WOROI: 3 - Cuneus
 
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WOROI: 3 - Cuneus

Abbreviation: Cu

External databases

ICBM Label: 40

Taxonomy

ParentsSiblingsChildren
Occipital lobe
  Left cuneus
Right cuneus

Talairach coordinates

  x     y     z   Lobar anatomy WOBIB WOEXP
-12 -86 32 Left cuneus 1 1
8 -86 32 Right cuneus 1 1
32 -67 51 Right precuneus 2 2
30 -72 29 Right precuneus 2 2
-12 -70 51 Left precuneus 3 6
-12 -96 8 Left cuneus 3 6
6 -56 50 Right precuneus 3 7
-6 -59 53 Left precuneus 3 7
-3 -71 37 Left precuneus 3 7
0 -87 18 Cuneus 3 7
6 -64 46 Precuneus 8 16
6 -60 38 Precuneus 8 17
-10 -58 38 Precuneus 8 17
6 -64 46 Precuneus 8 18
-8 -60 40 Precuneus 8 18
0 -62 34 Precuneus 8 19
8 -67 51 Right precuneus 10 25
-4 -68 44 Left precuneus 10 25
-8 -64 44 Left precuneus 10 26
4 -64 47 Right precuneus 10 27
8 -48 52 Right Precuneus 14 37
6 -52 54 Right precuneus 14 38
6 -44 52 Right precuneus 14 39
22 -60 53 Right precuneus 14 40
10 -72 15 Right cuneus 15 44
4 -95 19 Cuneus 15 44
-2 -72 32 Precuneus 15 44
0 -72 40 Precuneus 15 45
-2 -72 27 Cuneus/precuneus 15 46
1 -64 40 Precuneus 15 46
-16 -87 12 Left cuneus 15 46
6 -29 38 Right posterior cingulate gyrus and precuneus 21 66
8 -68 -35 Right precuneus 23 73
-6 -54 49 Left precuneus 23 74
2 -46 43 Right precuneus 23 74
0 -66 56 Subparietal sulcus, superior parietal lobule, precuneus 30 100
0 -52 54 Precuneus 31 103
2 -50 52 Precuneus 31 107
-4 -48 50 Precuneus 31 108
-12 -70 52 Left precuneus 35 117
0 -38 41 Posterior cingulate and precuneus 39 133
-4 -70 37 Left precuneus 41 135
-10 -94 21 Left cuneus 41 137
-14 -69 48 Left precuneus 41 139
-18 -63 20 Left cuneus 41 139
7 -66 42 Right precuneus 41 139
14 -71 26 Right cuneus 41 139
7 -70 42 Right precuneus 41 140
4 -52 30 Precuneus 42 141
4 -73 41 Cuneus 45 148
0 -73 39 Cuneus 45 148
12 -52 45 Precuneus 45 148
-6 -63 51 Precuneus 46 149
10 -67 49 Precuneus 46 149
-7 -67 54 Precuneus 46 150
8 -68 52 Precuneus 46 150
6 -92 16 Cuneus 47 151
-10 -66 44 Left precuneus 49 160
4 -78 16 Right cuneus 49 160
12 -100 4 Right cuneus 49 163
-28 -84 4 Left cuneus 49 163
-26 -92 4 Left cuneus 49 166
12 -100 4 Right cuneus 49 166
18 -74 40 Right precuneus 49 167
-4 -63 62 Left precuneus 51 170
-10 -57 56 Left precuneus 51 171
12 -50 50 Right precuneus 51 171
10 -43 28 Precuneus/posterior cingulate 61 191
-10 -55 15 Left precuneus 73 228
14 -55 15 Right precuneus 73 228
-8 -36 57 Left paracentral lobule/anterior precuneus 74 229
0 -65 34 Left precuneus 80 251
6 -71 57 Precuneus 82 256
4 -44 37 Precuneus/posterior cingulate 85 272
2 -46 26 Precuneus/posterior cingulate 85 274
-13 -73 22 Left precuneus 85 274
7 -64 6 Right precuneus 85 274
