角稳定髓内钉与锁定钢板固定治疗骨质疏松性手术颈肱骨近端骨折：生物力学比较。

IF 1.5 Q3 ORTHOPEDICS

Shoulder and Elbow Pub Date : 2025-03-13 DOI:10.1177/17585732251324497

Eric Samuelson, Elizabeth Lyden, Hani Haider, Armodios M Hatzidakis, Timothy Lackner, Bradford Zitsch, Edward V Fehringer

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引用次数: 0

摘要

研究背景我们的研究旨在比较肱骨近端锁定钢板（PHLP）和胫骨前髓内钉（IMN）在骨质疏松性两部分手术颈肱骨近端骨折模型中的生物力学性能：方法：通过合成骨质疏松肱骨的手术颈模拟骨折。其中一组的横向骨折完全相同，分别使用带 7 颗螺钉的 PHLP（PHLP-7；n = 4）、带 9 颗螺钉的 PHLP（PHLP-9；n = 2）或 IMN（n = 4）。每种方法都进行了疲劳前测试、相同的疲劳方案和疲劳后测试。对第二条高斜断裂线进行了与 PHLP-9 结构（n = 4）和 IMN 结构（n = 4）相同的测试：结果：对横向试样疲劳前刚度的统计分析显示，与 IMN 相比，PHLP-7 和 PHLP-9 在前后弯曲和扭转时的刚度更大。三种结构在屈曲-瓣膜弯曲或压缩方面没有差异。疲劳后硬度比较显示，三种结构之间没有差异。对于斜形骨折，疲劳前的差异被发现，IMN在屈曲-瓣膜弯曲时更硬，而PHLP-9在扭转时更硬：讨论：在合成骨质疏松两部分手术颈肱骨近端骨折模型中，角稳定肱骨近端钉设计的生物力学性能与锁定钢板/螺钉结构相当，尤其是在疲劳后。

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Angular stable intramedullary nail versus locking plate fixation of osteoporotic surgical neck proximal humerus fractures: A biomechanical comparison.

Background: Our study's purpose was to compare biomechanical performances of a proximal humerus locking plate (PHLP) with an antegrade intramedullary nail (IMN) in an osteoporotic two-part surgical neck proximal humerus fracture model.

Methods: Simulated fractures were made through the surgical neck of synthetic osteoporotic humeri. One group had identical transverse fractures instrumented with a PHLP with seven screws (PHLP-7; n = 4), a PHLP with nine screws (PHLP-9; n = 2), or an IMN (n = 4). Each underwent pre-fatigue testing, an identical fatigue protocol, and post-fatigue testing. A second high oblique fracture line was tested identically with PHLP-9 (n = 4) and IMN (n = 4) constructs.

Results: Statistical analyses of transverse specimen pre-fatigue stiffness revealed that the PHLP-7 and PHLP-9 were stiffer in anteroposterior bending and torsion compared to the IMN. There was no difference between the three constructs in varus-valgus bending or compression. Post-fatigue stiffness comparisons revealed no difference between the three constructs. For the oblique fracture, pre-fatigue differences were found with the IMN stiffer in varus-valgus bending and the PHLP-9 stiffer in torsion.

Discussion: The biomechanical performance of an angular-stable proximal humeral nail design was comparable, especially following fatigue, to locked plate/screw constructs in a synthetic osteoporotic two-part surgical neck proximal humerus fracture model.

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来源期刊

Shoulder and Elbow Medicine-Rehabilitation

CiteScore

2.80

自引率

0.00%

发文量