Evaluation of the Influences of Various Force Magnitudes and Configurations on Scoliotic Curve Correction Using Finite Element Analysis

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Evaluation of the Influences of Various Force Magnitudes and Configurations on Scoliotic Curve Correction Using Finite Element Analysis Publisher Pubmed

Karimi MT¹ ; Ebrahimi MH² ; Mohammadi A² ; Mcgarry A³

Show Affiliations

1. Faculty of Rehabilitation, Isfahan University of Medical Sciences, Isfahan, Iran
2. Musculoskeletal Research Center, Faculty of Rehabilitation, Isfahan University of Medical Sciences, Isfahan, 817467346, Iran
3. Department of Biomedical Engineering, University of Strathclyde, Glasgow, United Kingdom

Source: Australasian Physical and Engineering Sciences in Medicine Published:2017

Abstract

Scoliosis is a lateral curvature in the normally straight vertical line of the spine, and the curvature can be moderate to severe. Different treatment can be used based on severity and age of subjects, but most common treatment for this disease is using orthosis. To design orthosis types of force arrangement can be varied, from transverse loads to vertical loads or combination of them. But it is not well introduced how orthoses control scoliotic curve and how to achieve the maximum correction based on force configurations and magnitude. Therefore, it was aimed to determine the effect of various loads configurations and magnitudes on curve correction of a degenerative scoliotic subject. A scoliotic subject participated in this study. The CT-Scan of the subject was used to produce 3D model of spine. The 3D model of spine was produced by Mimics software and the finite element analysis and deformation of scoliotic curve of the spine under seven different forces and in three different conditions was determined by ABAQUS software. The Cobb angle in scoliosis curve decreased significantly by applying forces. In each condition depends on different forces, different corrections have been achieved. It can be concluded that the configurations of the force application mentioned in this study is effective to decrease the scoliosis curve. Although it is a case study, it can be used for a vast number of subjects to predict the correction of scoliosis curve before orthotic treatment. Moreover, it is recommended that this method and the outputs can be compared with clinical findings. © 2016, Australasian College of Physical Scientists and Engineers in Medicine.

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Style	Citing Format
MLA	Karimi MT, et al.. "Evaluation of the Influences of Various Force Magnitudes and Configurations on Scoliotic Curve Correction Using Finite Element Analysis." Australasian Physical and Engineering Sciences in Medicine, vol. 40, no. 1, 2017, pp. 231-236.
APA	Karimi MT, Ebrahimi MH, Mohammadi A, Mcgarry A (2017). Evaluation of the Influences of Various Force Magnitudes and Configurations on Scoliotic Curve Correction Using Finite Element Analysis. Australasian Physical and Engineering Sciences in Medicine, 40(1), 231-236.
Chicago	Karimi MT, Ebrahimi MH, Mohammadi A, Mcgarry A. "Evaluation of the Influences of Various Force Magnitudes and Configurations on Scoliotic Curve Correction Using Finite Element Analysis." Australasian Physical and Engineering Sciences in Medicine 40, no. 1 (2017): 231-236.
Harvard	Karimi MT et al. (2017) 'Evaluation of the Influences of Various Force Magnitudes and Configurations on Scoliotic Curve Correction Using Finite Element Analysis', Australasian Physical and Engineering Sciences in Medicine, 40(1), pp. 231-236.
Vancouver	Karimi MT, Ebrahimi MH, Mohammadi A, Mcgarry A. Evaluation of the Influences of Various Force Magnitudes and Configurations on Scoliotic Curve Correction Using Finite Element Analysis. Australasian Physical and Engineering Sciences in Medicine. 2017;40(1):231-236.
BibTex	@article{ author = {Karimi MT and Ebrahimi MH and Mohammadi A and Mcgarry A}, title = {Evaluation of the Influences of Various Force Magnitudes and Configurations on Scoliotic Curve Correction Using Finite Element Analysis}, journal = {Australasian Physical and Engineering Sciences in Medicine}, volume = {40}, number = {1}, pages = {231-236}, year = {2017} }
RIS	TY - JOUR AU - Karimi MT AU - Ebrahimi MH AU - Mohammadi A AU - Mcgarry A TI - Evaluation of the Influences of Various Force Magnitudes and Configurations on Scoliotic Curve Correction Using Finite Element Analysis JO - Australasian Physical and Engineering Sciences in Medicine VL - 40 IS - 1 SP - 231 EP - 236 PY - 2017 ER -

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