The Anterior Fibers of the Superficial MCL and the ACL Restrain Anteromedial Rotatory Instability

Herbst, Elmar; Muhmann, Raphael J.; Raschke, Michael J.; Katthagen, J. Christoph; Oeckenpöhler, Simon; Wermers, Jens; Glasbrenner, Johannes; Robinson, James R.; Kittl, Christoph

Research article (journal) | Peer reviewed

Abstract

BACKGROUND - PURPOSE - STUDY DESIGN - METHODS - RESULTS - CONCLUSION - CLINICAL RELEVANCE; There is limited knowledge about how the anterior cruciate ligament (ACL) and capsuloligamentous structures on the medial side of the knee act to control anteromedial rotatory knee instability.; To investigate the contribution of the medial retinaculum, capsular structures (anteromedial capsule, deep medial collateral ligament [MCL], and posterior oblique ligament), and different fiber regions of the superficial MCL to restraining knee laxity, including anteromedial rotatory instability.; Controlled laboratory study.; Eight fresh-frozen human cadaveric knees were tested using a 6 degrees of freedom robotic testing system in a position-controlled mode. Loads of 10 N·m valgus rotation, 5 N·m tibial external rotation, 5 N·m tibial internal rotation, and 134 N anterior tibial translation in 5 N·m external rotation were applied at different flexion angles. The motion of the intact knee at 0° to 120° of flexion was replicated after sequential excision of the sartorial fascia; anteromedial retinaculum; anteromedial capsule; anterior, middle, and posterior fibers of the superficial MCL; the deep MCL; the posterior oblique ligament; and the ACL. The reduction in force/torque indicated the contribution of each resected structure to resisting laxity. A repeated-measures analysis of variance with a post hoc Bonferroni test was used to analyze the relative force and torque changes from the intact state.; The superficial MCL was the most important restraint to valgus rotation from 0° to 120° and provided the largest contribution to resisting external rotation between 30° and 120° of knee flexion, gradually increasing from 25.2% ± 7.4% at 30° to 36.9% ± 15.4% at 90°. The posterior oblique ligament contributed significantly to resisting valgus rotation only in extension (17.2% ± 12.1%) but was the major restraint to internal rotation at 0° (46.7% ± 13.1%) and 30° (30.4% ± 17.7%) of flexion. The sartorial fascia and anteromedial retinaculum resisted ER at all knee flexion angles (P < .05) and was the single most important restraint in the extended knee (19.5% ± 11%). The capsular structures (anteromedial capsule and deep MCL) had a combined contribution of 20% ± 11.5% at 0° and 23.4% ± 10.5% at 120° of knee flexion but were less important from 30° to 90°. The ACL was the primary restraint to anterior tibial translation in external rotation between 0° and 60° of flexion (50.2% ± 16.9% at 30°), but the superficial MCL was more important at 90° to 120° of knee flexion (36.8% ± 16.4% at 90°). The anterior, middle, and posterior regions of the superficial MCL contributed differently to the simulated laxity tests. The anterior fibers were the most important part of the superficial MCL in resisting external rotation and combined anterior tibial translation in external rotation.; The superficial MCL not only was the primary restraint to valgus rotation throughout the range of knee flexion but also importantly contributed to resisting anterior tibial translation in external rotation, particularly in deeper flexion in the cadaveric model. The anterior fibers of the superficial MCL are the most important superficial MCL fibers in resisting anterior tibial translation in external rotation. This study suggests that a medial reconstruction that reproduces the function of the posterior MCL fibers and posterior oblique ligament may not best control anteromedial rotatory instability.; Based on these data, there is a need for an individualized medial reconstruction to address different types of medial injury patterns and instabilities.

Details about the publication

JournalAmerican Journal of Sports Medicine (Am J Sports Med)
Volume51
Issue11
Page range2928-2935
StatusPublished
Release year2023 (28/07/2023)
Language in which the publication is writtenEnglish
DOI10.1177/03635465231187043
Keywordsmedial; knee; anteromedial; posteromedial; instability; medial collateral ligament; capsule

Authors from the University of Münster

Glasbrenner, Johannes
Clinic for Accident, Hand- and Reconstructive Surgery
Herbst, Elmar
Clinic for Accident, Hand- and Reconstructive Surgery
Katthagen, Jan Christoph
Clinic for Accident, Hand- and Reconstructive Surgery
Kittl, Christoph
Clinic for Accident, Hand- and Reconstructive Surgery
Oeckenpöhler, Simon Georg
Clinic for Accident, Hand- and Reconstructive Surgery
Raschke, Michael Johannes
Clinic for Accident, Hand- and Reconstructive Surgery