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PurposeThe purpose of this study was to analyse the influence of coronal lower limb alignment on collateral ligament strain.MethodsTwelve fresh‐frozen human cadaveric knees were used. Long‐leg standing radiographs were obtained to assess lower limb alignment. Specimens were axially loaded in a custom‐made kinematics rig with 200 and 400 N, and dynamic varus/valgus angulation was simulated in 0°, 30°, and 60° of knee flexion. The changes in varus/valgus angulation and strain within different fibre regions of the collateral ligaments were captured using a three‐dimensional optical measuring system to examine the axis‐dependent strain behaviour of the superficial medial collateral ligament (sMCL) and lateral collateral ligament (LCL) at intervals of 2°.ResultsThe LCL and sMCL were exposed to the highest strain values at full extension (p < 0.001). Regardless of flexion angle and extent of axial loading, the ligament strain showed a strong and linear association with varus (all Pearson's r ≥ 0.98; p < 0.001) and valgus angulation (all Pearson's r ≥ −0.97; p < 0.01). At full extension and 400 N of axial loading, the anterior and posterior LCL fibres exceeded 4% ligament strain at 3.9° and 4.0° of varus, while the sMCL showed corresponding strain values of more than 4% at a valgus angle of 6.8°, 5.4° and 4.9° for its anterior, middle and posterior fibres, respectively.ConclusionThe strain within the native LCL and sMCL was linearly related to coronal lower limb alignment. Strain levels associated with potential ultrastructural damages to the ligaments of more than 4% were observed at 4° of varus and about 5° of valgus malalignment, respectively. When reconstructing the collateral ligaments, an additional realigning osteotomy should be considered in cases of chronic instability with a coronal malalignment exceeding 4°–5° to protect the graft and potentially reduce failures.Level of EvidenceThere is no level of evidence as this study was an experimental laboratory study.
PurposeThe purpose of this study was to analyse the influence of coronal lower limb alignment on collateral ligament strain.MethodsTwelve fresh‐frozen human cadaveric knees were used. Long‐leg standing radiographs were obtained to assess lower limb alignment. Specimens were axially loaded in a custom‐made kinematics rig with 200 and 400 N, and dynamic varus/valgus angulation was simulated in 0°, 30°, and 60° of knee flexion. The changes in varus/valgus angulation and strain within different fibre regions of the collateral ligaments were captured using a three‐dimensional optical measuring system to examine the axis‐dependent strain behaviour of the superficial medial collateral ligament (sMCL) and lateral collateral ligament (LCL) at intervals of 2°.ResultsThe LCL and sMCL were exposed to the highest strain values at full extension (p < 0.001). Regardless of flexion angle and extent of axial loading, the ligament strain showed a strong and linear association with varus (all Pearson's r ≥ 0.98; p < 0.001) and valgus angulation (all Pearson's r ≥ −0.97; p < 0.01). At full extension and 400 N of axial loading, the anterior and posterior LCL fibres exceeded 4% ligament strain at 3.9° and 4.0° of varus, while the sMCL showed corresponding strain values of more than 4% at a valgus angle of 6.8°, 5.4° and 4.9° for its anterior, middle and posterior fibres, respectively.ConclusionThe strain within the native LCL and sMCL was linearly related to coronal lower limb alignment. Strain levels associated with potential ultrastructural damages to the ligaments of more than 4% were observed at 4° of varus and about 5° of valgus malalignment, respectively. When reconstructing the collateral ligaments, an additional realigning osteotomy should be considered in cases of chronic instability with a coronal malalignment exceeding 4°–5° to protect the graft and potentially reduce failures.Level of EvidenceThere is no level of evidence as this study was an experimental laboratory study.
Background. Massive rotator cuff tears are up to 40% and can progress to the stage of irreparable ones. Nowadays, there are many treatment options available for irreparable rotator cuff injuries, from conservative treatment and arthroscopic reconstructions to reverse shoulder arthroplasty. Currently, the comparative effectiveness of various treatment methods remains uncertain, and therefore there is no clear algorithm for choosing treatment tactics of such orthopedic shoulder pathologies. The aim of the study is to compare short-term treatment outcomes of patients with irreparable rotator cuff tears using arthroscopic partial rotator cuff repair, latissimus dorsi tendon transfer, pectoralis major tendon transfer and reverse shoulder arthroplasty. Methods. The study enrolled 75 patients who underwent the following types of surgical interventions: partial arthroscopic repair, posterior and anterior arthroscopically assisted latissimus dorsi tendon transfer, pectoralis major tendon transfer and reverse shoulder arthroplasty. Treatment results were assessed using measurements of the range of active movements in the shoulder joint, the ASES and Constant-Murley Score (CMS) questionnaires, the Visual Analog Scale (VAS), assessment of radiographs and MRI. The assessments were performed preoperatively and at 6 and 12 months after surgery. Results. In all groups, there was a statistically significant improvement by all indicators (p0.05). Clinical and functional results at the short-term follow-up after partial rotator cuff repair and various options of latissimus dorsi tendon transfer are largely comparable, while at the same time superior to the results of reverse shoulder arthroplasty and pectoralis major tendon transfer. Conclusions. The use of partial rotator cuff repair and musculotendinous transfers at the short-term follow-up gives comparable and better results in comparison with the use of reverse shoulder arthroplasty, which allows to consider “joint-preserving” interventions as an option in patients with massive irreparable rotator cuff tears.
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