Summary

Predictors or contributors to the patellofemoral osteoarthritis (PFOA) after double bundle anterior cruciate ligament reconstruction (ACLR) were retrospectively investigated. Fifty-four patients were assigned in this study. Single and multiple logistic regression analysis showed that age and decreased I-S ratio were considered as main predictors associated with PFOA.

Abstract

Background

Anterior cruciate ligament reconstruction (ACLR) is performed on young athletes as well as on older patients to prevent the risk of osteoarthritis of the knee in the future. However, it has been reported that patellofemoral osteoarthritis (PFOA) occurs approximately 40 % of patients 5 years after ACLR, even relevant contributors were still unknown. In this study, we retrospectively investigated the main predictors for PFOA after ACLR.

Methods

Anatomical double bundle ACLR was performed for 54 patients with hamstrings tendon in outside–in technique. All patients didn't have PFOA at primary ACLR, then, 7 patients (13%) had PFOA, grade 2 or more in ICRS score, detected by second-look arthroscopy. These patients were categorized in the PFOA (+) group and the others in the non–PFOA group. Patient characteristics, clinical outcome, and CT images were used to assess the relevance to PFOA. In the CT images, posterior tibial slope angle and Insall–Salvati ratio (I–S ratio) were measured. Patient characteristics, clinical outcomes, and CT image measurements were compared between the PFOA (+) group and non–PFOA groups, and univariable and multivariate logistic regression analysis were performed.

Results

Patients in the PFOA (+) group were significantly older than those in the non–PFOA group. At 1–year after ACLR, the PFOA (+) group had weaker knee extensor strength and lower Lysholm score. The PFOA (+) group had a significantly decreased I–S ratio at second–look surgery than the non–PFOA group. (p = 0.011) The decrease in I–S ratio was greater in the PFOA (+) group. Multivariate logistic regression analysis showed that age and difference in I–S ratio were significant contributors to PFOA after ACLR. The I–S ratio difference, with a cutoff value of -3.5%, was relevant to the development of PFOA. Age was also relevant with a cutoff value of 34 years.

Discussion

Some previous reports show that alternation of the patella alignment and hypomobility of the patella were more detected in the patients with PFOA after ACLR. Recently, it has been noted that diffuse fibrosis of the infrapatellar fat pad may hamper the smooth grinding motion of the patella, causing stiffening and shortening of the patellar tendon, as well as PFOA. Patellar tendons may be shortened when operated with BTB grafts, although some reports indicate that the situation is nearly identical with hamstring tendons. In the present study, patellar height, I–S ratio, was significantly decreased, and this alteration was associated with the development of PFOA. In conclusion, the decrease in the I–S ratio at 1 year follow-up after ACLR was significantly associated with the development of PFOA, in addition to patients’ age.