| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Heather L Kosakowski, Michael A Cohen, Lyneé Herrera, Isabel Nichoson, Nancy Kanwisher, Rebecca Sax. Cortical Face-Selective Responses Emerge Early in Human Infancy. eNeuro. 2024-06-13. PMID:38871455. |
in human adults, multiple cortical regions respond robustly to faces, including the occipital face area (ofa) and fusiform face area (ffa), implicated in face perception, and the superior temporal sulcus (sts) and medial prefrontal cortex (mpfc), implicated in higher level social functions. |
2024-06-13 |
2024-06-16 |
human |
| Madeline H Garvey, Tiffany Nash, J Shane Kippenhan, Philip Kohn, Carolyn B Mervis, Daniel P Eisenberg, Jean Ye, Michael D Gregory, Karen F Berma. Contrasting neurofunctional correlates of face- and visuospatial-processing in children and adolescents with Williams syndrome: convergent results from four fMRI paradigms. Scientific reports. vol 14. issue 1. 2024-05-05. PMID:38705917. |
in contrast, during both face processing tasks, but not during the visuospatial tasks, we found fusiform hyperactivation. |
2024-05-05 |
2024-05-08 |
Not clear |
| Annika Garlichs, Helen Blan. Prediction error processing and sharpening of expected information across the face-processing hierarchy. Nature communications. vol 15. issue 1. 2024-04-22. PMID:38649694. |
multivariate analyses uncovered evidence for pe processing across and beyond the face-processing hierarchy from the occipital face area (ofa), via the fusiform face area, to the anterior temporal lobe, and suggest sharpened representations in the ofa. |
2024-04-22 |
2024-04-26 |
human |
| Silvia Gobbo, Carlotta Lega, Angelica De Sandi, Roberta Dain. The role of preSMA and STS in face recognition: A transcranial magnetic stimulation (TMS) study. Neuropsychologia. 2024-03-30. PMID:38555065. |
current models propose that facial recognition is mediated by two independent yet interacting anatomo-functional systems: one processing facial features mainly mediated by the fusiform face area and the other involved in the extraction of dynamic information from faces, subserved by superior temporal sulcus (sts). |
2024-03-30 |
2024-04-02 |
human |
| Zhiyan Wang, Qingleng Tan, Sebastian M Frank, Yuka Sasaki, David Sheinberg, Katharine A Phillips, Takeo Watanab. Learning of the same task subserved by substantially different mechanisms between patients with Body Dysmorphic Disorder and healthy individuals. bioRxiv : the preprint server for biology. 2024-01-08. PMID:38187719. |
despite this similarity in behavioral improvement, neuronal changes in the fusiform face area (ffa), a core cortical region involved in face processing, with training were substantially different between groups. |
2024-01-08 |
2024-01-10 |
human |
| Siew Kei Kho, David R T Keeble, Hoo Keat Wong, Alejandro J Estudill. Investigating the role of the fusiform face area and occipital face area using multifocal transcranial direct current stimulation. Neuropsychologia. 2023-08-23. PMID:37611740. |
the functional role of the occipital face area (ofa) and the fusiform face area (ffa) in face recognition is inconclusive to date. |
2023-08-23 |
2023-09-07 |
human |
| Belinda Pletzer, Isabel Noachtar, Esmeralda Hidalgo-Lope. Hormonal contraception & face processing: Examining face gender, androgenicity & treatment duration. Psychoneuroendocrinology. vol 154. 2023-05-21. PMID:37210755. |
previous cross-sectional studies observed differences between users and non-users of combined oral contraceptives (cocs) in both the structure and function of the fusiform face area (ffa) related to face processing. |
2023-05-21 |
2023-08-14 |
human |
| Xiayu Chen, Xingyu Liu, Benjamin J Parker, Zonglei Zhen, Kevin S Weine. Functionally and structurally distinct fusiform face area(s) in over 1000 participants. NeuroImage. 2022-11-25. PMID:36427753. |
the fusiform face area (ffa) is a widely studied region causally involved in face perception. |
2022-11-25 |
2023-08-14 |
human |
| Kensaku Miki, Yasuyuki Takeshima, Shoko Watanabe, Ryusuke Kakig. Human Face Perception Using Electroencephalography and Magnetoencephalography. Frontiers in physiology. vol 13. 2022-04-18. PMID:35431988. |
in this review, we introduce our previous eeg and meg studies of human face perception that demonstrated the following characteristics of face perception processing: (1) event-related components in the temporal area related to the activity in the inferior temporal (it) area, corresponding to the fusiform face area (ffa), are evoked approximately 180 msec after the presentation of a face. |
2022-04-18 |
2023-08-13 |
human |
| Adeline Lacroix, Sylvain Harquel, Martial Mermillod, Laurent Vercueil, David Alleysson, Frédéric Dutheil, Klara Kovarski, Marie Gomo. The Predictive Role of Low Spatial Frequencies in Automatic Face Processing: A Visual Mismatch Negativity Investigation. Frontiers in human neuroscience. vol 16. 2022-04-01. PMID:35360280. |
