| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Ozlem Korucuoglu, Michael P Harms, Serguei V Astafiev, James T Kennedy, Semyon Golosheykin, Deanna M Barch, Andrey P Anokhi. Test-retest reliability of fMRI-measured brain activity during decision making under risk. NeuroImage. vol 214. 2021-02-15. PMID:32205253. |
among the regions with highest reliabilities, the right fusiform, right rostral anterior cingulate and left superior parietal regions also showed high familiality as indicated by intrapair monozygotic twin correlations (ranging from 0.66 to 0.69). |
2021-02-15 |
2023-08-13 |
human |
| Frank E Garcea, Laurel J Buxbau. Gesturing tool use and tool transport actions modulates inferior parietal functional connectivity with the dorsal and ventral object processing pathways. Human brain mapping. vol 40. issue 10. 2020-03-30. PMID:30900321. |
we found that functional connectivity between the left smg, ventral temporal cortex (bilateral fusiform gyri), and dorsal visual pathway (left superior parietal lobule/posterior intraparietal sulcus) was maximal for tool transport planning and gesturing, whereas functional connectivity between the left smg, left ventral anterior temporal lobe, and left frontal operculum was maximal for tool use planning and gesturing. |
2020-03-30 |
2023-08-13 |
human |
| Spiro P Pantazato. Prediction of individual season of birth using MRI. NeuroImage. vol 88. 2018-01-19. PMID:24246490. |
discriminating regions included fusiform and middle temporal gyrus, inferior and superior parietal lobe, cerebellum, and dorsolateral and dorsomedial prefrontal cortex. |
2018-01-19 |
2023-08-12 |
human |
| Louise Kauffmann, Jessica Bourgin, Nathalie Guyader, Carole Peyri. The Neural Bases of the Semantic Interference of Spatial Frequency-based Information in Scenes. Journal of cognitive neuroscience. vol 27. issue 12. 2016-08-03. PMID:26244724. |
fmri results revealed that this semantic interference effect was associated with increased activation in the inferior frontal gyrus, the superior parietal lobules, and the fusiform and parahippocampal gyri. |
2016-08-03 |
2023-08-13 |
human |
| b' Ra\\xc5\\x9fit T\\xc3\\xbckel, Kubilay Ayd\\xc4\\xb1n, \\xc3\\x87a\\xc4\\x9fr\\xc4\\xb1 Y\\xc3\\xbcksel, Erhan Ertekin, Ahmet Koyuncu, Cumhur Ta\\xc5\\x9. Gray matter abnormalities in patients with social anxiety disorder: A voxel-based morphometry study. Psychiatry research. vol 234. issue 1. 2016-06-27. PMID:26371455.' |
we found that gmv in the right middle and inferior temporal, left superior parietal, left precuneus and right fusiform areas were significantly greater in patients with sad than in healthy controls. |
2016-06-27 |
2023-08-13 |
human |
| Igor Nenadic, Rachel A Yotter, Heinrich Sauer, Christian Gase. Cortical surface complexity in frontal and temporal areas varies across subgroups of schizophrenia. Human brain mapping. vol 35. issue 4. 2014-11-25. PMID:23813686. |
the paranoid subgroup showed only few changes, including decreases in the right superior parietal and left fusiform region, and increase in the left posterior cingulate cortex. |
2014-11-25 |
2023-08-12 |
Not clear |
| E Mellet, N Tzourio, M Denis, B Mazoye. A positron emission tomography study of visual and mental spatial exploration. Journal of cognitive neuroscience. vol 7. issue 4. 2013-08-22. PMID:23961903. |
during visual exploration, we found bilateral activations of primary visual areas, superior and inferior occipital gyri, fusiform and lingual gyri, cuneus and precuneus, bilateral superior parietal, and angular gyri. |
2013-08-22 |
2023-08-12 |
human |
| Anders M Fjell, Lars T Westlye, Inge Amlien, Thomas Espeseth, Ivar Reinvang, Naftali Raz, Ingrid Agartz, David H Salat, Doug N Greve, Bruce Fischl, Anders M Dale, Kristine B Walhov. High consistency of regional cortical thinning in aging across multiple samples. Cerebral cortex (New York, N.Y. : 1991). vol 19. issue 9. 2009-10-21. PMID:19150922. |
the results showed consistent age effects across samples in the superior, middle, and inferior frontal gyri, superior and middle temporal gyri, precuneus, inferior and superior parietal cortices, fusiform and lingual gyri, and the temporo-parietal junction. |
2009-10-21 |
2023-08-12 |
human |
| Amra Hodzic, Lars Muckli, Wolf Singer, Aglaja Stir. Cortical responses to self and others. Human brain mapping. vol 30. issue 3. 2009-04-30. PMID:18381769. |
the latter appears to be accomplished by a network in right hemisphere comprising the fusiform body area, regions of the superior parietal lobe, the inferior parietal cortex, and the middle frontal gyrus. |