8 -64 47 Right precuneus 88 283
-1 -62 22 Left precuneus 90 289
-2 -74 22 Left cuneus 90 289
0 -62 19 Precuneus 90 290
0 -63 10 Cuneus 90 290
-8 -70 44 Left precuneus 91 291
6 -68 44 Right precuneus 91 291
4 -39 42 Right precuneus 91 292
8 -64 28 Precuneus and posterior cingulate 96 301
16 -66 32 Precuneus and posterior cingulate 96 301
-18 -100 8 Left cuneus 104 323
-17 -67 48 Parietal, medial/precuneus 106 331
-7 -73 38 Parietal, medial/precuneus 106 331
9 -73 38 Parietal, medial/precuneus 106 331
13 -67 30 Parietal, medial/precuneus 106 331
-15 -69 28 Parietal, medial/precuneus 106 331
15 -61 24 Parietal, medial/precuneus 106 331
5 -69 28 Parietal, medial/precuneus 106 331
15 -66 41 Right precuneus 116 349
-12 -83 26 Left cuneus 116 351
6 -92 14 Right cuneus 116 351
-5 -41 56 Left precuneus 116 352
-7 -74 32 Left cuneus 116 354
-7 -52 58 Left precuneus 116 355
12 -48 66 Right precuneus 116 355
-2 -88 19 Left cuneus 116 355
-12 -71 36 Left precuneus 116 359
10 -78 31 Right cuneus 116 359
11 -74 33 Right cuneus 116 360
-7 -88 31 Left cuneus 116 361
10 -90 34 Right cuneus 116 361
-10 -51 36 Precuneus/posterior cingulate cortex 121 374
-10 -51 36 Precuneus/posterior cingulate cortex 121 376
-10 -51 36 Precuneus/posterior cingulate cortex 121 379
12 -67 11 Right inferior cuneus 125 387
12 -67 11 Right inferior cuneus 125 388
6 -55 32 Precuneus 126 389
-18 -75 18 Cuneus (occipital cortex) 126 390
14 -77 46 Right medial parietal (precuneus) 132 406
7 -58 47 Precuneus/retrosplenial cingulate 134 412
4 -48 -19 Precuneus/retrosplenial cingulate 134 414
0 -54 23 Precuneus/retrosplenial cingulate 134 415
-6 -84 28 Left cuneus 135 418
16 -80 28 Right cuneus 135 418
10 -68 37 Right precuneus 138 425
4 -65 29 Right precuneus 138 425
0 -63 57 Right precuneus 141 433
12 -94 23 Right cuneus 141 433
-17 -55 47 Left precuneus 144 442
-4 -62 33 Precuneus 147 450
-10 -60 32 Left precuneus 147 451
-4 -64 32 Precuneus 147 452
-9 -55 48 Left precuneus 149 459
18 -60 20 Precuneus 151 464
-6 -78 30 Left cuneus 152 467
16 -56 36 Right precuneus 152 469
-12 -92 4 Left cuneus 154 473
21 -60 26 Right precuneus 155 475
7 -76 26 Right cuneus 155 478
-25 -63 26 Left precuneus 155 478
3 -58 26 Right precuneus 155 480
-6 -68 36 Left precuneus 159 490
12 -72 28 Right precuneus 159 490
3 -65 27 Right precuneus and cuneus 168 515
8 -74 36 Right precuneus 170 521
-14 -66 36 Left precuneus 170 521
6 -65 22 Right precuneus 171 523
2 -86 36 Medial cuneus 175 537
20 -71 16 Right cuneus 175 537
17 -68 15 Right cuneus 176 539
1 -24 43 Precuneus 180 563
-3 -58 48 Left precuneus 183 578
8 -66 24 Right precuneus 185 585
-8 -74 24 Left precuneus 185 585

