Biomechanical Design Optimization of Distal Humerus Fracture Plates: A Review.

IF 2.6 3区 生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
BioMed Research International Pub Date : 2024-06-27 eCollection Date: 2024-01-01 DOI:10.1155/2024/6015794
Radovan Zdero, Pawel Brzozowski, Emil H Schemitsch
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引用次数: 0

Abstract

The goal of this article was to review studies on distal humerus fracture plates (DHFPs) to understand the biomechanical influence of systematically changing the plate or screw variables. The problem is that DHFPs are commonly used surgically, although complications can still occur, and it is unclear if implant configurations are always optimized using biomechanical criteria. A systematic search of the PubMed database was conducted to identify English-language biomechanical optimization studies of DHFPs that parametrically altered plate and/or screw variables to analyze their influence on engineering performance. Intraarticular and extraarticular fracture (EAF) data were separated and organized under commonly used biomechanical outcome metrics. The results identified 52 eligible DHFP studies, which evaluated various plate and screw variables. The most common plate variables evaluated were geometry, hole type, number, and position. Fewer studies assessed screw variables, with number and angle being the most common. However, no studies examined nonmetallic materials for plates or screws, which may be of interest in future research. Also, articles used various combinations of biomechanical outcome metrics, such as interfragmentary fracture motion, bone, plate, or screw stress, number of loading cycles to failure, and overall stiffness (Os) or failure strength (Fs). However, no study evaluated the bone stress under the plate to examine bone "stress shielding," which may impact bone health clinically. Surgeons treating intraarticular and extraarticular distal humerus fractures should seriously consider two precontoured, long, thick, locked, and parallel plates that are secured by long, thick, and plate-to-plate screws that are located at staggered levels along the proximal parts of the plates, as well as an extra transfracture plate screw. Also, research engineers could improve new studies by perusing recommendations in future work (e.g., studying alternative nonmetallic materials or "stress shielding"), clinical ramifications (e.g., benefits of locked plates), and study quality (e.g., experimental validation of computational studies).

肱骨远端骨折钢板的生物力学设计优化:综述。
本文旨在回顾有关肱骨远端骨折钢板(DHFP)的研究,以了解系统改变钢板或螺钉变量对生物力学的影响。问题在于,DHFP 是常用的手术方法,但仍有可能出现并发症,而且目前还不清楚植入物的配置是否总是根据生物力学标准进行优化。我们对 PubMed 数据库进行了系统性检索,以确定针对 DHFP 的英文生物力学优化研究,这些研究通过参数化改变钢板和/或螺钉变量来分析它们对工程性能的影响。根据常用的生物力学结果指标对关节内和关节外骨折 (EAF) 数据进行了分类和整理。结果确定了 52 项符合条件的 DHFP 研究,这些研究评估了各种钢板和螺钉变量。最常评估的钢板变量包括几何形状、孔类型、数量和位置。评估螺钉变量的研究较少,最常见的是数量和角度。不过,没有研究对钢板或螺钉的非金属材料进行了检查,这可能是未来研究的兴趣所在。此外,文章还采用了不同的生物力学结果指标组合,如骨折节段间运动、骨、钢板或螺钉应力、加载周期数至失效、整体刚度(Os)或失效强度(Fs)。但是,没有研究对钢板下的骨应力进行评估,以检查骨 "应力屏蔽",这可能会对临床骨健康产生影响。外科医生在治疗关节内和关节外肱骨远端骨折时,应认真考虑使用两块预先contcontoured、长、厚、锁定和平行的钢板,并用长、厚、板对板螺钉固定,这些螺钉沿钢板近端交错分布,同时还需额外使用一枚经骨折钢板螺钉。此外,研究工程师还可以通过研究未来工作中的建议(如研究替代非金属材料或 "应力屏蔽")、临床影响(如锁定钢板的好处)和研究质量(如计算研究的实验验证)来改进新的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
BioMed Research International
BioMed Research International BIOTECHNOLOGY & APPLIED MICROBIOLOGY-MEDICINE, RESEARCH & EXPERIMENTAL
CiteScore
6.70
自引率
0.00%
发文量
1942
审稿时长
19 weeks
期刊介绍: BioMed Research International is a peer-reviewed, Open Access journal that publishes original research articles, review articles, and clinical studies covering a wide range of subjects in life sciences and medicine. The journal is divided into 55 subject areas.
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