WOROI: 26 - Occipital lobe
 
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WOROI: 26 - Occipital lobe

Abbreviation: OL

Variation: Occipital
Variation: Occipital cortex
Variation: Lobus occipitalis

External databases

MeSH UID: D009778
BrainInfo: 122
Wikipedia: Occipital lobe

Taxonomy

ParentsSiblingsChildren
Cerebral Cortex
  Cuneus
Brodmann area 17
Brodmann area 18
Lingual gyrus
Left occipital lobe
Right occipital lobe
Calcarine sulcus
Superior occipital
Middle occipital
Inferior occipital
Medial occipital
Striate cortex
Parieto-occipital sulcus
Brodmann area 19
Economo-Koskinas area OA
Economo-Koskinas area OB
Economo-Koskinas area OC
Prestriate cortex

Talairach coordinates

  x     y     z   Lobar anatomy WOBIB WOEXP
16 -78 4 Right occipital lobe 10 23
-24 -85 8 Left occipital lobe 10 23
-22 -80 -3 Left occipital lobe 26 88
14 -92 12 Occipital lobe, excluding posterior fusiform gyri 30 101
28 -82 39 Right occipital lobe 174 533

Summary

  x     y     z   Description
-23 -82 3 Mean coordinate in left hemisphere
19 -84 18 Mean coordinate in right hemisphere
21 -83 12 Mean coordinate with ignored left/right
14 -92 -3 Minimum coordinate with ignored left/right
28 -78 39 Maximum coordinate with ignored left/right
6 6 16 Standard deviation with ignored left/right
corner cube of WOROI: 26 - Occipital lobe

Text contexts

Multiple regions in the occipital lobe, inferior temporal cortex, superior parietal cortex and cerebellum were involved in the reading of mirror-reversed compared to normally oriented textRussell A. Poldrack; John E. Desmond; Gary H. Glover; John D. E. Gabrieli. The neural basis of visual skill learning: an fMRI study of mirror reading. Cerebral Cortex 8(1):1-10, 1998. PMID: 9510380. WOBIB: 15.
In addition to the temporal lobe activations, there were activation tendencies in the left inferior frontal lobe, right dorsolateral prefrontal cortex, left occipital lobe, and cerebellumK. Hugdahl; K. Bronnick; S. Kyllingsbaek; I. Law; Anders Gade; Olaf B. Paulson. Brain activation during dichotic presentations of consonant-vowel and musical instrument stimuli: a 15O-PET study. Neuropsychologia 37(4):431-40, 1999. PMID: 10215090. WOBIB: 26.
Stimulus degradation was associated with focal increases in bilateral fusiform regions within the occipital lobeTerry L. Jernigan; A. L. Ostergaard; Ian Law; Claus Svarer; Christian Gerlach; O. B. Paulson. Brain activation during word identification and word recognition. NeuroImage 8(1):93-105, 1998. PMID: 9698579. WOBIB: 35.
During sleep there was a relative flow increase in the occipital lobes and a relative flow decrease in the bilateral cerebellum, the bilateral posterior parietal cortex, the right premotor cortex and the left thalamusTroels W. Kjaer; Ian Law; Gordon Wiltschiotz; Olaf B. Paulson; Peter L. Madsen. Regional cerebral blood flow during light sleep--a H(2)(15)O-PET study. Journal of Sleep Research 11(3):201-207, 2002. PMID: 12220315. WOBIB: 124.

Text count

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