Publications of Piotr Suffczynski
1. Stam C., Pijn J.P., Suffczynski P. and Lopes da Silva F. H. Dynamics of the human alpha rhythm: evidence for non-linearity? Clin. Neurophysiol. 110: 1801-1813, 1999.
2. Parra J., Meeren H.K.M., Kalitzin S., Suffczynski P., de Munck J.C., Kasteleijn-Nolst Trenite D.G.A., Lopes da Silva F.H. Magnetic Source Imaging in Fixation-Off Sensitivity: Relationship with Alpha Rhythm. J. Clin. Neurophysiol. 17(2): 212 – 223, 2000.
3. Suffczynski P., Kalitzin S. and Lopes da Silva F.H. Computational model of thalamo-cortical networks: dynamical control of alpha rhythms in relation to focal attention. Int. J. Psychophysiol. 43: 25-40, 2001.
4. Lopes da Silva FH, Blanes W, Kalitzin SN, Parra J, Suffczynski P, Velis DN. Epilepsies as dynamical diseases of brain systems: basic models of the transition between normal and epileptic activity. Epilepsia 44 Suppl 12:72-83, 2003.
5. Lopes da Silva FH, Blanes W, Kalitzin SN, Parra J, Suffczynski P, Velis DN. Dynamical diseases of brain systems: different routes to epileptic seizures. IEEE TBME, 50(5): 540 – 548, 2003.
6. Kalitzin S., Suffczynski P. Comments on "Correlations between brain electrical activities of two spatially separated human subjects", Wackermann et al., Neurosci. Lett., 336 (2003) 60-64, Neurosci. Lett., 350: 193-194, 2003.
7. Suffczynski, P., Kalitzin S. & Lopes da Silva, F.H. Dynamics of non - convulsive epileptic phenomena modeled by a bistable neuronal network. Neuroscience, 126(2): 467-484, 2004.
8. Ohayon EL, Kalitzin S, Suffczynski P, Jin FY, Tsang PW, Borrett DS, McIntyre Burnham W, Kwan HC, Charting epilepsy by searching for intelligence in network space with the help of evolving autonomous agents. J. Physiol. - Paris 98: 507–529, 2004.
9. Suffczynski P., Lopes da Silva FH, Parra J., Velis D., and Kalitzin S. Epileptic transitions - model predictions and experimental validation. J. Clin. Neurophysiol, 22 (5): 288 - 299, 2005.
10. Suffczynski, P., Kalitzin S. & Lopes da Silva, F.H. Bistability in epileptic phenomena. Bio-algorithms and med-systems Journal edited by Medical College – Jagiellonian University, vol. 1, no. 1/2, pp. 259-266, 2005.
11. Kalitzin, S., Velis, D., Suffczynski, P., Parra, J., Lopes da Silva, F. H. Intermittent electrical brain-stimulation paradigm for estimating the seizure onset site and the time to ictal transition in temporal lobe epilepsy. Clin. Neurophysiol. 116: 718–728, 2005.
12. Kalitzin S, Velis D, Suffczynski P, Parra J, Lopes da Silva FH. Reply to "Electrical stimulation to assess brain dynamics and the probability of inter-ictal to ictal transitions could give Penfield and Heisenberg 'fits'" by Osorio et al. Clin Neurophysiol. 117(3):697-698, 2006.
