| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Hoi-Chung Leung, John X Zhan. Interference resolution in spatial working memory. NeuroImage. vol 23. issue 3. 2005-01-19. PMID:15528101. |
precentral sulcus (prcs) and superior parietal lobe (spl), two regions commonly associated with motor planning and spatial attention, showed heightened activity in response to increased level of interference from nontargets of high familiarity. |
2005-01-19 |
2023-08-12 |
human |
| Scott Glove. Separate visual representations in the planning and control of action. The Behavioral and brain sciences. vol 27. issue 1. 2004-12-08. PMID:15481943. |
planning appears to rely on phylogenetically newer regions in the inferior parietal lobe, along with the frontal lobes and basal ganglia, whereas control appears to rely on older regions in the superior parietal lobe, along with the cerebellum. |
2004-12-08 |
2023-08-12 |
Not clear |
| Wendy E Brown, Shelli R Kesler, Stephan Eliez, Ilana S Warsofsky, Michael Haberecht, Allan L Reis. A volumetric study of parietal lobe subregions in Turner syndrome. Developmental medicine and child neurology. vol 46. issue 9. 2004-09-28. PMID:15344520. |
structural differences in the parietal lobe are localized specifically to the anterior and superior parietal lobe and might be related to the visuospatial and visuomotor deficits associated with turner syndrome. |
2004-09-28 |
2023-08-12 |
human |
| Matthew K Belmonte, Deborah A Yurgelun-Tod. Functional anatomy of impaired selective attention and compensatory processing in autism. Brain research. Cognitive brain research. vol 17. issue 3. 2004-05-10. PMID:14561452. |
within the task condition, a region-of-interest comparison of attend-left versus attend-right conditions indicated that modulation of activation in the autistic brain as a function of the lateral focus of spatial attention was abnormally decreased in the left ventral occipital cortex (p<0.03), abnormally increased in the left intraparietal sulcus (p<0.01), and abnormally variable in the superior parietal lobe (p<0.03). |
2004-05-10 |
2023-08-12 |
human |
| T Wolbers, C Weiller, C Büche. Contralateral coding of imagined body parts in the superior parietal lobe. Cerebral cortex (New York, N.Y. : 1991). vol 13. issue 4. 2003-05-06. PMID:12631568. |
using a modified version of the classical mental rotation task, we were able to demonstrate that in humans activation in the contralateral superior parietal lobe could be evoked when mental rotation was combined with motor imagery of hands. |
2003-05-06 |
2023-08-12 |
monkey |
| T Wolbers, C Weiller, C Büche. Contralateral coding of imagined body parts in the superior parietal lobe. Cerebral cortex (New York, N.Y. : 1991). vol 13. issue 4. 2003-05-06. PMID:12631568. |
these findings show that even in the absence of visual and somatosensory input, information provided by motor imagery suffices to induce contralateral superior parietal lobe monitoring of the imagined limb configuration. |
2003-05-06 |
2023-08-12 |
monkey |
| Kimron Shapiro, Anne P Hillstrom, Masud Husai. Control of visuotemporal attention by inferior parietal and superior temporal cortex. Current biology : CB. vol 12. issue 15. 2003-04-08. PMID:12176361. |
the human cortical visual system is organized into major pathways: a dorsal stream projecting to the superior parietal lobe (spl), considered to be critical for visuospatial perception or on-line control of visually guided movements, and a ventral stream leading to the inferotemporal cortex, mediating object perception. |
2003-04-08 |
2023-08-12 |
human |
| Isabel Gauthier, William G Hayward, Michael J Tarr, Adam W Anderson, Pawel Skudlarski, John C Gor. BOLD activity during mental rotation and viewpoint-dependent object recognition. Neuron. vol 34. issue 1. 2002-04-29. PMID:11931750. |
activity in the superior parietal lobe (spl) increased proportionally to viewpoint disparity during mental rotation, but not during object recognition. |
2002-04-29 |
2023-08-12 |
Not clear |
| L Cornette, P Dupont, G A Orba. The neural substrate of orientation short-term memory and resistance to distractor items. The European journal of neuroscience. vol 15. issue 1. 2002-04-25. PMID:11860517. |
short-term memory engaged the superior parietal lobe bilaterally, the middle occipital gyrus bilaterally and the left dorsolateral prefrontal cortex. |
2002-04-25 |
2023-08-12 |
human |
| C R Clark, K A Moores, A Lewis, D L Weber, S Fitzgibbon, R Greenblatt, G Brown, J Taylo. Cortical network dynamics during verbal working memory function. International journal of psychophysiology : official journal of the International Organization of Psychophysiology. vol 42. issue 2. 2001-12-05. PMID:11587774. |
this included: the occipital pole (early visual processing); the superior temporal and inferior parietal gyrus bilaterally and the left angular gyrus (visual and phonological word processing); the dorsal lateral occipital gyrus (spatial processing); and aspects of the bilateral superior parietal lobe (imagery and episodic verbal memory). |
