Ioana Alexandra Takacs scite author profile

The complications of fractures caused by osteoporosis have a mortality rate of 15-20 % in elderly people, leading to severe physical disability and long term home care [1]. Although currently, the technology that allows us to prevent osteoporosis and fractures caused by this disease exists, the statistics are concerning and can be considered basis for further research regarding this pathology of the bone tissue. This paper aims to address this issue form an engineering perspective by achieving experimental validation of a finite element model of an osteoporotic human femoral bone using strain gauge measurement for an in vitro analysis. A Computer Aided Design (CAD) model based on a CT of a human femoral bone was then used in a numerical analysis. The material constants used are taken from the literature and have been validated experimentally by strain gauge technique.

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Displacement-stress Distribution in a Femoral Bone by Optical Methods

Takacs

Botean

Hărdău

et al. 2015

Procedia Technology

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The Study of Massive Trochanterion Fractures

Botean

Takacs

Hărdău

2011

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The Position and the Difficulties of Fruit Production in Hungary

Takács-György¹,

Takacs²,

Kassai³

2018

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