Testing of a Novel Method for Securing Ligaments Against Bone During Simultaneous Medial and Lateral Elbow Ligament Reconstruction

Testing of a Novel Method for Securing Ligaments Against Bone During Simultaneous Medial and Lateral Elbow Ligament Reconstruction

A ligament reconstruction method that simultaneously tensions the medial and lateral sides of the elbow and maintains tension with compression plates on the proximal ulna is proposed for the treatment of bidirectional elbow ligament instability. Graft slippage, catastrophic failure, and excessive di...

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Veröffentlicht in:The Journal of hand surgery (American ed.) 2024-11, Vol.49 (11), p.1142.e1-1142.e8
Hauptverfasser: Gibbs, Christopher M., Combs, Taylor N., Nelson, Brody K., Kaufmann, Robert A.
Format: Artikel
Sprache:eng
Schlagworte:
Aged
Biomechanical Phenomena
Bone Plates
Cadaver
Collateral Ligaments - surgery
Elbow
Elbow Joint - physiopathology
Elbow Joint - surgery
Female
Humans
instability
Joint Instability - surgery
ligament
Ligaments, Articular - surgery
Male
Middle Aged
novel
Plastic Surgery Procedures - methods
reconstruction
Suture Techniques
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container_end_page 1142.e8
container_issue 11
container_start_page 1142.e1
container_title The Journal of hand surgery (American ed.)
container_volume 49
creator Gibbs, Christopher M.
Combs, Taylor N.
Nelson, Brody K.
Kaufmann, Robert A.
description A ligament reconstruction method that simultaneously tensions the medial and lateral sides of the elbow and maintains tension with compression plates on the proximal ulna is proposed for the treatment of bidirectional elbow ligament instability. Graft slippage, catastrophic failure, and excessive displacement were evaluated. Biomechanical stability without graft slippage was hypothesized. Eight cadaveric ligament reconstruction simulations were created through the dissection of three cadaver arms. Each reconstruction was statically tested with 160 N in a manner where it was first augmented with an absorbable suture and then without. Then, 3 more ligament reconstruction simulations were created for dynamic testing with each undergoing testing at 80 N for 2,000 cycles at 2 Hz. Construct displacement and graft slippage were recorded for each load application. No grafts failed catastrophically and no graft slippage was observed with either static or dynamic loading. Under static loading, the mean change in displacement between augmented and nonaugmented ligament reconstruction simulations was 28.7% ± 21% (augmented 3.95 ± 1.81 mm vs nonaugmented 4.89 ± 2.22 mm). The mean stiffness was 66.6 ± 26.6 N/mm for augmented and 64.6 ± 23.2 N/mm for nonaugmented simulations. With dynamic loading, the mean displacement for augmented graft ligament reconstruction simulations was 1.55 ± 0.16 mm compared with 2.18 ± 0.77 mm for nonaugmented reconstruction simulations. This method of fixation to the proximal ulna for the simultaneous reconstruction of medial and lateral elbow ligaments successfully prevented graft slippage without excessive construct displacement during static and dynamic testing. Ligament augmentation with absorbable sutures decreased the construct displacement. This ligament fixation method may be a viable alternative for the treatment of concomitant medial and lateral elbow instability.
doi_str_mv 10.1016/j.jhsa.2023.02.008
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subjects Aged
Biomechanical Phenomena
Bone Plates
Cadaver
Collateral Ligaments - surgery
Elbow
Elbow Joint - physiopathology
Elbow Joint - surgery
Female
Humans
instability
Joint Instability - surgery
ligament
Ligaments, Articular - surgery
Male
Middle Aged
novel
Plastic Surgery Procedures - methods
reconstruction
Suture Techniques
title Testing of a Novel Method for Securing Ligaments Against Bone During Simultaneous Medial and Lateral Elbow Ligament Reconstruction
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