基于 CT 的股骨强度有限元模型预测在临床上有用吗?
Are CT-Based Finite Element Model Predictions of Femoral Bone Strength Clinically Useful?
机构信息
Department of Mechanical Engineering, University of Sheffield, Sheffield, UK.
INSIGNEO Institute for in silico Medicine, University of Sheffield, Sheffield, UK.
出版信息
Curr Osteoporos Rep. 2018 Jun;16(3):216-223. doi: 10.1007/s11914-018-0438-8.
Abstract
PURPOSE OF REVIEW
This study reviews the available literature to compare the accuracy of areal bone mineral density derived from dual X-ray absorptiometry (DXA-aBMD) and of subject-specific finite element models derived from quantitative computed tomography (QCT-SSFE) in predicting bone strength measured experimentally on cadaver bones, as well as their clinical accuracy both in terms of discrimination and prediction. Based on this information, some basic cost-effectiveness calculations are performed to explore the use of QCT-SSFE instead of DXA-aBMD in (a) clinical studies with femoral strength as endpoint, (b) predictor of the risk of hip fracture in low bone mass patients.
RECENT FINDINGS
Recent improvements involving the use of smooth-boundary meshes, better anatomical referencing for proximal-only scans, multiple side-fall directions, and refined boundary conditions increase the predictive accuracy of QCT-SSFE. If these improvements are adopted, QCT-SSFE is always preferable over DXA-aBMD in clinical studies with femoral strength as the endpoint, while it is not yet cost-effective as a hip fracture risk predictor, although pathways that combine both QCT-SSFE and DXA-aBMD are promising.
摘要
目的综述
本研究回顾了现有文献,比较了双能 X 射线吸收法(DXA-aBMD)和定量计算机断层扫描(QCT-SSFE)得出的特定于个体的有限元模型在预测尸体骨骼上实验测量的骨强度方面的准确性,以及它们在区分和预测方面的临床准确性。基于这些信息,进行了一些基本的成本效益计算,以探讨在(a)以股骨强度为终点的临床研究中,以及(b)在低骨量患者的髋部骨折风险预测中,使用 QCT-SSFE 代替 DXA-aBMD 的可能性。
最近的发现
涉及使用平滑边界网格、更好的近端扫描解剖参考、多个侧面跌倒方向和细化边界条件的最新改进提高了 QCT-SSFE 的预测准确性。如果采用这些改进,QCT-SSFE 总是优于以股骨强度为终点的临床研究中的 DXA-aBMD,尽管将 QCT-SSFE 和 DXA-aBMD 相结合的途径很有前途,但它作为髋部骨折风险预测指标还不具有成本效益。
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