Publications of Falk Eippert

Nierula, B.; Stephani, T.; Bailey, E.; Kaptan, M.; Pohle, L.-M.; Horn, U.; Mouraux, A.; Maess, B.; Villringer, A.; Curio, G. et al.; Nikulin, V. V.; Eippert, F.: A multichannel electrophysiological approach to noninvasively and precisely record human spinal cord activity. PLOS Biology 22 (10), e3002828 (2024)

Stephani, T.; Nierula, B.; Villringer, A.; Eippert, F.; Nikulin, V. V.: Cortical response variability is driven by local excitability changes with somatotopic organization. NeuroImage 264, 119687 (2022)

Stephani, T.; Hodapp, A.; Jamshidi Idaji, M.; Nierula, B.; Eippert, F.; Villringer, A.; Nikulin, V. V.: Cortical excitability shapes somatosensory perception with spatiotemporally structured dynamics. In Clinical Neurophysiology, 148, e9. Elsevier, Amsterdam (2023)

Bailey, E.; Nierula, B.; Stephani, T.; Nikulin, V. V.; Eippert, F.: Task-evoked high frequency oscillations in cortex and spinal cord. 11th MindBrainBody Symposium 2024, Berlin, Germany (2024)

Stephani, T.; Hodapp, A.; Jamshidi Idaji, M.; Nierula, B.; Eippert, F.; Villringer, A.; Nikulin, V. V.: Cortical excitability shapes somatosensory perception with spatiotemporally structured dynamics. 10th MindBrainBody Symposium 2023, Berlin, Germany (2023)

Stephani, T.; Hodapp, A.; Jamshidi Idaji, M.; Nierula, B.; Eippert, F.; Villringer, A.; Nikulin, V. V.: Cortical excitability shapes somatosensory perception with spatiotemporally structured dynamics. Congress for Clinical Neuroscience with Advanced Training Academy (DGKN23), Hamburg, Germany (2023)

Bailey, E.; Nierula, B.; Stephani, T.; Nikulin, V. V.; Maess, B.; Eippert, F.: Cardiac artefact removal in non-invasive electrophysiology of the human spinal cord. 11th IMPRS NeuroCom Summer School, Leipzig, Germany (2022)

Stephani, T.; Nierula, B.; Villringer, A.; Eippert, F.; Nikulin, V. V.: Cortical response variability is driven by local excitability changes with somatotopic organization. 28th Annual Meeting of the Organization for Human Brain Mapping (OHBM), Glasgow, United Kingdom (2022)

Nierula, B.; Stephani, T.; Kaptan, M.; Mouraux, A.; Maess, B.; Curio, G.; Nikulin, V. V.; Eippert, F.: Cleaning electrophysiological spinal-cord data from artifacts. CuttingEEG: 5th Symposium on Cutting-Edge Methods for EEG research, Aix-en-Provence, France (2021)

Stephani, T.; Hodapp, A.; Jamshidi Idaji, M.; Nierula, B.; Eippert, F.; Villringer, A.; Nikulin, V. V.: Cortical excitability shapes somatosensory perception with spatiotemporally structured dynamics. 27th Annual Meeting of the Organization for Human Brain Mapping (OHBM), Virtual (2021)

Nierula, B.; Stephani, T.; Kaptan, M.; Mouraux, A.; Maess, B.; Curio, G.; Nikulin, V. V.; Eippert, F.: Mixed nerve and purely sensory somatosensory evoked potentials along the neuraxis. 8th MindBrainBody Symposium, Virtual (2021)

Nierula, B.; Stephani, T.; Kaptan, M.; Mouraux , A.; Maess, B.; Curio, G.; Nikulin, V. V.; Eippert, F.: Somatosensory evoked potentials along the neuraxis. LiveMEEG, Virtual (2020)

Nierula, B.; Stephani, T.; Kaptan, M.; Mouraux, A.; Maess, B.; Curio, G.; Nikulin, V. V.; Eippert, F.: Somatosensory evoked potentials in the human spinal cord. 49th Annual Meeting of the Society for Neuroscience, Chicago, IL (2019)

Bailey, E.; Nierula, B.; Stephani, T.; Waterstraat, G.; Curio, G.; Nikulin, V. V.; Eippert, F.: Somatosensory high frequency oscillations across the human central nervous system. bioRxiv (2025)

Bailey, E.; Nierula, B.; Stephani, T.; Maess, B.; Nikulin, V. V.; Eippert, F.: Evaluating noise correction approaches for non-invasive electrophysiology of the human spinal cord. bioRxiv (2024)

Nierula, B.; Stephani, T.; Bailey, E.; Kaptan, M.; Pohle, L.-M.; Horn, U.; Mouraux, A.; Maess, B.; Villringer, A.; Curio, G. et al.; Nikulin, V. V.; Eippert, F.: A multi-channel electrophysiology approach to non-invasively and precisely record human spinal cord activity. bioRxiv (2024)

Stephani, T.; Nierula, B.; Villringer, A.; Eippert, F.; Nikulin, V. V.: Cortical response variability is driven by local excitability changes with somatotopic organization. bioRxiv (2022)