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Walter Paulus
Researcher at University of Göttingen
Publications - 830
Citations - 98910
Walter Paulus is an academic researcher from University of Göttingen. The author has contributed to research in topics: Transcranial magnetic stimulation & Transcranial direct-current stimulation. The author has an hindex of 149, co-authored 809 publications receiving 86252 citations. Previous affiliations of Walter Paulus include Maastricht University & VU University Amsterdam.
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Temporal pattern of source activities evoked by different types of motion onset stimuli.
Chantal Delon-Martin,René Gobbelé,Helmut Buchner,Bernhard A. Haug,Andrea Antal,Felix Darvas,Walter Paulus +6 more
TL;DR: The different kinds of motion stimuli activated about the same areas of the brain but with different temporal patterns, and mainly parietal and extrastriate areas, but not V1/V2, were significantly involved in the differentiation of different types of motion.
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Movement-related cortical potentials in persistent mirror movements.
TL;DR: The data showed no evidence for a different type of movement preparation in MM subjects as compared to normals, and it is proposed that the additional ipsilateral cortical activation around movement onset may be the cortical mechanism, which compensates for abnormal ipsilaterally corticospinal pathways in subjects with persistent MM.
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Dopaminergic impact on cortical excitability in humans.
TL;DR: The respective experimental results are reviewed and conclusions about how dopamine might affect the cortical excitability of the human brain are derived.
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Does a single session of theta-burst transcranial magnetic stimulation of inferior temporal cortex affect tinnitus perception?
TL;DR: TBS does not offer a promising outcome for patients with tinnitus in the presented study, and there was no significant difference when comparing the responder and non-responder groups regarding their anamnestic and audiological data.
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Normal intracortical excitability in developmental stuttering
TL;DR: In PDS, the resting and active motor thresholds were increased, whereas intracortical inhibition and facilitation were normal, which suggests reduced motor cortical neuronal membrane excitability in PDS.