Summary

  x     y     z   Description
-10 -68 35 Mean coordinate in left hemisphere
9 -65 32 Mean coordinate in right hemisphere
9 -66 34 Mean coordinate with ignored left/right
0 -100 -35 Minimum coordinate with ignored left/right
32 -24 66 Maximum coordinate with ignored left/right
6 14 16 Standard deviation with ignored left/right
corner cube of WOROI: 3 - Cuneus

Text contexts

Both conditions were associated with common activation in the SMA, the precentral gyrus, the precuneus and the MT/V5 complexP. Ruby; Jean Decety. Effect of subjective perspective taking during simulation of action: a PET investigation of agency. Nature Neuroscience 4(5):546-50, 2001. PMID: 11319565. DOI: 10.1038/87510. WOBIB: 8.
When compared to the first-person perspective, the third-person perspective recruited right inferior parietal, precuneus, posterior cingulate and frontopolar cortexP. Ruby; Jean Decety. Effect of subjective perspective taking during simulation of action: a PET investigation of agency. Nature Neuroscience 4(5):546-50, 2001. PMID: 11319565. DOI: 10.1038/87510. WOBIB: 8.
We suggest that the right inferior parietal, precuneus and somatosensory cortex are specifically involved in distinguishing self-produced actions from those generated by othersP. Ruby; Jean Decety. Effect of subjective perspective taking during simulation of action: a PET investigation of agency. Nature Neuroscience 4(5):546-50, 2001. PMID: 11319565. DOI: 10.1038/87510. WOBIB: 8.
Activation tightly correlated with numerical distance was observed mainly in a group of parietal areas distributed bilaterally along the intraparietal sulci and in the precuneus, as well as in the left middle temporal gyrus and posterior cingulateP. Pinel; S. Dehaene; D. Riviere; D. LeBihan. Modulation of parietal activation by semantic distance in a number comparison task. NeuroImage 14(5):1013-26, 2001. PMID: 11697933. DOI: 10.1006/nimg.2001.0913. WOBIB: 10.
Awareness of visual verbal stimuli differentially activated medial parietal association cortex (precuneus), which is a polymodal sensory cortex, and dorsolateral prefrontal cortex, which is thought to be primarily executiveTroels W. Kjaer; M. Nowak; K. W. Kjaer; A. R. Lou; H. C. Lou. Precuneus-prefrontal activity during awareness of visual verbal stimuli. Consciousness and cognition 10(3):356-365, 2001. PMID: 11697869. DOI: 10.1006/ccog.2001.0509. WOBIB: 21.
A recent meta-analysis has shown precuneus, angular gyri, anterior cingulate gyri, and adjacent structures to be highly metabolically active in support of resting consciousnessTroels Kjaer; Markus Nowak; Hans Lou. Reflective Self-Awareness and Conscious States: PET Evidence for a Common Midline Parietofrontal Core. NeuroImage 17(2):1080, 2002. PMID: 12377180. WOBIB: 31.
The results confirmed our hypothesis: Statistical parametric mapping showed differential activity in precuneus and angular gyri during reflection on own personality traits and in anterior cingulate gyri during reflection on own physical traitsTroels Kjaer; Markus Nowak; Hans Lou. Reflective Self-Awareness and Conscious States: PET Evidence for a Common Midline Parietofrontal Core. NeuroImage 17(2):1080, 2002. PMID: 12377180. WOBIB: 31.
It also activated three medial regions not previously identified in human neuroimaging studies of pursuit: the precuneus and the anterior and posterior cingulate corticesR. A. Berman; C. L. Colby; C. R. Genovese; J. T. Voyvodic; B. Luna; K. R. Thulborn; J. A. Sweeney. Cortical networks subserving pursuit and saccadic eye movements in humans: an FMRI study. Human Brain Mapping 8(4):209-25, 1999. PMID: 10619415. WOBIB: 46.
Maintenance of orientations involved a distributed fronto-parietal network, that is, left and right lateral superior frontal sulcus (SFSl), bilateral ventrolateral prefrontal cortex (VLPFC), bilateral precuneus, and right superior parietal lobe (SPL)L. Cornette; P. Dupont; E. Salmon; G. A. Orban. The neural substrate of orientation working memory. Journal of Cognitive Neuroscience 13(6):813-28, 2001. PMID: 11564325. DOI: 10.1162/08989290152541476. WOBIB: 51.
In contrast, regional CV was significantly lower in AD in temporal and parietal cortices, which were the regions that along with the precuneus had the largest metabolic decrements, though the precuneus had increased CVNora D. Volkow; Wei Zhu; Christoph A. Felder; Klaus Mueller; Tomihisa F. Welsh; Gene J. Wang; Mony J. de Leon. Changes in brain functional homogeneity in subjects with Alzheimer's disease. Psychiatry Research 114(1):39-50, 2002. PMID: 11864808. WOBIB: 61.