2009-04-30 |
2023-08-12 |
human |
| Donna M Lloyd, C India Morriso. 'Eavesdropping' on social interactions biases threat perception in visuospatial pathways. Neuropsychologia. vol 46. issue 1. 2008-05-02. PMID:17897686. |
visuospatial areas, specifically temporal-occipital junction, extrastriate, and fusiform cortices and right superior parietal lobe (ba7), responded when a threatening person was close to the personal space of another. |
2008-05-02 |
2023-08-12 |
human |
| Lee Ryan, David Schnye. Regional specificity of format-specific priming effects in mirror word reading using functional magnetic resonance imaging. Cerebral cortex (New York, N.Y. : 1991). vol 17. issue 4. 2007-04-24. PMID:16754652. |
importantly, reductions in several posterior regions, including fusiform, superior parietal, and superior temporal regions were also format specific. |
2007-04-24 |
2023-08-12 |
human |
| Angela Deutschländer, Sandra Bense, Thomas Stephan, Markus Schwaiger, Marianne Dieterich, Thomas Brand. Rollvection versus linearvection: comparison of brain activations in PET. Human brain mapping. vol 21. issue 3. 2004-04-15. PMID:14755834. |
linearvection and rollvection led to bilateral activations of visual areas including medial parieto-occipital (po), occipito-temporal (mt/v5), and ventral occipital (fusiform gyri) cortical areas, as well as superior parietal sites. |
2004-04-15 |
2023-08-12 |
human |
| Shimin Fu, Yiping Chen, Stephen Smith, Susan Iversen, P M Matthew. Effects of word form on brain processing of written Chinese. NeuroImage. vol 17. issue 3. 2003-02-13. PMID:12414292. |
rate effects for pinyin reading were observed in bilateral fusiform, lingual, and middle occipital gyri, bilateral superior parietal lobule/precuneus, left inferior parietal lobule, bilateral inferior temporal gyrus, left middle temporal gyrus, and left superior temporal gyrus. |
2003-02-13 |
2023-08-12 |
human |
| W Koutstaal, A D Wagner, M Rotte, A Maril, R L Buckner, D L Schacte. Perceptual specificity in visual object priming: functional magnetic resonance imaging evidence for a laterality difference in fusiform cortex. Neuropsychologia. vol 39. issue 2. 2001-04-19. PMID:11163375. |
greater repetition-induced reductions were observed for same than for different exemplars in several of these regions (bilateral posterior inferior frontal, right precuneus, bilateral middle occipital, bilateral fusiform, bilateral parahippocampal and bilateral superior parietal). |
2001-04-19 |
2023-08-12 |
human |
| T C Rickard, S G Romero, G Basso, C Wharton, S Flitman, J Grafma. The calculating brain: an fMRI study. Neuropsychologia. vol 38. issue 3. 2000-03-08. PMID:10678698. |
for the arithmetic relative to the other tasks, results for all eight subjects revealed bilateral activation in brodmann's area 44, in dorsolateral prefrontal cortex (areas 9 and 10), in inferior and superior parietal areas, and in lingual and fusiform gyri. |
2000-03-08 |
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 |
| N Raz, F M Gunning, D Head, J H Dupuis, J McQuain, S D Briggs, W J Loken, A E Thornton, J D Acke. Selective aging of the human cerebral cortex observed in vivo: differential vulnerability of the prefrontal gray matter. Cerebral cortex (New York, N.Y. : 1991). vol 7. issue 3. 1997-06-04. PMID:9143446. |
smaller age-related differences were observed in the volume of the fusiform, inferior temporal and superior parietal cortices. |
1997-06-04 |
2023-08-12 |
human |
| N Raz, F M Gunning, D Head, J H Dupuis, J McQuain, S D Briggs, W J Loken, A E Thornton, J D Acke. Selective aging of the human cerebral cortex observed in vivo: differential vulnerability of the prefrontal gray matter. Cerebral cortex (New York, N.Y. : 1991). vol 7. issue 3. 1997-06-04. PMID:9143446. |
small but consistent rightward asymmetry was found in the whole cerebral hemispheres, superior parietal, fusiform and orbito-frontal cortices, postcentral and prefrontal white matter. |
1997-06-04 |
2023-08-12 |
human |
| P E Roland, B Gulyá. Visual memory, visual imagery, and visual recognition of large field patterns by the human brain: functional anatomy by positron emission tomography. Cerebral cortex (New York, N.Y. : 1991). vol 5. issue 1. 1995-05-24. PMID:7719132. |
perception and learning of the patterns increased rcbf in v1 and 17 cortical fields located in the cuneus, the lingual, fusiform, inferior temporal, occipital, and angular gyri, the precuneus, and the posterior part of superior parietal lobules. |
1995-05-24 |
2023-08-12 |
human |