more isometric graft compared with techniques with attachment sites proximal to the physis.
成人内侧髌股韧带(MPFL)重建技术不适用于骨骼未成熟的患者,因为其接近股骨远端骨骺。旨在避开骨骺的重建的生物力学后果尚未得到充分研究。
量化针对骨骼未成熟患者的 MPFL 重建技术的生物力学影响。
对照实验室研究。
使用计算增强的尸体模型评估了四种 MPFL 重建技术:(1)Schoettle 点:成人型重建;(2)骺板:位于股骨骨骺远端的插座;(3)收肌吊带:移植物包裹在收肌腱上;(4)收肌转移:收肌腱转移到髌骨。使用定制测试框架从 10°到 110°的弯曲角度对每个技术的 8 个膝关节进行 8 个循环。使用运动摄像系统记录髌股关节运动学,使用 Tekscan 压力传感器记录接触压力,使用逆运动学计算模型计算 MPFL 长度。使用广义估计方程模型比较 MPFL 长度变化、髌骨面力和髌骨运动学。
Schoettle 点重建最等长,从 10°到 100°均保持等长。骺板技术在 60°之前是等长的,之后随着弯曲度的增加,移植物松动。收肌吊带和收肌转移技术从 40°到 110°明显更不等长。随着膝关节弯曲,两个移植物都变得更紧,与完整状态相比,在早期弯曲时导致髌骨外侧倾斜度显著增加,在晚期弯曲时导致内侧关节面的接触力显著高于骺板技术。
在这项尸体模拟中,骺板技术在中弯曲时允许韧带更等长,此时髌骨在滑车槽内接合。收肌吊带和收肌转移移植物在弯曲时会变得更紧,从而导致潜在的运动丧失、疼痛、移植物拉伸和失败。在晚期弯曲时,髌股接触力学和髌骨运动学的条件之间存在边缘差异。
在骨骼未成熟的患者中,与骺板近端附着点的技术相比,使用骺板类型的 MPFL 重建,股骨附着点位于骺板远端,可产生更等长的移植物。