13. Suffczynski P, Lopes da Silva FH, Parra J, Velis D, Bouwman B, van Rijn CM, van Hese P., Boon P., Khosravani H., Derchansky. M., Carlen P. and Kalitzin S. Dynamics of epileptic phenomena determined from statistics of ictal transitions. IEEE TBME 53(3): 524-532, 2006. (pdf)
14. Suffczynski P, Wendling F, Belanger JJ, Lopes da Silva FH. Some insights into computational models of (patho)physiological brain activity. Proc. IEEE, 94(4): 784-804, 2006. (pdf)
15. Maris E., Bouwman B. M., Suffczynski P. and van Rijn C. M. Starting and Stopping Mechanisms of Absence Epileptic Seizures are Revealed by Hazard Functions. J. Neurosci. Methods 152(1-2): 107-115, 2006. https://doi.org/10.1016/j.jneumeth.2005.08.016
16. Bouwman BM, Suffczynski P, Lopes da Silva FH, Maris E, van Rijn CM. GABAergic mechanisms in absence epilepsy: a computational model of absence epilepsy simulating spike and wave discharges after vigabatrin in WAG/Rij rats. Eur J Neurosci. 25(9):2783-90, 2007. https://doi.org/10.1111/j.1460-9568.2007.05533.x
17. Bouwman BM, Suffczynski P, Midzyanovskaya IS, Maris E, van den Broek PL, van Rijn CM. The effects of vigabatrin on spike and wave discharges in WAG/Rij rats. Epilepsy Res. 76(1):34-40, 2007. https://doi.org/10.1016/j.eplepsyres.2007.06.006
18. Suffczynski P, Kalitzin S , Lopes da Silva FH, Parra J, Velis D, Wendling F. Active paradigms of seizure anticipation – a computer model evidence for necessity of stimulation. Phys. Rev E. 78, 051917, 2008. https://doi.org/10.1103/PhysRevE.78.051917
19. Marten F, Rodrigues S, Suffczynski P, Terry JR. Analysis of an ordinary differential equation mean-field model for studying clinically recorded epilepsy dynamics. Phys. Rev E. 79, 021911, 2009. https://doi.org/10.1103/PhysRevE.79.021911
20. Zygierewicz J, Malinowska U, Suffczynski P, Piotrowski T, Durka PJ. Event-related desynchronization and synchronization in evoked K-complexes. Acta Neurobiol Exp 69, 1-8, 2009. (pdf)
21. Zygierewicz J., Sieluzycki C., Zacharias N., Suffczynski P., Kordowski P., Scheich H.,. Durka P. J. Estimation of the spatiotemporal structure of event-related desynchronization and synchronization in magnetoencephalography. J. Neurosci. Meth. 205(1):148-158, 2012. doi: 10.1016/j.jneumeth.2011.12.013
26. Milanowski P, Suffczynski P. Seizures start without common signatures of critical transition. Int. J. Neural Syst. Vol. 26, No. 08, 16500253, 2016. doi: 10.1142/S0129065716500532.
27. Labecki M, Kus R, Brzozowska A, Stacewicz T, Bhattacharya BS, Suffczynski P. Nonlinear origin of SSVEP spectra – a combined experimental and modeling study. Front. Comput. Neurosci., 10, 2016. https://doi.org/10.3389/fncom.2016.00129
28. Gentiletti D., Gnatkovsky V., de Curtis M. and Suffczynski P. Changes of Ionic Concentrations During Seizure Transitions - A Modelling Study. Int. J. Neural Syst. Vol. 27, No. 04, 1750004, 2017. doi: 10.1142/S0129065717500046.
30. Suffczynski P. Introduction. Int J Neural Syst. Vol. 29, No. 03, 1802002, 2019. doi: 10.1142/S0129065718500478.
31. Labecki M, Nowicka MM, Suffczynski P. Temporal Modulation of Steady-State Visual Evoked Potentials. Int J Neural Syst. Vol. 29, No. 03, 1850050, 2019. doi: 10.1142/S0129065718500508.
32. Gajewska-Dendek E, Wróbel A, Bekisz M, Suffczynski P. Lateral Inhibition Organizes Beta Attentional Modulation in the Primary Visual Cortex. Int J Neural Syst. Vol. 29, No. 03, 1850047, 2019. doi: 10.1142/S0129065718500478.
