Biomechanical Comparison of Medial Collateral Ligament Reconstructions Using Computer-Assisted Navigation

Background: The medial collateral ligament is a broad ligament that functions as the primary stabilizer against valgus knee stress, particularly at 30 degrees of flexion. Hypothesis: A double-bundle reconstruction technique that better restores the native medial collateral ligament anatomy will restore valgus and external rotation stability to a medial collateral ligament-deficient knee. Study Design: Controlled laboratory study. Methods: Seven fresh-frozen cadaveric knees were studied. A surgical navigation system was used to determine valgus opening and external rotation at 0 degrees and 30 degrees with a 9.8-N.m valgus stress applied to the tibia graft isometry at multiple points on the tibia and femur. Intact and disrupted medial collateral ligament knees were used as controls. Four repair techniques were tested: Bosworth, modified Bosworth, anatomical single bundle, and anatomical double bundle. Results: Complete sectioning of the medial collateral ligament resulted in an increase in valgus opening of 5 degrees at 0 degrees and 7.7 degrees at 30 degrees. External rotation increased 4.6 degrees at 0 degrees and 9.7 degrees at 30 degrees. Single-bundle techniques (Bosworth, anatomical single bundle) did not restore valgus laxity at 0 degrees or 30 degrees; the anatomical single bundle did not restore external rotation at 0 degrees. Double-bundle techniques (modified Bosworth, anatomical double bundle) restored valgus laxity and external rotation to the native knee conditions at 0 degrees and 30 degrees. At 30 degrees, the modified Bosworth was 0.3 degrees tighter and the anatomical double bundle 0.2 degrees tighter than was the intact knee. The center of the medial collateral ligament origin on the femur to the proximal insertion of the superficial medial collateral ligament resulted in the most isometric graft position. Conclusion: Medial collateral ligament reconstruction configurations that use a double-bundle reconstruction better resist valgus and external rotations in response to valgus stress than do single-bundle techniques.