| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Marlene Behrmann, David C Plau. Bilateral hemispheric processing of words and faces: evidence from word impairments in prosopagnosia and face impairments in pure alexia. Cerebral cortex (New York, N.Y. : 1991). vol 24. issue 4. 2014-10-29. PMID:23250954. |
on this view, right hemisphere ventral lesions that impair face recognition (prosopagnosia) should leave word recognition unaffected, and left hemisphere ventral lesions that impair word recognition (pure alexia) should leave face recognition unaffected. |
2014-10-29 |
2023-08-12 |
Not clear |
| Hélène Samson, Nicole Fiori-Duharcourt, Karine Doré-Mazars, Christelle Lemoine, Dorine Vergilino-Pere. Perceptual and gaze biases during face processing: related or not? PloS one. vol 9. issue 1. 2014-09-21. PMID:24454927. |
such a bias is consistent with the right hemisphere dominance for face processing and has sometimes been linked to a left gaze bias, i.e. |
2014-09-21 |
2023-08-12 |
human |
| Ido Tavor, Maya Yablonski, Aviv Mezer, Shirley Rom, Yaniv Assaf, Galit Yove. Separate parts of occipito-temporal white matter fibers are associated with recognition of faces and places. NeuroImage. vol 86. 2014-09-03. PMID:23933304. |
in particular, face recognition was highly associated with the fractional anisotropy (fa) of the anterior part of the ilf in the right hemisphere. |
2014-09-03 |
2023-08-12 |
human |
| Steven A Chanc. The cortical microstructural basis of lateralized cognition: a review. Frontiers in psychology. vol 5. 2014-08-15. PMID:25126082. |
face processing provides a test case - it is the opposite of language, being dominant in the right hemisphere. |
2014-08-15 |
2023-08-13 |
human |
| Henryk Bukowski, Laurence Dricot, Bernard Hanseeuw, Bruno Rossio. Cerebral lateralization of face-sensitive areas in left-handers: only the FFA does not get it right. Cortex; a journal devoted to the study of the nervous system and behavior. vol 49. issue 9. 2014-06-18. PMID:23906596. |
face perception is highly lateralized to the right hemisphere (rh) in humans, as supported originally by observations of face recognition impairment (prosopagnosia) following brain damage. |
2014-06-18 |
2023-08-12 |
human |
| Steven A Chance, Eva K Sawyer, Linda M Clover, Bridget Wicinski, Patrick R Hof, Timothy J Cro. Hemispheric asymmetry in the fusiform gyrus distinguishes Homo sapiens from chimpanzees. Brain structure & function. vol 218. issue 6. 2014-05-30. PMID:23108793. |
while the neural basis for linguistic communication has been linked to brain structural asymmetries found only in humans (wider connective spacing is found between the minicolumns of neurons in the left hemisphere language areas), it is unknown if the opposite microanatomical asymmetry exists in the fusiform gyrus which typically supports a right hemisphere bias for face processing. |
2014-05-30 |
2023-08-12 |
human |
| Steven A Chance, Eva K Sawyer, Linda M Clover, Bridget Wicinski, Patrick R Hof, Timothy J Cro. Hemispheric asymmetry in the fusiform gyrus distinguishes Homo sapiens from chimpanzees. Brain structure & function. vol 218. issue 6. 2014-05-30. PMID:23108793. |
uniformly narrow minicolumns in chimpanzees and in the human right hemisphere are consistent with mechanistic predictions supporting the apparent bias towards holistic face processing. |
2014-05-30 |
2023-08-12 |
human |
| Abbie L Coy, Samuel B Hutto. Lateral asymmetry in saccadic eye movements during face processing: the role of individual differences in schizotypy. Cognitive neuroscience. vol 4. issue 2. 2014-05-05. PMID:24073732. |
healthy individuals with high as compared to low levels of schizotypal personality traits make more first saccades to the left side of faces, suggesting increased right hemisphere (rh) dominance for face processing. |
2014-05-05 |
2023-08-12 |
Not clear |
| Dahlia W Zaide. Split-brain, the right hemisphere, and art: fact and fiction. Progress in brain research. vol 204. 2014-04-07. PMID:24041316. |
right hemisphere specialization for visuospatial functions and facial processing was confirmed with these patients. |
2014-04-07 |
2023-08-12 |
Not clear |
| Hannes O Tiedt, Joachim E Weber, Alfred Pauls, Klaus M Beier, Andreas Luescho. Sex-differences of face coding: evidence from larger right hemispheric M170 in men and dipole source modelling. PloS one. vol 8. issue 7. 2014-02-24. PMID:23874881. |
in particular, studies employing behavioural tasks and electrophysiological methods indicate a dominance of the right hemisphere during face perception only in men whereas women exhibit symmetric and bilateral face processing. |
2014-02-24 |
2023-08-12 |
Not clear |
