在合成复合材料中评估用于桡骨远端骨折的桡骨茎突和月骨小面固定的碎骨块特异性钢板和无头螺钉的比较生物力学研究。

Comparative Biomechanical Study of Fragment-Specific Plates and Headless Screws for Radial Styloid and Lunate Facet Fixation in Distal Radius Fracture Evaluated in a Synthetic Composite.

作者信息

Waitayawinyu Thanapong, Katepun Surangkana, Seenuan Patchanida, Noraphaiphipaksa Nitikorn, Kanchanomai Chaosuan

机构信息

Department of Orthopaedics, Faculty of Medicine, Thammasat University, Pathumthani, Thailand.

出版信息

J Hand Surg Am. 2024 Aug 5. doi: 10.1016/j.jhsa.2024.06.006.

DOI:10.1016/j.jhsa.2024.06.006

PMID:39101871

Abstract

PURPOSE

To evaluate the compressive stiffness (ability to resist compression under an applied load) of fragment-specific plate and headless screw fixation for radial styloid and volar lunate facet fractures in a synthetic composite distal radius.

METHODS

A simulated radial styloid fracture (AO type B1.1) and simulated volar lunate facet fracture (AO type B3.3) were created in synthetic composite distal radii and fixed with a fragment-specific plate (FSP) using a radial styloid or lunate facet plate or with two- or three-headless screws (2HS, 3HS), creating 6 fixation models: B1.1/FSP, B1.1/2HS, B1.1/3HS, B3.3/FSP, B3.3/2HS, and B3.3/3HS. Compressive stiffness of fixation constructs under initial static load, cyclic load, and final static load was investigated. Nonaxial loadings, including shearing and rotation, were not evaluated.

RESULTS

Regarding AO type B1.1, the mean stiffness of the B1.1/FSP construct was not significantly different from the intact radius, and the mean stiffness was greatest in the B1.1/3HS and lowest in the B1.1/2HS construct. For AO type B3.3, the mean stiffness of the B3.3/3HS construct was not significantly different from the intact radius, and the mean stiffness of the B3.3/FSP and B3.3/2HS construct was greatest and lowest, respectively. Minimal differences in stiffness between initial and final static loads confirmed that there was no evidence of failure implant under cyclic compressive loads.

CONCLUSIONS

Fragment-specific plates and two- or three-headless screw fixation maintained mechanical stability through compressive cyclic loading for radial styloid and volar lunate facet fractures. The FSPs and three-headless screws fixations provided superior stiffness over the two-headless screws fixation. There was no articular fracture failure in all fixation constructs with initial static compression, cyclic loading, and final compression.

CLINICAL RELEVANCE

Fragment-specific plates and headless screws can both be considered as adequate fixation for radial styloid and volar lunate facet fractures.

摘要

目的

评估在合成复合桡骨远端模型中，用于桡骨茎突和掌侧月骨小关节骨折的碎骨块专用钢板及无头螺钉固定的抗压刚度（在施加负荷下抵抗压缩的能力）。

方法

在合成复合桡骨远端制造模拟桡骨茎突骨折（AO B1.1型）和模拟掌侧月骨小关节骨折（AO B3.3型），并使用桡骨茎突或月骨小关节钢板制成的碎骨块专用钢板（FSP）或两枚或三枚无头螺钉（2HS，3HS）进行固定，创建6种固定模型：B1.1/FSP、B1.1/2HS、B1.1/3HS、B3.3/FSP、B3.3/2HS和B3.3/3HS。研究固定结构在初始静态负荷、循环负荷和最终静态负荷下的抗压刚度。未评估包括剪切和旋转在内的非轴向负荷。

结果

对于AO B1.1型，B1.1/FSP结构的平均刚度与完整桡骨无显著差异，B1.1/3HS结构的平均刚度最大，B1.1/2HS结构的平均刚度最小。对于AO B3.3型，B3.3/3HS结构的平均刚度与完整桡骨无显著差异，B3.3/FSP和B3.3/2HS结构的平均刚度分别最大和最小。初始和最终静态负荷之间的刚度差异最小，证实没有证据表明在循环压缩负荷下植入物失效。