Cytoarchitectonic mapping of attentional selection and reorienting in parietal cortex

NeuroImage

Volumn 67, Issue , 2013, Pages 257-272

  Gillebert, Céline R ^a   Mantini, Dante ^b   Peeters, Ronald ^c   Dupont, Patrick ^a   Vandenberghe, Rik ^a,c  

^a UNIVERSITY OF LEUVEN   (Belgium)

^b KU LEUVEN UNIVERSITY OF LEUVEN   (Belgium)

^c UNIVERSITY HOSPITALS LEUVEN   (Belgium)

Author keywords

Biased competition; Intraparietal sulcus; Invalidity; Spatial cueing; Temporoparietal junction

Indexed keywords

ADULT; ARTICLE; ASSOCIATION; BRAIN FUNCTION; BRAIN MAPPING; COMPETITION; CONNECTOME; CONTROLLED STUDY; CYTOARCHITECTONIC MAPPING; FEMALE; FUNCTIONAL MAGNETIC RESONANCE IMAGING; HUMAN; HUMAN EXPERIMENT; MALE; MENTAL TASK; NORMAL HUMAN; PARIETAL CORTEX; PRIORITY JOURNAL; REORIENTATION; SELECTIVE ATTENTION; SENSORY STIMULATION; SPATIAL ORIENTATION; TASK PERFORMANCE; VISUAL FIELD;

ADULT; ATTENTION; BRAIN MAPPING; FEMALE; HUMANS; MALE; NERVE NET; ORIENTATION; PARIETAL LOBE; SPACE PERCEPTION; YOUNG ADULT;

EID: 84871364272     PISSN: 10538119     EISSN: 10959572     Source Type: Journal    
DOI: 10.1016/j.neuroimage.2012.11.026     Document Type: Article

References (106)