overall, our findings suggest a predictive role of lsf during automatic face processing and a critical involvement of hsf in the fusiform during the conscious detection of changes in faces. |
2022-04-01 |
2023-08-13 |
Not clear |
| Irene Sophia Plank, Catherine Hindi Attar, Stefanie Lydia Kunas, Felix Bermpohl, Isabel Dziobe. Increased child-evoked activation in the precuneus during facial affect recognition in mothers. Human brain mapping. 2022-03-12. PMID:35278010. |
increased activation to child compared to adult faces was found for mothers and non-mothers in face processing areas (bilateral fusiform gyri) and areas associated with social understanding (bilateral insulae and medial superior frontal gyrus) when pooling implicit and explicit affect recognition. |
2022-03-12 |
2023-08-13 |
Not clear |
| Rui Dai, Zirui Huang, Xuchu Weng, Sheng H. Early visual exposure primes future cross-modal specialization of the fusiform face area in tactile face processing in the blind. NeuroImage. 2022-03-09. PMID:35263666. |
early visual exposure primes future cross-modal specialization of the fusiform face area in tactile face processing in the blind. |
2022-03-09 |
2023-08-13 |
human |
| Elie Rassi, Andreas Wutz, Nicholas Peatfield, Nathan Wies. Efficient Prestimulus Network Integration of Fusiform Face Area Biases Face Perception during Binocular Rivalry. Journal of cognitive neuroscience. 2022-03-08. PMID:35258573. |
efficient prestimulus network integration of fusiform face area biases face perception during binocular rivalry. |
2022-03-08 |
2023-08-13 |
human |
| Jiedong Zhang, Yong Jiang, Yunjie Song, Peng Zhang, Sheng H. Spatial tuning of face part representations within face-selective areas revealed by high-field fMRI. eLife. vol 10. 2021-12-29. PMID:34964711. |
our results demonstrate that within the occipital and fusiform face processing regions, there exist systematic spatial tuning to different face parts that support further computation combining them. |
2021-12-29 |
2023-08-13 |
Not clear |
| Alexa Haeger, Christophe Pouzat, Volker Luecken, Karim N'Diaye, Christian Elger, Ingo Kennerknecht, Nikolai Axmacher, Vera Dinkelacke. Face Processing in Developmental Prosopagnosia: Altered Neural Representations in the Fusiform Face Area. Frontiers in behavioral neuroscience. vol 15. 2021-12-07. PMID:34867227. |
face processing in developmental prosopagnosia: altered neural representations in the fusiform face area. |
2021-12-07 |
2023-08-13 |
Not clear |
| F Sella. Anatomical and neurophysiological basis of face recognition. Revue neurologique. 2021-12-05. PMID:34863530. |
a main pathway links the occipital cortex, where an occipital face area (ofa) has been identified, to a fusiform face area (ffa) in the fusiform gyrus, which plays a critical role in face recognition. |
2021-12-05 |
2023-08-13 |
human |
| Rankin W McGugin, Allen T Newton, Benjamin Tamber-Rosenau, Andrew Tomarken, Isabel Gauthie. Thickness of Deep Layers in the Fusiform Face Area Predicts Face Recognition. Journal of cognitive neuroscience. vol 32. issue 7. 2021-10-28. PMID:32083519. |
thickness of deep layers in the fusiform face area predicts face recognition. |
2021-10-28 |
2023-08-13 |
Not clear |
| M Babo-Rebelo, A Puce, D Bullock, L Hugueville, F Pestilli, C Adam, K Lehongre, V Lambrecq, V Dinkelacker, N Georg. Visual Information Routes in the Posterior Dorsal and Ventral Face Network Studied with Intracranial Neurophysiology and White Matter Tract Endpoints. Cerebral cortex (New York, N.Y. : 1991). 2021-08-02. PMID:34339495. |
n200 field potential peak latencies indicated that face processing begins in inferior occipital cortex and proceeds anteroventrally to fusiform and inferior temporal cortices, in parallel. |
2021-08-02 |
2023-08-13 |
Not clear |
| Naomi Takamiya, Toshihiko Maekawa, Takao Yamasaki, Katsuya Ogata, Emi Yamada, Mutsuhide Tanaka, Shozo Tobimats. Different hemispheric specialization for face/word recognition: A high-density ERP study with hemifield visual stimulation. Brain and behavior. vol 10. issue 6. 2021-06-21. PMID:32367678. |
the right fusiform face area (ffa) is important for face recognition, whereas the left visual word fusiform area (vwfa) is critical for word processing. |
2021-06-21 |
2023-08-13 |
Not clear |
| Golijeh Golarai, Dara G Ghahremani, Anders C Greenwood, John D E Gabrieli, Jennifer L Eberhard. The development of race effects in face processing from childhood through adulthood: Neural and behavioral evidence. Developmental science. vol 24. issue 3. 2021-06-07. PMID:33151616. |
in adults, this race effect in face recognition is associated with differential neural representations of own- and other-race faces in the fusiform face area (ffa), a high-level visual region involved in face recognition. |
2021-06-07 |
2023-08-13 |
Not clear |