Yasuma Sanshiro, Kato Sakurako, Usami Takuya, Hattori Yusuke, Joyo Yuji, Shiraga Hiroo, Nozaki Masahiro, Murakami Hideki, Waguri-Nagaya Yuko
Department of Orthopaedic Surgery, Nagoya City University East Medical Center, 2-23 Wakamizu 1, Chikusa, Nagoya, Japan.
Department of Orthopaedic Surgery, Nagoya City University, Kawasumi 1, Mizuho-Cho, Mizuho, Nagoya, Japan.
Knee Surg Relat Res. 2024 Aug 22;36(1):25. doi: 10.1186/s43019-024-00231-8.
Anterior knee pain due to patellar maltracking following total knee arthroplasty (TKA) reduces patients' satisfaction. This study aimed to determine the patellofemoral pressure (PFP) in patients with favorable patellar tracking (FT) and impaired patellar tracking (IT) following TKA, the factors causing patellar maltracking, and the effect of lateral retinacular release (LRR) on patients with IT.
Forty-four patients with varus knee osteoarthritis undergoing cruciate-retaining TKA were enrolled. After component implantation, patients with a separation of ≥ 2 mm of the patellar medial facet from the medial femoral trochlea throughout knee range of motion were classified into the IT group; meanwhile, the others were classified into the FT group. PFP was measured intraoperatively in three phases: (1) with the resurfaced patella (RP); (2) with the resurfaced patella and knee (RPK); and (3) when LRR was performed in IT (post-LRR). The PFPs at 0°, 90°, 120°, and 135° knee flexion were compared between FT and IT using the Mann-Whitney U test. Pairwise comparison of the PFP in IT between RPK and post-LRR was performed using the Wilcoxon signed-rank test. Correlations between PFP and pre- and postoperative radiographic parameters, such as hip-knee-ankle angle, lateral distal femoral angle, medial proximal tibial angle, anterior femoral offset, Insall-Salvati ratio (ISR), patellar tilt, and patellar resection angle (PRA), were evaluated using Spearman's rank correlation coefficients.
High lateral PFP in the knee flexion position led to patellar maltracking. Patients with IT (n = 24) had higher lateral and lower medial PFP than did patients with FT (n = 20) at 90°, 120°, and 135° knee flexion in RP and RPK. LRR in IT reduced the lateral PFP in the knee flexion position. PRA and ISR were correlated with the lateral PFP at no less than 90° in RP and RPK.
This study demonstrated that internal rotational patellar resection, which resulted in a thick medial patellar remnant and a thin lateral counterpart, and patella alta were the causative factors of high lateral PFP, which induced patellar maltracking after TKA. Surgeons should avoid internal rotational patellar resection to achieve FT and perform LRR in patients with patellar maltracking.
全膝关节置换术(TKA)后因髌骨轨迹不良导致的膝前疼痛会降低患者满意度。本研究旨在确定TKA后髌骨轨迹良好(FT)和髌骨轨迹受损(IT)患者的髌股压力(PFP)、导致髌骨轨迹不良的因素以及外侧支持带松解(LRR)对IT患者的影响。
纳入44例接受保留交叉韧带TKA的膝内翻骨关节炎患者。组件植入后,在整个膝关节活动范围内,髌骨内侧小关节与股骨内侧滑车分离≥2mm的患者被归入IT组;同时,其他患者被归入FT组。术中在三个阶段测量PFP:(1)使用表面置换髌骨(RP)时;(2)使用表面置换髌骨和膝关节(RPK)时;(3)在IT组进行LRR时(LRR后)。使用Mann-Whitney U检验比较FT组和IT组在膝关节屈曲0°、90°、120°和135°时的PFP。使用Wilcoxon符号秩检验对IT组中RPK和LRR后PFP进行成对比较。使用Spearman秩相关系数评估PFP与术前和术后影像学参数之间的相关性,如髋-膝-踝角、股骨远端外侧角、胫骨近端内侧角、股骨前偏移、Insall-Salvati比率(ISR)、髌骨倾斜度和髌骨切除角度(PRA)。
膝关节屈曲位时较高的外侧PFP导致髌骨轨迹不良。在RP和RPK中,IT组(n = 24)在膝关节屈曲90°、120°和135°时的外侧PFP高于FT组(n = 20),内侧PFP低于FT组。IT组的LRR降低了膝关节屈曲位时的外侧PFP。在RP和RPK中,PRA和ISR与不低于90°时的外侧PFP相关。
本研究表明,导致髌骨内侧残余厚而外侧薄的内旋髌骨切除术和高位髌骨是外侧PFP升高的致病因素,这会在TKA后导致髌骨轨迹不良。外科医生应避免内旋髌骨切除术以实现FT,并对髌骨轨迹不良的患者进行LRR。
