Patient‐specific fracture risk assessment of vertebrae: a multiscale approach coupling X‐ray physics and continuum micromechanics
While in clinical settings, bone mineral density measured by computed tomography (CT)
remains the key indicator for bone fracture risk, there is an ongoing quest for more
engineering mechanics‐based approaches for safety analyses of the skeleton. This calls for
determination of suitable material properties from respective CT data, where the traditional
approach consists of regression analyses between attenuation‐related grey values and
mechanical properties. We here present a physics‐oriented approach, considering that …
remains the key indicator for bone fracture risk, there is an ongoing quest for more
engineering mechanics‐based approaches for safety analyses of the skeleton. This calls for
determination of suitable material properties from respective CT data, where the traditional
approach consists of regression analyses between attenuation‐related grey values and
mechanical properties. We here present a physics‐oriented approach, considering that …
[引用][C] Patient-Specific Fracture Risk Assessment of Vertebrae: A Multiscale Approach Coupling X-Ray Physics and Continuum Micromechanics
C Hellmich - 2016 - repositum.tuwien.at
reposiTUm: Patient-Specific Fracture Risk Assessment of Vertebrae: A Multiscale Approach
Coupling X-Ray Physics and Continuum Micromechanics … Patient-Specific Fracture Risk
Assessment of Vertebrae: A Multiscale Approach Coupling X-Ray Physics and Continuum
Micromechanics …
Coupling X-Ray Physics and Continuum Micromechanics … Patient-Specific Fracture Risk
Assessment of Vertebrae: A Multiscale Approach Coupling X-Ray Physics and Continuum
Micromechanics …
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