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Computer Methods in Biomechanics and Biomedical Engineering Volume 12, 2009 - Issue 3
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Original Articles

A micromechanical procedure for modelling the anisotropic mechanical properties of brain white matter

N. Abolfathi Department of Mechanical Engineering and Applied Mechanics, North Dakota State University, Fargo, ND, 58105-5285, USA
,
A. Naik Department of Mechanical Engineering and Applied Mechanics, North Dakota State University, Fargo, ND, 58105-5285, USA
,
M. Sotudeh Chafi Department of Mechanical Engineering and Applied Mechanics, North Dakota State University, Fargo, ND, 58105-5285, USA
,
G. Karami Department of Mechanical Engineering and Applied Mechanics, North Dakota State University, Fargo, ND, 58105-5285, USACorrespondence[email protected]
&
M. Ziejewski Department of Mechanical Engineering and Applied Mechanics, North Dakota State University, Fargo, ND, 58105-5285, USA
Pages 249-262 | Received 11 Mar 2008, Accepted 24 Aug 2008, Published online: 27 Apr 2009

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Hesam Hoursan, Farzam Farahmand & Mohammad Taghi Ahmadian. (2022) Effect of axonal fiber architecture on mechanical heterogeneity of the white matter—a statistical micromechanical model. Computer Methods in Biomechanics and Biomedical Engineering 25:1, pages 27-39.
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Articles from other publishers (43)

Peng Wang, Zhibo Du, Huibin Shi, Junjie Liu, Zhanli Liu & Zhuo Zhuang. (2023) Origins of brain tissue elasticity under multiple loading modes by analyzing the microstructure-based models. Biomechanics and Modeling in Mechanobiology 22:4, pages 1239-1252.
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Soheil Mohammadi. 2023. Multiscale Biomechanics. Multiscale Biomechanics 489 517 .
Majid Baniassadi, Mostafa Baghani & Yves Remond. 2023. Applied Micromechanics of Complex Microstructures. Applied Micromechanics of Complex Microstructures 145 220 .
Anis Allahdinian, Faezeh Eskandari & Mehdi Shafieian. (2022) The Role of Glial Cells in the Mechanical Behavior of Brain Tissue: A Mechanobiological Approach. The Role of Glial Cells in the Mechanical Behavior of Brain Tissue: A Mechanobiological Approach.
Xuehai Wu, John G. Georgiadis & Assimina A. Pelegri. (2022) Harmonic viscoelastic response of 3D histology-informed white matter model. Molecular and Cellular Neuroscience 123, pages 103782.
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Faezeh Eskandari, Mehdi Shafieian, Mohammad M. Aghdam & Kaveh Laksari. (2022) Morphological changes in glial cells arrangement under mechanical loading: A quantitative study. Injury 53:11, pages 3617-3623.
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Andrea Bernardini, Marco Trovatelli, Michał M. Kłosowski, Matteo Pederzani, Davide Danilo Zani, Stefano Brizzola, Alexandra Porter, Ferdinando Rodriguez y Baena & Daniele Dini. (2022) Reconstruction of ovine axonal cytoarchitecture enables more accurate models of brain biomechanics. Communications Biology 5:1.
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Mohit Agarwal, Parameshwaran Pasupathy & Assimina A. Pelegri. (2022) Oligodendrocyte tethering effect on hyperelastic 3D response of axons in white matter. Journal of the Mechanical Behavior of Biomedical Materials 134, pages 105394.
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Mayra Hoppstädter, Denise Püllmann, Robert Seydewitz, Ellen Kuhl & Markus Böl. (2022) Correlating the microstructural architecture and macrostructural behaviour of the brain. Acta Biomaterialia 151, pages 379-395.
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Mohammadreza Ramzanpour, Mohammad Hosseini-Farid, Mariusz Ziejewski & Ghodrat Karami. (2022) Optimized Load-Independent Hyperelastic Microcharacterization of Human Brain White Matter. Journal of Engineering and Science in Medical Diagnostics and Therapy 5:2.
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Ding Lyu, Runzhou Zhou, Chin-hsu Lin, Priya Prasad & Liying Zhang. (2022) Development and Validation of a New Anisotropic Visco-Hyperelastic Human Head Finite Element Model Capable of Predicting Multiple Brain Injuries. Frontiers in Bioengineering and Biotechnology 10.
