| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| 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 |
| Chandan J Vaidya, Margaret Zhao, John E Desmond, John D E Gabriel. Evidence for cortical encoding specificity in episodic memory: memory-induced re-activation of picture processing areas. Neuropsychologia. vol 40. issue 12. 2002-11-29. PMID:12208009. |
specifically, encoding of pictures relative to words engaged bilateral extrastriate visual cortex, namely fusiform, lingual, middle occipital, and inferior temporal gyri (broadman area (ba) 18/19/37). |
2002-11-29 |
2023-08-12 |
human |
| Chandan J Vaidya, Margaret Zhao, John E Desmond, John D E Gabriel. Evidence for cortical encoding specificity in episodic memory: memory-induced re-activation of picture processing areas. Neuropsychologia. vol 40. issue 12. 2002-11-29. PMID:12208009. |
recognition memory judgments about words that were encoded as pictures relative to those that were encoded as words activated fusiform and inferior temporal gyri primarily in the left hemisphere. |
2002-11-29 |
2023-08-12 |
human |
| 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 |
| C Gerlach, C T Aaside, G W Humphreys, A Gade, O B Paulson, I La. Brain activity related to integrative processes in visual object recognition: bottom-up integration and the modulatory influence of stored knowledge. Neuropsychologia. vol 40. issue 8. 2002-09-03. PMID:11931928. |
we report evidence from a pet activation study that the inferior occipital gyri (likely to include area v2) and the posterior parts of the fusiform and inferior temporal gyri are involved in the integration of visual elements into perceptual wholes (single objects). |
2002-09-03 |
2023-08-12 |
human |
| C Gerlach, C T Aaside, G W Humphreys, A Gade, O B Paulson, I La. Brain activity related to integrative processes in visual object recognition: bottom-up integration and the modulatory influence of stored knowledge. Neuropsychologia. vol 40. issue 8. 2002-09-03. PMID:11931928. |
of these areas, the fusiform and inferior temporal gyri were more activated by tasks with recognizable stimuli than by tasks with unrecognizable stimuli. |
2002-09-03 |
2023-08-12 |
human |
| C Gerlach, C T Aaside, G W Humphreys, A Gade, O B Paulson, I La. Brain activity related to integrative processes in visual object recognition: bottom-up integration and the modulatory influence of stored knowledge. Neuropsychologia. vol 40. issue 8. 2002-09-03. PMID:11931928. |
we propose that the posterior parts of the fusiform and inferior temporal gyri, compared with the inferior occipital gyri, are involved in higher level integration, due to the involvement of re-entrant activation from stored structural knowledge. |
2002-09-03 |
2023-08-12 |
human |
| Makoto Oishi, Shigeki Kameyama, Nobuhito Morota, Masaru Tomikawa, Manabu Wachi, Akiyoshi Kakita, Hitoshi Takahashi, Ryuichi Tanak. Fusiform gyrus epilepsy: the use of ictal magnetoencephalography. Case report. Journal of neurosurgery. vol 97. issue 1. 2002-08-09. PMID:12134913. |
after confirmation of each ictal and interictal meg finding by using long-term electrocorticography recordings, focal cortical resection of the left inferior temporal and fusiform gyri was performed. |
2002-08-09 |
2023-08-12 |
Not clear |
| T T Kircher, E T Bulimore, M J Brammer, S C Williams, M R Broome, R M Murray, P K McGuir. Differential activation of temporal cortex during sentence completion in schizophrenic patients with and without formal thought disorder. Schizophrenia research. vol 50. issue 1-2. 2001-08-09. PMID:11378312. |
when generation was compared with reading, ftd patients showed less activation in the right superior temporal gyrus than patients without ftd or controls, but greater activation in the left inferior frontal, inferior temporal and fusiform gyri. |
2001-08-09 |
2023-08-12 |
human |
| I Faillenot, S Sunaert, P Van Hecke, G A Orba. Orientation discrimination of objects and gratings compared: an fMRI study. The European journal of neuroscience. vol 13. issue 3. 2001-04-26. PMID:11168567. |
they included posterior occipital, lingual, posterior fusiform, inferior temporal, dorsal intraparietal and medial parietal regions. |
2001-04-26 |
2023-08-12 |
human |
| Y Sakurai, S Takeuchi, T Takada, E Horiuchi, H Nakase, M Sakut. Alexia caused by a fusiform or posterior inferior temporal lesion. Journal of the neurological sciences. vol 178. issue 1. 2000-11-21. PMID:11018248. |
