Experimental Validation of a Finite Element Model of an Osteoporotic Human Femoral Bone Using Strain Gauge Measurement

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 stat...

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Vydáno v:Applied Mechanics and Materials Ročník 658; s. 513 - 519
Hlavní autoři: Dudescu, Mircea Cristian, Takacs, Ioana Alexandra, Hărdău, Mihail, Botean, Adrian Ioan
Médium: Journal Article
Jazyk:angličtina
Vydáno: Zurich Trans Tech Publications Ltd 01.10.2014
Témata:
Strain Gauge Measurement
Orthotropic Bone Properties
Finite Element Analysis (FEA)
Osteoporotic Human Femoral Bone
CT Scan
ISBN:9783038352716, 3038352713
ISSN:1660-9336, 1662-7482, 1662-7482
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Shrnutí: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.
Bibliografie:Selected, peer reviewed papers from a Collection of Papers from the 6th International Conference on Advanced Concepts in Mechanical Engineering (ACME 2014), June 12-13, 2014, Iasi, Romania
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ISBN:9783038352716
3038352713
ISSN:1660-9336
1662-7482
1662-7482
DOI:10.4028/www.scientific.net/AMM.658.513