Zuzanna Piwkowska
Zuzanna Piwkowska
postdoctoral fellow, Digregorio lab, Institut Pasteur
Verified email at pasteur.fr
Cited by
Cited by
Minimal Hodgkin–Huxley type models for different classes of cortical and thalamic neurons
M Pospischil, M Toledo-Rodriguez, C Monier, Z Piwkowska, T Bal, ...
Biological cybernetics 99 (4), 427-441, 2008
A method to estimate synaptic conductances from membrane potential fluctuations
M Rudolph, Z Piwkowska, M Badoual, T Bal, A Destexhe
Journal of neurophysiology 91 (6), 2884-2896, 2004
High-resolution intracellular recordings using a real-time computational model of the electrode
R Brette, Z Piwkowska, C Monier, M Rudolph-Lilith, J Fournier, M Levy, ...
Neuron 59 (3), 379-391, 2008
Characterizing synaptic conductance fluctuations in cortical neurons and their influence on spike generation
Z Piwkowska, M Pospischil, R Brette, J Sliwa, M Rudolph-Lilith, T Bal, ...
Journal of neuroscience methods 169 (2), 302-322, 2008
Calculating event-triggered average synaptic conductances from the membrane potential
M Pospischil, Z Piwkowska, M Rudolph, T Bal, A Destexhe
Journal of Neurophysiology 97 (3), 2544-2552, 2007
Extracting synaptic conductances from single membrane potential traces
M Pospischil, Z Piwkowska, T Bal, A Destexhe
Neuroscience 158 (2), 545-552, 2009
Comparison of different neuron models to conductance-based post-stimulus time histograms obtained in cortical pyramidal cells using dynamic-clamp in vitro
M Pospischil, Z Piwkowska, T Bal, A Destexhe
Biological cybernetics 105 (2), 167-180, 2011
Targeted cortical manipulation of auditory perception
S Ceballo, Z Piwkowska, J Bourg, A Daret, B Bathellier
Neuron 104 (6), 1168-1179. e5, 2019
A non-parametric electrode model for intracellular recording
R Brette, Z Piwkowska, M Rudolph, T Bal, A Destexhe
Neurocomputing 70 (10-12), 1597-1601, 2007
High discharge variability in neurons driven by current noise
M Badoual, M Rudolph, Z Piwkowska, A Destexhe, T Bal
Neurocomputing 65, 493-498, 2005
A novel method for characterizing synaptic noise in cortical neurons
A Destexhe, M Badoual, Z Piwkowska, T Bal, M Rudolph
Neurocomputing 58, 191-196, 2004
Re-creating in vivo-like activity and investigating the signal transfer capabilities of neurons: dynamic-clamp applications using real-time neuron
G Sadoc, G Le Masson, B Foutry, Y Le Franc, Z Piwkowska, A Destexhe, ...
Dynamic-Clamp, 287-320, 2009
Associating living cells and computational models: an introduction to dynamic clamp principles and its applications
Z Piwkowska, A Destexhe, T Bal
Dynamic-Clamp, 1-30, 2009
Re-creating active states in vitro with a dynamic-clamp protocol
Z Piwkowska, M Rudolph, M Badoual, A Destexhe, T Bal
Neurocomputing 65, 55-60, 2005
Characterizing neuronal activity by describing the membrane potential as a stochastic process
M Pospischil, Z Piwkowska, T Bal, A Destexhe
Journal of Physiology-Paris 103 (1-2), 98-106, 2009
Cortical recruitment determines learning dynamics and strategy
S Ceballo, J Bourg, A Kempf, Z Piwkowska, A Daret, P Pinson, T Deneux, ...
Nature communications 10 (1), 1-12, 2019
How to emulate double-electrode recordings with a single-electrode? A new method of active electrode compensation.
R Brette, M Rudolph, Z Piwkowska, T Bal, A Destexhe
34th Annual Meeting of the Society for Neuroscience 31, 688, 2004
Dynamic Clamp with High-Resistance Electrodes Using Active Electrode Compensation In Vitro and In Vivo
R Brette, Z Piwkowska, C Monier, J Francisco, G González, Y Frégnac, ...
Dynamic-Clamp, 347-382, 2009
Inhibitory conductance dynamics in cortical neurons during activated states
M Pospischil, Z Piwkowska, M Rudolph, T Bal, A Destexhe
Neurocomputing 70 (10-12), 1602-1604, 2007
Real-time Interactions between Cortical Neurons and Computational Models: Synaptic Conductance Analysis and Digital Compensation of Electrode Artifacts
Z Piwkowska
PhD Thesis, Université Pierre et Marie Curie, Paris, 2007
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Articles 1–20