| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Marco Zanon, Pierpaolo Busan, Fabrizio Monti, Gilberto Pizzolato, Piero Paolo Battaglin. Cortical connections between dorsal and ventral visual streams in humans: Evidence by TMS/EEG co-registration. Brain topography. vol 22. issue 4. 2010-02-22. PMID:19499197. |
moreover, activation in the ipsi-lateral middle temporal and fusiform gyri was observed at 171-177 ms after delivery of tms. |
2010-02-22 |
2023-08-12 |
human |
| Christian Windischberger, Rupert Lanzenberger, Alexander Holik, Christoph Spindelegger, Patrycja Stein, Ulrike Moser, Florian Gerstl, Martin Fink, Ewald Moser, Siegfried Kaspe. Area-specific modulation of neural activation comparing escitalopram and citalopram revealed by pharmaco-fMRI: a randomized cross-over study. NeuroImage. vol 49. issue 2. 2010-02-12. PMID:19833214. |
significant pharmacological effects on bold-signal were found in the amygdala, medial frontal gyrus, parahippocampal, fusiform and middle temporal gyri. |
2010-02-12 |
2023-08-12 |
human |
| Markus J Hofmann, Lars Kuchinke, Sascha Tamm, Melissa L-H Võ, Arthur M Jacob. Affective processing within 1/10th of a second: High arousal is necessary for early facilitative processing of negative but not positive words. Cognitive, affective & behavioral neuroscience. vol 9. issue 4. 2009-12-15. PMID:19897792. |
source localization in the relevant time frame revealed that the arousal effect in negative words is likely to be localized in a left occipito-temporal region including the middle temporal and fusiform gyri. |
2009-12-15 |
2023-08-12 |
Not clear |
| 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 |
| S M Brambati, J Ogar, J Neuhaus, B L Miller, M L Gorno-Tempin. Reading disorders in primary progressive aphasia: a behavioral and neuroimaging study. Neuropsychologia. vol 47. issue 8-9. 2009-08-10. PMID:19428421. |
neuroimaging results showed that exception word reading accuracy correlated with gray matter volume in the left anterior temporal structures, including the temporal pole, the anterior superior and middle temporal and fusiform gyri, while pseudo-word reading accuracy correlated with left temporoparietal regions, including the posterior superior and middle temporal and fusiform gyri, and the inferior parietal lobule. |
2009-08-10 |
2023-08-12 |
Not clear |
| Byung Hwa Lee, Mee Kyung Suh, Eun-Joo Kim, Sang Won Seo, Kyung Mook Choi, Gyeong-Moon Kim, Chin-Sang Chung, Kenneth M Heilman, Duk L N. Neglect dyslexia: frequency, association with other hemispatial neglects, and lesion localization. Neuropsychologia. vol 47. issue 3. 2009-05-01. PMID:19100754. |
patients with cn had lesions in the superior and middle temporal gyri, inferior parietal lobule, and posterior insular cortex; patients with nd had additional lesions in the lingual and fusiform gyri. |
2009-05-01 |
2023-08-12 |
human |
| David H Salat, Douglas N Greve, Jennifer L Pacheco, Brian T Quinn, Karl G Helmer, Randy L Buckner, Bruce Fisch. Regional white matter volume differences in nondemented aging and Alzheimer's disease. NeuroImage. vol 44. issue 4. 2009-03-26. PMID:19027860. |
the majority of measured regions showed a decline in volume with increasing age, with strong effects found in bilateral fusiform, lateral orbitofrontal, superior frontal, medial orbital frontal, inferior temporal, and middle temporal wm. |
2009-03-26 |
2023-08-12 |
human |
| Pegah Sarkheil, Quoc C Vuong, Heinrich H Bülthoff, Uta Noppene. The integration of higher order form and motion by the human brain. NeuroImage. vol 42. issue 4. 2008-12-29. PMID:18691907. |
in contrast, bilateral anterior fusiform and posterior middle temporal regions (overlapping with hmt+/v5) regions showed an adaptation effect that depended on both form and motion direction. |
2008-12-29 |
2023-08-12 |
human |
| Pegah Sarkheil, Quoc C Vuong, Heinrich H Bülthoff, Uta Noppene. The integration of higher order form and motion by the human brain. NeuroImage. vol 42. issue 4. 2008-12-29. PMID:18691907. |
thus, the current results reveal a visual processing hierarchy with lateral occipito-temporal cortex representing an object's 3d structure, and anterior fusiform and posterior middle temporal regions being involved in spatio-temporal integration of form and motion during dynamic object processing. |
2008-12-29 |
2023-08-12 |
human |
| Iris Asllani, Christian Habeck, Nikolaos Scarmeas, Ajna Borogovac, Truman R Brown, Yaakov Ster. Multivariate and univariate analysis of continuous arterial spin labeling perfusion MRI in Alzheimer's disease. Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism. vol 28. issue 4. 2008-06-03. PMID:17960142. |
these areas were superior temporal, cingulate, middle temporal, fusiform gyri, as well as inferior parietal lobule and precuneus. |
2008-06-03 |
2023-08-12 |
Not clear |
| Vincent J Schmithorst, Scott K Holland, Elena Plant. Object identification and lexical/semantic access in children: a functional magnetic resonance imaging study of word-picture matching. Human brain mapping. vol 28. issue 10. 2007-12-14. PMID:17133401. |
