Experimentally tested computer modeling of stress fractures in rats.
@article{SternPerry2011ExperimentallyTC,
title={Experimentally tested computer modeling of stress fractures in rats.},
author={Michal Stern-Perry and Amit Gefen and Nogah Shabshin and Yoram Epstein},
journal={Journal of applied physiology},
year={2011},
volume={110 4},
pages={
909-16
}
}The objective of this study was to develop a finite-element (FE) modeling methodology for studying the etiology of a stress fracture (SF). Several variants of three-dimensional FE models of a rat hindlimb, which differed in length or stiffness of tissues, enabling the analyses of mechanical strains and stress in the tibia, were created. We compared the occurrence of SFs in an animal model to validate locations of peak strains/stresses in the FE models. Four Sprague-Dawley male rats, age ~7 wk…
3 Citations
Biomechanical Model for Stress Fracture–related Factors in Athletes and Soldiers
- Biology, EngineeringMedicine and science in sports and exercise
- 2018
Thigh muscle fatigue, load carriage, and a slender tibia were detected as factors that may contribute to the development of SF, a novel tool for investigating the pathophysiology of SF.
The Mechanophysiololgy of Stress Fractures in Military Recruits
- Biology
- 2016
Questions on how muscle forces provide a protective effect against SFs, how many cycles can an individual perform before he or she will be at a risk of suffering a SF, or is it necessary to implement prophylactic interventions in order to protect those who are identified at a greater risk are reviewed.
Effectiveness of various isometric exercises at improving bone strength in cortical regions prone to distal tibial stress fractures.
- EngineeringInternational journal for numerical methods in biomedical engineering
- 2018
A computational model was used to compare the local bone strengthening effectiveness of various isometric exercises that may reduce the likelihood of distal tibial stress fractures and can provide preliminary guidance in the screening and development of targeted bone strengthening techniques for those susceptible todistal tibia stress fractures.
References
SHOWING 1-10 OF 42 REFERENCES
Stress fields in the unplated and plated canine femur calculated from in vivo strain measurements.
- EngineeringJournal of biomechanics
- 1981
Experimental and finite element analysis of the rat ulnar loading model-correlations between strain and bone formation following fatigue loading.
- Biology, EngineeringJournal of biomechanics
- 2004
Bone strain: a determinant of gait and speed?
- BiologyThe Journal of experimental biology
- 1986
Strain levels recorded at the trot-gallop transition and top galloping speeds of the goat were similar to the values reported for the dog and horse, despite large differences in absolute speed.
Experimental stress fractures of the tibia: biological and mechanical aetiology in rabbits
- MedicineThe Journal of bone and joint surgery. British volume
- 1990
It is shown that stress fractures can be induced in the tibial diaphysis of an animal model by the repeated application of non-traumatic impulsive loads, making the model a useful one for the study of the aetiology of stress fractures.
Noninvasive fatigue fracture model of the rat ulna
- BiologyJournal of orthopaedic research : official publication of the Orthopaedic Research Society
- 2003
BIOLOGICAL AND MECHANICAL AETIOLOGY IN RABBITS
- Medicine
- 1990
It is shown that stress fractures can be induced in the tibial diaphysis of an animal model by the repeated application of non-traumatic impulsive loads, making the model a useful one for the study of the aetiology of stress fractures.
Automated three-dimensional finite element modelling of bone: a new method.
- EngineeringJournal of biomedical engineering
- 1990
Mechanical compression-induced pressure sores in rat hindlimb: muscle stiffness, histology, and computational models.
- Biology, EngineeringJournal of applied physiology
- 2004
Information on internal muscle stresses is required to establish new criteria for pressure sore prevention and it is shown that the increased muscle stiffness in widening regions results in elevated tissue stresses that exacerbate the potential for tissue necrosis.
Experimental and theoretical quantification of the development of damage in fatigue tests of bone and antler.
- EngineeringJournal of biomechanics
- 1996