| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| G A Calvert, P C Hansen, S D Iversen, M J Bramme. Detection of audio-visual integration sites in humans by application of electrophysiological criteria to the BOLD effect. NeuroImage. vol 14. issue 2. 2001-09-06. PMID:11467916. |
other regions exhibiting these crossmodal interactions included cortex within the superior temporal sulcus, intraparietal sulcus, insula, and several foci in the frontal lobe, including within the superior and ventromedial frontal gyri. |
2001-09-06 |
2023-08-12 |
human |
| G A Calvert, R Campbell, M J Bramme. Evidence from functional magnetic resonance imaging of crossmodal binding in the human heteromodal cortex. Current biology : CB. vol 10. issue 11. 2000-08-02. PMID:10837246. |
evidence from functional magnetic resonance imaging of crossmodal binding in the human heteromodal cortex. |
2000-08-02 |
2023-08-12 |
human |
| G A Calvert, R Campbell, M J Bramme. Evidence from functional magnetic resonance imaging of crossmodal binding in the human heteromodal cortex. Current biology : CB. vol 10. issue 11. 2000-08-02. PMID:10837246. |
these behavioural features of crossmodal processing appear to have parallels in the response properties of multisensory cells in the superior colliculi and cerebral cortex of non-human mammals. |
2000-08-02 |
2023-08-12 |
human |
| L von Melchner, S L Pallas, M Su. Visual behaviour mediated by retinal projections directed to the auditory pathway. Nature. vol 404. issue 6780. 2000-05-17. PMID:10786793. |
here we report that this cross-modal projection and its representation in auditory cortex can mediate visual behaviour. |
2000-05-17 |
2023-08-12 |
Not clear |
| T Kujala, K Alho, R Näätäne. Cross-modal reorganization of human cortical functions. Trends in neurosciences. vol 23. issue 3. 2000-03-16. PMID:10675915. |
the functional significance of this cross-modal activation was recently indicated by, for example, studies showing that the occipital cortex of the blind is activated by sound changes, when the task is to detect these changes. |
2000-03-16 |
2023-08-12 |
human |
| R B Banati, G W Goerres, C Tjoa, J P Aggleton, P Grasb. The functional anatomy of visual-tactile integration in man: a study using positron emission tomography. Neuropsychologia. vol 38. issue 2. 2000-02-29. PMID:10660224. |
whilst intramodal matching within the visual modality led to relative rcbf increases in the visual association cortex, crossmodal matching (visual-tactile), when compared to intramodal matching, was accompanied by relative rcbf increases in the anterior cingulate cortex, inferior parietal lobules, the left dorsolateral prefrontal cortex (dlpfc) and the left claustrum/insular cortex. |
2000-02-29 |
2023-08-12 |
human |
| R B Banati, G W Goerres, C Tjoa, J P Aggleton, P Grasb. The functional anatomy of visual-tactile integration in man: a study using positron emission tomography. Neuropsychologia. vol 38. issue 2. 2000-02-29. PMID:10660224. |
the pattern of brain activation is congruent with areas of heteromodal and supramodal cortex and indicates that activation of multimodal areas is required to solve the crossmodal problem. |
2000-02-29 |
2023-08-12 |
human |
| W J Gao, S L Palla. Cross-modal reorganization of horizontal connectivity in auditory cortex without altering thalamocortical projections. The Journal of neuroscience : the official journal of the Society for Neuroscience. vol 19. issue 18. 1999-10-04. PMID:10479695. |
cross-modal reorganization of horizontal connectivity in auditory cortex without altering thalamocortical projections. |
1999-10-04 |
2023-08-12 |
Not clear |
| W J Gao, S L Palla. Cross-modal reorganization of horizontal connectivity in auditory cortex without altering thalamocortical projections. The Journal of neuroscience : the official journal of the Society for Neuroscience. vol 19. issue 18. 1999-10-04. PMID:10479695. |
neonatal diversion of retinal axons to the auditory thalamus (cross-modal rewiring) results in a primary auditory cortex (ai) that resembles visual cortex in its response properties and topography (roe et al., 1990, 1992). |
1999-10-04 |
2023-08-12 |
Not clear |
| S L Pallas, T Littman, D R Moor. Cross-modal reorganization of callosal connectivity without altering thalamocortical projections. Proceedings of the National Academy of Sciences of the United States of America. vol 96. issue 15. 1999-08-23. PMID:10411947. |
neonatal diversion of retinal axons to the auditory thalamus (cross-modal rewiring) results in a primary auditory cortex (ai) that resembles the primary visual cortex in its visual response properties and topography. |
