新的定量CT分析方法显示了跌倒方向对股骨颈强度的重要性。

New QCT analysis approach shows the importance of fall orientation on femoral neck strength.

作者信息

Carpenter R Dana, Beaupré Gary S, Lang Thomas F, Orwoll Eric S, Carter Dennis R

机构信息

Bone and Joint Center, VA Palo Alto Health Care System, Palo Alto, California, USA.

出版信息

J Bone Miner Res. 2005 Sep;20(9):1533-42. doi: 10.1359/JBMR.050510. Epub 2005 May 16.

DOI:10.1359/JBMR.050510

PMID:16059625

Abstract

UNLABELLED

The influence of fall orientation on femur strength has important implications for understanding hip fracture risk. A new image analysis technique showed that the strength of the femoral neck in 37 males varied significantly along the neck axis and that bending strength varied by a factor of up to 2.8 for different loading directions.

INTRODUCTION

Osteoporosis is associated with decreased BMD and increased hip fracture risk, but it is unclear whether specific osteoporotic changes in the proximal femur lead to a more vulnerable overall structure. Nonhomogeneous beam theory, which is used to determine the mechanical response of composite structures to applied loads, can be used along with QCT to estimate the resistance of the femoral neck to axial forces and bending moments.

MATERIALS AND METHODS

The bending moment [My(theta)] sufficient to induce yielding within femoral neck sections was estimated for a range of bending orientations (theta) using in vivo QCT images of 37 male (mean age, 73 years; range, 65-87 years) femora. Volumetric BMD, axial stiffness, average moment at yield (M(y,avg)), maximum and minimum moment at yield (M(y,max) and M(y,min)), bone strength index (BSI), stress-strain index (SSI), and density-weighted moments of resistance (Rx and Ry) were also computed. Differences among the proximal, mid-, and distal neck regions were detected using ANOVA.

RESULTS

My(theta) was found to vary by as much as a factor of 2.8 for different bending directions. Axial stiffness, M(y,avg), M(y,max), M(y,min), BSI, and Rx differed significantly between all femoral neck regions, with an overall trend of increasing axial stiffness and bending strength when moving from the proximal neck to the distal neck. Mean axial stiffness increased 62% between the proximal and distal neck, and mean M(y,avg) increased 53% between the proximal and distal neck.

CONCLUSIONS

The results of this study show that femoral neck strength strongly depends on both fall orientation and location along the neck axis. Compressive yielding in the superior portion of the femoral neck is expected to initiate fracture in a fall to the side.

摘要

未标注

跌倒方向对股骨强度的影响对于理解髋部骨折风险具有重要意义。一种新的图像分析技术表明，37名男性股骨颈的强度沿颈轴有显著变化，并且不同加载方向的弯曲强度变化高达2.8倍。

引言

骨质疏松症与骨密度降低和髋部骨折风险增加相关，但尚不清楚股骨近端的特定骨质疏松性变化是否会导致整体结构更易受损。用于确定复合结构对施加荷载的力学响应的非均匀梁理论，可与定量CT一起用于估计股骨颈对轴向力和弯矩的抵抗力。

材料与方法

使用37名男性（平均年龄73岁；范围65 - 87岁）股骨的体内定量CT图像，针对一系列弯曲方向（θ）估计足以在股骨颈截面内引起屈服的弯矩[My(θ)]。还计算了体积骨密度、轴向刚度、屈服时的平均弯矩（M(y,avg)）、屈服时的最大和最小弯矩（M(y,max)和M(y,min)）、骨强度指数（BSI）、应力应变指数（SSI）以及密度加权抵抗力矩（Rx和Ry）。使用方差分析检测股骨颈近端、中部和远端区域之间的差异。

结果

发现不同弯曲方向的My(θ)变化高达2.8倍。所有股骨颈区域之间的轴向刚度、M(y,avg)、M(y,max)、M(y,min)、BSI和Rx存在显著差异，从股骨颈近端到远端，轴向刚度和弯曲强度总体呈增加趋势。近端和远端颈之间的平均轴向刚度增加了62%，近端和远端颈之间的平均M(y,avg)增加了53%。

结论

本研究结果表明，股骨颈强度强烈依赖于跌倒方向和沿颈轴的位置。股骨颈上部的压缩屈服预计会在向一侧跌倒时引发骨折。

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新的定量CT分析方法显示了跌倒方向对股骨颈强度的重要性。

New QCT analysis approach shows the importance of fall orientation on femoral neck strength.

作者信息

机构信息

出版信息

UNLABELLED

INTRODUCTION

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

未标注

引言

材料与方法

结果

结论

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