在计算模拟模型中,在髌股内侧韧带重建中增加胫骨结节内移可减少多方向运动期间髌骨的外侧轨迹异常。
Adding Tibial Tuberosity Medialization to Medial Patellofemoral Ligament Reconstruction Reduces Lateral Patellar Maltracking During Multidirectional Motion in a Computational Simulation Model.
作者信息
Elias John J, Cosgarea Andrew J, Tanaka Miho J
机构信息
Department of Health Sciences, Cleveland Clinic Akron General, Cleveland, Ohio, U.S.A.
Department of Orthopaedic Surgery, Johns Hopkins University, Baltimore, Maryland, U.S.A.
出版信息
Arthrosc Sports Med Rehabil. 2023 Jul 10;5(4):100753. doi: 10.1016/j.asmr.2023.100753. eCollection 2023 Aug.
PURPOSE
To determine whether adding tibial tuberosity medialization to medial patellofemoral ligament (MPFL) reconstruction reduces lateral patellar maltracking during a dynamic multidirectional activity and to investigate when medial patellofemoral contact pressures are elevated during daily activities, such as squatting.
METHODS
Seven computational models representing knees with patellar instability, including lateral patellar maltracking, were evaluated following simulated MPFL reconstruction (bisect offset index > .75). Tibial tuberosity medialization was added to MPFL reconstruction for each model. Patellar tracking during multidirectional motion was evaluated by simulating pivot landing. Analysis of pivoting focused on early flexion (5° to 40°). Patellofemoral contact pressures during daily function were evaluated by simulating knee squatting. Data were analyzed with paired comparisons between MPFL reconstruction with and without tuberosity medialization.
RESULTS
The patella dislocated during pivoting for 2 models with an isolated MPFL reconstruction and for 1 model including tibial tuberosity medialization. Adding tibial tuberosity medialization to MPFL reconstruction significantly decreased bisect offset index by ∼0.1 from 5° to 40° ( < .03). For knee squatting, medializing the tibial tuberosity significantly increased maximum medial contract pressure by ∼0.5 MPa from 30° to 85° ( < .05) but did not significantly influence maximum lateral pressure.
CONCLUSIONS
In this study of simulated multidirectional motion, MPFL reconstruction did not sufficiently constrain the patella for some knees. Adding tibial tuberosity medialization to MPFL reconstruction in these models reduced lateral patellar maltracking during multidirectional motion but increased pressure applied to medial cartilage during squatting.
CLINICAL RELEVANCE
After establishing the influence of tibial tuberosity medialization on patellar maltracking for an idealized population, as was done in the current study, future simulation studies can be performed to better determine the anatomical characteristics of patients for whom tibial tuberosity medialization is needed to reduce the risk of postoperative patellar maltracking.
目的
确定在重建内侧髌股韧带(MPFL)时增加胫骨结节内移是否能减少动态多方向活动期间髌骨的外侧半脱位,并研究在日常活动(如深蹲)中何时内侧髌股接触压力会升高。
方法
对七个代表存在髌骨不稳定(包括髌骨外侧半脱位)的膝关节的计算模型进行评估,评估内容为模拟MPFL重建后(二分偏移指数>.75)的情况。为每个模型在MPFL重建基础上增加胫骨结节内移。通过模拟枢轴落地评估多方向运动期间的髌骨轨迹。枢轴分析聚焦于早期屈曲(5°至40°)。通过模拟膝关节深蹲评估日常功能期间的髌股接触压力。采用配对比较分析有或无胫骨结节内移的MPFL重建之间的数据。
结果
在枢轴运动期间,2个单纯MPFL重建模型和1个包括胫骨结节内移的模型出现了髌骨脱位。在MPFL重建中增加胫骨结节内移,使5°至40°时的二分偏移指数显著降低约0.1(P<.03)。对于膝关节深蹲,胫骨结节内移使30°至85°时的最大内侧接触压力显著增加约0.5MPa(P<.05),但对最大外侧压力无显著影响。
结论
在这项模拟多方向运动的研究中,对于某些膝关节,MPFL重建不足以限制髌骨。在这些模型中,MPFL重建增加胫骨结节内移可减少多方向运动期间的髌骨外侧半脱位,但会增加深蹲期间内侧软骨所受压力。
临床意义
在本研究中确定了胫骨结节内移对理想化人群髌骨半脱位的影响后,未来可进行模拟研究,以更好地确定为降低术后髌骨半脱位风险而需要进行胫骨结节内移的患者的解剖学特征。
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