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Intramedullary Headless Screw Fixation of Metacarpal Fractures: A Radiographic Analysis for Optimal Screw Choice.髓内无头螺钉固定掌骨骨折:优化螺钉选择的影像学分析。
Hand (N Y). 2022 Mar;17(2):245-253. doi: 10.1177/1558944720919897. Epub 2020 May 20.
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Fixation of Metacarpal Fractures Using Intramedullary Headless Compression Screws: A Tertiary Care Institution Experience.使用无头髓内加压螺钉固定掌骨骨折:一家三级医疗机构的经验
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A Comparative Study of Tensile Strength of Three Operative Fixation Techniques for Metacarpal Shaft Fractures in Adults: A Cadaver Study.成人掌骨干骨折三种手术固定技术拉伸强度的对比研究:尸体研究。
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两种髓内螺钉固定掌骨颈骨折的比较抗弯强度

Comparative Bending Strength of Metacarpal Neck Fractures Fixed with Two Types of Intramedullary Screws.

作者信息

Jones Christopher M, Mathew Rena, Anastasi Nicholas, Ilyas Asif M, Siegler Sorin

机构信息

Rothman Orthopaedic Institute at Thomas Jefferson University, Philadelphia, Pennsylvania, USA.

Drexel University Department of Mechanical Engineering, Philadelphia, Pennsylvania, USA.

出版信息

Arch Bone Jt Surg. 2023;11(7):448-452. doi: 10.22038/ABJS.2023.67121.3195.

DOI:10.22038/ABJS.2023.67121.3195
PMID:37538128
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10394746/
Abstract

OBJECTIVES

Intramedullary (IM) screw fixation of metacarpal fractures is a technique, which has gained in popularity owing to its simplicity, speedy rehabilitation, and good functional outcomes. A new, larger diameter, non-compression screw designed specifically for IM metacarpal fixation was recently introduced which could provide better fracture stability and reduce the risk of hardware failure. Our goal was to evaluate the strength of this screw compared to a first-generation screw.

METHODS

This mechanical study was designed to compare a 4.5 mm metacarpal headless screw (MCHS) to data from our prior research evaluating a 3.0 mm headless screw (HS). Accordingly, we used identical bone models, testing constructs, equipment, and protocols. A metacarpal neck osteotomy was created in 10 Sawbones models. A 4.5 mm x 50 mm MCHS was inserted retrograde to stabilize the fracture. Flexion bending strength was measured through a cable tension construct on a materials testing machine. Failure mechanism and strength was recorded and compared to data with a 3.0 mm screw construct.

RESULTS

Eight models failed by bending of the intramedullary screw. Two models failed by rotation of the metacarpal head. Failure occurred at an average of 539 N (Range 315 - 735 N). The MCHS demonstrated a significantly greater load to failure compared to the previously studied 3.0 mm HS at 215 N ().

CONCLUSION

A larger, 4.5 mm metacarpal-specific headless screw is more than twice as strong as a 3.0 mm diameter screw in a metacarpal neck fracture model.

摘要

目的

掌骨骨折的髓内(IM)螺钉固定技术因其操作简单、康复迅速且功能效果良好而越来越受欢迎。最近推出了一种专门为掌骨髓内固定设计的新型大直径非加压螺钉,它可以提供更好的骨折稳定性并降低内固定失败的风险。我们的目标是评估这种螺钉与第一代螺钉相比的强度。

方法

本力学研究旨在将4.5毫米无头掌骨螺钉(MCHS)与我们之前评估3.0毫米无头螺钉(HS)的研究数据进行比较。因此,我们使用了相同的骨模型、测试结构、设备和方案。在10个Sawbones模型上制作掌骨颈截骨术。逆行插入一枚4.5毫米×50毫米的MCHS以稳定骨折。通过材料试验机上的缆线张力结构测量屈曲弯曲强度。记录失败机制和强度,并与3.0毫米螺钉结构的数据进行比较。

结果

8个模型因髓内螺钉弯曲而失败。2个模型因掌骨头旋转而失败。失败平均发生在539牛(范围315 - 735牛)。与之前研究的215牛的3.0毫米HS相比,MCHS的失败载荷显著更大。

结论

在掌骨颈骨折模型中,更大的4.5毫米掌骨专用无头螺钉的强度是3.0毫米直径螺钉的两倍多。