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Asad Jamal, Andrea Bernardini & Daniele Dini. (2022) Microscale characterisation of the time-dependent mechanical behaviour of brain white matter. Journal of the Mechanical Behavior of Biomedical Materials 125, pages 104917.
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Mark F. Horstemeyer, A. Bakhtiarydavijani & Raj K. Prabhu. 2022. Multiscale Biomechanical Modeling of the Brain. Multiscale Biomechanical Modeling of the Brain 77 84 .
T. Wu, J.S. Giudice, A. Alshareef & M.B. Panzer. 2022. Multiscale Biomechanical Modeling of the Brain. Multiscale Biomechanical Modeling of the Brain 103 118 .
Eugene Park & Andrew J. Baker. 2022. Tackling the Concussion Epidemic. Tackling the Concussion Epidemic 25 41 .
Morteza Kazempour, Amin Kazempour, Majid Baniassadi, Yves Remond & Mostafa Baghani. (2021) Numerical Investigation of Axonal Damage for Regular and Irregular Axonal Distributions. Frontiers in Mechanical Engineering 7.
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Eryn Kwon, Samantha Holdsworth, Sarah‐Jane Guild, Miriam Scadeng, Sahan Jayatissa, Leon Kollarczik, Maryam Tayebi, Samuel Rosset & Vickie Shim. (2020) Analyzing the changes in the brain material properties after a mild traumatic brain injury—A pilot study. Engineering Reports 3:5.
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Daniel J Sullivan, Xuehai Wu, Nicolas R Gallo, Noel M Naughton, John G Georgiadis & Assimina A Pelegri. (2021) Sensitivity analysis of effective transverse shear viscoelastic and diffusional properties of myelinated white matter. Physics in Medicine & Biology 66:3, pages 035027.
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Poorya Chavoshnejad, Guy K. German & Mir Jalil Razavi. (2021) Hyperelastic material properties of axonal fibers in brain white matter. Brain Multiphysics 2, pages 100035.
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Mohammadreza Ramzanpour, Mohammad Hosseini-Farid, Jayse McLean, Mariusz Ziejewski & Ghodrat Karami. (2020) Visco-hyperelastic characterization of human brain white matter micro-level constituents in different strain rates. Medical & Biological Engineering & Computing 58:9, pages 2107-2118.
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Hamid Shahsavari, Hossein Jokar, Mojtaba Haghighi-yazdi, Mostafa Baghani, Yves Remond, Daniel George, Maryam Mazraehei Farahani & Majid Baniassadi. (2018) Micromechanical Modeling of the Effective Mechanical Behavior of Cerebral Cortex Tissue. Iranian Journal of Science and Technology, Transactions of Mechanical Engineering 44:2, pages 273-285.
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Anahita Ahmadi Soufivand, Nabiollah Abolfathi, Ata Hashemi & Sang Jin Lee. (2019) The effect of 3D printing on the morphological and mechanical properties of polycaprolactone filament and scaffold. Polymers for Advanced Technologies 31:5, pages 1038-1046.
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Hesam Hoursan, Farzam Farahmand & Mohammad Taghi Ahmadian. (2020) A Three-Dimensional Statistical Volume Element for Histology Informed Micromechanical Modeling of Brain White Matter. Annals of Biomedical Engineering 48:4, pages 1337-1353.
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Annaclaudia Montanino, Marzieh Saeedimasine, Alessandra Villa & Svein Kleiven. (2019) Axons Embedded in a Tissue May Withstand Larger Deformations Than Isolated Axons Before Mechanoporation Occurs. Journal of Biomechanical Engineering 141:12.
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Morteza Kazempour, Majid Baniassadi, Hamid Shahsavari, Yves Remond & Mostafa Baghani. (2019) Homogenization of heterogeneous brain tissue under quasi-static loading: a visco-hyperelastic model of a 3D RVE. Biomechanics and Modeling in Mechanobiology 18:4, pages 969-981.
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Seyed Abdolmajid Yousefsani, Farzam Farahmand & Amir Shamloo. (2018) A three-dimensional micromechanical model of brain white matter with histology-informed probabilistic distribution of axonal fibers. Journal of the Mechanical Behavior of Biomedical Materials 88, pages 288-295.
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Marco Vidotto, Daniele Dini & Elena De Momi. (2018) Effective Diffusion and Tortuosity in Brain White Matter. Effective Diffusion and Tortuosity in Brain White Matter.
