| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Guochun Yang, Kai Wang, Weizhi Nan, Qi Li, Ya Zheng, Haiyan Wu, Xun Li. Distinct Brain Mechanisms for Conflict Adaptation within and across Conflict Types. Journal of cognitive neuroscience. 2021-12-23. PMID:34942641. |
the results revealed that when the conflict type repeated (but not when it alternated), the cae-like neural activations were observed in dorsal acc, inferior frontal gyrus (ifg), superior parietal lobe, and so forth (i.e., regions within typical task-positive networks). |
2021-12-23 |
2023-08-13 |
Not clear |
| Paulina A Kulesz, Amery Treble-Barna, Victoria J Williams, Jenifer Juranek, Paul T Cirino, Maureen Dennis, Jack M Fletche. Attention in spina bifida myelomeningocele: Relations with brain volume and integrity. NeuroImage. Clinical. vol 8. 2016-03-29. PMID:26106529. |
reduced tectal volume was associated with slower covert orienting; reduced superior parietal cortical volume was associated with slower conflict resolution; and increased axial diffusivity and radial diffusivity along both frontal and parietal tectocortical pathways were associated with reduced attentional control. |
2016-03-29 |
2023-08-13 |
Not clear |
| Carter Wendelken, Jochen Ditterich, Silvia A Bunge, Cameron S Carte. Stimulus and response conflict processing during perceptual decision making. Cognitive, affective & behavioral neuroscience. vol 9. issue 4. 2009-12-15. PMID:19897796. |
on the other hand, the superior parietal lobe, previously associated with accumulation of evidence for a response, was affected by the presence of response conflict. |
2009-12-15 |
2023-08-12 |
monkey |
| Sean K Meehan, W Richard Staine. The effect of task-relevance on primary somatosensory cortex during continuous sensory-guided movement in the presence of bimodal competition. Brain research. vol 1138. 2007-05-21. PMID:17275792. |
in addition the superior parietal lobe/precuneus (ba 7), inferior parietal lobe (ba 40), precentral gyrus (ba 6) and secondary visual areas (ba 18 and 19) may modulate the extraction of task-relevant information while the insula (ba 13) may do so during cases of spatial conflict. |
2007-05-21 |
2023-08-12 |
human |
| E L Maclin, G Gratton, M Fabian. Visual spatial localization conflict: an fMRI study. Neuroreport. vol 12. issue 16. 2002-01-22. PMID:11733725. |
the results indicated that spatial localization conflict activated pre-motor and superior parietal regions in the right hemisphere known to be involved in spatial localization, but anterior cingulate activation did not reach threshold. |
2002-01-22 |
2023-08-12 |
Not clear |