胫腓近侧关节:前后韧带复合体的生物力学分析
The Proximal Tibiofibular Joint: A Biomechanical Analysis of the Anterior and Posterior Ligamentous Complexes.
作者信息
Marchetti Daniel Cole, Moatshe Gilbert, Phelps Brian M, Dahl Kimi D, Ferrari Marcio Balbinotti, Chahla Jorge, Turnbull Travis Lee, LaPrade Robert F
机构信息
Steadman Philippon Research Institute, Vail, Colorado, USA.
Department of Orthopedic Surgery, Oslo University Hospital, Oslo, Norway.
出版信息
Am J Sports Med. 2017 Jul;45(8):1888-1892. doi: 10.1177/0363546517697288. Epub 2017 Mar 24.
BACKGROUND
Dislocation of the proximal tibiofibular joint is a complex injury that is often overlooked or misdiagnosed. Surgical management is recommended for severe acute or for chronic symptomatic instability of the proximal tibiofibular joint. Although the anterior ligamentous complex has been reported to be stronger than the posterior complex, biomechanical data are lacking.
PURPOSE
To determine the ultimate load of the anterior and posterior ligamentous complexes of the proximal tibiofibular joint to determine optimal graft selection.
STUDY DESIGN
Controlled laboratory study.
METHODS
Ten nonpaired, fresh-frozen knee specimens were dissected to expose the anterior and posterior proximal tibiofibular ligamentous complexes. The tibia was split in the coronal plane to separate the anterior and posterior ligamentous complexes, and the fibula was left intact. Specimens were secured in a dynamic testing machine and preconditioned for 10 cycles between 2 and 10 N at 0.1 Hz followed by loading to failure at a rate of 25 mm/min.
RESULTS
The mean (±SD) ultimate load of the anterior complex (517 ± 144 N) was significantly greater than the mean ultimate load of the posterior complex (322 ± 160 N) ( P = .012). The mean surface areas of the anterior and posterior complexes were 761 ± 174 mm and 565 ± 103 mm, respectively ( P = .008). The mean values for stiffness of the anterior (133 N/mm) and posterior (109 N/mm) complexes were similar ( P = .250).
CONCLUSION
The ligaments of the human proximal tibiofibular joint were able to withstand a mean ultimate failure load of 517 ± 144 N for the anterior complex and 322 ± 160 N for the posterior complex. In this regard, it is recommended that the strengths of grafts chosen for proximal tibiofibular reconstructions meet or exceed these values.
CLINICAL RELEVANCE
The optimal surgical treatment for addressing residual proximal tibiofibular instability is not well defined. Before an anatomic reconstruction of the proximal tibiofibular ligament is developed, the individual biomechanical properties of the anterior and posterior ligamentous structures of the proximal tibiofibular joint need to be considered to facilitate an optimal reconstruction design.
背景
胫腓近侧关节脱位是一种复杂损伤,常被忽视或误诊。对于严重急性或慢性症状性胫腓近侧关节不稳定,建议进行手术治疗。尽管已有报道称前侧韧带复合体比后侧复合体更强,但缺乏生物力学数据。
目的
确定胫腓近侧关节前、后韧带复合体的极限负荷,以确定最佳移植物选择。
研究设计
对照实验室研究。
方法
解剖10个非配对的新鲜冷冻膝关节标本,暴露胫腓近侧关节的前、后韧带复合体。在冠状面将胫骨劈开,以分离前、后韧带复合体,腓骨保持完整。将标本固定在动态试验机上,先在0.1Hz频率下于2至10N之间进行10个循环的预加载,然后以25mm/min的速率加载直至破坏。
结果
前侧复合体的平均(±标准差)极限负荷(517±144N)显著大于后侧复合体的平均极限负荷(322±160N)(P = 0.012)。前、后复合体的平均表面积分别为761±174mm²和565±103mm²(P = 0.008)。前侧(133N/mm)和后侧(109N/mm)复合体的平均刚度值相似(P = 0.250)。
结论
人类胫腓近侧关节韧带前侧复合体的平均极限破坏负荷为517±144N,后侧复合体为322±160N。在这方面,建议用于胫腓近侧关节重建的移植物强度达到或超过这些值。
临床意义
处理残留的胫腓近侧关节不稳定的最佳手术治疗方法尚未明确界定。在开展胫腓近侧关节韧带的解剖重建之前,需要考虑胫腓近侧关节前、后韧带结构的个体生物力学特性,以促进最佳重建设计。
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