Load Transfer Mechanism for Different Metatarsal Geometries: A Finite Element StudySource: Journal of Biomechanical Engineering:;2009:;volume( 131 ):;issue: 002::page 21011Author:J. M. García-Aznar
,
R. Larrainzar
,
M. Doblaré
,
L. F. Llanos
,
R. García-Bógalo
,
J. Bayod
,
A. Rosas
DOI: 10.1115/1.3005174Publisher: The American Society of Mechanical Engineers (ASME)
Abstract: The load transfer mechanism across the skeleton of the human foot is very important to understand its biomechanical function. In this work, we develop several computational models to compare the biomechanical response of different metatarsal geometries. Finite element 3D simulations of feet reconstructed from computer tomography (CT) scans were used to evaluate the stress/strain distributions during the stance posture. The numerical predictions for pathological and healthy foot geometries present different load transfer mechanisms that can provide a biomechanical explanation of why some metatarsal geometrical configurations cause different foot skeletal stresses. The most significant result in all cases was a reduction between 20% and 30% of the peak load supported by the first metatarsal. Therefore, we conclude that a clearly unloaded first metatarsal, overloading the rest, is a risk factor to induce metatarsalgia.
keyword(s): Stress , Bone , Mechanisms , Finite element analysis , Geometry AND Stress concentration ,
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| contributor author | J. M. García-Aznar | |
| contributor author | R. Larrainzar | |
| contributor author | M. Doblaré | |
| contributor author | L. F. Llanos | |
| contributor author | R. García-Bógalo | |
| contributor author | J. Bayod | |
| contributor author | A. Rosas | |
| date accessioned | 2017-05-09T00:31:50Z | |
| date available | 2017-05-09T00:31:50Z | |
| date copyright | February, 2009 | |
| date issued | 2009 | |
| identifier issn | 0148-0731 | |
| identifier other | JBENDY-26876#021011_1.pdf | |
| identifier uri | http://yetl.yabesh.ir/yetl/handle/yetl/140021 | |
| description abstract | The load transfer mechanism across the skeleton of the human foot is very important to understand its biomechanical function. In this work, we develop several computational models to compare the biomechanical response of different metatarsal geometries. Finite element 3D simulations of feet reconstructed from computer tomography (CT) scans were used to evaluate the stress/strain distributions during the stance posture. The numerical predictions for pathological and healthy foot geometries present different load transfer mechanisms that can provide a biomechanical explanation of why some metatarsal geometrical configurations cause different foot skeletal stresses. The most significant result in all cases was a reduction between 20% and 30% of the peak load supported by the first metatarsal. Therefore, we conclude that a clearly unloaded first metatarsal, overloading the rest, is a risk factor to induce metatarsalgia. | |
| publisher | The American Society of Mechanical Engineers (ASME) | |
| title | Load Transfer Mechanism for Different Metatarsal Geometries: A Finite Element Study | |
| type | Journal Paper | |
| journal volume | 131 | |
| journal issue | 2 | |
| journal title | Journal of Biomechanical Engineering | |
| identifier doi | 10.1115/1.3005174 | |
| journal fristpage | 21011 | |
| identifier eissn | 1528-8951 | |
| keywords | Stress | |
| keywords | Bone | |
| keywords | Mechanisms | |
| keywords | Finite element analysis | |
| keywords | Geometry AND Stress concentration | |
| tree | Journal of Biomechanical Engineering:;2009:;volume( 131 ):;issue: 002 | |
| contenttype | Fulltext |