Johannes Vorwerk
Johannes Vorwerk
Senior Scientist, Institute for Electrical and Biomedical Engineering (IEBE), UMIT
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Lead-DBS v2: Towards a comprehensive pipeline for deep brain stimulation imaging
A Horn, N Li, TA Dembek, A Kappel, C Boulay, S Ewert, A Tietze, A Husch, ...
Neuroimage 184, 293-316, 2019
Connectivity predicts deep brain stimulation outcome in P arkinson disease
A Horn, M Reich, J Vorwerk, N Li, G Wenzel, Q Fang, T Schmitz‐Hübsch, ...
Annals of neurology 82 (1), 67-78, 2017
A guideline for head volume conductor modeling in EEG and MEG
J Vorwerk, JH Cho, S Rampp, H Hamer, TR Knösche, CH Wolters
NeuroImage 100, 590-607, 2014
Investigation of tDCS volume conduction effects in a highly realistic head model
S Wagner, SM Rampersad, Ü Aydin, J Vorwerk, TF Oostendorp, T Neuling, ...
Journal of neural engineering 11 (1), 016002, 2013
The FieldTrip-SimBio pipeline for EEG forward solutions
J Vorwerk, R Oostenveld, MC Piastra, L Magyari, CH Wolters
Biomedical engineering online 17, 1-17, 2018
Optimized programming algorithm for cylindrical and directional deep brain stimulation electrodes
DN Anderson, B Osting, J Vorwerk, AD Dorval, CR Butson
Journal of neural engineering 15 (2), 026005, 2018
Influence of the head model on EEG and MEG source connectivity analyses
JH Cho, J Vorwerk, CH Wolters, TR Knösche
Neuroimage 110, 60-77, 2015
Combined EEG/MEG can outperform single modality EEG or MEG source reconstruction in presurgical epilepsy diagnosis
Ü Aydin, J Vorwerk, M Dümpelmann, P Küpper, H Kugel, M Heers, ...
PloS one 10 (3), e0118753, 2015
Combining EEG and MEG for the reconstruction of epileptic activity using a calibrated realistic volume conductor model
Ü Aydin, J Vorwerk, P Küpper, M Heers, H Kugel, A Galka, L Hamid, ...
PloS one 9 (3), e93154, 2014
Anodic stimulation misunderstood: preferential activation of fiber orientations with anodic waveforms in deep brain stimulation
DN Anderson, G Duffley, J Vorwerk, AD Dorval, CR Butson
Journal of neural engineering 16 (1), 016026, 2019
Comparison of boundary element and finite element approaches to the EEG forward problem
J Vorwerk, M Clerc, M Burger, CH Wolters
Biomedical Engineering/Biomedizinische Technik 57 (SI-1-Track-O), 795-798, 2012
Influence of head tissue conductivity uncertainties on EEG dipole reconstruction
J Vorwerk, Ü Aydin, CH Wolters, CR Butson
Frontiers in neuroscience 13, 448691, 2019
A comprehensive study on electroencephalography and magnetoencephalography sensitivity to cortical and subcortical sources
MC Piastra, A Nüßing, J Vorwerk, M Clerc, C Engwer, CH Wolters
Human Brain Mapping 42 (4), 978-992, 2021
Evaluation of methodologies for computing the deep brain stimulation volume of tissue activated
G Duffley, DN Anderson, J Vorwerk, AD Dorval, CR Butson
Journal of neural engineering 16 (6), 066024, 2019
A discontinuous Galerkin method to solve the EEG forward problem using the subtraction approach
C Engwer, J Vorwerk, J Ludewig, CH Wolters
SIAM Journal on Scientific Computing 39 (1), B138-B164, 2017
The role of blood vessels in high-resolution volume conductor head modeling of EEG
LDJ Fiederer, J Vorwerk, F Lucka, M Dannhauer, S Yang, M Dümpelmann, ...
NeuroImage 128, 193-208, 2016
The discontinuous Galerkin finite element method for solving the MEG and the combined MEG/EEG forward problem
MC Piastra, A Nüßing, J Vorwerk, H Bornfleth, R Oostenveld, C Engwer, ...
Frontiers in Neuroscience 12, 30, 2018
Using reciprocity for relating the simulation of transcranial current stimulation to the EEG forward problem
S Wagner, F Lucka, J Vorwerk, CS Herrmann, G Nolte, M Burger, ...
Neuroimage 140, 163-173, 2016
A mixed finite element method to solve the EEG forward problem
J Vorwerk, C Engwer, S Pursiainen, CH Wolters
IEEE transactions on medical imaging 36 (4), 930-941, 2016
DUNEuro—A software toolbox for forward modeling in bioelectromagnetism
S Schrader, A Westhoff, MC Piastra, T Miinalainen, S Pursiainen, ...
PloS one 16 (6), e0252431, 2021
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