using group independent component analysis (ica), six task-related components were detected, including (a) the posterior superior temporal gyrus bilaterally; (b) the fusiform, inferior temporal, and middle occipital gyri bilaterally; (c) the dorsal aspect of the inferior frontal gyrus bilaterally, the left precuneus, the left superior/middle temporal gyrus, and the anterior cingulate; (d) the right medial fusiform gyrus; (e) a left-lateralized component including the inferior/middle frontal, middle temporal, medial frontal, and angular gyri, as well as the thalamus and the posterior cingulate; and (f) the ventral/anterior aspect of the inferior frontal gyrus bilaterally. |
2007-12-14 |
2023-08-12 |
Not clear |
| John L Woodard, Michael Seidenberg, Kristy A Nielson, Sarah K Miller, Malgorzata Franczak, Piero Antuono, Kelli L Douville, Stephen M Ra. Temporally graded activation of neocortical regions in response to memories of different ages. Journal of cognitive neuroscience. vol 19. issue 7. 2007-08-31. PMID:17583988. |
using functional magnetic resonance imaging, we demonstrate robust, temporally graded signal differences in posterior cingulate, right middle frontal, right fusiform, and left middle temporal regions in healthy older adults during famous name identification from two disparate time epochs. |
2007-08-31 |
2023-08-12 |
Not clear |
| Ann Assmus, Carsten Giessing, Peter H Weiss, Gereon R Fin. Functional interactions during the retrieval of conceptual action knowledge: an fMRI study. Journal of cognitive neuroscience. vol 19. issue 6. 2007-08-15. PMID:17536970. |
an analysis of psychophysiological interactions identified contribution-dependent changes in the neural responses when pictograms triggered the retrieval of conceptual action knowledge: processing of action pictograms specifically enhanced the neural interaction between the right and left fusiform gyri, the right and left middle temporal cortices (mt+), and the left superior and inferior parietal cortex. |
2007-08-15 |
2023-08-12 |
human |
| F Zerrin Yetkin, Roger N Rosenberg, Myron F Weiner, Phillip D Purdy, C Munro Cullu. FMRI of working memory in patients with mild cognitive impairment and probable Alzheimer's disease. European radiology. vol 16. issue 1. 2006-06-08. PMID:16402259. |
mci and ad groups showed more activation than the controls in the right superior frontal gyrus, bilateral middle temporal, middle frontal, anterior cingulate, and fusiform gyri. |
2006-06-08 |
2023-08-12 |
human |
| Patrick J Johnston, Wendy Stojanov, Holly Devir, Ulrich Schal. Functional MRI of facial emotion recognition deficits in schizophrenia and their electrophysiological correlates. The European journal of neuroscience. vol 22. issue 5. 2006-01-10. PMID:16176365. |
patients showed reduced blood oxygenation level-dependent (bold) activation in the fusiform, inferior frontal, middle temporal and middle occipital gyrus as well as in the amygdala. |
2006-01-10 |
2023-08-12 |
human |
| Gilles Pourtois, Sophie Schwartz, Mohamed L Seghier, François Lazeyras, Patrik Vuilleumie. View-independent coding of face identity in frontal and temporal cortices is modulated by familiarity: an event-related fMRI study. NeuroImage. vol 24. issue 4. 2005-04-19. PMID:15670699. |
repetition of different but easily recognizable views of an unfamiliar face produced selective repetition decreases in a medial portion of the right fusiform gyrus, whereas distinct views of a famous face produced repetition decreases in left middle temporal and left inferior frontal cortex selectively, but no decreases in fusiform cortex. |
2005-04-19 |
2023-08-12 |
Not clear |
| 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 |
| Wataru Sato, Takanori Kochiyama, Sakiko Yoshikawa, Eiichi Naito, Michikazu Matsumur. Enhanced neural activity in response to dynamic facial expressions of emotion: an fMRI study. Brain research. Cognitive brain research. vol 20. issue 1. 2004-07-26. PMID:15130592. |
the broad region of the occipital and temporal cortices, especially in the right hemisphere, which included the activation foci of the inferior occipital gyri, middle temporal gyri, and fusiform gyri, showed higher activation during viewing of the dynamic facial expressions than it did during the viewing of either control stimulus, common to both expressions. |
2004-07-26 |
2023-08-12 |
human |
| Stephanie Clarke, Anne Bellmann Thiran, Philippe Maeder, Michela Adriani, Olivier Vernet, Luca Regli, Olivier Cuisenaire, Jean-Philippe Thira. What and where in human audition: selective deficits following focal hemispheric lesions. Experimental brain research. vol 147. issue 1. 2003-04-01. PMID:12373363. |
the lesions involved the inferior parietal and frontal cortices, and the superior temporal gyrus in patients with selective sound localization deficit; and the temporal pole and anterior part of the fusiform, inferior and middle temporal gyri in patients with selective recognition deficit. |
2003-04-01 |
2023-08-12 |
human |
| H Burton, A Z Snyder, J B Diamond, M E Raichl. Adaptive changes in early and late blind: a FMRI study of verb generation to heard nouns. Journal of neurophysiology. vol 88. issue 6. 2003-02-25. PMID:12466452. |
this includes striate cortex (v1), i.e., banks of calcarine sulcus, and several higher visual areas in lingual, fusiform, cuneus, lateral occipital, inferior temporal, and middle temporal gyri. |
2003-02-25 |
2023-08-12 |
human |