In the Rodent Tail Loading Model, Locations of Cancellous Tissue with High Mechanical Strain are not Affected by Small Off-axis Loads

Author

Goff, M.G. ; Chang, K.L. ; Litts, E.N. ; Hernandez, C.J.

Author_Institution

Mech. Eng., Cornell Univ., Ithaca, NY, USA

fYear

2013

fDate

5-7 April 2013

Firstpage

92

Lastpage

93

Abstract

The relationship between mechanical stresses and strains and bone adaptation in cancellous bone has not been explored at the scale of individual trabeculae. Finite element models are necessary to measure mechanical stresses/strains at the scale of individual trabeculae. Small variations in in-vivo loading conditions may lead to incorrect strain distribution predictions from idealized finite element models. Here we examined how small variations in the loading conditions affected the location of tissue with high mechanical strain in cancellous bone by simulating translational and angular displacements. Neither translational nor angular displacements significantly altered the location of tissue with high mechanical strain in cancellous bone.

Keywords

biomechanics; bone; finite element analysis; internal stresses; stress-strain relations; zoology; angular displacements; bone adaptation; cancellous bone; cancellous tissue locations; finite element models; in-vivo loading conditions; mechanical stress-strains; rodent tail loading model; small off-axis loads; strain distribution predictions; trabeculae; translational displacements; Adaptation models; Bones; Cancellous bone; Finite element analysis; Load modeling; Loading; Strain; Biomechanics; Mechanobiology; Finite Element Modeling; Bone;

fLanguage

English

Publisher

ieee

Conference_Titel

Bioengineering Conference (NEBEC), 2013 39th Annual Northeast

Conference_Location

Syracuse, NY

ISSN

2160-7001

Print_ISBN

978-1-4673-4928-4

Type

conf

DOI

10.1109/NEBEC.2013.154

Filename

6574373