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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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Transcranial direct current stimulation over the left prefrontal cortex increases randomness of choice in instrumental learning.
TL;DR: Results congruently indicate that prefrontal tDCS during instrumental learning increased randomness of choice, possibly reflecting the influence of the cognitive prefrontal component.
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Transcranial brain stimulation: potential and limitations
TL;DR: The brain adapts to new requirements in response to activity, learning or reactions to environmental stimuli by continuous reorganization, and hypothesis-driven protocols based on cellular or neuronal network characteristics are particularly popular, in the effort to narrow the choices in a meaningful manner.
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Arterial Remodeling and Dysfunction in the ZSF1 Rat Model of Heart Failure With Preserved Ejection Fraction.
Sara Leite,Rui J Cerqueira,Jaime Ibarrola,Dulce Fontoura,Amaya Fernández-Celis,Faiez Zannad,Inês Falcão-Pires,Walter Paulus,Adelino F. Leite-Moreira,Patrick Rossignol,Natalia López-Andrés,Natalia López-Andrés,André P. Lourenço +12 more
TL;DR: Functional, molecular, and structural disturbances of central vessels and their potentially underlying pathways were newly characterized in experimental heart failure with preserved ejection fraction rendering the ZSF1 obese rat model suitable for preclinical testing.
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The future diagnosis of heart failure with normal ejection fraction: less imaging, more biomarkers?
TL;DR: The future paradigm for the diagnosis of HFNEF will probably be diverted away from elaborate imaging techniques and oriented towards the integrated use of biomarkers.
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Stretch-induced compliance: a novel adaptive biological mechanism following acute cardiac load.
A Leite-Moreira,João Almeida-Coelho,João Sérgio Neves,Ana L. Pires,João Ferreira-Martins,Ricardo Castro-Ferreira,Ricardo Ladeiras-Lopes,Glória Conceição,Daniela Miranda-Silva,Patrícia Rodrigues,Nazha Hamdani,Melissa Herwig,Inês Falcão-Pires,Walter Paulus,Wolfgang A. Linke,André P. Lourenço,Adelino F. Leite-Moreira +16 more
TL;DR: A novel adaptive mechanism, partly mediated by titin phosphorylation through cGMP-PKG signalling, whereby myocardial compliance increases in response to acute stretching is described and translated to human physiology.