| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Thomas Bengner, Susanne Siemonsen, Stefan Stodieck, Jens Fiehle. T2 relaxation time correlates of face recognition deficits in temporal lobe epilepsy. Epilepsy & behavior : E&B. vol 13. issue 4. 2009-04-08. PMID:18722550. |
higher t2 values in the right than left fusiform gyrus or hippocampus were related to worse immediate face recognition, but did not correlate with 24-hour face recognition. |
2009-04-08 |
2023-08-12 |
Not clear |
| Thomas Bengner, Susanne Siemonsen, Stefan Stodieck, Jens Fiehle. T2 relaxation time correlates of face recognition deficits in temporal lobe epilepsy. Epilepsy & behavior : E&B. vol 13. issue 4. 2009-04-08. PMID:18722550. |
these preliminary results indicate that structural changes in the fusiform gyrus and hippocampus may influence immediate face recognition deficits, but have no linear influence on long-term face recognition in tle. |
2009-04-08 |
2023-08-12 |
Not clear |
| Naotsugu Tsuchiya, Hiroto Kawasaki, Hiroyuki Oya, Matthew A Howard, Ralph Adolph. Decoding face information in time, frequency and space from direct intracranial recordings of the human brain. PloS one. vol 3. issue 12. 2009-01-23. PMID:19065268. |
a dominant theory of face perception postulates independent representations of invariant aspects of faces (e.g., identity) in ventral temporal cortex including the fusiform gyrus, and changeable aspects of faces (e.g., emotion) in lateral temporal cortex including the superior temporal sulcus. |
2009-01-23 |
2023-08-12 |
human |
| Teresa K W Wong, Peter C W Fung, Siew E Chua, Grainne M McAlona. Abnormal spatiotemporal processing of emotional facial expressions in childhood autism: dipole source analysis of event-related potentials. The European journal of neuroscience. vol 28. issue 2. 2008-10-23. PMID:18702712. |
however, dipole source analysis revealed that erp responses relating to face detection (visual cortex) and configural processing of faces (fusiform gyrus), as well as mental state decoding (medial prefrontal lobe), were significantly weaker and/or slower in autism compared with controls during both explicit and implicit emotion-processing tasks. |
2008-10-23 |
2023-08-12 |
Not clear |
| Imke A J van Kooten, Saskia J M C Palmen, Patricia von Cappeln, Harry W M Steinbusch, Hubert Korr, Helmut Heinsen, Patrick R Hof, Herman van Engeland, Christoph Schmit. Neurons in the fusiform gyrus are fewer and smaller in autism. Brain : a journal of neurology. vol 131. issue Pt 4. 2008-05-08. PMID:18332073. |
however, the fusiform gyrus (fg) and other cortical regions supporting face processing in controls are hypoactive in patients with autism. |
2008-05-08 |
2023-08-12 |
Not clear |
| Laurence Dricot, Bettina Sorger, Christine Schiltz, Rainer Goebel, Bruno Rossio. The roles of "face" and "non-face" areas during individual face perception: evidence by fMRI adaptation in a brain-damaged prosopagnosic patient. NeuroImage. vol 40. issue 1. 2008-04-23. PMID:18164628. |
a network of occipito-temporal face-sensitive areas besides the right middle fusiform gyrus is necessary for normal face processing. |
2008-04-23 |
2023-08-12 |
human |
| Cibu Thomas, Linda Moya, Galia Avidan, Kate Humphreys, Kwan Jin Jung, Mary A Peterson, Marlene Behrman. Reduction in white matter connectivity, revealed by diffusion tensor imaging, may account for age-related changes in face perception. Journal of cognitive neuroscience. vol 20. issue 2. 2008-03-18. PMID:18275334. |
to this end, we acquired diffusion tensor imaging data from 28 individuals aged 18 to 86 years and quantified the number of fibers, voxels, and fractional anisotropy of the two major tracts that pass through the fusiform gyrus, the pre-eminent face processing region in the ventral temporal cortex. |
2008-03-18 |
2023-08-12 |
Not clear |
| James P Morris, Kevin A Pelphrey, Gregory McCarth. Face processing without awareness in the right fusiform gyrus. Neuropsychologia. vol 45. issue 13. 2007-12-13. PMID:17643452. |
face processing without awareness in the right fusiform gyrus. |
2007-12-13 |
2023-08-12 |
human |
| Bettina Sorger, Rainer Goebel, Christine Schiltz, Bruno Rossio. Understanding the functional neuroanatomy of acquired prosopagnosia. NeuroImage. vol 35. issue 2. 2007-06-04. PMID:17303440. |
a network of occipito-temporal face-sensitive areas besides the right middle fusiform gyrus is necessary for normal face processing. |
2007-06-04 |
2023-08-12 |
human |
| Helen Wright, Joanna Wardlaw, Andrew W Young, Adam Zema. Prosopagnosia following nonconvulsive status epilepticus associated with a left fusiform gyrus malformation. Epilepsy & behavior : E&B. vol 9. issue 1. 2006-10-24. PMID:16777488. |
potential explanations for the patient's prosopagnosia include seizure-related damage to a left fusiform region required for fully competent face recognition and damage to the contralateral fusiform gyrus via interhemispheric connections. |
