| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Alex R Carter, Mark P McAvoy, Joshua S Siegel, Xin Hong, Serguei V Astafiev, Jennifer Rengachary, Kristi Zinn, Nicholas V Metcalf, Gordon L Shulman, Maurizio Corbett. Differential white matter involvement associated with distinct visuospatial deficits after right hemisphere stroke. Cortex; a journal devoted to the study of the nervous system and behavior. vol 88. 2017-10-09. PMID:28081452. |
visuospatial attention depends on the integration of multiple processes, and people with right hemisphere lesions after a stroke may exhibit severe or no visuospatial deficits. |
2017-10-09 |
2023-08-13 |
Not clear |
| Bruno Fimm, Andrea Blankenhei. Effect of sleep deprivation and low arousal on eye movements and spatial attention. Neuropsychologia. vol 92. 2017-04-26. PMID:27018452. |
research on the neural underpinnings of attention repeatedly revealed a predominant role of the right hemisphere for alertness and visuo-spatial attention. |
2017-04-26 |
2023-08-13 |
human |
| Q Arshad, S Siddiqui, S Ramachandran, U Goga, A Bonsu, M Patel, R E Roberts, Y Nigmatullina, P Malhotra, A M Bronstei. Right hemisphere dominance directly predicts both baseline V1 cortical excitability and the degree of top-down modulation exerted over low-level brain structures. Neuroscience. vol 311. 2016-09-14. PMID:26518461. |
right hemisphere dominance for visuo-spatial attention is characteristically observed in most right-handed individuals. |
2016-09-14 |
2023-08-13 |
Not clear |
| Anders Hougaard, Bettina Hagström Jensen, Faisal Mohammad Amin, Egill Rostrup, Michael B Hoffmann, Messoud Ashin. Cerebral Asymmetry of fMRI-BOLD Responses to Visual Stimulation. PloS one. vol 10. issue 5. 2016-04-21. PMID:25985078. |
we found a general lateralization of cerebral activation towards the right hemisphere of early visual cortical areas and areas of higher-level visual processing, involved in visuospatial attention, especially in top-down (i.e., goal-oriented) attentional processing. |
2016-04-21 |
2023-08-13 |
human |
| Yan Wu, Jiaojian Wang, Yun Zhang, Dingchen Zheng, Jinfeng Zhang, Menglin Rong, Huawang Wu, Yinyan Wang, Ke Zhou, Tianzi Jian. The Neuroanatomical Basis for Posterior Superior Parietal Lobule Control Lateralization of Visuospatial Attention. Frontiers in neuroanatomy. vol 10. 2016-04-06. PMID:27047351. |
in the current study, we used repetitive transcranial magnetic stimulation (rtms) and diffusion magnetic resonance imaging (mri) techniques to test the role of posterior spl in visuospatial attention and to investigate the potential neuroanatomical basis for right hemisphere dominance in visuospatial function. |
2016-04-06 |
2023-08-13 |
human |
| Matthew R Longo, Sarah Trippier, Eleonora Vagnoni, Stella F Lourenc. Right hemisphere control of visuospatial attention in near space. Neuropsychologia. vol 70. 2016-01-04. PMID:25446963. |
right hemisphere control of visuospatial attention in near space. |
2016-01-04 |
2023-08-13 |
human |
| M Ribolsi, G Di Lorenzo, G Lisi, C Niolu, A Siracusan. A critical review and meta-analysis of the perceptual pseudoneglect across psychiatric disorders: is there a continuum? Cognitive processing. vol 16. issue 1. 2015-09-10. PMID:25377236. |
the phenomenon known as "perceptual pseudoneglect" refers to the leftward bias in visuospatial attention in non-clinical samples, possibly as a consequence of right hemisphere dominance for visuospatial attention. |
2015-09-10 |
2023-08-13 |
Not clear |
| Nicole A Thomas, Tobias Loetscher, Michael E R Nicholl. Asymmetries in attention as revealed by fixations and saccades. Experimental brain research. vol 232. issue 10. 2015-08-14. PMID:24952235. |
neurologically normal individuals devote more attention to the left side; an asymmetry known as pseudoneglect, which reflects right hemisphere involvement in visuospatial attention. |
2015-08-14 |
2023-08-13 |
Not clear |
| Karen Caeyenberghs, Alexander Leeman. Hemispheric lateralization of topological organization in structural brain networks. Human brain mapping. vol 35. issue 9. 2015-03-06. PMID:24706582. |
in particular, left-hemispheric networks displayed increased nodal efficiency in brain regions related to language and motor actions, whereas the right hemisphere showed an increase in nodal efficiency in brain regions involved in memory and visuospatial attention. |
2015-03-06 |
2023-08-13 |
human |
| Christopher S Y Benwell, Gregor Thut, Ashley Grant, Monika Harve. A rightward shift in the visuospatial attention vector with healthy aging. Frontiers in aging neuroscience. vol 6. 2014-06-24. PMID:24959142. |
the study of lateralized visuospatial attention bias in non-clinical samples has revealed a systematic group-level leftward bias (pseudoneglect), possibly as a consequence of right hemisphere (rh) dominance for visuospatial attention. |
2014-06-24 |
2023-08-13 |
human |
