A Statistical Model of Spine Shape and Material for Population-Oriented Biomechanical Simulation

A Statistical Model of Spine Shape and Material for Population-Oriented Biomechanical Simulation

In population-oriented ergonomics product design and musculoskeletal kinetics analysis, digital spine models of different shape, pose and material property are in great demand. The purpose of this study was to construct a parameterized finite element spine model with adjustable spine shape and mater...

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Auteurs principaux: Xiaobang Sun, Hongkai Wang, Weiying Wang, Nannan Li, Timo Hamalainen, Tapani Ristaniemi, Changjian Liu
Format: article
Langue:EN
Publié: IEEE 2021
Sujets:
Spine modelling
biomechanical simulation
statistical shape modelling
finite element analysis
population anatomy modelling
Electrical engineering. Electronics. Nuclear engineering
TK1-9971
Accès en ligne:https://doaj.org/article/74c46ba4dc0647d3b4cbbc48fea27347
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Résumé:In population-oriented ergonomics product design and musculoskeletal kinetics analysis, digital spine models of different shape, pose and material property are in great demand. The purpose of this study was to construct a parameterized finite element spine model with adjustable spine shape and material property. We used statistical shape model approach to learn inter-subject shape distribution from 65 CT images of training subjects. Second order polynomial regression was used to model the age-dependent changes in vertebral material property derived from spatially aligned CT images. Finally, a parametric spine generator was developed to create finite element instances of different shapes and material properties. For quantitative analysis, the generalization ability to emulate spine shapes of different people was evaluated by fitting into 17 test CT images. The median fitting accuracy was 0.8 for Dice coefficient and 0.43 mm for average surface distance. The age-dependent bone density regression curve was also proved to well agree with large population statistics data. Finite element simulation was performed to compare how shape parameters influenced the biomechanics distribution of spine. The proposed parametric finite element whole spine model will assist the design process of new devices and biomechanical simulation towards a wide range of population.

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