1999-08-23 |
2023-08-12 |
Not clear |
| T Klingber. Concurrent performance of two working memory tasks: potential mechanisms of interference. Cerebral cortex (New York, N.Y. : 1991). vol 8. issue 7. 1999-02-09. PMID:9823480. |
three potential neurophysiological mechanisms behind this deterioration in performance have been considered here: (i) dual-task performance requires additional cognitive operations and activation of cortical areas in addition to those active during single-task performance; (ii) two tasks interfere if they require activation of the same part of cortex; and (iii) cross-modal inhibition causes interference between two tasks involving stimuli from different sensory modalities. |
1999-02-09 |
2023-08-12 |
Not clear |
| Y D Zhou, J M Fuste. Neuronal activity of somatosensory cortex in a cross-modal (visuo-haptic) memory task. Experimental brain research. vol 116. issue 3. 1998-01-14. PMID:9372304. |
neuronal activity of somatosensory cortex in a cross-modal (visuo-haptic) memory task. |
1998-01-14 |
2023-08-12 |
monkey |
| J Toldi, I Rojik, O Fehé. Neonatal monocular enucleation-induced cross-modal effects observed in the cortex of adult rat. Neuroscience. vol 62. issue 1. 1995-02-09. PMID:7816193. |
neonatal monocular enucleation-induced cross-modal effects observed in the cortex of adult rat. |
1995-02-09 |
2023-08-12 |
rat |
| E A Murray, D Gaffa. Removal of the amygdala plus subjacent cortex disrupts the retention of both intramodal and crossmodal associative memories in monkeys. Behavioral neuroscience. vol 108. issue 3. 1994-11-04. PMID:7917043. |
removal of the amygdala plus subjacent cortex disrupts the retention of both intramodal and crossmodal associative memories in monkeys. |
1994-11-04 |
2023-08-12 |
monkey |
| M T Wallace, B E Stei. Cross-modal synthesis in the midbrain depends on input from cortex. Journal of neurophysiology. vol 71. issue 1. 1994-05-18. PMID:8158240. |
cross-modal synthesis in the midbrain depends on input from cortex. |
1994-05-18 |
2023-08-12 |
Not clear |
| G Bronchti, N Schönenberger, E Welker, H Van der Loo. Barrelfield expansion after neonatal eye removal in mice. Neuroreport. vol 3. issue 6. 1992-11-13. PMID:1391754. |
evidently, early enucleation has a significant cross-modal effect on the somatosensory cortex. |
1992-11-13 |
2023-08-11 |
mouse |
| M A Nicolelis, J K Chapin, R C Li. Neonatal whisker removal in rats stabilizes a transient projection from the auditory thalamus to the primary somatosensory cortex. Brain research. vol 567. issue 1. 1992-07-01. PMID:1726139. |
a normally transient cross-modal thalamocortical projection from the magnocellular subdivision of the medial geniculate nucleus (mgm) to the primary somatosensory (si) cortex of rats was found to remain unchanged throughout adulthood following unilateral removal of whiskers in newborn animals. |
1992-07-01 |
2023-08-11 |
rat |
| M A Nicolelis, J K Chapin, R C Li. Neonatal whisker removal in rats stabilizes a transient projection from the auditory thalamus to the primary somatosensory cortex. Brain research. vol 567. issue 1. 1992-07-01. PMID:1726139. |
these results suggest that the areal distribution in the cortex of thalamocortical projections arising from a multimodal thalamic nucleus, such as the mgm, may be determined during early postnatal development by the normal flow of sensory information from the periphery to the thalamus and that an early postnatal somatosensory deprivation may prevent the normal withdrawal of a cross-modal projection from the mgm to the si. |
1992-07-01 |
2023-08-11 |
rat |
| T Paperna, R Malac. Patterns of sensory intermodality relationships in the cerebral cortex of the rat. The Journal of comparative neurology. vol 308. issue 3. 1991-09-11. PMID:1865010. |
these patterns may form a substrate for different levels of cross-modal sensory integration in the rat cortex. |
1991-09-11 |
2023-08-11 |
rat |
| G P Lee, K J Meador, J R Smith, D W Loring, H F Flanigi. Preserved crossmodal association following bilateral amygdalotomy in man. The International journal of neuroscience. vol 40. issue 1-2. 1988-08-31. PMID:2840408. |
because entorhinal cortex is an important structure for the formation of new memory traces, it is possible that damage to the entorhinal and surrounding cortical regions, rather than damage to the amygdala itself, is responsible for the crossmodal association deficit in monkeys. |
1988-08-31 |
2023-08-11 |
monkey |