| Christopher S Y Benwell, Monika Harvey, Stephanie Gardner, Gregor Thu. Stimulus- and state-dependence of systematic bias in spatial attention: additive effects of stimulus-size and time-on-task. Cortex; a journal devoted to the study of the nervous system and behavior. vol 49. issue 3. 2013-09-09. PMID:22270326. |
in the general population, a systematic leftward bias is typically observed (pseudoneglect), possibly as a consequence of right hemisphere dominance for visuospatial attention. |
2013-09-09 |
2023-08-12 |
human |
| Giacomo Koch, Domenica Veniero, Carlo Caltagiron. To the other side of the neglected brain: the hyperexcitability of the left intact hemisphere. The Neuroscientist : a review journal bringing neurobiology, neurology and psychiatry. vol 19. issue 2. 2013-08-30. PMID:22668986. |
multiple lines of evidence suggest the deployment of visuospatial attention is controlled by a frontoparietal network, with a right hemisphere dominance. |
2013-08-30 |
2023-08-12 |
human |
| Michel Thiebaut de Schotten, Flavio Dell'Acqua, Stephanie J Forkel, Andrew Simmons, Francesco Vergani, Declan G M Murphy, Marco Catan. A lateralized brain network for visuospatial attention. Nature neuroscience. vol 14. issue 10. 2011-11-15. PMID:21926985. |
right hemisphere dominance for visuospatial attention is characteristic of most humans, but its anatomical basis remains unknown. |
2011-11-15 |
2023-08-12 |
Not clear |
| Charles Chong-Hwa Hong, James C Harris, Godfrey D Pearlson, Jin-Suh Kim, Vince D Calhoun, James H Fallon, Xavier Golay, Joseph S Gillen, Daniel J Simmonds, Peter C M van Zijl, David S Zee, James J Peka. fMRI evidence for multisensory recruitment associated with rapid eye movements during sleep. Human brain mapping. vol 30. issue 5. 2009-07-02. PMID:18972392. |
consistent with the hypothesis that rems share the brain systems and mechanisms with waking eye movements and are visually-targeted saccades, we found rem-locked activation in the primary visual cortex, thalamic reticular nucleus (trn), 'visual claustrum', retrosplenial cortex (rsc, only on the right hemisphere), fusiform gyrus, anterior cingulate cortex, and the oculomotor circuit that controls awake saccadic eye movements (and subserves awake visuospatial attention). |
2009-07-02 |
2023-08-12 |
Not clear |
| Laura A Thompson, Daniel M Malloy, Katya L LeBlan. Lateralization of visuospatial attention across face regions varies with emotional prosody. Brain and cognition. vol 69. issue 1. 2009-03-09. PMID:18639372. |
the results support a model wherein visuospatial attention used during language comprehension is directed by the left hemisphere given neutral emotional prosody, and by the right hemisphere given primarily negative emotional prosodic cues. |
2009-03-09 |
2023-08-12 |
human |
| Ines A Heber, Jakob T Valvoda, Torsten Kuhlen, Bruno Fim. Low arousal modulates visuospatial attention in three-dimensional virtual space. Journal of the International Neuropsychological Society : JINS. vol 14. issue 2. 2008-07-15. PMID:18282328. |
clinical, experimental, and functional imaging studies suggest overlapping neuronal networks and functional interactions of alertness and visuospatial attention within the right hemisphere of the brain. |
2008-07-15 |
2023-08-12 |
Not clear |
| I G Meister, M Wienemann, D Buelte, C Grünewald, R Sparing, N Dambeck, B Boroojerd. Hemiextinction induced by transcranial magnetic stimulation over the right temporo-parietal junction. Neuroscience. vol 142. issue 1. 2006-12-20. PMID:16876326. |
in the present study, we used this method to examine the functional role of the superior temporal gyrus (stg) and the tpj of the right hemisphere for visuo-spatial attention. |
2006-12-20 |
2023-08-12 |
human |
| A Flöel, A Buyx, C Breitenstein, H Lohmann, S Knech. Hemispheric lateralization of spatial attention in right- and left-hemispheric language dominance. Behavioural brain research. vol 158. issue 2. 2005-04-19. PMID:15698893. |
we found that language and visuospatial attention associated within the left hemisphere in five subjects and within the right hemisphere in eight subjects. |
2005-04-19 |
2023-08-12 |
human |
| John J Foxe, Mark E McCourt, Daniel C Javit. Right hemisphere control of visuospatial attention: line-bisection judgments evaluated with high-density electrical mapping and source analysis. NeuroImage. vol 19. issue 3. 2003-09-09. PMID:12880801. |
right hemisphere control of visuospatial attention: line-bisection judgments evaluated with high-density electrical mapping and source analysis. |
2003-09-09 |
2023-08-12 |
Not clear |
| Sebastien Barthélémy, Philippe Boulingue. Orienting visuospatial attention generates manual reaction time asymmetries in target detection and pointing. Behavioural brain research. vol 133. issue 1. 2002-08-12. PMID:12048178. |
it is suggested that the right hemisphere dominance for orienting of visuospatial attention account, partly at least, for the rt asymmetries classically observed in manual aiming. |
2002-08-12 |
2023-08-12 |
human |