[Analysis of factors affecting the incidence of osteoarthritis following arthroscopic surgery for degenerative posterior horn of medial meniscus injuries].

OBJECTIVE

To investigate the risk factors associated with the development of knee osteoarthritis (OA) following arthroscopic surgery for degenerative lesions of the posterior horn of the medial meniscus.

METHODS

Between January 2012 and January 2014, a retrospective analysis was conducted on 506 patients who underwent arthroscopic surgery for degenerative disease of the posterior horn of the medial meniscus. The cohort included 230 males and 276 females, aged from 32 to 58 years old with an average of (46.77±9.02) years old. According to the results of postoperative follow-up, patients were categorized into a knee osteoarthritis(OA) group and a non-OA group. The following parameters were recorded for each subject:gender, medial proximal tibial angle (MPTA), hip-knee-ankle angle (HKA), presence of bone edema on MRI, physical characteristics (including McMurray test results, locking symptoms, and medial knee tenderness points), meniscus protrusion, type of meniscus injury, and free body condition as observed via arthroscopy. Multivariate unconditional Logistic regression analysis was employed to investigate the associated factors influencing the 10-year postoperative incidence of knee osteoarthritis following surgery for degenerative injury of the posterior horn of the medial meniscus. Independent risk factors potentially influencing the development of postoperative OA were identified, and a nomogram-based predictive model for postoperative OA was established. The discriminatory ability and calibration accuracy of the model were assessed using the C-index and Hosmer-Lemeshow goodness-of-fit test, respectively. Furthermore, internal validation was performed using the bootstrap resampling method.

RESULTS

Within a 10-year period following arthroscopic surgery, there were 123 patients in the OA group and 383 patients in the non-OA group. Significant differences were observed between two groups with respect to gender (=5.156, =0.023), MPTA<86.6° (=21.671, <0.001), varus lower limb alignment( = 80.086, <0.001). Additionally, meniscus extrusion (=6.371, =0.012), meniscus transverse tear (=14.573, <0.001), and bone edema detected on MRI(=9.881, =0.002) were identified as factors associated with the development of postoperative knee OA. The multifactorial Logistic regression analysis revealed that the lower limb line of force inversion =4.324, 95% (1.391, 13.443), =0.011;MPTA <86.6°, =2.519, 95% (1.150, 5.519), =0.021;transverse meniscus tear, =4.546, 95% (1.827, 11.310), =0.001;meniscus ectropion, =5.401, 95% (1.992, 14.646), =0.001;and bone edema manifestation on MRI =2.692, 95% (1.169, 6.200), =0.020. They were independent risk factors associated with the development of postoperative OA. The area under the ROC curve predicted by the model was 0.927, 95% (0.903, 0.950). The Hosmer-Lemeshow goodness-of-fit test, used to evaluate the accuracy of the model, yielded =0.689. Additionally, the internally sampled calibration curve demonstrated good consistency with the actual postoperative OA outcomes.

CONCLUSION

Varus alignment of the lower extremity, MPTA <86.6°, transverse meniscus tear, lateral meniscus injury, and bone marrow edema observed on MRI were independent risk factors for the development of knee osteoarthritis following arthroscopic surgery. Additionally, the prognostic model demonstrated excellent predictive performance.