The most important result of this study is the fivefold increase in risk for OA with a failed meniscal repair. Failed meniscal repair was also associated with worse subjective outcome in the KOOS Symptoms, ADL and Sports/Rec subscales as well as Lysholm. This supports our hypotheses and gives evidence to the fact that the meniscus is important for the protection of the cartilage and the function of the knee joint.
Failure of meniscus repair
The overall failure rate of 23.7% is in line with previous publications [
33]. Worth mentioning is the shift in surgical technique from the previous meniscal arrows to the modern all-inside devices during the timespan of our study. Medial meniscus repairs have significantly more failures than lateral.
Failure of meniscus repair in conjunction with ACLR are generally reported to be lower than isolated repairs [
33]. This is probably due to the beneficial effect of ACLR, theoretically both because of unavoidable restrictions postoperatively and the abundance of healing factors during the surgical procedure. In the first analysis, no such association was observed. When performing a sub-analysis between isolated repair or repair in conjunction to an ACLR, there was, however, significantly less failure in the meniscus repair and ACLR group.
Patient-reported outcome
Patient-reported knee function has been reported to be influenced by the status of the meniscus. Lutz et al. [
22] report superior results on all KOOS subscales but QoL for meniscal repair compared to meniscectomy. In association to an ACLR, meniscus repair has been reported to contribute to both better and worse outcome compared to resection in short-term follow-up. Melton et al. [
24] reported worse results in the IKDC for patients who underwent a meniscectomy in conjunction to an ACLR. In a publication by Svantesson et al. [
41] patients with a meniscus repair performed concomitantly to an ACLR demonstrated worse KOOS values at 1-year follow-up and Lysholm at 6 months follow-up. Similarly, LaPrade et al. [
21] reported worse results after ACLR and meniscus repair in the KOOS Symptoms and QoL subscales at 2-year follow-up. With the uncertainty of potential failures of meniscus repair in the mentioned studies, Cristiani et al. [
7] presented a similar study but in addition created subgroups depending on successful or failed meniscal repair. They found no difference in any of the KOOS subscales at 1- and 2-year follow-up for successful meniscus repair in conjunction to ACLR but poorer results with a failed meniscus repair. Phillips et al. [
30] did on the contrary find worse results in terms of KOOS for patients who in association to an ACLR had a meniscus resection compared to meniscus repair. In a study with similar follow-up time as the present, Kimura et al. [
19] reported excellent results in terms of Lysholm for patients who had undergone a meniscal repair. The numbers in their study was, however, small.
In terms of subjective outcome after ACLR and meniscus pathology, the Sports and recreation and Quality of Life subscales are reported to be of greatest importance [
26].
The results of this study indicate that a meniscus injury affects the patients’ ability to be active in sports 9 years after their meniscus injury according to KOOS. The group with failed meniscus repair had an average of 55 and the group without failure 66 which is more than the reported minimal clinically important difference (MCID) of eight points [
3]. Compared to a reference population for a similar age group without knee problems described by Paradowski et al. [
29], the meniscus injury affects the long-term health-related quality of life in the whole group presented in Fig.
1. KOOS symptoms subscale had the strongest correlation to failed meniscus repair, but only seven points difference which gives a questionable clinical relevance.
Osteoarthritis
The beneficial effect of the meniscus on cartilage protection has previously been described [
9,
10,
17,
23,
27,
38‐
40]. Already in 1948, Fairbank reported an increased risk for OA with meniscus resection [
12].
Barenius et al. [3] reported that a medial meniscus resection increases the risk for OA with an OR of 4.8, and a lateral meniscus resection with an OR of 4.2, both compared to resection. This is in line with Meunier et al. [
25], who identified the status of the meniscus as the most important factor for OA after an ACL injury.
In this study, a significantly higher risk for OA with failed meniscus repair on the medial meniscus was found. This is in contrast to most previous studies indicating the lateral meniscus to be of greater importance for the development of OA [
5,
6,
11]. The latter is supported by the report that removal of the medial meniscus increases the contact stress by 100%, whereas removal of the lateral meniscus increases contact stress by 200–300% [
13]. The numbers in our study are small when looking at the sub-analysis of failed repair of the medial versus lateral meniscus. Higuchi et al. [
16] did, however, also find the medial meniscus to be of greater importance for the protection against OA. During standing and running much of the loading goes through the medial compartment [
14]. Obviously, this depends on the individual mechanical alignment. In the present cohort, no alignment measurements were made. Furthermore the medial meniscus has been reported to be of importance for the anterioposterior stability in the ACL reconstructed knee [
8]. This could potentially be an explanation for the importance of the medial meniscus on the development of OA.
Non-response analysis
Fifty-one percent answered the questionnaire. This is a relatively large loss to follow-up, but still comparable to the numbers in the Swedish National Knee Ligament Register (SNKLR) at 2-year follow-up [
1]. Women were overrepresented responders to the questionnaire and completed the radiological examinations to a greater extent than men. This is in line with a previous non-response analysis performed on the SNKLR [
31]. Patients who answered the questionnaire and completed the radiological examinations were also younger than non-responders, though not statistically significant. This is conflicting compared to results from the SNKLR. There was a significant difference in the repair group for those who answered the questionnaire. This is assumed to have no clinical implication since follow-up time between the groups did not differ.
One limitation of this study lays in its retrospective chart analysis. Furthermore, only vertical, longitudinal ruptures were included, but there were no strict criteria for what size or vascularization zone of the meniscus injury was to be repaired and thus included in the study. No allocation between different interventions was performed. The comparison is based on failed and successful repairs; however, there might be several factors for the failures that have not been analyzed. An ongoing degeneration could result in less successful repair, and also affect future OA in the knee joint. Additionally, no strict postoperative rehab protocol was used. In terms of restrictions and assessment for return to sports, standardized criteria were used, but physiotherapists could use their own rehab protocol, a protocol that we did not have access to in many of the cases.
Another limitation is that we only analyzed charts from our hospital. Even though we know that most patients are prone to contact the same clinic again if some adverse event would occur, we cannot be certain of this. During such a long follow-up time, it is for example unavoidable that some patients move and therefore seek consultation somewhere else. The number of failures could, therefore, potentially be higher. The individuals who answered the questionnaire and performed an X-ray have given information about contact at any other hospital or clinic, but those who did not answer we cannot be sure about.
The search in the chart database was based on meniscus repair. There is a possibility that some of the patients have had a surgical procedure, such as meniscus resection, cartilage injury etc., in the opposite knee without us finding that in our scrutiny.
Furthermore, we had limited information on BMI and smoking in the study. BMI has been reported to be of importance for the development of OA [
37]. Smoking has been reported to increase the risk for failure after meniscal repair [
4].
There was no information about knee alignment in the study. This could potentially influence both failure of a repaired meniscus and the development of OA.
The loss to follow-up is also a limitation. Even though it is desirable to have more patients included, 50% loss to follow-up is somewhat expected given the comparison of register studies.
Even though meniscal repair normally increases surgical time and costs in the short perspective, the long-term benefits for individuals and society seems unquestionable with increased functional outcome as well as reduction of subsequent osteoarthritis.