A Comparative Biomechanical Study of Alternative Medial Collateral Ligament Reconstruction Techniques.
| Autor: | Shatrov, Jobe, Bonacic Bartolin, Petra, Holthof, Sander R., Ball, Simon, Williams, Andy, Amis, Andrew A. |
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| Předmět: |
BIOMECHANICS
MEDIAL collateral ligament (Knee) IN vitro studies REPEATED measures design T-test (Statistics) DATA analysis RESEARCH funding MEDICAL cadavers DESCRIPTIVE statistics KNEE joint ROTATIONAL motion ANALYSIS of variance STATISTICS PLASTIC surgery COMPARATIVE studies DATA analysis software JOINT instability RANGE of motion of joints |
| Zdroj: | American Journal of Sports Medicine; May2024, Vol. 52 Issue 6, p1505-1513, 9p |
| Abstrakt: | 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 (P =.271) up to 14° at 100° of flexion (P =.002), and valgus laxity increased by 5° to 8° between 0° and 100° of flexion (P <.024 at 0°-90°). ATT did not increase significantly in isolated MCL deficiency (P >.999). All 5 reconstructions restored native stability across the arc of flexion apart from the isolated long sMCL, which demonstrated residual ER instability (P ≤.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. [ABSTRACT FROM AUTHOR] |
| Databáze: | Complementary Index |
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