基于结节的肱骨近端锁定板与标准肱骨近端锁定板在内翻悬臂弯曲中的生物力学比较。

Biomechanical comparison of tuberosity-based proximal humeral locking plate compared to standard proximal humeral locking plate in varus cantilever bending.

机构信息

Department of Orthopaedic Surgery, University of Arizona College of Medicine - Phoenix, 1111 E. McDowell Road, Phoenix, AZ, 85006.

出版信息

Injury. 2022 Nov;53(11):3650-3654. doi: 10.1016/j.injury.2022.08.042. Epub 2022 Aug 23.

DOI:10.1016/j.injury.2022.08.042

PMID:36057488

Abstract

PURPOSE

In a prior biomechanical study using a tuberosity-based proximal humeral locking plate (TBP) an improvement in greater tuberosity (GT) fixation strength with the TBP compared to a standard proximal humeral locking plate (PHLP) was demonstrated. The purpose of this study is to compare the TBP to the PHLP with a simulated calcar gap fracture under cyclic varus cantilever forces.

METHODS

Seven matched pairs of cadaveric humeri were studied and 11A2.3 proximal humerus fractures were created by a 1 cm gap osteotomy at the surgical neck. Matched pairs were randomized for fixation using either a PHLP or a TBP. The proximal articular aspect of the humerus was potted and secured to the base of a load frame. The shaft was subjected to cyclic varus cantilever loading with a roller positioned 8 cm from the osteotomy. Change in vertical displacement of the diaphyseal fragment was monitored and digital images were obtained. Failure was defined as vertical displacement greater than 20 mm. Specimens not exhibiting failure over the course of 10,000 cycles were then loaded to 20 mm of vertical displacement. Reactant forces of the specimens at these displacements were recorded.

RESULTS

Four/seven TBP specimens and four/seven PHLP specimens survived 10,000 cycles. The average cycles to failure for TBP specimens was 7325 cycles and 5715 cycles for PHLP specimens (p = 0.525). For the specimens that survived 10,000 cycles, the decrease in calcar gap was superior in the TBP specimens (p = 0.018). A similar trend was seen when these specimens were loaded to failure where the percent calcar gap recovery was higher for the TBP at 74.71 ± 10.07% versus 53.22 ± 30.35% for the PHLP (p = 0.072). In specimens that were loaded to failure after survival of 10,000 cycles the average stiffness of the TBP construct was 20.51 N/mm, and 11.74 N/mm for the PHLP construct (p = 0.024).

CONCLUSION

In addition to superior GT fixation shown in a prior study, the TBP construct demonstrates significantly greater stiffness at the neck fracture compared to the PHLP, when loaded to failure. In addition, there was a trend towards less collapse in this calcar gap model.

摘要

目的

在先前的一项基于结节的肱骨近端锁定板（TBP）生物力学研究中，与标准肱骨近端锁定板（PHLP）相比，TBP 可提高大结节（GT）固定强度。本研究的目的是比较 TBP 与 PHLP 在模拟干骺端间隙骨折下的循环内翻切力悬臂下的固定效果。

方法

研究了 7 对匹配的尸体肱骨，并通过在外科颈处进行 1cm 间隙截骨术创建了 11A2.3 型肱骨近端骨折。将匹配的对随机分为使用 PHLP 或 TBP 进行固定。将肱骨近侧关节面钵状固定在负荷框架的底部。将轴经受 8cm 距离截骨处的滚轮施加的循环内翻切力悬臂加载。监测骨干片段垂直位移的变化，并获取数字图像。以 20mm 的垂直位移定义为失效。在 10000 次循环过程中未出现失效的标本随后加载至 20mm 的垂直位移。记录这些位移下标本的反作用力。

结果

4/7 个 TBP 标本和 4/7 个 PHLP 标本在 10000 次循环中存活。TBP 标本的平均失效循环数为 7325 次，PHLP 标本为 5715 次（p=0.525）。对于在 10000 次循环中存活的标本，TBP 标本的干骺端间隙减小更为明显（p=0.018）。当这些标本加载至失效时，也出现了类似的趋势，TBP 的干骺端间隙恢复百分比更高，为 74.71±10.07%，而 PHLP 为 53.22±30.35%（p=0.072）。在经过 10000 次循环存活后加载至失效的标本中，TBP 结构的平均刚度为 20.51N/mm，而 PHLP 结构为 11.74N/mm（p=0.024）。