Department of Trauma Surgery, Medical University of Innsbruck, Innsbruck, Austria.
Department of Anatomy, Medical University of Innsbruck, Innsbruck, Austria.
J Shoulder Elbow Surg. 2018 Oct;27(10):1816-1823. doi: 10.1016/j.jse.2018.04.003. Epub 2018 May 18.
Sufficient tuberosity fixation in proximal humeral fractures treated with shoulder arthroplasty is essential to gain a good clinical outcome. This biomechanical study evaluated the strength of the reattached tuberosities in reverse total shoulder arthroplasty fixed with cables or with sutures in a cerclage-like technique. Considering the mechanical advantages of flexible titanium alloy cables compared with conventional sutures for cerclage-like fixations, we hypothesized that titanium alloy cables would achieve higher fixation strengths of the tuberosities compared with heavy nonabsorbable sutures.
A 4-part fracture was created on 8-paired proximal human humeri. The tuberosities were reduced anatomically and fixed by 2 heavy nonabsorbable sutures (suture group) or by two 1-mm titanium alloy cables (cable group) in a cerclage-like technique around the neck of the prosthesis. The humeri were placed in a custom-made test setup enabling internal and external rotation. Cyclic loading with a stepwise increasing load magnitude was applied with a material testing machine, starting with 1 Nm and increasing the load by 0.25 Nm after each 100th cycle until failure of the fixation occurred (>15° rotation of the tuberosities). Any motion of the tuberosities was measured with a 3-dimensional ultrasound motion analysis system.
Overall, the cable group reached 1414 ± 372 cycles, and the suture group reached 1257 ± 230 cycles until the fixations failed (P = .313). The suture group showed a significantly higher rotation of the lesser tuberosity relative to the humerus shaft axis after 200, 400, and 600 cycles compared with the cable group (P = .018-.043).
Tuberosities reattached with cable cerclages showed higher fixation strength and therefore less rotation compared with suture cerclages in a 4-part proximal humeral fracture model treated with reverse total shoulder arthroplasty. Whether this higher fixation strength results in higher bony ingrowth rates of the tuberosities and thus leads to a better clinical outcome needs to be investigated in further clinical studies.
在肩关节置换术中治疗肱骨近端骨折时,充分固定结节对于获得良好的临床效果至关重要。本生物力学研究评估了反向全肩关节置换术中使用电缆或缝线以环扎样技术固定时重新附着的结节的强度。考虑到与传统缝线相比,柔性钛合金电缆在环扎样固定中的机械优势,我们假设钛合金电缆将比重非吸收缝线实现更高的结节固定强度。
在 8 对人体肱骨近端创建 4 部分骨折。结节解剖复位,并通过 2 根重非吸收缝线(缝线组)或 2 根 1mm 钛合金电缆(电缆组)以环扎样技术围绕假体颈部固定。肱骨置于定制的测试装置中,可实现内外旋转。使用材料试验机施加逐步增加的载荷幅度的循环加载,从 1Nm 开始,每 100 次循环增加 0.25Nm 的载荷,直到固定失效(>15°的结节旋转)。使用三维超声运动分析系统测量结节的任何运动。
总的来说,电缆组达到 1414±372 个循环,缝线组达到 1257±230 个循环,直到固定失效(P=0.313)。与电缆组相比,缝线组在 200、400 和 600 个循环后,较小结节相对于肱骨骨干轴的旋转明显更高(P=0.018-0.043)。
在反向全肩关节置换术治疗 4 部分肱骨近端骨折模型中,使用电缆环扎固定的结节具有更高的固定强度,因此与缝线环扎相比旋转更小。这种更高的固定强度是否会导致结节的骨内生长率更高,从而导致更好的临床效果,需要进一步的临床研究来验证。
