Jingxu Jin scite author profile

Jingxu Jin

4Publications

7Citation Statements Received

68Citation Statements Given

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Jilin University

Publications

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A Finite Element Study of the Dynamic Response of Brain Based on Two Parasagittal Slice Models

Song

Huang

et al. 2015

Computational and Mathematical Methods in Medicine

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The objective of this study is to investigate the influence of gyri and sulci on the response of human head under transient loading. To this end, two detailed parasagittal slice models with and without gyri and sulci have been developed. The models comprised not only cerebrum and skull but also cerebellum, brain stem, CSF, and corpus callosum. In addition, white and gray matters were separated. The material properties were adopted from the literature and assigned to different parts of the models. Nahum's and Trosseille's experiments reported in relevant literature were simulated and the simulation results were compared with the test data. The results show that there is no evident difference in terms of intracranial pressure between the models with and without gyri and sulci under simulated conditions. The equivalent stress below gyri and sulci in the model with gyri and sulci is slightly higher than that in the counterpart model without gyri and sulci. The maximum principle strain in brain tissue is lower in the model with gyri and sulci. The stress and strain distributions are changed due to the existence of gyri and sulci. These findings highlight the necessity to include gyri and sulci in the finite element head modeling.

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Effect of Cerebrospinal Fluid Modeled With Different Material Properties on a Human Finite Element Head Model

Jin

Zhang

Song

et al. 2015

J. Mech. Med. Biol.

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The aim of this study was to enhance head-injury prediction, this paper investigated the behavior of cerebrospinal fluid (CSF) in finite element (FE) modeling. Nine different material properties selected according to material definitions and property values were used to represent CSF in FE head models. To evaluate the influence of CSF material parameters on brain mechanical responses, the models were validated against available cadaver experiment data. Results showed that coup pressure increased whereas contrecoup pressure decreased when the head sustained purely translational impact with increased bulk modulus when CSF was modeled as fluid. However, with increased bulk modulus, coup pressure, contrecoup pressure and relative skull-brain motions decreased under rotational impact. When CSF was assumed to be an elastic material, coup pressure increased whereas contrecoup pressure decreased with increased elastic modulus when the head was subjected to purely translational impact. However, the variation trend was not obvious during head rotation. Results also indicated that when subjected to brain strain and von Mises stress, the model was prone to underestimate brain injury when CSF was modeled as an elastic material, especially during purely translational impact to the head. The model with CSF as fluid reduced the strain rate of brain, which was more likely to be realistic than the model with CSF as a viscoelastic material. These findings suggested that significantly higher values of the bulk modulus of CSF modeled as fluid were needed to predict intracranial dynamic responses and brain injury during head impact.

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Validation of a finite element model of human head with CSF modeled as fluid against three experiments

Jin

Zhang

Song

et al. 2014

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Validation of a finite element model of human head with CSF modeled as fluid against three experiments

Jin

Zhang

Song

et al. 2014

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Jingxu Jin

A Finite Element Study of the Dynamic Response of Brain Based on Two Parasagittal Slice Models

Effect of Cerebrospinal Fluid Modeled With Different Material Properties on a Human Finite Element Head Model

Validation of a finite element model of human head with CSF modeled as fluid against three experiments

Validation of a finite element model of human head with CSF modeled as fluid against three experiments

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