NOVEL SINGLE-STRAND ‘SHORT ISOMETRIC CONSTRUCT’ (SIC) MEDIAL COLLATERAL LIGAMENT RECONSTRUCTION RESTORES VALGUS AND ROTATIONAL STABILITY THROUGHOUT KNEE RANGE OF MOTION

Borque K, Han S, Gold J, et al. NOVEL SINGLE-STRAND ‘SHORT ISOMETRIC CONSTRUCT’ (SIC) MEDIAL COLLATERAL LIGAMENT RECONSTRUCTION RESTORES VALGUS AND ROTATIONAL STABILITY THROUGHOUT KNEE RANGE OF MOTION. Orthop Procs. 2023;105-B(SUPP_13):76-76. doi:10.1302/1358-992X.2023.13.076

Borque, Kyle, et al. “NOVEL SINGLE-STRAND ‘SHORT ISOMETRIC CONSTRUCT’ (SIC) MEDIAL COLLATERAL LIGAMENT RECONSTRUCTION RESTORES VALGUS AND ROTATIONAL STABILITY THROUGHOUT KNEE RANGE OF MOTION.” Orthopaedic Proceedings, vol. 105-B, no. SUPP_13, 2023, pp. 76-76., https://doi.org/10.1302/1358-992X.2023.13.076

Borque, K., Han, S., Gold, J., Sij, E., Laughlin, M., Amis, A., Williams, A., Noble, P., & Lowe, W. (2023). NOVEL SINGLE-STRAND ‘SHORT ISOMETRIC CONSTRUCT’ (SIC) MEDIAL COLLATERAL LIGAMENT RECONSTRUCTION RESTORES VALGUS AND ROTATIONAL STABILITY THROUGHOUT KNEE RANGE OF MOTION. Orthopaedic Proceedings, 105-B(SUPP_13), 76-76. https://doi.org/10.1302/1358-992X.2023.13.076

Borque, K., Han, S., Gold, J., Sij, E., Laughlin, M., Amis, A. et al. (2023) “NOVEL SINGLE-STRAND ‘SHORT ISOMETRIC CONSTRUCT’ (SIC) MEDIAL COLLATERAL LIGAMENT RECONSTRUCTION RESTORES VALGUS AND ROTATIONAL STABILITY THROUGHOUT KNEE RANGE OF MOTION.” Orthopaedic Proceedings, 105-B(SUPP_13), pp. 76-76. Available at: https://doi.org/10.1302/1358-992X.2023.13.076

Borque, Kyle, Shuyang Han, Jonathan Gold, Ethan Sij, Mitzi Laughlin, Andrew Amis, Andy Williams, Philip Noble, and Walter Lowe. “NOVEL SINGLE-STRAND ‘SHORT ISOMETRIC CONSTRUCT’ (SIC) MEDIAL COLLATERAL LIGAMENT RECONSTRUCTION RESTORES VALGUS AND ROTATIONAL STABILITY THROUGHOUT KNEE RANGE OF MOTION.” Orthopaedic Proceedings 105-B, no. SUPP_13 (2023): 76-76. https://doi.org/10.1302/1358-992X.2023.13.076

Borque K, Han S, Gold J, Sij E, Laughlin M, Amis A, et al. NOVEL SINGLE-STRAND ‘SHORT ISOMETRIC CONSTRUCT’ (SIC) MEDIAL COLLATERAL LIGAMENT RECONSTRUCTION RESTORES VALGUS AND ROTATIONAL STABILITY THROUGHOUT KNEE RANGE OF MOTION. Orthop Procs. 2023 Aug 7;105-B(SUPP_13):76-76. https://doi.org/10.1302/1358-992X.2023.13.076

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Abstract

Introduction

Persistent medial laxity increases the risk of failure for ACL reconstruction. To address this, multiple reconstruction techniques have been created. To date, no single strand reconstruction constructs have been able to restore both valgus and rotational stability. In response to this, a novel single strand Short Isometric Construct (SIC) MCL reconstruction was developed.

Methods

Eight fresh-frozen cadaveric specimens were tested in three states: 1) intact 2) after sMCL and dMCL transection, and 3) after SIC MCL reconstruction. In each state, four loading conditions were applied at varying flexion angles: 90N anterior drawer, 5Nm tibial external rotation torque, 8Nm valgus torque, and combined 90N anterior drawer plus 5Nm tibial external rotation torque.

Results

Transection of the sMCL and dMCL resulted in increased laxity with external rotation torque, valgus torque, and combined anterior drawer plus external rotation. SIC MCL reconstruction restored external rotation and valgus stability to intact levels throughout all degrees of flexion. In the combined test SIC MCL reconstruction also restored stability to intact levels for both anterior distraction and external rotation throughout the range of motion. No significant differences were noted between intact and SIC reconstruction.

Conclusion

The single-limb short isometric construct (SIC) MCL reconstruction restored native valgus and rotatory stability to a sMCL- and dMCL-deficient knee in biomechanical testing.