A Comparative Biomechanical Study of Alternative Medial Collateral Ligament Reconstruction Techniques

Overview

Journal Am J Sports Med

Publisher Sage Publications

Specialty Orthopedics

Date 2024 Mar 29

PMID 38551132

Authors

Jobe Shatrov

Petra Bonacic Bartolin

Sander R Holthof

Simon Ball

Andy Williams

Andrew A Amis

Affiliations

Soon will be listed here.

Abstract

Background: There is little evidence of the biomechanical performance of medial collateral ligament (MCL) reconstructions for restoring stability to the MCL-deficient knee regarding valgus, external rotation (ER), and anteromedial rotatory instability (AMRI).

Hypothesis: A short isometric reconstruction will better restore stability than a longer superficial MCL (sMCL) reconstruction, and an additional deep MCL (dMCL) graft will better control ER and AMRI than single-strand reconstructions.

Study Design: Controlled laboratory study.

Methods: Nine cadaveric human knees were tested in a kinematics rig that allowed tibial loading while the knee was flexed-extended 0° to 100°. Optical markers were placed on the femur and tibia and displacements were measured using a stereo camera system. The knee was tested intact, and then after MCL (sMCL + dMCL) transection, and loaded in anterior tibial translation (ATT), ER, varus-valgus, and combined ATT + ER (AMRI loading). Five different isometric MCL reconstructions were tested: isolated long sMCL, a short construct, each with and without dMCL addition, and isolated dMCL reconstruction, using an 8 mm-wide synthetic graft.

Results: MCL deficiency caused an increase in ER of 4° at 0° of flexion ( = .271) up to 14° at 100° of flexion ( = .002), and valgus laxity increased by 5° to 8° between 0° and 100° of flexion ( < .024 at 0°-90°). ATT did not increase significantly in isolated MCL deficiency ( > .999). All 5 reconstructions restored native stability across the arc of flexion apart from the isolated long sMCL, which demonstrated residual ER instability (≤ .047 vs other reconstructions).

Conclusion: All tested techniques apart from the isolated long sMCL graft are satisfactory in the context of restoring the valgus, ER, and AMRI stability to the MCL-deficient knee in a cadaveric model.

Clinical Relevance: Contemporary MCL reconstruction techniques fail to control ER and therefore AMRI as they use a long sMCL graft and do not address the dMCL. This study compares 5 MCL reconstruction techniques. Both long and short isometric constructs other than the long sMCL achieved native stability in valgus and ER/AMRI. Double-strand reconstructions (sMCL + dMCL) tended to provide more stability. This study shows which reconstructions demonstrate the best biomechanical performance, informs surgical reconstruction techniques for AMRI, and questions the efficacy of current popular techniques.

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