2001-12-05 |
2023-08-12 |
human |
| M S Grazian. Is reaching eye-centered, body-centered, hand-centered, or a combination? Reviews in the neurosciences. vol 12. issue 2. 2001-10-25. PMID:11392457. |
there are currently three main views on the neural basis of visually guided reaching: 1) neurons in the superior parietal lobe guide arm movements in a spatial framework that is centered on the body; 2) neurons in the intraparietal sulcus guide arm movements in a spatial framework that is centered on the eye; 3) neurons in the caudal part of premotor cortex guide arm movements in a spatial framework that is centered on the arm and hand. |
2001-10-25 |
2023-08-12 |
Not clear |
| C J Mummery, T Shallice, C J Pric. Dual-process model in semantic priming: A functional imaging perspective. NeuroImage. vol 9. issue 5. 1999-07-07. PMID:10329291. |
nonlinear correlational analysis of cerebral activity during lexical decision revealed a neurophysiological correlate of these behavioral effects in (i) the left anterior temporal lobe (ba 38), a region involved in lexicosemantic processing; (ii) the anterior cingulate cortex, right premotor region (ba 6), and right superior parietal lobe (ba 7), regions associated with attentional processes. |
1999-07-07 |
2023-08-12 |
human |
| D M Wolpert, S J Goodbody, M Husai. Maintaining internal representations: the role of the human superior parietal lobe. Nature neuroscience. vol 1. issue 6. 1999-04-29. PMID:10196553. |
maintaining internal representations: the role of the human superior parietal lobe. |
1999-04-29 |
2023-08-12 |
human |
| D M Wolpert, S J Goodbody, M Husai. Maintaining internal representations: the role of the human superior parietal lobe. Nature neuroscience. vol 1. issue 6. 1999-04-29. PMID:10196553. |
here we report a patient with a lesion of the superior parietal lobe who shows both sensory and motor deficits consistent with an inability to maintain such an internal representation between updates. |
1999-04-29 |
2023-08-12 |
human |
| D M Wolpert, S J Goodbody, M Husai. Maintaining internal representations: the role of the human superior parietal lobe. Nature neuroscience. vol 1. issue 6. 1999-04-29. PMID:10196553. |
our findings suggest that the superior parietal lobe is critical for sensorimotor integration, by maintaining an internal representation of the body's state. |
1999-04-29 |
2023-08-12 |
human |
| F J Friedrich, R Egly, R D Rafal, D Bec. Spatial attention deficits in humans: a comparison of superior parietal and temporal-parietal junction lesions. Neuropsychology. vol 12. issue 2. 1998-07-14. PMID:9556766. |
although clinical evidence of spatial attention deficits, such as neglect and extinction, is typically associated with lesions of the right temporal-parietal junction, recent evidence has suggested an important role for the superior parietal lobe. |
1998-07-14 |
2023-08-12 |
Not clear |
| H O Karnat. Spatial orientation and the representation of space with parietal lobe lesions. Philosophical transactions of the Royal Society of London. Series B, Biological sciences. vol 352. issue 1360. 1997-12-29. PMID:9368929. |
in contrast, superior parietal lobe lesions lead to specific impairments of goal-directed movements (optic ataxia). |
1997-12-29 |
2023-08-12 |
human |
| H O Karnat. Spatial orientation and the representation of space with parietal lobe lesions. Philosophical transactions of the Royal Society of London. Series B, Biological sciences. vol 352. issue 1360. 1997-12-29. PMID:9368929. |
disturbances of such processes rather appear to be prominent in patients with more superior parietal lobe lesions and optic ataxia. |
1997-12-29 |
2023-08-12 |
human |
| B H Buck, S E Black, M Behrmann, C Caldwell, M J Bronskil. Spatial- and object-based attentional deficits in Alzheimer's disease. Relationship to HMPAO-SPECT measures of parietal perfusion. Brain : a journal of neurology. vol 120 ( Pt 7). 1997-08-14. PMID:9236633. |
as hypothesized, in alzheimer's disease patients, reaction time costs of invalid targets eliciting shifts of attention between spatial locations were selectively correlated with spect hypoperfusion in the right superior parietal lobe; while reaction time costs of between-object shifts of attention were correlated with hypoperfusion in the left inferior parietal lobe. |
1997-08-14 |
2023-08-12 |
Not clear |
| M B Schapiro, D G Murphy, R J Hagerman, N P Azari, G E Alexander, C M Miezejeski, V J Hinton, B Horwitz, J V Haxby, A Kuma. Adult fragile X syndrome: neuropsychology, brain anatomy, and metabolism. American journal of medical genetics. vol 60. issue 6. 1996-12-05. PMID:8825884. |
r/l asymmetry in metabolism of the superior parietal lobe was significantly higher in the patients than controls. |
1996-12-05 |
2023-08-12 |
human |