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Computer Methods in Biomechanics and Biomedical Engineering Volume 12, 2009 - Issue 1
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Original Articles

Global/local head models to analyse cerebral blood vessel rupture leading to ASDH and SAH

Mohamad Zoghi-Moghadam Department of Mechanical Engineering, The City College of the City University of New York, New York, NY, 10031, USA
&
Ali M. Sadegh Department of Mechanical Engineering, The City College of the City University of New York, New York, NY, 10031, USACorrespondence[email protected]
Pages 1-12 | Received 29 Jul 2007, Accepted 28 Feb 2008, Published online: 05 Jan 2009

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Hamed Abdi, Kamran Hassani & Shahrokh Shojaei. (2023) An investigation of cerebral bridging veins rupture due to head trauma. Computer Methods in Biomechanics and Biomedical Engineering 26:7, pages 854-863.
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Articles from other publishers (20)

Hamed Abdi, David Sanchez-Molina, Silvia Garcia-Vilana & Vafa Rahimi-Movaghar. (2023) Quantifying the effect of cerebral atrophy on head injury risk in elderly individuals: Insights from computational biomechanics and experimental analysis of bridging veins. Injury 54:12, pages 111125.
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Zhengdong Li, Jinming Wang, Jianhua Zhang, Mengyang Jia, Qing Xu, Min Chen, Donghua Zou, Kaijun Ma & Yijiu Chen. (2022) Cerebral hemorrhage caused by shaking adult syndrome? Evidence from biomechanical analysis using 3D motion capture and finite element models. International Journal of Legal Medicine 136:6, pages 1621-1636.
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Harry Duckworth, Adriana Azor, Nikolaus Wischmann, Karl A. Zimmerman, Ilaria Tanini, David J. Sharp & Mazdak Ghajari. (2022) A Finite Element Model of Cerebral Vascular Injury for Predicting Microbleeds Location. Frontiers in Bioengineering and Biotechnology 10.
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Silvia García-Vilana, David Sánchez-Molina, Jordi Llumà, Ignasi Galtés, Juan Velázquez-Ameijide, M. Carmen Rebollo-Soria & Carlos Arregui-Dalmases. (2021) Viscoelastic Characterization of Parasagittal Bridging Veins and Implications for Traumatic Brain Injury: A Pilot Study. Bioengineering 8:10, pages 145.
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David Sánchez-Molina, Silvia García-Vilana, Jordi Llumà, Ignasi Galtés, Juan Velázquez-Ameijide, Mari Carmen Rebollo-Soria & Carlos Arregui-Dalmases. (2021) Mechanical Behavior of Blood Vessels: Elastic and Viscoelastic Contributions. Biology 10:9, pages 831.
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Darragh R. WalshZhou ZhouXiaogai LiJamie KearnsDavid T. NewportJohn J.E. Mulvihill. (2021) Mechanical Properties of the Cranial Meninges: A Systematic Review. Journal of Neurotrauma 38:13, pages 1748-1761.
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Dhananjay Radhakrishnan Subramaniam, Ginu Unnikrishnan, Aravind Sundaramurthy, Jose E. Rubio, Vivek Bhaskar Kote & Jaques Reifman. (2021) The importance of modeling the human cerebral vasculature in blunt trauma. BioMedical Engineering OnLine 20:1.
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Jiawen Wang, Runhao Wang, Wei Gao, Shunhua Chen & Chengyong Wang. (2020) Numerical investigation of impact injury of a human head during contact interaction with a windshield glazing considering mechanical failure. International Journal of Impact Engineering 141, pages 103577.
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In-Suk Bae, Jae Min Kim, Jin Hwan Cheong, Je Il Ryu, Kyu-Sun Choi & Myung-Hoon Han. (2020) Does the skull Hounsfield unit predict shunt dependent hydrocephalus after decompressive craniectomy for traumatic acute subdural hematoma?. PLOS ONE 15:4, pages e0232631.
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Kenneth L. Monson, Matthew I. Converse & Geoffrey T. Manley. (2019) Cerebral blood vessel damage in traumatic brain injury. Clinical Biomechanics 64, pages 98-113.
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S. Ganpule, N. P. Daphalapurkar, M. P. Cetingul & K. T. Ramesh. (2017) Effect of bulk modulus on deformation of the brain under rotational accelerations. Shock Waves 28:1, pages 127-139.
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Nikini T. Puhulwelle Gamage, Andrew K. Knutsen, Dzung L. Pham, Andrew J. Taberner, Martyn P. Nash & Poul M. F. Nielsen. 2017. Computational Biomechanics for Medicine. Computational Biomechanics for Medicine 147 157 .
Gregory G. Scott, Susan S. Margulies & Brittany Coats. (2015) Utilizing multiple scale models to improve predictions of extra-axial hemorrhage in the immature piglet. Biomechanics and Modeling in Mechanobiology 15:5, pages 1101-1119.
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Nele Famaey, Zhao Ying Cui, Grace Umuhire Musigazi, Jan Ivens, Bart Depreitere, Erik Verbeken & Jos Vander Sloten. (2015) Structural and mechanical characterisation of bridging veins: A review. Journal of the Mechanical Behavior of Biomedical Materials 41, pages 222-240.
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Vincent Caccese, James R. Ferguson & Michael A. Edgecomb. (2013) Optimal design of honeycomb material used to mitigate head impact. Composite Structures 100, pages 404-412.
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S. Ganpule, A. Alai, E. Plougonven & N. Chandra. (2012) Mechanics of blast loading on the head models in the study of traumatic brain injury using experimental and computational approaches. Biomechanics and Modeling in Mechanobiology 12:3, pages 511-531.
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Mahsa Ghaffari, Mostafa Rostami, Mohammad Zoghi & Nabiollah Abolfathi. (2012) A new approach to model subarachoid trabeculae resistance in cerebrospinal fluid flow. A new approach to model subarachoid trabeculae resistance in cerebrospinal fluid flow.
Linxia Gu, Mehdi S. Chafi, Shailesh Ganpule & Namas Chandra. (2012) The influence of heterogeneous meninges on the brain mechanics under primary blast loading. Composites Part B: Engineering 43:8, pages 3160-3166.
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Rania Abdel Rahman, Daniel George, Daniel Baumgartner, Mathieu Nierenberger, Yves Rémond & Saïd Ahzi. (2012) An asymptotic method for the prediction of the anisotropic effective elastic properties of the cortical vein: superior sagittal sinus junction embedded within a homogenized cell element. Journal of Mechanics of Materials and Structures 7:6, pages 593-611.
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P. Saboori & A. Sadegh. (2011) Material modeling of the head’s subarachnoid space. Scientia Iranica 18:6, pages 1492-1499.
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