| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Hélène Gervais, Pascal Belin, Nathalie Boddaert, Marion Leboyer, Arnaud Coez, Ignacio Sfaello, Catherine Barthélémy, Francis Brunelle, Yves Samson, Mônica Zilboviciu. Abnormal cortical voice processing in autism. Nature neuroscience. vol 7. issue 8. 2004-09-30. PMID:15258587. |
here we report functional magnetic resonance imaging (fmri) results showing that individuals with autism failed to activate superior temporal sulcus (sts) voice-selective regions in response to vocal sounds, whereas they showed a normal activation pattern in response to nonvocal sounds. |
2004-09-30 |
2023-08-12 |
Not clear |
| Taku Ochiai, Stephan Grimault, Didier Scavarda, Giorgi Roch, Tomokatsu Hori, Denis Rivière, Jean François Mangin, Jean Régi. Sulcal pattern and morphology of the superior temporal sulcus. NeuroImage. vol 22. issue 2. 2004-08-19. PMID:15193599. |
the superior temporal sulcus (sts) is the main sulcal landmark of the external temporal cortex and is very important for functional (posterior language areas on the left) mapping and surgery. |
2004-08-19 |
2023-08-12 |
Not clear |
| Katharina V Kriegstein, Anne-Lise Girau. Distinct functional substrates along the right superior temporal sulcus for the processing of voices. NeuroImage. vol 22. issue 2. 2004-08-19. PMID:15193626. |
the right superior temporal sulcus (sts) is involved in processing the human voice. |
2004-08-19 |
2023-08-12 |
human |
| Ayumi Seki, Tomohisa Okada, Tatsuya Koeda, Norihiro Sadat. Phonemic manipulation in Japanese: an fMRI study. Brain research. Cognitive brain research. vol 20. issue 2. 2004-08-17. PMID:15183397. |
the posterior parts of the superior temporal sulcus (sts) were active during the auditory tasks, suggesting that phonological representations of auditory stimuli are manipulated in this area. |
2004-08-17 |
2023-08-12 |
human |
| Alan Kingstone, Christine Tipper, Jelena Ristic, Elton Nga. The eyes have it!: an fMRI investigation. Brain and cognition. vol 55. issue 2. 2004-08-11. PMID:15177792. |
nevertheless these authors speculated that reflexive orienting to gaze direction may be subserved by a neural system-the superior temporal sulcus (sts)-that is specialized for processing eyes. |
2004-08-11 |
2023-08-12 |
human |
| Riikka Möttönen, Martin Schürmann, Mikko Sam. Time course of multisensory interactions during audiovisual speech perception in humans: a magnetoencephalographic study. Neuroscience letters. vol 363. issue 2. 2004-08-04. PMID:15172096. |
differences between av and a+v responses were found bilaterally in the auditory cortices 150-200 ms and in the right superior temporal sulcus (sts) 250-600 ms after stimulus onset, showing that both sensory-specific and multisensory regions of the human temporal cortices are involved in av speech processing. |
2004-08-04 |
2023-08-12 |
human |
| Robert J Zatorre, Marc Bouffard, Pascal Beli. Sensitivity to auditory object features in human temporal neocortex. The Journal of neuroscience : the official journal of the Society for Neuroscience. vol 24. issue 14. 2004-08-03. PMID:15071112. |
analysis of covariation of cerebral blood flow elicited by this parametric manipulation revealed a response in the upper bank of the right anterior superior temporal sulcus (sts): when sounds were identical across trials (i.e., a noise made up of 45 sounds), activity was at a minimum; when stimuli were different from one another, activity was maximal. |
2004-08-03 |
2023-08-12 |
human |
| E Macaluso, N George, R Dolan, C Spence, J Drive. Spatial and temporal factors during processing of audiovisual speech: a PET study. NeuroImage. vol 21. issue 2. 2004-05-04. PMID:14980575. |
in agreement with previous work, synchronous versus asynchronous audiovisual speech yielded increased activity in multisensory association areas (e.g., superior temporal sulcus [sts]), plus in some unimodal visual areas. |
2004-05-04 |
2023-08-12 |
Not clear |
| Pascal Belin, Robert J Zatorr. Adaptation to speaker's voice in right anterior temporal lobe. Neuroreport. vol 14. issue 16. 2004-03-11. PMID:14600506. |
only one cortical region, located in the anterior part of the right superior temporal sulcus (sts), responded differently to the two conditions: activation relative to the silent baseline was significantly reduced when syllables were spoken by a single voice than when they were spoken by different voices. |
2004-03-11 |
2023-08-12 |
human |
| Satoshi Eifuku, Wania C De Souza, Ryoi Tamura, Hisao Nishijo, Taketoshi On. Neuronal correlates of face identification in the monkey anterior temporal cortical areas. Journal of neurophysiology. vol 91. issue 1. 2004-03-01. PMID:14715721. |
to investigate the neuronal basis underlying face identification, the activity of face neurons in the anterior superior temporal sulcus (sts) and the anterior inferior temporal gyrus (itg) of macaque monkeys was analyzed during their performance of a face-identification task. |
2004-03-01 |
2023-08-12 |
monkey |
