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Piotr Suffczynski
Piotr Suffczynski
University of Warsaw, Faculty of Physics
Verified email at fuw.edu.pl
Title
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Cited by
Year
Epilepsies as dynamical diseases of brain systems: basic models of the transition between normal and epileptic activity
FL Da Silva, W Blanes, SN Kalitzin, J Parra, P Suffczynski, DN Velis
Epilepsia 44, 72-83, 2003
5532003
Epilepsies as dynamical diseases of brain systems: basic models of the transition between normal and epileptic activity
FL Da Silva, W Blanes, SN Kalitzin, J Parra, P Suffczynski, DN Velis
Epilepsia 44 (s12), 72-83, 2003
5532003
Dynamics of non-convulsive epileptic phenomena modeled by a bistable neuronal network
P Suffczynski, S Kalitzin, FHL Da Silva
Neuroscience 126 (2), 467-484, 2004
4062004
Dynamics of the human alpha rhythm: evidence for non-linearity?
CJ Stam, JPM Pijn, P Suffczynski, FHL Da Silva
Clinical Neurophysiology 110 (10), 1801-1813, 1999
3291999
Dynamical diseases of brain systems: different routes to epileptic seizures
FHL da Silva, W Blanes, SN Kalitzin, J Parra, P Suffczynski, DN Velis
IEEE transactions on biomedical engineering 50 (5), 540-548, 2003
3252003
Computational model of thalamo-cortical networks: dynamical control of alpha rhythms in relation to focal attention
P Suffczynski, S Kalitzin, G Pfurtscheller, FHL Da Silva
International Journal of Psychophysiology 43 (1), 25-40, 2001
3182001
Dynamics of epileptic phenomena determined from statistics of ictal transitions
P Suffczynski, FHL Da Silva, J Parra, DN Velis, BM Bouwman, ...
IEEE transactions on biomedical engineering 53 (3), 524-532, 2006
1442006
Electrical brain-stimulation paradigm for estimating the seizure onset site and the time to ictal transition in temporal lobe epilepsy
S Kalitzin, D Velis, P Suffczynski, J Parra, FL Da Silva
Clinical neurophysiology 116 (3), 718-728, 2005
1302005
On the quantification of SSVEP frequency responses in human EEG in realistic BCI conditions
R Kuś, A Duszyk, P Milanowski, M Łabęcki, M Bierzyńska, Z Radzikowska, ...
PloS one 8 (10), e77536, 2013
1172013
Derivation and analysis of an ordinary differential equation mean-field model for studying clinically recorded epilepsy dynamics
F Marten, S Rodrigues, P Suffczynski, MP Richardson, JR Terry
Physical Review E 79 (2), 021911, 2009
952009
Towards an optimization of stimulus parameters for brain-computer interfaces based on steady state visual evoked potentials
A Duszyk, M Bierzyńska, Z Radzikowska, P Milanowski, R Kuś, ...
Plos one 9 (11), e112099, 2014
932014
Event-related dynamics of alpha band rhythms: a neuronal network model of focal ERD-surround ERS
P Suffczynski, JPM Pijn, G Pfurtscheller, FH Lopes da Silva
AmsterdamElsevier Science, 1999
781999
Epileptic transitions: model predictions and experimental validation
P Suffczynski, FL da Silva, J Parra, D Velis, S Kalitzin
Journal of clinical neurophysiology 22 (5), 288-299, 2005
702005
Some insights into computational models of (patho) physiological brain activity
P Suffczynski, F Wendling, JJ Bellanger, FHL Da Silva
Proceedings of the IEEE 94 (4), 784-804, 2006
602006
Nonlinear origin of SSVEP spectra—a combined experimental and modeling study
M Labecki, R Kus, A Brzozowska, T Stacewicz, BS Bhattacharya, ...
Frontiers in computational neuroscience 10, 129, 2016
582016
Active paradigms of seizure anticipation: computer model evidence for necessity of stimulation
P Suffczynski, S Kalitzin, FL da Silva, J Parra, D Velis, F Wendling
Physical Review E 78 (5), 051917, 2008
562008
Seizures start without common signatures of critical transition
P Milanowski, P Suffczynski
International journal of neural systems 26 (08), 1650053, 2016
442016
Epilepsy as a manifestation of a multistate network of oscillatory systems
S Kalitzin, G Petkov, P Suffczynski, V Grigorovsky, BL Bardakjian, ...
Neurobiology of disease 130, 104488, 2019
422019
The effects of vigabatrin on spike and wave discharges in WAG/Rij rats
BM Bouwman, P Suffczynski, IS Midzyanovskaya, E Maris, ...
Epilepsy research 76 (1), 34-40, 2007
392007
Afferent inputs to cortical fast-spiking interneurons organize pyramidal cell network oscillations at high-gamma frequencies (60–200 Hz)
P Suffczynski, NE Crone, PJ Franaszczuk
Journal of neurophysiology 112 (11), 3001-3011, 2014
302014
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