WOBIB: 33 - Grossman, et al. (2000) Brain areas involve ...
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E. Grossman; M. Donnelly; R. Price; D. Pickens; V. Morgan; G. Neighbor; R. Blake. Brain areas involved in perception of biological motion. Journal of Cognitive Neuroscience 12(5):711-20, 2000. PMID: 11054914. WOBIB: 33.

These experiments use functional magnetic resonance imaging (fMRI) to reveal neural activity uniquely associated with perception of biological motion. We isolated brain areas activated during the viewing of point-light figures, then compared those areas to regions known to be involved in coherent-motion perception and kinetic-boundary perception. Coherent motion activated a region matching previous reports of human MT/MST complex located on the temporo-parieto-occipital junction. Kinetic boundaries activated a region posterior and adjacent to human MT previously identified as the kinetic-occipital (KO) region or the lateral-occipital (LO) complex. The pattern of activation during viewing of biological motion was located within a small region on the ventral bank of the occipital extent of the superior-temporal sulcus (STS). This region is located lateral and anterior to human MT/MST, and anterior to KO. Among our observers, we localized this region more frequently in the right hemisphere than in the left. This was true regardless of whether the point-light figures were presented in the right or left hemifield. A small region in the medial cerebellum was also active when observers viewed biological-motion sequences. Consistent with earlier neuroimaging and single-unit studies, this pattern of results points to the existence of neural mechanisms specialized for analysis of the kinematics defining biological motion.

Asymmetry: 0.00000 (left: -1, right: +1)

VRML2 file (64 Kb)

1 Biological visual motion. Biological motion of dots versus scrambled motion of dots. WOEXP: 111.
2 Coherent visual motion. Coherent visual motion of dots versus static display of dots. WOEXP: 112.
3 Kinetic boundaries. Visual motion of dots with boundaries versus coherent visual motion of dots. WOEXP: 113.

corner cube of WOBIB_33

Related - positive correlated volumes

+1: 1.00000 E. Grossman; M. Donnelly; R. Price; D. Pickens; V. Morgan; G. Neighbor; R. Blake. Brain areas involved in perception of biological motion. Journal of Cognitive Neuroscience 12(5):711-20, 2000. PMID: 11054914. WOBIB: 33.

+2: 0.54281 Mikkel Wallentin; Torben Ellegaard Lund; Svend Østergaard; Leif Østergaard; Andreas Roepstorff. Motion verb sentences activate left posterior middle temporal cortex despite static context. NeuroReport 16(5):649-652, 2005. PMID: 15812326. FMRIDCID: . WOBIB: 175.

+3: 0.53229 Gene E. Alexander; Kewei Chen; Pietro Pietrini; Stanley I. Rapoport; Eric M. Reiman. Longitudinal PET Evaluation of Cerebral Metabolic Decline in Dementia: A Potential Outcome Measure in Alzheimer's Disease Treatment Studies. American Journal of Psychiatry 159(5):738-45, 2002. PMID: 11986126. WOBIB: 91.

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+5: 0.46668 Gemma A. Calvert; Michael J. Brammer; Edward T. Bullmore; Ruth Campbell; S. D. Iversen; Anthony S. David. Response amplification in sensory-specific cortices during crossmodal binding. NeuroReport 10(12):2619-2623, 1999. PMID: 10574380. FMRIDCID: . WOBIB: 164.

+6: 0.42770 A. T. Smith; M. W. Greenlee; K. D. Singh; F. M. Kraemer; J. Hennig. The processing of first- and second-order motion in human visual cortex assessed by functional magnetic resonance imaging (fMRI). Journal of Neuroscience 18(10):3816-30, 1998. PMID: 9570811. WOBIB: 53.

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+8: 0.40030 Christian Büchel; Oliver Josephs; Geraint Rees; R. Turner; C. D. Frith; Karl J. Friston. The functional anatomy of attention to visual motion. A functional MRI study. Brain 121 ( Pt 7):1281-94, 1998. PMID: 9679780. WOBIB: 24.

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+22: 0.30830 Semir Zeki; R. J. Perry; A. Bartels. The processing of kinetic contours in the brain. Cerebral Cortex 13(2):189-202, 2003. PMID: 12507950. WOBIB: 52.

+23: 0.30071 Christian Gerlach; C. T. Aaside; G. W. Humphreys; Anders Gade; O. B. Paulson; I. Law. Brain activity related to integrative processes in visual object recognition: bottom-up integration and the modulatory influence of stored knowledge. Neuropsychologia 40(8):1254-67, 2002. PMID: 11931928. WOBIB: 7.

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Antirelated - negatively correlated volumes

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-2: 0.00000 E. A. Phelps; F. Hyder; A. M. Blamire; R. G. Shulman. FMRI of the prefrontal cortex during overt verbal fluency. NeuroReport 8(2):561-5, 1997. PMID: 9080448. WOBIB: 12.

-3: 0.00000 F. Hyder; E. A. Phelps; C. J. Wiggins; K. S. Labar; A. M. Blamire; R. G. Shulman. "Willed action": a functional MRI study of the human prefrontal cortex during a sensorimotor task. Proc Natl Acad Sci U S A 94(13):6989-6994, 1997. PMID: 9192679. WOBIB: 6.

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-5: 0.00000 Noam Sobel; V. Prabhakaran; John E. Desmond; Gary H. Glover; R. L. Goode; Edith V. Sullivan; John D. E. Gabrieli. Sniffing and smelling: separate subsystems in the human olfactory cortex. Nature 392(6673):282-286, 1998. PMID: 9521322. DOI: 10.1038/32654. FMRIDCID: . WOBIB: 162.

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