Elzbieta Jankowska
Affiliations: | University of Göteborg, Gothenburg, Västra Götalands län, Sweden |
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"Elzbieta Jankowska"Mean distance: 14.59 (cluster 6) | S | N | B | C | P |
Children
Sign in to add traineeStephen A. Edgley | grad student | University of Göteborg | |
Katinka Stecina | grad student | ||
Susan Shefchyk | post-doc | University of Göteborg | |
Daniel Zytnicki | post-doc | 1982-1984 | University of Göteborg, Sweden |
Paolo Cavallari | post-doc | 1987-1988 | University of Göteborg |
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Publications
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Kaczmarek D, Jankowska E. (2023) Do long-lasting effects of epidural polarization of afferent fibres depend on persistent sodium current? The European Journal of Neuroscience |
Jankowska E. (2022) Basic principles of processing of afferent information by spinal interneurons. Journal of Neurophysiology. 128: 689-695 |
Jankowska E, Kaczmarek D, Hammar I. (2022) Long-term modulation of the axonal refractory period. The European Journal of Neuroscience |
Jankowska E, Hammar I. (2021) THE PLASTICITY OF NERVE FIBRES: THE PROLONGED EFFECTS OF POLARIZATION OF AFFERENT FIBRES. Journal of Neurophysiology |
Li Y, Hari K, Lucas-Osma AM, et al. (2020) Branching points of primary afferent fibres are vital for the modulation of fibre excitability by epidural DC polarization and by GABA in the rat spinal cord. Journal of Neurophysiology |
Bolzoni F, Jankowska E. (2019) Ephaptic interactions between myelinated nerve fibres of rodent peripheral nerves. The European Journal of Neuroscience |
Bolzoni F, Esposti R, Jankowska E, et al. (2019) Interactions between Baclofen and DC-Induced Plasticity of Afferent Fibers within the Spinal Cord. Neuroscience |
Bączyk M, Jankowska E. (2018) Long-term effects of direct current are reproduced by intermittent depolarization of myelinated nerve fibers. Journal of Neurophysiology |
Kaczmarek D, Jankowska E. (2018) DC evoked modulation of excitability of myelinated nerve fibres and their terminal branches; differences in sustained effects of DC. Neuroscience |
Bolzoni F, Esposti R, Bruttini C, et al. (2017) Direct Current Stimulation modulates the excitability of the sensory and motor fibres in the human posterior tibial nerve, with a long-lasting effect on the H-reflex. The European Journal of Neuroscience |