胫骨近端关节外骨折治疗中手术方法的生物力学分析

Biomechanical analysis of operative methods in the treatment of extra-articular fracture of the proximal tibia.

作者信息

Lee Seong-Man, Oh Chang-Wug, Oh Jong-Keon, Kim Joon-Woo, Lee Hyun-Joo, Chon Chang-Soo, Lee Byoung-Joo, Kyung Hee-Soo

机构信息

Department of Orthopedic Surgery, Kyungpook National University Hospital, Daegu, Korea.

Department of Orthopedic Surgery, Korea University Guro Hospital, Seoul, Korea.

出版信息

Clin Orthop Surg. 2014 Sep;6(3):312-7. doi: 10.4055/cios.2014.6.3.312. Epub 2014 Aug 5.

DOI:10.4055/cios.2014.6.3.312

PMID:25177457

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4143519/

Abstract

BACKGROUND

To determine relative fixation strengths of a single lateral locking plate, a double construct of a locking plate, and a tibial nail used in treatment of proximal tibial extra-articular fractures.

METHODS

Three groups of composite tibial synthetic bones consisting of 5 specimens per group were included: lateral plating (LP) using a locking compression plate-proximal lateral tibia (LCP-PLT), double plating (DP) using a LCP-PLT and a locking compression plate-medial proximal tibia, and intramedullary nailing (IN) using an expert tibial nail. To simulate a comminuted fracture model, a gap osteotomy measuring 1 cm was created 8 cm below the knee joint. For each tibia, a minimal preload of 100 N was applied before loading to failure. A vertical load was applied at 25 mm/min until tibial failure.

RESULTS

Under axial loading, fixation strength of DP (14,387.3 N; standard deviation [SD], 1,852.1) was 17.5% greater than that of LP (12,249.3 N; SD, 1,371.6), and 60% less than that of IN (22,879.6 N; SD, 1,578.8; p < 0.001, Kruskal-Wallis test). For ultimate displacement under axial loading, similar results were observed for LP (5.74 mm; SD, 1.01) and DP (4.45 mm; SD, 0.96), with a larger displacement for IN (5.84 mm; SD, 0.99). The median stiffness values were 2,308.7 N/mm (range, 2,147.5 to 2,521.4 N/mm; SD, 165.42) for the LP group, 4,128.2 N/mm (range, 3,028.1 to 4,831.0 N/mm; SD, 832.88) for the DP group, and 5,517.5 N/mm (range, 3,933.1 to 7,078.2 N/mm; SD, 1,296.19) for the IN group.

CONCLUSIONS

During biomechanical testing of a simulated comminuted proximal tibial fracture model, the DP proved to be stronger than the LP in terms of ultimate strength. IN proved to be the strongest; however, for minimally invasive osteosynthesis, which may be technically difficult to perform using a nail, the performance of the DP construct may lend credence to the additional use of a medial locking plate.

摘要

背景

确定用于治疗胫骨近端关节外骨折的单一侧方锁定钢板、锁定钢板双结构及胫骨钉的相对固定强度。

方法

纳入三组复合胫骨合成骨，每组5个标本：使用锁定加压钢板 - 胫骨近端外侧（LCP - PLT）进行外侧钢板固定（LP），使用LCP - PLT和锁定加压钢板 - 胫骨近端内侧进行双钢板固定（DP），以及使用专业胫骨钉进行髓内钉固定（IN）。为模拟粉碎性骨折模型，在膝关节下方8 cm处制造一个1 cm的间隙截骨术。对于每根胫骨，在加载至失效前施加最小预载荷100 N。以25 mm/min的速度施加垂直载荷直至胫骨失效。

结果

在轴向加载下，DP组的固定强度（14,387.3 N；标准差[SD]，1,852.1）比LP组（12,249.3 N；SD，1,371.6）高17.5%，比IN组（22,879.6 N；SD，1,578.8；p < 0.001，Kruskal - Wallis检验）低60%。对于轴向加载下的最终位移，LP组（5.74 mm；SD，1.01）和DP组（4.45 mm；SD，0.96）观察到类似结果，IN组的位移更大（5.84 mm；SD，0.99）。LP组的中位刚度值为2,308.7 N/mm（范围，2,147.5至2,521.4 N/mm；SD，165.42），DP组为4,128.2 N/mm（范围，3,028.1至4,831.0 N/mm；SD，832.88），IN组为5,517.5 N/mm（范围，3,933.1至7,078.2 N/mm；SD，1,296.19）。

结论

在模拟胫骨近端粉碎性骨折模型的生物力学测试中，DP在极限强度方面比LP更强。IN被证明是最强的；然而，对于可能在技术上难以使用髓内钉进行的微创骨合成，DP结构的性能可能支持额外使用内侧锁定钢板。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/79cc/4143519/7dbb2c75be5d/cios-6-312-g001.jpg

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胫骨近端关节外骨折治疗中手术方法的生物力学分析

Biomechanical analysis of operative methods in the treatment of extra-articular fracture of the proximal tibia.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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