Mozammil Hussain, Ph.D.

Affiliations: 
2007 University of Illinois at Chicago, Chicago, IL, United States 
Area:
Biomedical Engineering
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"Mozammil Hussain"

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Raghu N. Natarajan grad student 2007 University of Illinois, Chicago
 (A numerical approach to investigate the propagation of cervical disc degeneration.)
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Publications

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Hussain M, Nassr A, Natarajan RN, et al. (2014) Relationship between biomechanical changes at adjacent segments and number of fused bone grafts in multilevel cervical fusions: a finite element investigation. Journal of Neurosurgery. Spine. 20: 22-9
Hussain M, Nassr A, Natarajan RN, et al. (2013) Biomechanics of adjacent segments after a multilevel cervical corpectomy using anterior, posterior, and combined anterior-posterior instrumentation techniques: a finite element model study. The Spine Journal : Official Journal of the North American Spine Society. 13: 689-96
Hussain M, Natarajan RN, Chaudhary G, et al. (2012) Posterior facet load changes in adjacent segments due to moderate and severe degeneration in C5-C6 disc: a poroelastic C3-T1 finite element model study. Journal of Spinal Disorders & Techniques. 25: 218-25
Hussain M, Nassr A, Natarajan RN, et al. (2012) Corpectomy versus discectomy for the treatment of multilevel cervical spine pathology: a finite element model analysis. The Spine Journal : Official Journal of the North American Spine Society. 12: 401-8
Hussain M, Natarajan RN, An HS, et al. (2012) Progressive disc degeneration at C5-C6 segment affects the mechanics between disc heights and posterior facets above and below the degenerated segment: A flexion-extension investigation using a poroelastic C3-T1 finite element model. Medical Engineering & Physics. 34: 552-8
Hussain M, Nassr A, Natarajan RN, et al. (2011) Biomechanical effects of anterior, posterior, and combined anterior-posterior instrumentation techniques on the stability of a multilevel cervical corpectomy construct: a finite element model analysis. The Spine Journal : Official Journal of the North American Spine Society. 11: 324-30
Hussain M, Natarajan RN, Chaudhary G, et al. (2011) Simulation of inhomogeneous rather than homogeneous poroelastic tissue material properties within disc annulus and nucleus better predicts cervical spine response: a C3-T1 finite element model analysis under compression and moment loadings. Spine. 36: E245-55
Hussain M, Natarajan RN, Chaudhary G, et al. (2011) Relative contributions of strain-dependent permeability and fixed charged density of proteoglycans in predicting cervical disc biomechanics: a poroelastic C5-C6 finite element model study. Medical Engineering & Physics. 33: 438-45
Hussain M, Natarajan RN, An HS, et al. (2010) Patterns of height changes in anterior and posterior cervical disc regions affects the contact loading at posterior facets during moderate and severe disc degeneration: a poroelastic C5-C6 finite element model study. Spine. 35: E873-81
Hussain M, Natarajan RN, An HS, et al. (2010) Reduction in segmental flexibility because of disc degeneration is accompanied by higher changes in facet loads than changes in disc pressure: a poroelastic C5-C6 finite element investigation. The Spine Journal : Official Journal of the North American Spine Society. 10: 1069-77
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