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髓内钉固定方式对小鼠股骨干骨折断端间应变的影响:参数有限元分析。

Effect of Intramedullary Nailing Patterns on Interfragmentary Strain in a Mouse Femur Fracture: A Parametric Finite Element Analysis.

机构信息

Vanderbilt University, Department of Chemical and Biomolecular Engineering, 2201 West End Ave, Nashville, TN 37235.

Vanderbilt University Medical Center, Department of Orthopaedic Surgery, 1215 21st Ave. S., Suite 4200, Nashville, TN 37232.

出版信息

J Biomech Eng. 2022 May 1;144(5). doi: 10.1115/1.4053085.

Abstract

Delayed long bone fracture healing and nonunion continue to be a significant socioeconomic burden. While mechanical stimulation is known to be an important determinant of the bone repair process, understanding how the magnitude, mode, and commencement of interfragmentary strain (IFS) affect fracture healing can guide new therapeutic strategies to prevent delayed healing or nonunion. Mouse models provide a means to investigate the molecular and cellular aspects of fracture repair, yet there is only one commercially available, clinically-relevant, locking intramedullary nail (IMN) currently available for studying long bone fractures in rodents. Having access to alternative IMNs would allow a variety of mechanical environments at the fracture site to be evaluated, and the purpose of this proof-of-concept finite element analysis study is to identify which IMN design parameters have the largest impact on IFS in a murine transverse femoral osteotomy model. Using the dimensions of the clinically relevant IMN as a guide, the nail material, distance between interlocking screws, and clearance between the nail and endosteal surface were varied between simulations. Of these parameters, changing the nail material from stainless steel (SS) to polyetheretherketone (PEEK) had the largest impact on IFS. Reducing the distance between the proximal and distal interlocking screws substantially affected IFS only when nail modulus was low. Therefore, IMNs with low modulus (e.g., PEEK) can be used alongside commercially available SS nails to investigate the effect of initial IFS or stability on fracture healing with respect to different biological conditions of repair in rodents.

摘要

延迟的长骨骨折愈合和不愈合仍然是一个重大的社会经济负担。虽然机械刺激是骨修复过程的一个重要决定因素,但了解界面应变(IFS)的幅度、模式和起始如何影响骨折愈合,可以指导新的治疗策略,以预防愈合延迟或不愈合。小鼠模型提供了一种研究骨折修复的分子和细胞方面的方法,但目前只有一种商业上可用的、与临床相关的锁定髓内钉(IMN)可用于研究啮齿动物的长骨骨折。有了其他 IMN 的选择,可以评估骨折部位的各种机械环境,本概念验证有限元分析研究的目的是确定哪种 IMN 设计参数对鼠横向股骨切开模型中的 IFS 影响最大。使用临床相关 IMN 的尺寸作为指导,在模拟中改变钉材料、互锁螺钉之间的距离和钉与骨内表面之间的间隙。在这些参数中,将钉材料从不锈钢(SS)改为聚醚醚酮(PEEK)对 IFS 的影响最大。只有当钉的模量较低时,减小近端和远端互锁螺钉之间的距离才会对 IFS 产生重大影响。因此,低模量的 IMN(例如 PEEK)可以与商业上可用的 SS 钉一起使用,以研究初始 IFS 或稳定性对不同修复生物学条件下啮齿动物骨折愈合的影响。

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