|Simulating transcranial direct current stimulation with a detailed anisotropic human head model|
SM Rampersad, AM Janssen, F Lucka, ‹ Aydin, B Lanfer, S Lew, ...
IEEE Transactions on Neural Systems and Rehabilitation Engineering 22 (3†…, 2014
|Investigation of tDCS volume conduction effects in a highly realistic head model|
S Wagner, SM Rampersad, ‹ Aydin, J Vorwerk, TF Oostendorp, T Neuling, ...
Journal of neural engineering 11 (1), 016002, 2013
|Ligand-induced folding of the guanine-sensing riboswitch is controlled by a combined predetermined–induced fit mechanism|
OM Ottink, SM Rampersad, M Tessari, GJR Zaman, HA Heus, ...
Rna 13 (12), 2202-2212, 2007
|Prospects for transcranial temporal interference stimulation in humans: a computational study|
S Rampersad, B Roig-Solvas, M Yarossi, PP Kulkarni, E Santarnecchi, ...
NeuroImage 202, 116124, 2019
|The influence of sulcus width on simulated electric fields induced by transcranial magnetic stimulation|
AM Janssen, SM Rampersad, F Lucka, B Lanfer, S Lew, ‹ Aydin, ...
Physics in Medicine & Biology 58 (14), 4881, 2013
|Single-layer skull approximations perform well in transcranial direct current stimulation modeling|
SM Rampersad, DF Stegeman, TF Oostendorp
IEEE transactions on neural systems and rehabilitation engineering 21 (3†…, 2012
|Binocular onset rivalry at the time of saccades and stimulus jumps|
JP Kalisvaart, SM Rampersad, J Goossens
PLoS One 6 (6), e20017, 2011
|Blinding efficacy and adverse events following repeated transcranial alternating current, direct current, and random noise stimulation|
JG Sheffield, S Ramerpresad, AK Brem, K Mansfield, U Orhan, M Dillard, ...
cortex 154, 77-88, 2022
|Mapping motor cortex stimulation to muscle responses: a deep neural network modeling approach|
MN Akbar, M Yarossi, M Martinez-Gost, MA Sommer, M Dannhauer, ...
Proceedings of the 13th ACM international conference on PErvasive†…, 2020
|Using uncertainsci to quantify uncertainty in cardiac simulations|
LC Rupp, Z Liu, JA Bergquist, S Rampersad, D White, JD Tate, DH Brooks, ...
2020 Computing in Cardiology, 1-4, 2020
|OP 11. optimized tDCS electrode configurations for five targets determined via an inverse FE modeling approach|
S Rampersad, D Stegeman, T Oostendorp
Clinical Neurophysiology 124 (10), e61-e62, 2013
|UncertainSCI: Uncertainty quantification for computational models in biomedicine and bioengineering|
A Narayan, Z Liu, JA Bergquist, C Charlebois, S Rampersad, L Rupp, ...
Computers in Biology and Medicine 152, 106407, 2023
|On handling the layered structure of the skull in transcranial direct current stimulation models|
S Rampersad, D Stegeman, T Oostendorp
2011 Annual International Conference of the IEEE Engineering in Medicine and†…, 2011
|Cubature Kalman filter based training of hybrid differential equation recurrent neural network physiological dynamic models|
A Demirkaya, T Imbiriba, K Lockwood, S Rampersad, E Alhajjar, ...
2021 43rd Annual International Conference of the IEEE Engineering in†…, 2021
|Modeling of intracranial tumor treating fields for the treatment of complex high-grade gliomas|
DJ Segar, JD Bernstock, O Arnaout, WL Bi, GK Friedman, R Langer, ...
Scientific Reports 13 (1), 1636, 2023
|Validating patient-specific finite element models of direct electrocortical stimulation|
CM Charlebois, DJ Caldwell, SM Rampersad, AP Janson, JG Ojemann, ...
Frontiers in Neuroscience 15, 691701, 2021
|Neuromodulatory effects and reproducibility of the most widely used repetitive transcranial magnetic stimulation protocols|
J Magnuson, MA Ozdemir, E Mathieson, S Kirkman, B Passera, ...
Plos one 18 (6), e0286465, 2023
|Uncertainty Quantification in Brain Stimulation using UncertainSCI|
J Tate, S Rampersad, C Charlebois, Z Liu, J Bergquist, D White, L Rupp, ...
Brain Stimulation: Basic, Translational, and Clinical Research in†…, 2021
|A model for removing transcranial current stimulation artifacts in concurrently measured EEG|
YM Marghi, SM Rampersad, SSM Salehi, M Dannhauer, DH Brooks, ...
2015 IEEE Signal Processing in Medicine and Biology Symposium (SPMB), 1-2, 2015
|Volume conduction effects in tDCS using a 1mm geometry-adapted hexahedral finite element head model|
S Wagner, S Rampersad, ‹ Aydin, J Vorwerk, T Neuling, CS Herrmann, ...
Biomedical Engineering/Biomedizinische Technik 57 (SI-1-Track-O), 329-329, 2012