The enhanced CV in precuneus, despite its marked reductions in metabolism, suggests that increases in regional homogeneity in parietal and temporal cortices are not a mere reflection of the decrement in metabolismNora D. Volkow; Wei Zhu; Christoph A. Felder; Klaus Mueller; Tomihisa F. Welsh; Gene J. Wang; Mony J. de Leon. Changes in brain functional homogeneity in subjects with Alzheimer's disease. Psychiatry Research 114(1):39-50, 2002. PMID: 11864808. WOBIB: 61.
Conjunction analysis revealed a network of brain areas jointly activated during conscious REST as compared to the nine cognitive tasks, including the bilateral angular gyrus, the left anterior precuneus and posterior cingulate cortex, the left medial frontal and anterior cingulate cortex, the left superior and medial frontal sulcus, and the left inferior frontal cortexB. Mazoyer; L. Zago; E. Mellet; S. Bricogne; O. Etard; O. Houde; F. Crivello; M. Joliot; L. Petit; N. Tzourio-Mazoyer. Cortical networks for working memory and executive functions sustain the conscious resting state in man. Brain Research Bulletin 54(3):287-298, 2001. PMID: 11287133. WOBIB: 74.
Several regions, including the precuneus, posterior cingulate, and left lateral parietal cortex, showed greater responses to correct old than correct new judgementsR. N. Henson; Michael D. Rugg; T. Shallice; R. J. Dolan. Confidence in recognition memory for words: dissociating right prefrontal roles in episodic retrieval. Journal of Cognitive Neuroscience 12(6):913-23, 2000. PMID: 11177413. WOBIB: 80.
Nodes on this network include the frontal, parietal, and temporal cortices, the thalamus, the anterior and posterior cingulate, the precuneus, and the cerebellumNancy C. Andreasen; D. S. O'Leary; T. Cizadlo; Stephan Arndt; K. Rezai; G. L. Watkins; L. L. Ponto; R. D. Hichwa. II. PET studies of memory: novel versus practiced free recall of word lists. NeuroImage 2(4):296-305, 1995. PMID: 9343614. WOBIB: 85.
Most subjects also showed significant activation of the left anterior orbitomedial, anterior middle frontal, precuneus, cuneus, and posterior inferior parietal cortices, and the right posterior cingulate and motor corticesR. J. Maddock; A. S. Garrett; Michael H. Buonocore. Remembering familiar people: the posterior cingulate cortex and autobiographical memory retrieval. Neuroscience 104(3):667-76, 2001. PMID: 11440800. WOBIB: 90.
Negative correlations between regional cerebral blood flow and REM sleep are observed bilaterally, in a vast area of dorsolateral prefrontal cortex, in parietal cortex (supramarginal gyrus) as well as in posterior cingulate cortex and precuneusP. Maquet; J. Peters; J. Aerts; G. Delfiore; C. Degueldre; A. Luxen; G. Franck. Functional neuroanatomy of human rapid-eye-movement sleep and dreaming. Nature 383(6596):163-6, 1996. PMID: 8774879. WOBIB: 96.
Regions more active in retrieval than encoding included bilateral inferior parietal cortex, bilateral precuneus, right frontal polar cortex, right dorsolateral prefrontal cortex, and right inferior frontal/insular cortexK. B. McDermott; J. G. Ojemann; Steven E. Petersen; J. M. Ollinger; A. Z. Snyder; E. Akbudak; T. E. Conturo; Marcus E. Raichle. Direct comparison of episodic encoding and retrieval of words: an event-related fMRI study. Memory 7(5-6):661-78, 1999. PMID: 10659091. WOBIB: 106.
Evaluative judgment produced significant activation in the anterior frontomedian cortex (BA 10/9), the inferior precuneus (BA 23/31), and the left inferior prefrontal cortex (BA 45/47)Stefan Zysset; Oswald Huber; Evelyn Ferstl; D. Y. von Cramon. The anterior frontomedian cortex and evaluative judgment: an fMRI study. NeuroImage 15(4):983-91, 2002. PMID: 11906238. DOI: 10.1006/nimg.2001.1008. WOBIB: 121.
The results show a functional dissociation between the activations in the anterior frontomedian cortex and in the inferior precuneusStefan Zysset; Oswald Huber; Evelyn Ferstl; D. Y. von Cramon. The anterior frontomedian cortex and evaluative judgment: an fMRI study. NeuroImage 15(4):983-91, 2002. PMID: 11906238. DOI: 10.1006/nimg.2001.1008. WOBIB: 121.
