Search Results - "KYRIACOU, S. K."

Nonlinear elastic registration of brain images with tumor pathology using a biomechanical model [MRI] by Kyriacou, S.K., Davatzikos, C., Zinreich, S.J., Bryan, R.N.

“…A biomechanical model of the brain is presented, using a finite-element formulation. Emphasis is given to the modeling of the soft-tissue deformations induced…”
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Influence of size, shape and properties on the mechanics of axisymmetric saccular aneurysms by Kyriacou, S.K., Humphrey, J.D.

“…Rupture of intracranial saccular aneurysms is the most common cause of spontaneous subarachnoid hemorrhage which, despite advances in neurosurgery, continues…”
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Finite element analysis of nonlinear orthotropic hyperelastic membranes by KYRIACOU, S. K, SCHWAB, C, HUMPHREY, J. D

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The use of Laplace's equation in aneurysm mechanics by Humphrey, J D, Kyriacou, S K

“…It is widely thought that the genesis, expansion, and rupture of intracranial aneurysms are each governed, in part, by mechanical mechanisms, and consequently…”
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A framework for predictive modeling of anatomical deformations by Davatzikos, C., Dinggang Shen, Mohamed, A., Kyriacou, S.K.

“…A framework for modeling and predicting anatomical deformations is presented, and tested on simulated images. Although a variety of deformations can be modeled…”
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Further Roles of Geometry and Properties in the Mechanics of Saccular Aneurysms by Shah, A. D., Harris, J. L., Kyriacou, S. K., Humphrey, J. D.

“…Rupture of intracranial saccular aneurysms continues to result in significant morbidity and mortality. Although it has long been thought that biomechanical…”
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Multiaxial Mechanical Behavior of Human Saccular Aneurysms by SESHAIYER, P., HSU, F. P. K., SHAH, A. D., KYRIACOU, S. K., HUMPHREY, J. D.

“…Intracranial saccular aneurysms are focal dilatations of the arterial wall that usually occur in or near the circle of Willis. Two-to-five percent of the…”
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Nonlinear elastic registration of brain images with tumor pathologyusing a biomechanical model MRI by Kyriacou, S K, Davatzikos, C, Zinreich, S J, Bryan, R N

“…A biomechanical model of the brain is presented, using a finite-element formulation. Emphasis is given to the modeling of the soft-tissue deformations induced…”
Get full text

Nonlinear elastic registration of brain images with tumor pathology using a biomechanical model MRI by Kyriacou, S K, Davatzikos, C, Zinreich, S J, Bryan, R N

“…A biomechanical model of the brain is presented, using a finite-element formulation. Emphasis is given to the modeling of the soft-tissue deformations induced…”
Get full text

A statistical approach for estimating brain tumor induced deformation by Mohamed, A., Kyriacou, S.K., Davatzikos, C.

“…A general statistical approach for predicting anatomical deformations is presented. Emphasis in this paper is on estimating deformations induced in the brain…”
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