Robust QCT/FEA Models of Proximal Femur Stiffness and Fracture Load During a Sideways Fall on the Hip
Dan Dragomir-Daescu,Jorn Op Den Buijs,Sean McEligot,Yifei Dai,Rachel Entwistle,Christina Salas,L. Joseph Melton,Kevin E. Bennet,Sundeep Khosla,Shreyasee Amin +9 more
TLDR
Two sets of cadaveric femora with bone densities varying from normal to osteoporotic were used to build, refine, and validate a new class of QCT/FEA models for hip fracture under loading conditions that simulate a sideways fall on the hip.Abstract:
Clinical implementation of quantitative computed tomography-based finite element analysis (QCT/FEA) of proximal femur stiffness and strength to assess the likelihood of proximal femur (hip) fractures requires a unified modeling procedure, consistency in predicting bone mechanical properties, and validation with realistic test data that represent typical hip fractures, specifically, a sideways fall on the hip. We, therefore, used two sets (n = 9, each) of cadaveric femora with bone densities varying from normal to osteoporotic to build, refine, and validate a new class of QCT/FEA models for hip fracture under loading conditions that simulate a sideways fall on the hip. Convergence requirements of finite element models of the first set of femora led to the creation of a new meshing strategy and a robust process to model proximal femur geometry and material properties from QCT images. We used a second set of femora to cross-validate the model parameters derived from the first set. Refined models were validated experimentally by fracturing femora using specially designed fixtures, load cells, and high speed video capture. CT image reconstructions of fractured femora were created to classify the fractures. The predicted stiffness (cross-validation R2 = 0.87), fracture load (cross-validation R2 = 0.85), and fracture patterns (83% agreement) correlated well with experimental data.read more
Citations
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Journal ArticleDOI
A nonlinear QCT-based finite element model validation study for the human femur tested in two configurations in vitro
Enrico Dall'Ara,B. Luisier,Reinhard Schmidt,Franz Kainberger,Philippe K. Zysset,Dieter H. Pahr +5 more
TL;DR: The subject specific QCT-based nonlinear hvFE model cannot only predict femoral apparent mechanical properties better than densitometric measures, but can additionally provide useful qualitative information about failure location.
Journal ArticleDOI
Finite element analysis for prediction of bone strength
TL;DR: Considering the cumulated evidence from the published validation studies, it is concluded that FE models provide the most reliable surrogates of bone strength at any of the three fracture sites.
Journal ArticleDOI
To what extent can linear finite element models of human femora predict failure under stance and fall loading configurations
TL;DR: A simple FE model, adaptable in the future to multiple loads (e.g. including muscles), was highly correlated with experimental failure in two loading conditions on specimens ranging from normal to osteoporotic, and can be suitable for use in clinical studies.
Journal ArticleDOI
Ct-based finite element models can be used to estimate experimentally measured failure loads in the proximal femur.
Janne E. M. Koivumäki,Jérôme Thevenot,Pasi Pulkkinen,Volker Kuhn,Thomas M. Link,Felix Eckstein,Timo Jämsä,Timo Jämsä +7 more
TL;DR: The study shows that it is possible to estimate the fracture load with relatively high accuracy in a sideways fall configuration by using the CT-based FE method, and this method may therefore be applied for studying the biomechanical mechanisms of hip fractures.
Journal ArticleDOI
Modelling of bone fracture and strength at different length scales: a review.
TL;DR: Modelling of bone, accounting for different scales, provides new and needed insights into the fracture and strength of bone which, in turn, can lead to improved diagnostic tools and treatments of bone diseases such as osteoporosis.
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