33. Kalitzin S, Petkov G, Suffczynski P, Grigorovsky V, Bardakjian B, Lopes da Silva F, Carlen P. Epilepsy as a manifestation of a multistate network of oscillatory systems. Neurobiology of Disease, Vol. 130, 104488, 2019. https://doi.org/10.1016/j.nbd.2019.104488
34. van Putten, MJAM, Gorter, JA, van Huffelen, C, Boas, WV, Suffczynski, P. In Memoriam: Fernando Lopes da Silva (1935-2019). Clin. Neurophysiol. Vol. 130, No. 11, 2015-2016, 2019. https://doi.org/10.1016/j.clinph.2019.08.024
35. Gentiletti D, de Curtis M, Gnatkovsky V, Suffczynski P. Focal seizures are organized by feedback between neural activity and ion concentration changes. eLife 11:e68541, 2022. https://doi.org/10.7554/eLife.68541.
36. Maciej Śliwowski, Paulina Jastrzębska, Paweł Holas, Jarosław Żygierewicz & Piotr Suffczyński Brain activity during meditation in first-time meditators, International Journal of Neuroscience, 133(3):238-247, 2023, DOI:10.1080/00207454.2021.1909010.
37. Pokropski, M., Suffczynski, P. First-person constraints on dynamic-mechanistic explanations in neuroscience: The case of migraine and epilepsy models. Synthese 202, 153 (2023). https://doi.org/10.1007/s11229-023-04396-9.
Book chapters
1. Suffczynski P., Pijn J.P., Pfurtscheller G. and Lopes da Silva, F.H.. Event related dynamics of alpha rhythms: a neuronal network model of focal ERD/surround ERS. Event-Related Desynchronization Handbook of Electroencephalography and Clinical Neurophysiology, G. Pfurtscheller and F.H. Lopes da Silva (Eds.) Revised Series, Vol. 6: 67 - 85. Elsevier Science B.V. , 1999.
2. Suffczynski P., Zygierewicz J. Modele symulacyjne. Biocybernetyka i Inżynieria Biomedyczna 2000, Biosystemy, J. Doroszewski, R. Tarnecki, W. Zmysłowski (Eds.), Exit, 2000. (in polish)
3. Suffczynski P., Kalitzin S., Lopes da Silva F.H. A neuronal network model of corticothalamic oscillations: the emergence of epileptiform absence seizures. Computational Neuroscience in Epilepsy Ivan Soltesz and Kevin Staley (Eds.) 403-418. Academic Press, 2008.
4. Labecki M., Zieleniewska M., Augustin K., Zygierewicz J., Suffczynski P., Temporal Characteristics of the Steady State Visual Evoked Potentials. Advances in Cognitive Neurodynamics (IV), 177-180, Springer Netherlands, 2015.
5. Suffczynski P, Gentiletti D, Gnatkovsky V, de Curtis M. Extracellular potassium and focal seizures – insight from in silico study. Computational Neurology and Psychiatry. Peter Erdi, Basabdatta Sen Bhattacharya, Amy Cochran (Eds.), Vol. 6 of the series Springer Series in Bio-/Neuroinformatics pp. 49-72, 2017. doi: 10.1007/978-3-319-49959-8_3.
6. Petkov G, Kalitzin S, Demuru M., Widman G, Suffczynski P, Lopes da Silva F., Computational Model Exploration of Stimulation Based Paradigm for Detection of Epileptic Systems. Applications of Intelligent Systems N. Petkov et al. (Eds.) IOS Press, 2018. doi:10.3233/978-1-61499-929-4-324.
7. Suffczynski P., Kalitzin S., Lopes da Silva F.H. How Can Computer Modelling Help in Understanding the Dynamics of Absence Epilepsy? In: Cutsuridis V. (eds) Multiscale Models of Brain Disorders. Springer Series in Cognitive and Neural Systems, vol 13. Springer, pp. 167-182, 2019. doi: 10.1007/978-3-030-18830-6_16
8. Marco de Curtis, Piotr Suffczynski, Maxime Levesque, Laura Librizzi, Laura Uva, Paolo Scalmani, Vadym Gnatkovsky and Massimo Avoli. Mechanisms Leading to Initiation, Development, and Termination of Focal Seizures. Jasper's Basic Mechanisms of the Epilepsies. Jeffrey L. Noebels, Massimo Avoli, Michael A. Rogawski, Annamaria Vezzani, and Antonio V. Delgado-Escueta (Eds), pp. 161-180, 2024.
