低成本外固定器治疗长骨干骨折的生物力学研究。

Biomechanical study of a low-cost external fixator for diaphyseal fractures of long bones.

机构信息

Experimental and Clinical Research Institute (IREC), Neuro-Musculo-Skeletal Pole (NMSK), Université Catholique de Louvain, Tour Pasteur +4 - 53 Avenue Emmanuel Mounier, 1200, Brussels, Belgium.

Department of Health Engineering, ECAM Brussels Engineering School, Haute Ecole "ICHEC-ECAM-ISFSC", Brussels, Belgium.

出版信息

J Orthop Surg Res. 2020 Jul 6;15(1):247. doi: 10.1186/s13018-020-01777-5.

DOI:10.1186/s13018-020-01777-5

PMID:32631381

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7339426/

Abstract

BACKGROUND

External fixation improves open fracture management in emerging countries. However, sophisticated models are often expensive and unavailable. We assessed the biomechanical properties of a low-cost external fixation system in comparison with the Hoffmann® 3 system, as a reference.

METHODS

Transversal, oblique, and comminuted fractures were created in the diaphysis of tibia sawbones. Six external fixators were tested in three modes of loading-axial compression, medio-lateral (ML) bending, and torsion-in order to determine construction stiffness. The fixator construct implies two uniplanar (UUEF1, UUEF2) depending the pin-rods fixation system and two biplanar (UBEF1, UBEF2) designs based on different bar to bar connections. The designed low-cost fixators were compared to a Hoffmann® 3 fixator single rod (H3-SR) and double rod (H3-DR). Twenty-seven constructs were stabilized with UUEF1, UUEF2, and H3-SR (nine constructs each). Nine constructs were stabilized with UBEF1, UBEF2, and H3-DR (three constructs each).

RESULTS

UUEF2 was significantly stiffer than H3-SR (p < 0.001) in axial compression for oblique fractures and UUEF1 was significantly stiffer than H3-SR (p = 0.009) in ML bending for transversal fractures. Both UUEFs were significantly stiffer than H3-SR in axial compression and torsion (p < 0.05), and inferior to H3-SR in ML bending, for comminuted fractures. In the same fracture pattern, UBEFs were significantly stiffer than H3-DR (p = 0.001) in axial compression and torsion, while only UBEF1 was significantly stiffer than H3-DR in ML bending (p = 0.013).

CONCLUSIONS

The results demonstrated that the stiffness of the UUEF and UBEF device compares to the reference fixator and may be helpful in maintaining fracture reduction. Fatigue testing and clinical assessment must be conducted to ensure that the objective of bone healing is achievable with such low-cost devices.

摘要

背景

在新兴国家，外固定架改善了开放性骨折的治疗效果。然而，复杂的模型往往价格昂贵且难以获得。我们评估了一种低成本外固定架系统的生物力学性能，并将其与 Hoffmann®3 系统作为参考进行比较。

方法

在胫骨骨标本上制造横断、斜向和粉碎性骨折。在三种加载模式下测试了六种外固定器——轴向压缩、内外侧（ML）弯曲和扭转，以确定结构刚度。固定器结构采用两种单平面（UUEF1、UUEF2）设计，取决于钉棒固定系统，以及两种双平面（UBEF1、UBEF2）设计，基于不同的棒对棒连接。设计的低成本固定器与 Hoffmann®3 单棒（H3-SR）和双棒（H3-DR）进行比较。27 个构建体用 UUEF1、UUEF2 和 H3-SR 稳定（每个构建体 9 个）。9 个构建体用 UBEF1、UBEF2 和 H3-DR 稳定（每个构建体 3 个）。

结果

在斜向骨折的轴向压缩中，UUEF2 比 H3-SR 明显更硬（p<0.001），在横断骨折的 ML 弯曲中，UUEF1 比 H3-SR 明显更硬（p=0.009）。在轴向压缩和扭转中，两种 UUEF 都比 H3-SR 明显更硬（p<0.05），在粉碎性骨折中，在 ML 弯曲中，比 H3-SR 差。在相同的骨折模式下，在轴向压缩和扭转中，UBEFs 比 H3-DR 明显更硬（p=0.001），而只有 UBEF1 在 ML 弯曲中比 H3-DR 明显更硬（p=0.013）。

结论

结果表明，UUEF 和 UBEF 装置的刚度与参考固定器相当，可能有助于维持骨折复位。必须进行疲劳试验和临床评估，以确保此类低成本装置能够实现骨愈合的目标。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/77eb/7339426/b8d15d072de5/13018_2020_1777_Fig1_HTML.jpg

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低成本外固定器治疗长骨干骨折的生物力学研究。

Biomechanical study of a low-cost external fixator for diaphyseal fractures of long bones.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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