基于定量计算机断层扫描，可预测人体椎骨小梁骨在压缩下的材料性能。

Material properties of human vertebral trabecular bone under compression can be predicted based on quantitative computed tomography.

机构信息

AO Research Institute Davos, Clavadelerstrasse 8, 7270, Davos, Switzerland.

University Hospital Muenster, Department of Trauma, Hand and Reconstructive Surgery, Albert-Schweitzer-Campus 1, Building W1, 48149, Muenster, Germany.

出版信息

BMC Musculoskelet Disord. 2021 Aug 18;22(1):709. doi: 10.1186/s12891-021-04571-4.

DOI:10.1186/s12891-021-04571-4

PMID:34407777

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8375123/

Abstract

BACKGROUND

The prediction of the stability of bones is becoming increasingly important. Especially osteoporotic vertebral body fractures are a growing problem and an increasing burden on the health system. Therefore, the aim of this study was to provide the best possible description of the relationship between the material properties of human vertebral trabecular bone measured under the most physiological conditions possible and the bone mineral density (BMD) determined by clinical quantitative computed tomography (QCT).

METHODS

Forty eight cylindric cancellous bone samples with a diameter of 7.2 mm obtained from 13 human fresh-frozen lumbar vertebrae from 5 donors (3 men, 2 women) have been used for this study. After the specimens were temporarily reinserted into the vertebral body, the QCT was performed. For mechanical testing, the samples were embedded in a load-free manner using polymethylmetacrylate (PMMA). The surrounding test chamber was filled with phosphate buffered saline (PBS) and heated to 37 °C during the test. After 10 preconditioning load cycles, destructive testing was performed under axial compression. After determining the fracture site, BMD has been evaluated in this region only. Regression analyses have been performed.

RESULTS

Fracture site had an average length of 2.4 (±1.4) mm and a position of 43.9 (±10.9) percent of the measurement length from the cranial end. No fracture reached the embedding. The average BMD at the fracture site was 80.2 (±28.7 | min. 14.5 | max. 137.8) mgCaHA/ml. In summary the results of the regression analyses showed for all three parameters a very good quality of fit by a power regression.

CONCLUSION

The results of this study show that QCT-based bone density measurements have a good predictive power for the material properties of the vertebral cancellous bone measured under near to physiological conditions. The mechanical bone properties of vertebral cancellous bone could be modelled with high accuracy in the investigated bone density range.

摘要

背景

骨骼稳定性的预测变得越来越重要。特别是骨质疏松性椎体骨折是一个日益严重的问题，也是对医疗体系负担不断增加的一个原因。因此，本研究的目的是尽可能详细地描述在尽可能接近生理条件下测量的人类松质骨的材料特性与临床定量计算机断层扫描（QCT）确定的骨密度（BMD）之间的关系。

方法

本研究使用了 13 个来自 5 个供体（3 名男性，2 名女性）的 13 个人类新鲜冷冻腰椎的 48 个直径为 7.2mm 的圆柱形松质骨样本。在标本被暂时重新插入椎体后，进行 QCT 检查。为了进行力学测试，将样本使用聚甲基丙烯酸甲酯（PMMA）以无负载的方式嵌入。在测试过程中，周围的测试腔充满磷酸盐缓冲盐水（PBS）并加热至 37°C。在进行 10 次预条件加载循环后，在轴向压缩下进行破坏性测试。在确定骨折部位后，仅在该区域评估 BMD。进行了回归分析。

结果

骨折部位的平均长度为 2.4（±1.4）mm，从颅端起的测量长度的位置为 43.9（±10.9）%。没有骨折达到嵌入部位。骨折部位的平均 BMD 为 80.2（±28.7|最小 14.5|最大 137.8）mgCaHA/ml。总之，回归分析的结果表明，所有三个参数的拟合质量都非常好，符合幂回归。

结论

本研究的结果表明，基于 QCT 的骨密度测量对在接近生理条件下测量的椎体松质骨的材料特性具有良好的预测能力。在研究的骨密度范围内，椎体松质骨的力学特性可以高精度地建模。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2113/8375123/64d0cc482d8b/12891_2021_4571_Fig1_HTML.jpg

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基于定量计算机断层扫描，可预测人体椎骨小梁骨在压缩下的材料性能。

Material properties of human vertebral trabecular bone under compression can be predicted based on quantitative computed tomography.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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