• Z. Harda, J. M. Dzik, M. Nalberczak-Skóra, K. Meyza, K. Łukasiewicz, S. Łęski, K. Radwanska:
    Autophosphorylation of αCaMKII affects social interactions in mice,
    Genes, Brain and Behavior 17 (2018), e12457
  • J. M. Dzik, A. Puścian, Z. Mijakowska, K. Radwanska, S. Łęski:
    PyMICE – a Python library for analysis of IntelliCage data,
    Behavior Research Methods 50 (2018), 804–815
  • M. Stefaniuk, A. Beroun, T. Lebitko, O. Markina, S. Łęski, K. Meyza, A. Grzywacz, J. Samochowiec, A. Samochowiec, K. Radwanska, L. Kaczmarek:
    Matrix metalloproteinase-9 and synaptic plasticity in the central amygdala in control of alcohol seeking behavior,
    Biological Psychiatry 81 (2017), 917–917
  • A. Puścian, S. Łęski, G. Kasprowicz, M. Winiarski, J. Borowska, T. Nikolaev, P. Boguszewski, H.-P. Lipp, E. Knapska:
    Eco-HAB as a fully automated and ecologically relevant assessment of social impairments in mouse models of autism,
    eLife (2016;5:e19532)
  • I. Kondratiuk, S. Łęski, M. Urbańska, J. Jaworski, P. Biecek, H. Devijver, B. Lechat, F. Van Leuven, L. Kaczmarek, T. Jaworski:
    GSK-3β and MMP-9 cooperate in control of dendritic spine morphology,
    Molecular Neurobiology 54:200 (2017)
  • Z. Mijakowska, K. Łukasiewicz, M. Ziółkowska, M. Lipiński, A. Trąbczyńska, Z. Matuszek, S. Łęski, K. Radwanska:
    Autophosphorylation of alpha isoform of calcium/calmodulin-dependent kinase II regulates alcohol addiction-related behaviors,
    Addiction Biology 22 (2017), 331–341
  • I. Laskowska, L. Gawryś, S. Łęski, D. Koziorowski:
    Emotional processing in Parkinson’s disease and schizophrenia: Evidence for response bias deficits in PD,
    Frontiers in Psychology 6:1417 (2015)
  • M. Jasińska, J. Miłek, I. A. Cymerman, S. Łęski, L. Kaczmarek, M. Dziembowska:
    miR-132 regulates dendritic spine structure by direct targeting of matrix metalloproteinase 9 mRNA,
    Molecular Neurobiology 53 (2016), 4701–4712, pdf
  • T. V. Ness, C. Chintaluri, J. Potworowski, S. Łęski, H. Głąbska, D. K. Wójcik, G. T. Einevoll:
    Modelling and analysis of electrical potentials recorded in microelectrode arrays (MEAs),
    Neuroinformatics 13 (2015), 403–426, pdf
  • H. Głąbska, J. Potworowski, S. Łęski, D. K. Wójcik:
    Independent components of neural activity carry information on individual populations,
    PLOS ONE 9 (2014), e105071.
  • A. Puścian, S. Łęski, T. Górkiewicz, K. Meyza, H.-P. Lipp, E. A. Knapska:
    A novel automated behavioral test battery assessing cognitive rigidity in two genetic mouse models of autism,
    Frontiers in Behavioral Neuroscience 8:140 (2014)
  • H. Lindén, E. Hagen, S. Łęski, E. S. Norheim, K. H. Pettersen, G. T. Einevoll:
    LFPy: A tool for biophysical simulation of extracellular potentials generated by detailed model neurons,
    Frontiers in Neuroinformatics 7:41 (2013)
  • S. Łęski, H. Lindén, T. Tetzlaff, K. H. Pettersen, G. T. Einevoll:
    Frequency dependence of signal power and spatial reach of the local field potential, 
    PLOS Computational Biology 9 (2013), e1003137,
    preprint: arXiv:1302.4559 [q-bio.NC]
  • J. Rogala, W. J. Waleszczyk, S. Łęski, A. Wróbel, D. K. Wójcik:
    Reciprocal inhibition and slow calcium decay in perigeniculate interneurons explain changes of spontaneous firing of thalamic cells caused by cortical inactivation,
    Journal of Computational Neuroscience 34 (2013), 461–476, pdf, supplementary material
  • J. Potworowski, W. Jakuczun, S. Łęski, D. K. Wójcik:
    Kernel Current Source Density Method,
    Neural Computation 24 (2012), 541–575, pdf
  • S. Łęski, K. H. Pettersen, B. Tunstall, G. T. Einevoll, J. Gigg, D. K. Wójcik:
    Inverse Current Source Density method in two dimensions: Inferring neural activation from multielectrode recordings,
    Neuroinformatics 9 (2011), 401–425, pdf,
    MATLAB toolbox available through INCF Software Center
  • A. Kiryk, G. Mochol, R. K. Filipkowski, M. Wawrzyniak, V. Lioudyno, E. Knapska, T. Gorkiewicz, M. Balcerzyk, S. Łęski, F. Van Leuven, H.-P. Lipp, D. K. Wójcik, L. Kaczmarek:
    Cognitive abilities of Alzheimer’s disease transgenic mice are modulated by social context and circadian rhythm,
    Current Alzheimer Research 8 (2011), 883–892, pdf
  • M. J. Hunt, M. Falińska, S. Łęski, D. K. Wójcik, S. Kasicki:
    Differential effects produced by ketamine on oscillatory activity recorded in the rat hippocampus, dorsal striatum and nucleus accumbens,
    Journal of Psychopharmacology 25 (2011), 808–821, pdf
  • S. Łęski, E. Kublik, D. A. Świejkowski, A. Wróbel, D. K. Wójcik:
    Extracting functional components of neural dynamics with Independent Component Analysis and inverse Current Source Density,
    Journal of Computational Neuroscience 29 (2010), 459–473, pdf
  • A. Sobolewski, E. Kublik, D. A. Świejkowski, S. Łęski, J. K. Kamiński, A. Wróbel:
    Cross-trial correlation analysis of evoked potentials reveals arousal related attenuation of thalamo-cortical coupling,
    Journal of Computational Neuroscience 29 (2010), 485–493, pdf
  • D. K. Wójcik, S. Łęski:
    Current source density reconstruction from incomplete data,
    Neural Computation 22 (2010), 48–60, arXiv:0903.2379 [q-bio.QM], pdf
  • S. Łęski, D. K. Wójcik:
    Inferring coupling strength from event-related dynamics,
    Physical Review E 78, 041918 (2008), arXiv:0805.0532 [q-bio.NC], pdf
  • S. Łęski, D. K. Wójcik, J. Tereszczuk, D. A. Świejkowski, E. Kublik, A. Wróbel:
    Inverse Current-Source Density method in 3D: reconstruction fidelity, boundary effects, and influence of distant sources,
    Neuroinformatics 5 (2007), 207–222, pdf

