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Regine Zopf
Researcher at Macquarie University
Publications - 37
Citations - 887
Regine Zopf is an academic researcher from Macquarie University. The author has contributed to research in topics: Illusion & Visual perception. The author has an hindex of 15, co-authored 35 publications receiving 769 citations. Previous affiliations of Regine Zopf include University of Tübingen & Leipzig University.
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Crossmodal congruency measures of lateral distance effects on the rubber hand illusion.
TL;DR: The sense of ownership seems to be related to modulations of multisensory interactions possibly through peripersonal space mechanisms, and these modulations do not appear to be limited by an increase in distance between artificial hand and real hand.
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Manipulating motor performance and memory through real-time fMRI neurofeedback.
Frank Scharnowski,Frank Scharnowski,Ralf Veit,Regine Zopf,Petra Studer,Simon Bock,Jörn Diedrichsen,Rainer Goebel,Rainer Goebel,Klaus Mathiak,Niels Birbaumer,Nikolaus Weiskopf +11 more
TL;DR: Neurofeedback training of motor cortex shortens reaction times and reveals double dissociation between neurofeedback target areas in self-regulation of parahippocampal cortex activity.
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Normalized perfusion MRI to identify common areas of dysfunction: patients with basal ganglia neglect.
TL;DR: The data suggest that spatial neglect following a right basal ganglia lesion typically is caused by the dysfunction of (part of) these specific cortical areas, which typically involves the superior temporal gyrus, the inferior parietal lobule and the inferior frontal gyrus.
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Selective spatial attention to left or right hand flutter sensation modulates the steady-state somatosensory evoked potential
TL;DR: This is the first report to show the attentional modulation of the SSSEP amplitude in humans, suggesting an enhancement of neural responses in the sense of flutter with attention.
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First evaluation of a novel tactile display exerting shear force via lateral displacement
TL;DR: A prototype of a novel tactile multipin display that controls lateral pin displacement and, thus produces shear force is constructed and it is demonstrated that humans can discriminate between directions of the displacements and that the technically realized resolution of the display exceeds the perceptual resolution.