| Janet H Hsiao, Sze Man La. The modulation of visual and task characteristics of a writing system on hemispheric lateralization in visual word recognition-a computational exploration. Cognitive science. vol 37. issue 5. 2014-02-17. PMID:23551425. |
we apply a hemispheric processing model of face recognition to visual word recognition; the model implements a theory of hemispheric asymmetry in perception that posits low spatial frequency biases in the right hemisphere and high spatial frequency (hsf) biases in the lh. |
2014-02-17 |
2023-08-12 |
Not clear |
| Marlene Behrmann, David C Plau. Distributed circuits, not circumscribed centers, mediate visual recognition. Trends in cognitive sciences. vol 17. issue 5. 2013-12-03. PMID:23608364. |
specifically, we argue that both word and face recognition rely on fine-grained visual representations but, by virtue of pressure to couple visual and language areas and to keep connection length short, the left hemisphere becomes more finely tuned for word recognition and, consequently, the right hemisphere becomes more finely tuned for face recognition. |
2013-12-03 |
2023-08-12 |
human |
| L A Hillger, O Koeni. Separable mechanisms in face processing: evidence from hemispheric specialization. Journal of cognitive neuroscience. vol 3. issue 1. 2013-08-23. PMID:23964804. |
this article addresses three issues in face processing: first, is face processing primarily accomplished by the right hemisphere, or do both left- and right-hemisphere mechanisms play important roles? |
2013-08-23 |
2023-08-12 |
Not clear |
| Susan M Letourneau, Teresa V Mitchel. Visual field bias in hearing and deaf adults during judgments of facial expression and identity. Frontiers in psychology. vol 4. 2013-06-14. PMID:23761774. |
the dominance of the right hemisphere during face perception is associated with more accurate judgments of faces presented in the left rather than the right visual field (rvf). |
2013-06-14 |
2023-08-12 |
Not clear |
| Eva M Dundas, Catherine A Best, Nancy J Minshew, Mark S Straus. A lack of left visual field bias when individuals with autism process faces. Journal of autism and developmental disorders. vol 42. issue 6. 2012-10-05. PMID:21986874. |
this bias is thought to arise from the right hemisphere's advantage for processing facial information, with evidence suggesting it to be driven by the configural demands of face processing. |
2012-10-05 |
2023-08-12 |
Not clear |
| Edward H F De Haan, Evelien N M van Kollenbur. Lateralised processing of the internal and the external facial features of personally familiar and unfamiliar faces: a visual half-field study. Cognitive processing. vol 6. issue 3. 2012-10-02. PMID:18231821. |
the results of the present study showed that no overall visual field effect occurred, but more importantly, that face processing in the left hemisphere differed qualitatively from that in the right hemisphere. |
2012-10-02 |
2023-08-12 |
Not clear |
| David J Turk, Todd C Handy, Michael S Gazzanig. Can perceptual expertise accountfor the own-race bias in face recognition? A split-brain study. Cognitive neuropsychology. vol 22. issue 7. 2012-10-02. PMID:21038280. |
while jw's left hemisphere showed no effect of race on facial recognition, his right hemisphere demonstrated a significant performance advantage for caucasian faces. |
2012-10-02 |
2023-08-12 |
Not clear |
| Janet H Hsiao, Tina T Li. The optimal viewing position in face recognition. Journal of vision. vol 12. issue 2. 2012-07-10. PMID:22375068. |
while both factors predict a left-biased ovp in visual word recognition, in face recognition they predict contrasting biases: people prefer to fixate the left half-face, suggesting that the ovp should be to the left of the center; nevertheless, the right hemisphere lateralization in face processing suggests that the ovp should be to the right of the center in order to project most of the face to the right hemisphere. |
2012-07-10 |
2023-08-12 |
Not clear |
| Sara C Verosky, Nicholas B Turk-Brown. Representations of facial identity in the left hemisphere require right hemisphere processing. Journal of cognitive neuroscience. vol 24. issue 4. 2012-06-26. PMID:22264197. |
a quintessential example of hemispheric specialization in the human brain is that the right hemisphere is specialized for face perception. |
2012-06-26 |
2023-08-12 |
human |
| Meike Ramon, Bruno Rossio. Hemisphere-dependent holistic processing of familiar faces. Brain and cognition. vol 78. issue 1. 2012-04-03. PMID:22099150. |
these observations suggest that the right hemisphere dominates in early stages of holistic processing, as indexed by the composite face effect, but that later processes such as face identification and naming are based on unified representations that are independent of input lateralization. |
2012-04-03 |
2023-08-12 |
Not clear |