Suffczynski P., Neural dynamics underlying brain thalamic oscillations investigated with computational models. Faculty of Physics, University of Warsaw, 2000.
1. Suffczyński, P., Stam, C.J,. Pijn, P., Lopes da Silva, F.H. Dynamics of the human alpha rhythm: evidence for non-linearity? Attractors, Signals and Synergetics. Proceedings of the 1st European Interdisciplinary School on Nonlinear Dynamics for System and Signal Analysis Euroattractor 2000, Włodzimierz Klonowski (Ed.) Science Publishers, 2001.
2. Zygierewicz J., Blinowska K., Suffczynski P. A model of sleep spindle generation. Neurocomputing 38-40 (1-4): 1619 – 1625, 2001.
3. B.M. Bouwman, P. Suffczynski, C.M. Van Rijn. Vigabatrin alters the spike and wave discharges in the EEG of rats. Methods and Findings in Experimental and Clinical Pharmacology, vol. 24, Suppl. D., p. 161, 2002.
4. Kalitzin, S., Suffczynski, P., Velis, D.N., Parra, J., Lopes da Silva, F.H. Enhanced gamma-band phase coherency and anticipation of ictal transitions. A realistic neural network model study. Epilepsia, 44, Suppl. 9, 234-234, 2003
5. Bouwman, B.M., Suffczynski, P. & van Rijn, C.M. Vigabatrin changes the properties of spike-and-wave discharges in a rat model for absence epilepsy. Epilepsia, 44, Suppl. 9, 219-219, 2003
6. Kalitzin, S.N., Velis D.N., Parra J., Blanes, W., Van Engelen, F., Suffczyński, P. and Lopes da Silva, F.H. Electrophysiological paradigms for assessment the risk of epileptic seizures. Application to photosensitive and temporal lobe epilepsy patients. Physica Medica, vol. XIX, N1: 67, 2003
7. Ohayon, E.L., Kwan, H.C., Burnham, M.W., Suffczynski, P., Kalitzin, S. Emergent Complex Patterns in Autonomous Distributed Systems: Mechanisms for Attention Recovery and Relation to Models of Clinical Epilepsy. Proc IEEE SMC 2066 – 2072, 2004.
8. Velis D., Kalitzin S., Suffczynski P., Parra J., Lopes Da Silva F.H. On the (im)probability of clinical seizure anticipation in human epilepsy. Epilepsia, 45; 52-52, Suppl. 3, 2004.
9. Kalitzin S., Velis D., Suffczynski P., Parra J., Lopes Da Silva F.H. Gamma Oscillations and Seizures, Epilepsia, 46; 48-48, Suppl. 6, 2005.
10. Ohayon E.L., Kwan H.C., Burnham W.M., Suffczynski P., Kalitzin S. Introduction and Abolition of Autonomous Seizure Transitions in Random Networks through Weight Changes, Epilepsia, 46; 206– 206, Suppl. 6, 2005.
13. Gajewska-Dendek E, Suffczynski P. Investigation of SSEP by Means of a Realistic Computational Model of the Sensory Cortex. Artificial Neural Networks and Machine Learning - ICANN 2016, Pt. 1. Lecture Notes in Computer Science 9886; 532-532, 2016.
1. Suffczynski P., Kalitzin S., Lopes da Silva F.H. A lumped model of thalamic oscillations. Computational Neuroscience Meeting CNS2000, Brugge, Belgium, May 2000.
2. Suffczynski, P., Stam, C.J,. Pijn, P., Lopes da Silva, F.H. Dynamics of the human alpha rhythm: evidence for non-linearity? The 1st European Interdisciplinary School on Nonlinear Dynamics for System and Signal Analysis Euroattractor 2000, Warsaw, Poland, May 2000.
