An ex vivo experiment to reproduce a forward fall leading to fractured and non-fractured radii

An ex vivo experiment to reproduce a forward fall leading to fractured and non-fractured radii

Forward falls represent a risk of injury for the elderly. The risk is increased in elderly persons with bone diseases, such as osteoporosis. However, half of the patients with fracture were not considered at risk based on bone density measurement (current clinical technique). We assume that loading...

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Bibliographic Details
Published in:Journal of biomechanics Vol. 63; pp. 174 - 178
Main Authors: Zapata, E., Rongieras, F., Pialat, J.-B., Follet, H., Mitton, D.
Format: Journal Article
Language:English
Published: United States Elsevier Ltd 03-10-2017
Elsevier Limited
Elsevier
Subjects:
Accidental Falls
Aged
Aged, 80 and over
Biocompatibility
Biomechanics
Biomedical materials
Bone Density
Bone diseases
Bone strength
Bones
Cameras
Computer simulation
Density measurement
Engineering Sciences
Experiments
Fall
Female
Females
Finite Element Analysis
Finite element method
Fourier transforms
Fracture
Fractures
Geriatrics
Health risks
Humans
Male
Males
Mathematical models
Mechanical loading
Mechanics
Middle Aged
Older people
Osteoporosis
Predictions
Radius
Radius - injuries
Radius - pathology
Radius Fractures
Risk
Tomography
Velocity
France
Biomechanics
Radius
Fall
Fracture
Bone strength
BONE STRENGTH
FRACTURE
RADIUS
OS
BIOMECANIQUE
FALL
BIOMECHANICS
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Summary:Forward falls represent a risk of injury for the elderly. The risk is increased in elderly persons with bone diseases, such as osteoporosis. However, half of the patients with fracture were not considered at risk based on bone density measurement (current clinical technique). We assume that loading conditions are of high importance and should be considered. Real loading conditions in a fall can reach a loading speed of 2m/s on average. The current study aimed to apply more realistic loading conditions that simulate a forward fall on the radius ex vivo. Thirty radii from elderly donors (79y.o.±12y.o., 15 males, 15 females) were loaded at 2m/s using a servo-hydraulic testing machine to mimic impact that corresponds to a fall. Among the 30 radii, 14 had a fracture after the impact, leading to two groups (fractured and non-fractured). Surfacic strain fields were measured using stereovision and allow for visualization of fracture patterns. The average maximum load was 2963±1274N. These experimental data will be useful for assessing the predictive capability of fracture risk prediction methods such as finite element models.
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content type line 23
ISSN:0021-9290
1873-2380
DOI:10.1016/j.jbiomech.2017.08.013