Department of Orthopedics and Traumatology, Bezmialem Vakif University School of Medicine, Istanbul, Turkey.
Department of Orthopedics and Traumatology, Bezmialem Vakif University School of Medicine, Istanbul, Turkey.
J Shoulder Elbow Surg. 2017 Dec;26(12):2200-2205. doi: 10.1016/j.jse.2017.06.034. Epub 2017 Oct 14.
The aim of this study was to compare the fixation rigidity of anterior, anterosuperior, and superior plates in the treatment of comminuted midshaft clavicle fractures.
Six-hole titanium alloy plates were produced according to anatomic features of fourth-generation artificial clavicle models for anterior (group I; n = 14), anterosuperior (group II; n = 14), and superior (group III; n = 14) fixation. After plate fixation, 5-mm segments were resected from the middle third of each clavicle to create comminuted fracture models. Half the models from each group were tested under rotational forces; the other half were tested under 3-point bending forces. Failure modes, stiffness values, and failure loads were recorded.
All models fractured at the level of the distalmost screw during the failure torque, whereas several failure modes were observed in 3-point bending tests. The mean stiffness values of groups I to III were 636 ± 78, 767 ± 72, and 745 ± 214 N ∙ mm/deg (P = .171), respectively, for the torsional tests and 38 ± 5, 20 ± 3, and 13 ± 2 N/mm, respectively, for the bending tests (P < .001 for group I vs. groups II and III; P = .015 for group II vs. group III). The mean failure torque values of groups I to III were 8248 ± 2325, 12,638 ± 1749, and 10,643 ± 1838 N ∙ mm (P = .02 for group I vs. II), respectively, and the mean failure loads were 409 ± 81, 360 ± 122, and 271 ± 87 N, respectively (P = .108).
In the surgical treatment of comminuted midshaft clavicle fractures, the fixation strength of anterosuperior plating was greater than that of anterior plating under rotational forces and similar to that of superior plating.
本研究旨在比较前侧、前上侧和上侧钢板在治疗粉碎性锁骨中段骨折中的固定刚度。
根据第四代人工锁骨模型的解剖特征,制作了 6 孔钛合金钢板,用于前侧(I 组;n=14)、前上侧(II 组;n=14)和上侧(III 组;n=14)固定。钢板固定后,从每个锁骨的中段切除 5mm 段,以创建粉碎性骨折模型。每组的一半模型在旋转力下进行测试;另一半模型在三点弯曲力下进行测试。记录失效模式、刚度值和失效载荷。
所有模型在失效扭矩时均在最远端螺钉处断裂,而在三点弯曲试验中观察到几种失效模式。I 组至 III 组的平均刚度值分别为扭转试验中的 636±78、767±72 和 745±214 N ∙ mm/deg(P=0.171),以及弯曲试验中的 38±5、20±3 和 13±2 N/mm(P<0.001 组 I 与组 II 和 III;P=0.015 组 II 与组 III)。I 组至 III 组的平均失效扭矩值分别为 8248±2325、12638±1749 和 10643±1838 N ∙ mm(P=0.02 组 I 与 II),平均失效载荷分别为 409±81、360±122 和 271±87 N(P=0.108)。
在粉碎性锁骨中段骨折的手术治疗中,在前旋力下,前上侧钢板的固定强度大于前侧钢板,与上侧钢板相似。