alexia caused by a fusiform or posterior inferior temporal lesion. |
2000-11-21 |
2023-08-12 |
Not clear |
| Y Sakurai, S Takeuchi, T Takada, E Horiuchi, H Nakase, M Sakut. Alexia caused by a fusiform or posterior inferior temporal lesion. Journal of the neurological sciences. vol 178. issue 1. 2000-11-21. PMID:11018248. |
patient 1 (pure alexia for both kanji and kana and minor agraphia for kanji after a fusiform lesion) made more paragraphic errors for kanji, whereas patient 2 (alexia with agraphia for kanji after a posterior inferior temporal lesion) showed severe reading and writing disturbances and more agraphic errors for kanji. |
2000-11-21 |
2023-08-12 |
Not clear |
| Y Sakurai, S Takeuchi, T Takada, E Horiuchi, H Nakase, M Sakut. Alexia caused by a fusiform or posterior inferior temporal lesion. Journal of the neurological sciences. vol 178. issue 1. 2000-11-21. PMID:11018248. |
we believe that pure alexia (patient 1) results from a disconnection between the medial fusiform gyrus and posterior inferior temporal area (the lateral fusiform and inferior temporal gyri), whereas alexia with agraphia for kanji (patient 2), corresponding to lexical agraphia in western countries, results from damage to the posterior inferior temporal area, in which whole-word images of words are thought to be stored. |
2000-11-21 |
2023-08-12 |
Not clear |
| A Convit, J de Asis, M J de Leon, C Y Tarshish, S De Santi, H Rusine. Atrophy of the medial occipitotemporal, inferior, and middle temporal gyri in non-demented elderly predict decline to Alzheimer's disease. Neurobiology of aging. vol 21. issue 1. 2000-07-07. PMID:10794844. |
by using the baseline mri we assessed the anatomical subdivisions of the temporal lobe: anteromedial temporal lobe (hippocampus and parahippocampal gyrus), medial occipitotemporal (fusiform) gyrus, middle and inferior temporal gyri, and superior temporal gyrus. |
2000-07-07 |
2023-08-12 |
Not clear |
| B R Postle, C E Stern, B R Rosen, S Corki. An fMRI investigation of cortical contributions to spatial and nonspatial visual working memory. NeuroImage. vol 11. issue 5 Pt 1. 2000-06-28. PMID:10806028. |
posterior cortical regions associated with the ventral visual processing stream (portions of lingual, fusiform, and inferior temporal gyri), however, demonstrated greater object than spatial working memory-related activity, particularly when stimuli varied only along spatial or featural dimensions. |
2000-06-28 |
2023-08-12 |
human |
| A Uecker, E M Reiman, D L Schacter, M R Polster, L A Cooper, L S Yun, K Che. Neuroanatomical correlates of implicit and explicit memory for structurally possible and impossible visual objects. Learning & memory (Cold Spring Harbor, N.Y.). vol 4. issue 4. 2000-03-21. PMID:10706371. |
as reported previously, object decisions for familiar possible objects were associated with increased cbf in the vicinity of the left inferior temporal and fusiform gyri and recognition memory for familiar possible objects was associated with increased cbf in the vicinity of the right hippocampus. |
2000-03-21 |
2023-08-12 |
Not clear |
| S Yamamoto, K Kashikur. Speed of face recognition in humans: an event-related potentials study. Neuroreport. vol 10. issue 17. 2000-01-19. PMID:10619639. |
although statistically significant differences were observed in frontal areas, these are probably related to fusiform or inferior temporal area activation that is often reported using neuro-imaging technologies such as pet or fmri. |
2000-01-19 |
2023-08-12 |
human |
| C Gerlach, I Law, A Gade, O B Paulso. Perceptual differentiation and category effects in normal object recognition: a PET study. Brain : a journal of neurology. vol 122 ( Pt 11). 1999-12-10. PMID:10545400. |
natural objects also recruited larger parts of the right inferior temporal and anterior fusiform gyri compared with artefacts as task difficulty increased. |
1999-12-10 |
2023-08-12 |
human |
| S Clarke, A Lindemann, P Maeder, F X Borruat, G Assa. Face recognition and postero-inferior hemispheric lesions. Neuropsychologia. vol 35. issue 12. 1998-03-20. PMID:9460725. |
patient 2 had a lesion of the inferior temporal and fusiform gyri anterior to the early stage visual areas. |
1998-03-20 |
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 |