Reviews, book chapters, etc.

  • S. Łęski:
    Linking extracellular electric potential in the brain to neural activity — a review of source localisation and component identification methods,
    Acta Neurobiologiae Experimentalis 75 (2015), 117–125
  • G. T. Einevoll, H. Lindén, T. Tetzlaff, S. Łęski, K. H. Pettersen:
    Local Field Potentials: Biophysical Origin and Analysis, 
    in Principles of Neural Coding, CRC Press (2013)


My PhD thesis (2006) concerned mainly energy-minimizing initial data for two black holes. It also included a part concerning foliations with so-called “rigid spheres” and a chapter devoted to polyhomogeneous (non-smooth on the boundary) solutions to hyperbolic equations. In the thesis I presented an explicit formula for the conformal factor in “Misner initial data”.

My MSc thesis (2002) was about the Trautman-Bondi mass (energy of gravitational field measured at null infinity).


  • H.-P. Gittel, J. Jezierski, J. Kijowski, S. Łęski:
    Rigid spheres in Riemannian spaces, Classical and Quantum Gravity 30, 175010 (2013),
    preprint: arXiv:1206.6216 [gr-qc]
  • J. Jezierski, J. Kijowski, S. Łęski:
    Energy-minimizing two black holes initial data,
    Physical Review D 76, 024014 (2007), arXiv:0706.0129 [gr-qc], pdf
  • P.T. Chruściel, S. Łęski:
    Polyhomogeneous solutions of nonlinear wave equations without corner conditions,
    Journal of Hyperbolic Differential Equations 3 (2006), 81–141, math.AP/0506423, pdf + erratum
  • S. Łęski: Two black hole initial data,
    Physical Review D 71, 124018 (2005), gr-qc/0502085pdf
  • P.T. Chruściel, J. Jezierski, S. Łęski:
    The Trautman-Bondi mass of hyperboloidal initial data sets,
    Advances in Theoretical and Mathematical Physics 8 (2004), 83–139, gr-qc/0307109pdf