3. Zygierewicz J., Blinowska K., Suffczynski P. A model of sleep spindle generation. Computational Neuroscience Meeting CNS2000, Brugge, Belgium, May 2000.
4. Suffczynski, P, Kalitzin, S and Lopes da Silva, F.H. Bistable neural network dynamics models non-convulsive epileptic phenomena Spring Epilepsy Research Conference; Grand Cayman, April 26 - May 3, 2003.
5. Suffczynski, P, Kalitzin, S and Lopes da Silva, F.H. Mathematic models for non-convulsive epileptic phenomena 2nd Dutch Endo-Neuro-Psycho Meeting (ENP2003) Doorwerth, The Netherlands, June 2-5, 2003.
6. Bouwman, BM, Suffczynski, P and Rijn, CM van Effects of vigabatrin on spike and wave discharges in a rat model for absence epilepsy 2nd Dutch Endo-Neuro-Psycho Meeting (ENP2003) Doorwerth, The Netherlands, June 2-5, 2003.
7. Suffczynski, P, Kalitzin, S., Parra, J, Bouwman, B, Van Hese, P, Lopes da Silva, F.H. Time distributions of paroxysmal events in absence epilepsy Ladislav Tauc Conference in Neurobiology Gif-sur-Yvette, France December 4 – 5, 2003.
8. Ohayon E.L., Kalitzin S, Suffczynski P, Jin F.Y., Tsang PW, Borrett D.S., McIntyre Burnham W, Kwan H.C. Charting epilepsy by searching for intelligence in network space with the help of evolving autonomous agents. Ladislav Tauc Conference in Neurobiology: Decoding and Interfacing the Brain, Gif-sur-Yvette, France, December 4-5, 2003.
9. Kalitzin, SN, Suffczynski, P., Velis, DN, Parra, J, Lopes da Silva, F.H. Electrophysiological paradigms for assessment the risk of epileptic seizures. Application to photosensitive and temporal lobe epilepsy patients. 8th EFOMP Congress Eindhoven, The Netherlands, May 20 – 23, 2003
10. Kalitzin, SN, Suffczynski, P., Velis, DN, Parra, J, Lopes da Silva, F.H. Enhanced gamma-band phase consistency and anticipation of ictal transitions. Clinical and computer model studies. 7th Workshop on the Neurobiology of Epilepsy (WONOEP VII) Lisbon, Portugal, October 8-11, 2003
11. Kalitzin, S., Suffczynski, P., Velis, D.N., Parra, J., Lopes da Silva, F.H. Enhanced gamma-band phase coherency and anticipation of ictal transitions. A realistic neural network model study. American Epilepsy Society Annual Meeting, Boston, USA, December 5–10, 2003
12. Bouwman, B.M., Suffczynski, P. & van Rijn, C.M. Vigabatrin changes the properties of spike-and-wave discharges in a rat model for absence epilepsy. American Epilepsy Society Annual Meeting, Boston, Massachusetts, USA, December 5–10, 2003
13. Suffczynski, P., Kalitzin S. & Lopes da Silva, F.H. Bistable dynamics in epileptic phenomena. Principles of Autonomous Neurodynamics, Toronto, Canada, August 13, 2004.
14. Ohayon, E.L., Kwan, H.C., Burnham, M.W., Suffczynski, P., Kalitzin, S. Emergent Complex Patterns in Autonomous Distributed Systems: Mechanisms for Attention Recovery and Relation to Models of Clinical Epilepsy. International Conference on Systems, Man and Cybernetics, The Hague, The Netherlands, October 10-13, 2004
15. Velis D., Kalitzin S., Suffczynski P., Parra J., Lopes Da Silva F.H. On the (im)probability of clinical seizure anticipation in human epilepsy. 6th European Congress on Epileptology Vienna, Austria, May 30 - June 3, 2004.
16. Suffczynski P. Seizure Prediction in Temporal Lobe Epilepsy – a Modeling Study. Principles of Autonomous Neurodynamics, Warsaw, Poland, June 27-28, 2005.