| David Poeppel, Andre Guillemin, Jennifer Thompson, Jonathan Fritz, Daphne Bavelier, Allen R Brau. Auditory lexical decision, categorical perception, and FM direction discrimination differentially engage left and right auditory cortex. Neuropsychologia. vol 42. issue 2. 2004-02-09. PMID:14644105. |
these activations extended into the superior temporal sulcus (sts) and the middle temporal gyrus (mtg) and were greater in the left. |
2004-02-09 |
2023-08-12 |
human |
| Jeffrey Padberg, Ben Seltzer, Catherine G Cusic. Architectonics and cortical connections of the upper bank of the superior temporal sulcus in the rhesus monkey: an analysis in the tangential plane. The Journal of comparative neurology. vol 467. issue 3. 2004-01-23. PMID:14608603. |
area tpo in the upper bank of the superior temporal sulcus (sts) of macaque monkeys is thought to correspond to the superior temporal polysensory (stp) cortex, but has been shown to have neurochemical/connectional subdivisions. |
2004-01-23 |
2023-08-12 |
monkey |
| Michael S Beauchamp, Kathryn E Lee, James V Haxby, Alex Marti. FMRI responses to video and point-light displays of moving humans and manipulable objects. Journal of cognitive neuroscience. vol 15. issue 7. 2004-01-12. PMID:14614810. |
the superior temporal sulcus (sts) responded strongly to human videos and human point-light displays, while the middle temporal gyrus (mtg) and the inferior temporal sulcus responded strongly to tool videos and tool point-light displays. |
2004-01-12 |
2023-08-12 |
human |
| Kaoru Sekiyama, Iwao Kanno, Shuichi Miura, Yoichi Sugit. Auditory-visual speech perception examined by fMRI and PET. Neuroscience research. vol 47. issue 3. 2004-01-05. PMID:14568109. |
the direct comparison between the low and high audiovisual conditions showed increased activations in the posterior part of the left superior temporal sulcus (sts), indicating its relationship with the stronger visual influence. |
2004-01-05 |
2023-08-12 |
human |
| Tarra M Wright, Kevin A Pelphrey, Truett Allison, Martin J McKeown, Gregory McCarth. Polysensory interactions along lateral temporal regions evoked by audiovisual speech. Cerebral cortex (New York, N.Y. : 1991). vol 13. issue 10. 2003-11-06. PMID:12967920. |
the human superior temporal sulcus (sts) region has been implicated in processing socially relevant stimuli--particularly those derived from biological motion such as mouth movements. |
2003-11-06 |
2023-08-12 |
human |
| Doris Y Tsao, Winrich A Freiwald, Tamara A Knutsen, Joseph B Mandeville, Roger B H Tootel. Faces and objects in macaque cerebral cortex. Nature neuroscience. vol 6. issue 9. 2003-10-28. PMID:12925854. |
instead, face-responsive neurons in macaques seem to be scattered throughout temporal cortex, with some relative concentration in the superior temporal sulcus (sts). |
2003-10-28 |
2023-08-12 |
human |
| Kevin A Pelphrey, Teresa V Mitchell, Martin J McKeown, Jeremy Goldstein, Truett Allison, Gregory McCarth. Brain activity evoked by the perception of human walking: controlling for meaningful coherent motion. The Journal of neuroscience : the official journal of the Society for Neuroscience. vol 23. issue 17. 2003-09-03. PMID:12890776. |
although these studies have established that biological motion activates the superior temporal sulcus (sts), the use of random motion controls has left open the possibility that coordinated and meaningful nonbiological motion might activate these same brain regions and thus call into question their specificity for processing biological motion. |
2003-09-03 |
2023-08-12 |
human |
| Bart Krekelberg, Sabine Dannenberg, Klaus-Peter Hoffmann, Frank Bremmer, John Ros. Neural correlates of implied motion. Nature. vol 424. issue 6949. 2003-08-25. PMID:12904793. |
in a series of psychophysical and electrophysiological experiments in humans and macaques, here we show that some form information is processed in the prototypical motion areas of the superior temporal sulcus (sts). |
2003-08-25 |
2023-08-12 |
monkey |
| Aina Puce, David Perret. Electrophysiology and brain imaging of biological motion. Philosophical transactions of the Royal Society of London. Series B, Biological sciences. vol 358. issue 1431. 2003-05-01. PMID:12689371. |
studies of single cells, field potential recordings and functional neuroimaging data indicate that specialized visual mechanisms exist in the superior temporal sulcus (sts) of both human and non-human primates that produce selective neural responses to moving natural images of faces and bodies. |
2003-05-01 |
2023-08-12 |
human |
| Gemma A Calvert, Ruth Campbel. Reading speech from still and moving faces: the neural substrates of visible speech. Journal of cognitive neuroscience. vol 15. issue 1. 2003-03-26. PMID:12590843. |
activation was also detected in traditional speech-processing regions including the left inferior frontal (broca's) area, left superior temporal sulcus (sts), and left supramarginal gyrus (the dorsal aspect of wernicke's area). |
2003-03-26 |
2023-08-12 |
human |