| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Lawrence M Parsons, Justine Sergent, Donald A Hodges, Peter T Fo. The brain basis of piano performance. Neuropsychologia. vol 43. issue 2. 2005-04-19. PMID:15707905. |
areas specifically implicated in generating and playing scales were posterior cingulate, middle temporal, right middle frontal, and right precuneus cortices, with lesser increases in right hemispheric superior temporal, temporoparietal, fusiform, precuneus, and prefrontal cortices, along with left inferior frontal gyrus. |
2005-04-19 |
2023-08-12 |
Not clear |
| Silvina G Horovitz, Bruno Rossion, Pawel Skudlarski, John C Gor. Parametric design and correlational analyses help integrating fMRI and electrophysiological data during face processing. NeuroImage. vol 22. issue 4. 2004-10-25. PMID:15275915. |
face perception is typically associated with activation in the inferior occipital, superior temporal (stg), and fusiform gyri (fg) and with an occipitotemporal electrophysiological component peaking around 170 ms on the scalp, the n170. |
2004-10-25 |
2023-08-12 |
human |
| Alumit Ishai, Luiz Pessoa, Philip C Bikle, Leslie G Ungerleide. Repetition suppression of faces is modulated by emotion. Proceedings of the National Academy of Sciences of the United States of America. vol 101. issue 26. 2004-08-12. PMID:15210952. |
we found that within the inferior occipital gyri, lateral fusiform gyri, superior temporal sulci, amygdala, and the inferior frontal gyri/insula, targets evoked stronger responses than distracters and their repetition was associated with significantly reduced responses. |
2004-08-12 |
2023-08-12 |
human |
| R N Henson, Y Goshen-Gottstein, T Ganel, L J Otten, A Quayle, M D Rug. Electrophysiological and haemodynamic correlates of face perception, recognition and priming. Cerebral cortex (New York, N.Y. : 1991). vol 13. issue 7. 2003-08-15. PMID:12816895. |
face perception was associated with haemodynamic increases in regions including bilateral fusiform and right superior temporal cortices, and a right posterior negativity (n170), most likely generated in the superior temporal region. |
2003-08-15 |
2023-08-12 |
Not clear |
| Steven G Potkin, Gustavo Alva, David Keator, Danilo Carreon, Kirsten Fleming, James H Fallo. Brain metabolic effects of Neotrofin in patients with Alzheimer's disease. Brain research. vol 951. issue 1. 2002-11-26. PMID:12231461. |
increases and decreases were observed in the posterior superior temporal (ba 22), parahippocampal, inferior temporal (ba 37, 20), and fusiform gyri as well as the superior parietal lobule and postcentral gyrus. |
2002-11-26 |
2023-08-12 |
human |
| V P Clark, S Fannon, S Lai, R Benson, L Baue. Responses to rare visual target and distractor stimuli using event-related fMRI. Journal of neurophysiology. vol 83. issue 5. 2000-06-14. PMID:10805707. |
distractor stimuli evoked an fmri signal change bilaterally in inferior anterior cingulate, medial frontal, inferior frontal, and right superior frontal gyri, with additional activity in bilateral inferior parietal lobules, lateral cerebellar hemispheres and vermis, and left fusiform, middle occipital, and superior temporal gyri. |
2000-06-14 |
2023-08-12 |
Not clear |
| E A Hoffman, J V Haxb. Distinct representations of eye gaze and identity in the distributed human neural system for face perception. Nature neuroscience. vol 3. issue 1. 2000-01-24. PMID:10607399. |
perception of face identity was mediated more by regions in the inferior occipital and fusiform gyri, and perception of eye gaze was mediated more by regions in the superior temporal sulci. |
2000-01-24 |
2023-08-12 |
human |
| B Gulyás, A Cowey, C A Heywood, D Popplewell, P E Rolan. Visual form discrimination from texture cues: a PET study. Human brain mapping. vol 6. issue 3. 1998-08-27. PMID:9673667. |
during task performance, activated fields were present bilaterally in the primary visual cortex and its immediate extrastriate cortex, the right lateral occipital gyrus, bilaterally in the fusiform and superior temporal gyri and posterior parts of the superior parietal lobules, along the medial bank of the right intraparietal sulcus, and in the right supramarginal gyrus. |
1998-08-27 |
2023-08-12 |
human |