17. Suffczynski, P., Kalitzin S. & Lopes da Silva, F.H. Bistability in epileptic phenomena. Modelowanie Cybernetyczne Systemów Biologicznych, Kraków, Poland, May 20-21, 2005.
18. Suffczynski P, Kalitzin S., Pfurtscheller G., and Lopes da Silva F.H.. Dynamics of alpha band rhythms in relation to focal attention: a neuronal network model. Brain Mechanisms of Attention: Biological and Computational Approaches. Soria, Spain, June 17-21, 2005.
19. Kalitzin S., Velis D., Suffczynski P., Parra J., Lopes Da Silva F.H. Gamma Oscillations and Seizures, 26th International Epilepsy Congress Paris, France, August 28 – September 1, 2005
20. Ohayon E.L., Kwan H.C., Burnham W.M., Suffczynski P., Kalitzin S. Introduction and Abolition of Autonomous Seizure Transitions in Random Networks through Weight Changes, 26th International Epilepsy Congress Paris, France, August 28 - September 1, 2005.
21. Suffczynski P., Kalitzin S., Velis D., Parra J., Lopes da Silva F.H. Seizure Prediction in Temporal Lobe Epilepsy – a Modeling Study. Second International Workshop on Seizure Prediction, Bethesda, USA, April 8-11, 2006. (Invited talk)
22. Suffczynski P. Epileptic Transitions - Insight from a Hippocampal Model. Principles of Autonomous Neurodynamics, Eilat, Israel, July 3-4, 2006.
23. Suffczynski P., Kalitzin S., Lopes da Silva F.H., Parra J., Velis D., Wendling F. Seizure prediction - do we have to stimulate? Principles of Autonomous Neurodynamics, Quebec, Canada, August 20-22, 2007.
24. Ohayon E.L., Kwan H.C., Burnham W.M., Suffczynski P., Kalitzin S. Adaptable Intermittency and Autonomous Transitions in Epilepsy and Cognition. The 1st International Conference on Cognitive Neurodynamics, Shanghai, China, November 17-21, 2007.
25. Suffczynski P., Modeling Mechanisms of Drug Action, Principles of Autonomous Neurodynamics, Heemstede, The Netherlands, August 24-26, 2008.
26. Suffczynski P., Kalitzin S., Lopes da Silva F.H. Bistable dynamics of epileptic phenomena. Mathematical Neuroscience, Edinburgh, UK, March 16 – 19, 2008. (Invited talk)
27. Suffczynski P.,Stimulation based assessment of risk of epileptic transitions in neuronal systems. Deep Brain Stimulation & Epilepsy Meeting, Bristol, UK, September 16th, 2008. (Invited talk)
28. Suffczynski P., Kalitzin S., Lopes da Silva F.H. Risk assessment of epileptic transitions. Nonlinear Neurodynamics Meeting, Exeter, UK, September 18-19, 2008. (Invited talk)
29. Suffczynski, P., Kalitzin S., Lopes da Silva, F.H., Parra J., Velis D., Wendling F. Stimulation based assessment of risk of epileptic transitions in neuronal systems. 7th International Conference on Bioelectromagnetism, Rome, May 29 – June 01, 2009.
30. Suffczynski P., Crone NE, Franaszczuk PJ. The fast and the curious – mechanisms of 60-200 Hz oscillations in the brain. Principles of Autonomous Neurodynamics, Toronto, Canada, August 23-24, 2010.