RESULTS: A decrease in measures of benzodiazepine receptor binding (DV) was found in left hippocampus and precuneus in panic disorder patients relative to controlsJ. D. Bremner; R. B. Innis; T. White; M. Fujita; D. Silbersweig; A. W. Goddard; L. Staib; E. Stern; A. Cappiello; S. Woods; R. Baldwin; D. S. Charney. SPECT [I-123]iomazenil measurement of the benzodiazepine receptor in panic disorder. Biological Psychiatry 47(2):96-106, 2000. PMID: 10664825. WOBIB: 126.
CONCLUSIONS: Findings of a decrease in left hippocampal and precuneus benzodiazepine receptor binding may be related to alterations in benzodiazepine receptor binding, or other factors including changes in GABAergic transmission or possible endogenous benzodiazepine compoundsJ. D. Bremner; R. B. Innis; T. White; M. Fujita; D. Silbersweig; A. W. Goddard; L. Staib; E. Stern; A. Cappiello; S. Woods; R. Baldwin; D. S. Charney. SPECT [I-123]iomazenil measurement of the benzodiazepine receptor in panic disorder. Biological Psychiatry 47(2):96-106, 2000. PMID: 10664825. WOBIB: 126.
Focused episodic memory engaged a network that included the medial inferior frontal regions, precuneus/retrosplenial cingulate, anterior cingulate, thalamus, and cerebellumNancy C. Andreasen; Daniel S. O'Leary; Ted Cizadlo; Stephan Arndt; Karim Rezai; G. Leonard Watkins; Laura L. Ponto; Richard D. Hichwa. Remembering the past: two facets of episodic memory explored with positron emission tomography. American Journal of Psychiatry 152(11):1576-1585, 1995. PMID: 7485619. FMRIDCID: . BrainMap: 219. WOBIB: 134.
The use of medial frontal regions and the precuneus/retrosplenial cingulate was common to both focused and random episodic memoryNancy C. Andreasen; Daniel S. O'Leary; Ted Cizadlo; Stephan Arndt; Karim Rezai; G. Leonard Watkins; Laura L. Ponto; Richard D. Hichwa. Remembering the past: two facets of episodic memory explored with positron emission tomography. American Journal of Psychiatry 152(11):1576-1585, 1995. PMID: 7485619. FMRIDCID: . BrainMap: 219. WOBIB: 134.
Focused episodic memory shares some components of this circuit (inferior frontal and precuneus), which may reflect the time-linked components of both aspects of episodic memory, and which permit human beings to experience personal identity, consciousness, and self-awarenessNancy C. Andreasen; Daniel S. O'Leary; Ted Cizadlo; Stephan Arndt; Karim Rezai; G. Leonard Watkins; Laura L. Ponto; Richard D. Hichwa. Remembering the past: two facets of episodic memory explored with positron emission tomography. American Journal of Psychiatry 152(11):1576-1585, 1995. PMID: 7485619. FMRIDCID: . BrainMap: 219. WOBIB: 134.
The citalopram-induced change in cerebral metabolism was positively correlated with age in the right precuneus, right paracentral lobule, and left middle temporal gyrus and negatively correlated with age in the left anterior cingulate gyrus, right inferior and middle frontal gyri, right insula, and right inferior parietal lobuleSara Goldberg; Gwenn S. Smith; Anna Barnes; Yilong Ma; Elisse Kramer; Kimberly Robeson; Margaret Kirshner; Bruce G. Pollock; David Eidelberg. Serotonin modulation of cerebral glucose metabolism in normal aging. Neurobiology of Aging 25(2):167-174, 2004. PMID: 14749134. FMRIDCID: . WOBIB: 138.
In line with previous studies, a task-difficulty-dependent increase of left-hemispheric rCBF was also detected for the premotor cortex, cingulate, precuneus, and globus pallidusUlrich Schall; Patrick Johnston; Jim Lagopoulos; Markus Juptner; Walter Jentzen; Renate Thienel; Alexandra Dittmann-Balcar; Stefan Bender; Philip B. Ward. Functional brain maps of Tower of London performance: a positron emission tomography and functional magnetic resonance imaging study. NeuroImage 20(2):1154-61, 2003. PMID: 14568484. DOI: 10.1016/S1053-8119(03)00338-0. FMRIDCID: . WOBIB: 144.
Acquisition was associated with activity in the left prefrontal cortex and the retrosplenial area, whereas retrieval was associated with activity in right prefrontal cortex and the precuneusTim Shallice; Paul Fletcher; Chris D. Frith; Paul Grasby; Richard S. J. Frackowiak; Raymond J. Dolan. Brain regions associated with acquisition and retrieval of verbal episodic memory. Nature 368(6472):633-635, 1994. PMID: 8145849. DOI: 10.1038/368633a0. FMRIDCID: . WOBIB: 159.

Text count

Bib -> Asymmetry | Author | ICA | NMF | Novelty | Statistics | SVD | Title | WOBIB ]
Roi -> Alphabetic | Hammers | Tzourio-Mazoyer | Svarer | Top | Functional areas | Brodmann areas ]
[ Brede Database ]
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