Ilaria Cinelli, Michel Destrade, Maeve Duffy & Peter McHugh. (2018) Electrothermal Equivalent Three-Dimensional Finite-Element Model of a Single Neuron. IEEE Transactions on Biomedical Engineering 65:6, pages 1373-1381.
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Seyed Abdolmajid Yousefsani, Amir Shamloo & Farzam Farahmand. (2018) Micromechanics of brain white matter tissue: A fiber-reinforced hyperelastic model using embedded element technique. Journal of the Mechanical Behavior of Biomedical Materials 80, pages 194-202.
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Dmytro Kuksenko & Borys Drach. (2017) Effective conductivity of materials with continuous curved fibers. International Journal of Engineering Science 118, pages 70-81.
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Matthew T.K. Kirkcaldie & Jessica M. Collins. (2016) The axon as a physical structure in health and acute trauma. Journal of Chemical Neuroanatomy 76, pages 9-18.
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Wei Zhang, Run-run Zhang, Liang-liang Feng, Yang Li, Fan Wu & Cheng-wei Wu. (2016) Mechanical Response of Brain Stem in Compression and the Differential Scanning Calorimetry and FTIR Analyses. Journal of Applied Mechanics 83:9.
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Anthony Romano, Jing Guo, Torben Prokscha, Thomas Meyer, Sebastian Hirsch, Jürgen BraunIngolf Sack & Michael Scheel. (2014) In vivo waveguide elastography: Effects of neurodegeneration in patients with amyotrophic lateral sclerosis. Magnetic Resonance in Medicine 72:6, pages 1755-1761.
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Robert L. Conder & Alanna A. Conder. (2014) Heart rate variability interventions for concussion and rehabilitation. Frontiers in Psychology 5.
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Stephen Recchia, James Zheng & Assimina A. Pelegri. (2014) Fiberwalk: a random walk approach to fiber representative volume element creation. Acta Mechanica 225:4-5, pages 1301-1312.
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Dilaver Singh, Duane S. Cronin & Tyler N. Haladuick. (2014) Head and brain response to blast using sagittal and transverse finite element models. International Journal for Numerical Methods in Biomedical Engineering 30:4, pages 470-489.
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David F. Meaney, Barclay Morrison & Cameron Dale Bass. (2014) The Mechanics of Traumatic Brain Injury: A Review of What We Know and What We Need to Know for Reducing Its Societal Burden. Journal of Biomechanical Engineering 136:2.
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Samad Javid, Asghar Rezaei & Ghodrat Karami. (2014) A micromechanical procedure for viscoelastic characterization of the axons and ECM of the brainstem. Journal of the Mechanical Behavior of Biomedical Materials 30, pages 290-299.
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Curtis L. Johnson, Matthew D. J. McGarry, Elijah E. W. Van Houten, John B. Weaver, Keith D. Paulsen, Bradley P. Sutton & John G. Georgiadis. (2013) Magnetic resonance elastography of the brain using multishot spiral readouts with self-navigated motion correction. Magnetic Resonance in Medicine 70:2, pages 404-412.
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M. Grujicic, B. d'Entremont, B. Pandurangan, A. Grujicic, M. LaBerge, J. Runt, J. Tarter & G. Dillon. (2012) A study of the blast‐induced brain white‐matter damage and the associated diffuse axonal injury. Multidiscipline Modeling in Materials and Structures 8:2, pages 213-245.
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Markus Nilsson, Jimmy Lätt, Freddy Ståhlberg, Danielle van Westen & Håkan Hagslätt. (2012) The importance of axonal undulation in diffusion MR measurements: a Monte Carlo simulation study. NMR in Biomedicine 25:5, pages 795-805.
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R.J.H. Cloots, J.A.W. van Dommelen & M.G.D. Geers. (2012) A tissue-level anisotropic criterion for brain injury based on microstructural axonal deformation. Journal of the Mechanical Behavior of Biomedical Materials 5:1, pages 41-52.
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R. J. H. Cloots, J. A. W. van Dommelen, T. Nyberg, S. Kleiven & M. G. D. Geers. (2010) Micromechanics of diffuse axonal injury: influence of axonal orientation and anisotropy. Biomechanics and Modeling in Mechanobiology 10:3, pages 413-422.
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