Adam Wittek
Adam Wittek
Professor, Intelligent Systems for Medicine Laboratory, Department of Mechanical Engineering, School
Verified email at
Cited by
Cited by
Total Lagrangian explicit dynamics finite element algorithm for computing soft tissue deformation
K Miller, G Joldes, D Lance, A Wittek
Communications in numerical methods in engineering 23 (2), 121-134, 2007
Cervical injury mechanism based on the analysis of human cervical vertebral motion and head-neck-torso kinematics during low speed rear impacts
K Ono, K Kaneoka, A Wittek, J Kajzer
SAE transactions, 3859-3876, 1997
Patient-specific model of brain deformation: Application to medical image registration
A Wittek, K Miller, R Kikinis, SK Warfield
Journal of biomechanics 40 (4), 919-929, 2007
Real-time nonlinear finite element computations on GPU–Application to neurosurgical simulation
GR Joldes, A Wittek, K Miller
Computer methods in applied mechanics and engineering 199 (49-52), 3305-3314, 2010
On the unimportance of constitutive models in computing brain deformation for image-guided surgery
A Wittek, T Hawkins, K Miller
Biomechanics and modeling in mechanobiology 8, 77-84, 2009
Suite of finite element algorithms for accurate computation of soft tissue deformation for surgical simulation
GR Joldes, A Wittek, K Miller
Medical image analysis 13 (6), 912-919, 2009
A meshless Total Lagrangian explicit dynamics algorithm for surgical simulation
A Horton, A Wittek, GR Joldes, K Miller
International journal for numerical methods in biomedical engineering 26 (8 …, 2010
Brain shift computation using a fully nonlinear biomechanical model
A Wittek, R Kikinis, SK Warfield, K Miller
Medical Image Computing and Computer-Assisted Intervention–MICCAI 2005: 8th …, 2005
Patient-specific non-linear finite element modelling for predicting soft organ deformation in real-time; Application to non-rigid neuroimage registration
A Wittek, G Joldes, M Couton, SK Warfield, K Miller
Progress in biophysics and molecular biology 103 (2-3), 292-303, 2010
A simple, effective and clinically applicable method to compute abdominal aortic aneurysm wall stress
GR Joldes, K Miller, A Wittek, B Doyle
Journal of the mechanical behavior of biomedical materials 58, 139-148, 2016
Modelling brain deformations for computer‐integrated neurosurgery
K Miller, A Wittek, G Joldes, A Horton, T Dutta‐Roy, J Berger, L Morriss
International Journal for Numerical Methods in Biomedical Engineering 26 (1 …, 2010
Biomechanical modelling of normal pressure hydrocephalus
T Dutta-Roy, A Wittek, K Miller
Journal of biomechanics 41 (10), 2263-2271, 2008
A three-dimensional nonlinear meshfree algorithm for simulating mechanical responses of soft tissue
GY Zhang, A Wittek, GR Joldes, X Jin, K Miller
Engineering Analysis with Boundary Elements 42, 60-66, 2014
From finite element meshes to clouds of points: a review of methods for generation of computational biomechanics models for patient-specific applications
A Wittek, NM Grosland, GR Joldes, V Magnotta, K Miller
Annals of biomedical engineering 44, 3-15, 2016
Computation of intra-operative brain shift using dynamic relaxation
GR Joldes, A Wittek, K Miller
Computer Methods in Applied Mechanics and Engineering 198 (41-44), 3313-3320, 2009
An adaptive dynamic relaxation method for solving nonlinear finite element problems. Application to brain shift estimation
GR Joldes, A Wittek, K Miller
International journal for numerical methods in biomedical engineering 27 (2 …, 2011
Non‐locking tetrahedral finite element for surgical simulation
GR Joldes, A Wittek, K Miller
Communications in Numerical Methods in Engineering 25 (7), 827-836, 2009
Biomechanics of brain for computer integrated surgery
K Miller
Publishing House of the Warsaw University of Technology, 2002
Modified moving least squares with polynomial bases for scattered data approximation
GR Joldes, HA Chowdhury, A Wittek, B Doyle, K Miller
Applied mathematics and computation 266, 893-902, 2015
BioPARR: A software system for estimating the rupture potential index for abdominal aortic aneurysms
GR Joldes, K Miller, A Wittek, RO Forsythe, DE Newby, BJ Doyle
Scientific reports 7 (1), 4641, 2017
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