• Comput Methods Programs Biomed · Aug 2019

    Influence of passive elements on prediction of intradiscal pressure and muscle activation in lumbar musculoskeletal models.

    • Kuan Wang, Lejun Wang, Zhen Deng, Chenghua Jiang, Wenxin Niu, and Ming Zhang.
    • Yangzhi Rehabilitation Hospital, Sunshine Rehabilitation Centre, Tongji University School of Medicine, Shanghai 201619, China; Department of Rehabilitation Sciences, Tongji University School of Medicine, Shanghai 200092, China.
    • Comput Methods Programs Biomed. 2019 Aug 1; 177: 39-46.

    Background And ObjectiveThe objective of this study was to investigate the effect of incorporating various passive elements, which could represent combined or individual effects of intervertebral disc, facet articulation and ligaments, on the prediction of lumbar muscle activation and L4-L5 intradiscal pressure.MethodsThe passive elements representing the intervertebral disc, facet articulations, and ligaments were added to the existed lumbar musculoskeletal model with nonlinear rotational stiffness or force-strain relationships. The model was fed with kinematics of trunk flexion, extension, axial rotation and lateral bending to calculate muscle activation and L4-L5 intradiscal pressure.ResultsIn the trunk axial rotation, the intradiscal pressure values predicted by the models with elements representing facet articulation were much higher than that predicated by models removing these elements. In the trunk flexion, the models with passive elements showed lower muscle activation of extensors than model with no passive elements. At the end of trunk flexion, extension, axial rotation and lateral bending, the intradiscal pressure values predicted by model with intact passive elements were 120.6%, 92.5%, 334.8% and 74.9% of the values predicted by model with no passive elements, respectively.ConclusionsCaution must be taken while modeling facet articulation as elements with rotational stiffness, as they may lead to overestimation of intradiscal pressure in trunk axial rotation. The inclusion of ligaments as spring-like elements may improve the simulation of flexion-relaxation phenomenon in trunk flexion. Future models considering detailed properties of passive elements are needed to allow more access to understanding the mechanics of the lumbar spine.Copyright © 2019 Elsevier B.V. All rights reserved.

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