31. Suffczynski P, Epileptic transitions - model predictions and experimental validation. Annual Meeting of the American Epilepsy Society, San Antonio, TX, USA, December 3 - 7, 2010. (Invited talk)
32. Suffczynski P, Novel SSVEP interface for BCI systems, Principles of Autonomous Neurodynamics, Bangkok, Thailand, July 20-21, 2011
33. Suffczynski P, Crone N.E. Franaszczuk P.J. Mechanisms of cortical high-gamma activity (60-200 Hz) investigated with computational modeling. Computational Neuroscience and the Dynamics of the Disease States, Leiden. The Netherlands, August 8 – 12, 2011. (Invited talk)
34. Suffczynski P, Crone N.E. Franaszczuk P.J. Generation of ripple oscillations in multilayer neuronal networks. Fifth International Workshop on Seizure Prediction. Dresden, Germany, September 19-23, 2011. (Invited talk)
35. Suffczynski P. Computer simulation of neural stimulation. Epilepsy, Electrophysiology, Models, Neurostimulations. Rennes, France, May 17-19, 2012. (Invited talk)
36. Suffczynski P, Lopes da Silva F, Kalitzin S. Epileptic transitions - model predictions and experimental validation. CNS 2013, Paris, France, July 13-18, 2013. (Invited talk)
37. Suffczynski P, Kalitzin S, Lopes da Silva F, Parra J, Velis D, Wendling F. Seizure anticipation - do we need to stimulate? 17th Thai Neuroscience Society International Conference, Bangkok, Thailand, July 29 – August 3, 2013.
38. Milanowski P, Suffczynski P. Critical transitions in epilepsy. Principles of Autonomous Neurodynamics, Pune, India, August 5-7, 2013.
39. Gentiletti D, Suffczynski P. Modeling of seizure transitions with ion concentration dynamics. Principles of Autonomous Neurodynamics, Paris, France, July 7-9, 2014.
40. Suffczynski P, Crone N.E. Franaszczuk P.J. Mechanisms of cortical high-gamma activity (60-200 Hz) investigated with computational modeling. CNS 2015, Prague, Czech Republic, July 18-23, 2015.
41. Suffczynski P, Gentiletti D, Gnatkovsky V, de Curtis M. Modelling of neuronal and ionic dynamics during ictogenesis. The 7th International Workshop on Seizure Prediction, Melbourne, Australia, August 3-6, 2015. (Invited talk)
42. Suffczynski P, Gentiletti D, Gnatkovsky V, de Curtis M. Extracellular potassium and focal seizures - chicken or the egg? Principles of Autonomous Neurodynamics, Toronto, Canada, August 2-7, 2016.
43. Suffczynski P. On the origin of the harmonic frequencies in SSVEP signals. Principles of Autonomous Neurodynamics, Warsaw, Poland, July 10-11, 2017.
44. Suffczynski P., Milanowski P. Critical transitions in epileptic systems. Predicting Transitions in Complex Systems, Dresden, Germany, April 23-27, 2018 (Invited talk)
45. Suffczynski P., Gentiletti D., Gnatkovsky V, de Curtis M. The role of extracellular potassium in focal seizures – insight from computational model. 12th Asian & Oceanian Epilepsy Congress, Bali, Indonesia, June 28-July 01, 2018.
46. Suffczynski P. Subharmonic entrainment in SSVEP signals. Principles of Autonomous Neurodynamics, Lombok, Indonesia, July 02-04, 2018.
47. Suffczynski P., Milanowski P. Do seizures start via critical transitions? Evidence from models, rodents and humans. Prediction in Complex Networked Systems: Focus on Epilepsy, Prague, Czech Republic, December 13-14, 2018 (Invited talk)
48. Jastrzębska P, Sliwowski M, Holas P, Zygierewicz J, Suffczynski P. Brain activity during meditation state in novice meditators. Interdisciplinary Mindfulness Conference, Gdansk, Poland, 13.01.2019.
49. Suffczynski P. Neuronal and ionic mechanisms of focal seizures – insight from in silico study. 14th International Congress of the Polish Neuroscience Society, Katowice, Poland, August 28-30, 2019.
50. Suffczynski P. Metabolic mechanisms of seizure termination. Principles of Autonomous Neurodynamics, Bangkok, Thailand, June 25-26, 2019
51. Suffczynski P. Computer modelling in epilepsy research. 1st Annual EpiReC meeting, Prague, Czech Republic, November 15, 2019. (Invited talk)