1. Amunts K., Zilles K. Advances in cytoarchitectonic mapping of the human cerebral cortex. Neuroimaging Clin. N. Am. 2001, 11:151-169.
2. Arrington C.M., Carr T.H., Mayer A.R., Rao S.M. Neural mechanisms of visual attention: object-based selection of a region in space. J. Cogn. Neurosci. 2000, 12:106-117.
3. Ashburner J., Friston K.J. Unified segmentation. NeuroImage 2005, 26:839-851.
4. Bays P.M., Singh-Curry V., Gorgoraptis N., Driver J., Husain M. Integration of goal- and stimulus-related visual signals revealed by damage to human parietal cortex. J. Neurosci. Lett. 2010, 30:5968-5978.
5. Beckmann C.F., DeLuca M., Devlin J.T., Smith S.M. Investigations into resting-state connectivity using independent component analysis. Philos. Trans. R. Soc. Lond. B Biol. Sci. 2005, 360:1001-1013.
6. Binder J.R. Task-induced deactivation and the "resting" state. NeuroImage 2012, 62:1086-1091.
7. Bisley J.W., Goldberg M.E. Neuronal activity in the lateral intraparietal area and spatial attention. Science 2003, 299:81-86.
8. Bisley J.W., Goldberg M.E. Attention, intention, and priority in the parietal lobe. Annu. Rev. Neurosci. 2010, 33:1-21.
9. Blatt G.J., Andersen R.A., Stoner G.R. Visual receptive field organization and cortico-cortical connections of the lateral intraparietal area (area LIP) in the macaque. J. Comp. Neurol. 1990, 299:421-445.
10. Bressler D.W., Silver M.A. Spatial attention improves reliability of fMRI retinotopic mapping signals in occipital and parietal cortex. NeuroImage 2010, 53:526-533.
11. Buckner R.L., Andrews-Hanna J.R., Schacter D.L. The brain's default network: anatomy, function, and relevance to disease. Ann. N. Y. Acad. Sci. 2008, 1124:1-38.
12. Bundesen C. A theory of visual attention. Psychol. Rev. 1990, 97:523-547.
13. Caspers S., Geyer S., Schleicher A., Mohlberg H., Amunts K., Zilles K. The human inferior parietal cortex: cytoarchitectonic parcellation and interindividual variability. NeuroImage 2006, 33:430-448.
14. Caspers S., Eickhoff S.B., Geyer S., Scheperjans F., Mohlberg H., Zilles K., Amunts K. The human inferior parietal lobule in stereotaxic space. Brain Struct. Funct. 2008, 212:481-495.
15. Caspers S., Zilles K., Laird A.R., Eickhoff S.B. ALE meta-analysis of action observation and imitation in the human brain. NeuroImage 2010, 50:1148-1167.
16. Caspers S., Eickhoff S.B., Rick T., von Kapri A., Kuhlen T., Huang R., Shah N.J., Zilles K. Probabilistic fibre tract analysis of cytoarchitectonically defined human inferior parietal lobule areas reveals similarities to macaques. NeuroImage 2011, 58:362-380.
17. Choi H.J., Zilles K., Mohlberg H., Schleicher A., Fink G.R., Armstrong E., Amunts K. Cytoarchitectonic identification and probabilistic mapping of two distinct areas within the anterior ventral bank of the human intraparietal sulcus. J. Comp. Neurol. 2006, 495:53-69.
18. Cohen A.L., Fair D.A., Dosenbach N.U.F., Miezin F.M., Dierker D., Van Essen D.C., Schlaggar B.L., Petersen S.E. Defining functional areas in individual human brains using resting functional connectivity MRI. NeuroImage 2008, 41:45-57.
19. Constantinidis C., Steinmetz M.A. Neuronal responses in area 7a to multiple-stimulus displays: I. Neurons encode the location of the salient stimulus. Cereb. Cortex 2001, 11:581-591.
20. Constantinidis C., Steinmetz M.A. Neuronal responses in area 7a to multiple stimulus displays: II. Responses are suppressed at the cued location. Cereb. Cortex 2001, 11:592-597.
21. Corbetta M., Shulman G. Control of goal-directed and stimulus-driven attention in the brain. Nat. Rev. Neurosci. 2002, 3:201-215.
22. Corbetta M., Shulman G.L. Spatial neglect and attention networks. Annu. Rev. Neurosci. 2011, 34:569-599.
23. Corbetta M., Miezin F., Shulman G., Petersen S. A PET study of visuospatial attention. J. Neurosci. 1993, 13:1202-1226.
24. Corbetta M., Kincade J., Ollinger J., Mcavoy M., Shulman G. Voluntary orienting is dissociated from target detection in human posterior parietal cortex. Nat. Neurosci. 2000, 3:292-297.
25. Corbetta M., Kincade M.J., Lewis C.L., Snyder A.Z., Sapir A. Neural basis and recovery of spatial attention deficits in spatial neglect. Nat. Neurosci. 2005, 8:1603-1610.
26. Corbetta M., Patel G., Shulman G.L. The reorienting system of the human brain: from environment to theory of mind. Neuron 2008, 58:306-324.
27. Decety J., Lamm C. The role of the right temporoparietal junction in social interaction: how low-level computational processes contribute to meta-cognition. Neuroscientist 2007, 13:580-593.
28. Desimone R., Duncan J. Neural mechanisms of selective visual attention. Annu. Rev. Neurosci. 1995, 18:193-222.
29. Downar J., Crawley A.P., Mikulis D.J., Davis K.D. A multimodal cortical network for the detection of changes in the sensory environment. Nat. Neurosci. 2000, 3:277-283.
30. Duncan J. The multiple-demand (MD) system of the primate brain: mental programs for intelligent behaviour. Trends Cogn. Sci. 2010, 14:172-179.
31. Ebisch S.J.H., Gallese V., Willems R.M., Mantini D., Groen W.B., Romani G.L., Buitelaar J.K., Bekkering H. Altered intrinsic functional connectivity of anterior and posterior insula regions in high-functioning participants with autism spectrum disorder. Hum. Brain Mapp. 2011, 32:1013-1028.
32. Eickhoff S.B., Stephan K.E., Mohlberg H., Grefkes C., Fink G.R., Amunts K., Zilles K. A new SPM toolbox for combining probabilistic cytoarchitectonic maps and functional imaging data. NeuroImage 2005, 25:1325-1335.
33. Eickhoff S.B., Heim S., Zilles K., Amunts K. Testing anatomically specified hypotheses in functional imaging using cytoarchitectonic maps. NeuroImage 2006, 32:570-582.
34. Eickhoff S.B., Paus T., Caspers S., