TKA is an effective treatment for knee diseases, however, the postoperative patellofemoral complication rate is as high as 1.3–50% due to the complexity of the biomechanical and anatomical characteristics of the patellofemoral joint[10–12]. The abnormal patellofemoral position can cause anterior knee pain, limited ROM of knee, joint instability, and patellofemoral clunk syndrome after TKA.[13]
The rate of abnormal position of the patella is 11.0–26.4% after TKA [14–17]. In this study of 171 consecutive cases enrolled after TKA, the rate of patella baja was 17.0%, and the rate of patella alta after surgery was 5.8%. The functional score of KSS was significantly different between the Patella baja group and the Patella alta group. As pain assessment scores comprise a larger portion contrasted with ROM scores in the knee score of KSS and the pain of the joint is remarkably alleviated after TKA, the KSS was not statistically different between patella baja group and normal patellar group, despite ROM of knee significantly decreased in patella baja group. Kazemi SM, Bugelli G, and Gaillard R et al found that KSS were not statistically different between the abnormal patella group and the normal patella group[16–18]. This study indicated a statistical difference in postoperative joint mobility between the patella baja group and the normal patella group, which is consistent with the findings of Kazemi SM and Schwab JH et al[18, 19]. The changes of joint line position could cause mutation in patellar height, which resulted in polyethylene spacer wear and reduced knee joint stability[20]. Therefore, to improve ROM and reduce the rate of complications associated with patella baja after TKA, surgeons should perform a careful preoperative X-ray assessment, operate carefully during surgery, bring the reconstructed joint line as close as possible to the native joint line, and invite patients to take long-term regular follow-up and rehabilitation exercises.
Hozack WJ et al. were the first to report the patellar crepitus or clunk syndrome after TKA, and they concluded the mechanism was intercondylar impingement by fibrous nodules located in the junction of the upper pole of the patella and the quadriceps tendon passing the femoral condyle prosthesis [21]. Nam D et al. demonstrated the rate of patella crepitus was 45% after using the posterior stabilized (PS) prosthesis [22], which was much higher than other types of prostheses [23]. The overall rate of patellar crepitus in our study was 34.1%. The rate of patellar crepitus was found to be significantly increased in the patella baja group when compared to the normal patella group. Yau WP et al. indicated that postoperative lower patellar position was associated with the rate of patellar crepitus[24]. Moreover, Conrad DN et al. showed that the design and position of the prosthesis were closely related to patellar crepitus[25]. Pollock et al. revealed furtherly that the higher the intercondylar box and the narrower the width, the higher the rate of patellar crepitus[26]. Interestingly, Schroer WC et al. found that the greater the postoperative joint flexion angle, the higher the rate of patellar crepitus[27]. Therefore, to reduce the rate of patellar rattles after TKA, prosthesis designers could improve the prosthesis by reducing the intercondylar box ratio, increasing the lateral flange of the femoral prosthesis, and extending the gliding groove[28]. Surgeons might choose to use a prosthesis with a lower intercondylar box ratio and repair the joint line according to the assessment of the condition preoperatively, thereby reducing the rate of patellar crepitus and incidental joint weakness after TKA.
This study found that preoperative ROM of knee was a strong predictor for postoperative ROM, which is consistent with the findings of Konrads C et al[29]. Bourne RB et al. discovered that preoperative expectations were a risk factor for the postoperative satisfaction of patients after TKA[30]. This suggests that when orthopedic doctors that patients have poor preoperative joint mobility, they should appropriately subside expectations of patients for postoperative outcomes.
Several limitations in this study should be noted. (1) The sample size included in the study was small. (2) The follow-up period should be continued for a more long-term follow-up to explore the evolution of postoperative KSS, ROM, and patellar height over time. (3)The PS prostheses used in this research were not categorized according to different manufacturers. (4) None of the TKA patients in this study underwent patellar replacement.