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Danny Spampinato
Danny Spampinato
IRCCS Fondazione Santa Lucia
Bestätigte E-Mail-Adresse bei ucl.ac.uk
Titel
Zitiert von
Zitiert von
Jahr
Cerebellar direct current stimulation enhances on-line motor skill acquisition through an effect on accuracy
G Cantarero, D Spampinato, J Reis, L Ajagbe, T Thompson, K Kulkarni, ...
Journal of Neuroscience 35 (7), 3285-3290, 2015
1532015
Multiple motor learning processes in humans: defining their neurophysiological bases
D Spampinato, P Celnik
The Neuroscientist 27 (3), 246-267, 2021
1062021
Temporal dynamics of cerebellar and motor cortex physiological processes during motor skill learning
D Spampinato, P Celnik
Scientific reports 7 (1), 40715, 2017
1002017
Laterality differences in cerebellar–motor cortex connectivity
JE Schlerf, JM Galea, D Spampinato, PA Celnik
Cerebral cortex 25 (7), 1827-1834, 2015
882015
Cerebellar–M1 connectivity changes associated with motor learning are somatotopic specific
DA Spampinato, HJ Block, PA Celnik
Journal of Neuroscience 37 (9), 2377-2386, 2017
832017
Modulating motor learning through transcranial direct-current stimulation: an integrative view
C Ammann, D Spampinato, J Márquez-Ruiz
Frontiers in Psychology 7, 1981, 2016
792016
Cerebellar–motor cortex connectivity: one or two different networks?
DA Spampinato, PA Celnik, JC Rothwell
Journal of Neuroscience 40 (21), 4230-4239, 2020
732020
Altered motor cortex physiology and dysexecutive syndrome in patients with fatigue and cognitive difficulties after mild COVID‐19
P Ortelli, D Ferrazzoli, L Sebastianelli, R Maestri, S Dezi, D Spampinato, ...
European journal of neurology 29 (6), 1652-1662, 2022
572022
Deconstructing skill learning and its physiological mechanisms
D Spampinato, P Celnik
Cortex 104, 90-102, 2018
532018
Consensus paper: novel directions and next steps of non-invasive brain stimulation of the cerebellum in health and disease
M Manto, GPD Argyropoulos, T Bocci, PA Celnik, LA Corben, M Guidetti, ...
The Cerebellum, 1-31, 2022
392022
Cerebellar transcranial magnetic stimulation: the role of coil type from distinct manufacturers
D Spampinato, J Ibáñez, M Spanoudakis, P Hammond, JC Rothwell
Brain Stimulation 13 (1), 153-156, 2020
372020
Decreased frontal gamma activity in Alzheimer disease patients
EP Casula, MC Pellicciari, S Bonnì, I Borghi, M Maiella, M Assogna, ...
Annals of Neurology 92 (3), 464-475, 2022
362022
Combining reward and M1 transcranial direct current stimulation enhances the retention of newly learnt sensorimotor mappings
DA Spampinato, Z Satar, JC Rothwell
Brain stimulation 12 (5), 1205-1212, 2019
322019
Dissecting two distinct interneuronal networks in M1 with transcranial magnetic stimulation
D Spampinato
Experimental Brain Research 238 (7), 1693-1700, 2020
292020
Frequency-dependent modulation of cerebellar excitability during the application of non-invasive alternating current stimulation
D Spampinato, E Avci, J Rothwell, L Rocchi
Brain stimulation 14 (2), 277-283, 2021
242021
Regional precuneus cortical hyperexcitability in Alzheimer's disease patients
EP Casula, I Borghi, M Maiella, MC Pellicciari, S Bonnì, L Mencarelli, ...
Annals of Neurology 93 (2), 371-383, 2023
232023
SICI during changing brain states: Differences in methodology can lead to different conclusions
J Ibáñez, DA Spampinato, V Paraneetharan, JC Rothwell
Brain stimulation 13 (2), 353-356, 2020
232020
Motor potentials evoked by transcranial magnetic stimulation: interpreting a simple measure of a complex system
DA Spampinato, J Ibanez, L Rocchi, J Rothwell
The Journal of Physiology 601 (14), 2827-2851, 2023
222023
Two forms of short-interval intracortical inhibition in human motor cortex
PY Fong, D Spampinato, L Rocchi, R Hannah, Y Teng, A Di Santo, ...
Brain stimulation 14 (5), 1340-1352, 2021
212021
Alzheimer disease and neuroplasticity
G Koch, D Spampinato
Handbook of Clinical Neurology 184, 473-479, 2022
202022
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