2006-10-24 |
2023-08-12 |
Not clear |
| Natalie A Lambert, Michelle A Swain, Laurie A Miller, Diana Cain. Exploring the neural organization of person-related knowledge: lateralization of lesion, category specificity, and stimulus modality effects. Neuropsychology. vol 20. issue 3. 2006-09-14. PMID:16719627. |
while it is generally agreed that the right fusiform gyrus is specialized for face recognition, the question of whether knowledge about persons is lateralized in the temporal lobes is more contentious. |
2006-09-14 |
2023-08-12 |
human |
| Sven Bölte, Daniela Hubl, Sabine Feineis-Matthews, David Prvulovic, Thomas Dierks, Fritz Poustk. Facial affect recognition training in autism: can we animate the fusiform gyrus? Behavioral neuroscience. vol 120. issue 1. 2006-06-08. PMID:16492133. |
one of the most consistent findings in the neuroscience of autism is hypoactivation of the fusiform gyrus (fg) during face processing. |
2006-06-08 |
2023-08-12 |
human |
| Toshiaki Onitsuka, Margaret A Niznikiewicz, Kevin M Spencer, Melissa Frumin, Noriomi Kuroki, Lisa C Lucia, Martha E Shenton, Robert W McCarle. Functional and structural deficits in brain regions subserving face perception in schizophrenia. The American journal of psychiatry. vol 163. issue 3. 2006-04-25. PMID:16513867. |
the main aim of this study was to determine whether patients with schizophrenia show less activation in neural networks related to face processing, compared with healthy subjects, and to investigate the relationships between this functional abnormality and anatomical abnormalities in the fusiform gyrus shown with magnetic resonance imaging (mri). |
2006-04-25 |
2023-08-12 |
human |
| Andrea R Kilgour, Ryo Kitada, Philip Servos, Thomas W James, Susan J Lederma. Haptic face identification activates ventral occipital and temporal areas: an fMRI study. Brain and cognition. vol 59. issue 3. 2006-02-14. PMID:16157435. |
many studies in visual face recognition have supported a special role for the right fusiform gyrus. |
2006-02-14 |
2023-08-12 |
human |
| Martin J Herrmann, Ann-Christine Ehlis, Andreas Muehlberger, Andreas J Fallgatte. Source localization of early stages of face processing. Brain topography. vol 18. issue 2. 2006-02-08. PMID:16341576. |
while the neural sources of the n 170 component have repeatedly been found to be localized in the gyrus fusiformis and the inferior occipital cortex, sources have not yet been investigated for the p100 component during face processing. |
2006-02-08 |
2023-08-12 |
human |
| Martin J Herrmann, Ann-Christine Ehlis, Andreas Muehlberger, Andreas J Fallgatte. Source localization of early stages of face processing. Brain topography. vol 18. issue 2. 2006-02-08. PMID:16341576. |
this study reveals that the first step of face processing (about 100 ms after stimulus presentation) is localized in the gyrus fusiformis. |
2006-02-08 |
2023-08-12 |
human |
| Martin J Herrmann, Ann-Christine Ehlis, Andreas Muehlberger, Andreas J Fallgatte. Source localization of early stages of face processing. Brain topography. vol 18. issue 2. 2006-02-08. PMID:16341576. |
the second step of face processing around 170 ms involves the gyrus fusiformis, with additional activation in a more distributed network, including the occipital cortex. |
2006-02-08 |
2023-08-12 |
human |
| Jean-Philippe Lachaux, Nathalie George, Catherine Tallon-Baudry, Jacques Martinerie, Laurent Hugueville, Lorella Minotti, Philippe Kahane, Bernard Renaul. The many faces of the gamma band response to complex visual stimuli. NeuroImage. vol 25. issue 2. 2005-12-22. PMID:15784428. |
we recorded depth eeg of epileptic patients performing a face detection task and found that the stimuli induced strong modulations in the gamma band (40 hz to 200 hz) in selective occipital, parietal and temporal sites, in particular the fusiform gyrus, the lateral occipital gyrus and the intra-parietal sulcus. |
2005-12-22 |
2023-08-12 |
Not clear |
| Steven M Platek, Julian Paul Keenan, Feroze B Mohame. Sex differences in the neural correlates of child facial resemblance: an event-related fMRI study. NeuroImage. vol 25. issue 4. 2005-07-11. PMID:15850750. |
we found a consistent activation in the fusiform gyrus across all face conditions, which is consistent with previous research on face processing. |
2005-07-11 |
2023-08-12 |
human |
| E H Aylward, J E Park, K M Field, A C Parsons, T L Richards, S C Cramer, A N Meltzof. Brain activation during face perception: evidence of a developmental change. Journal of cognitive neuroscience. vol 17. issue 2. 2005-05-27. PMID:15811242. |
the purpose of this study was to determine whether activation of the fusiform gyrus, which is involved in face processing in adults, is greater during face processing in older children (12-14 years) than in younger children (8-10 years). |
2005-05-27 |
2023-08-12 |
Not clear |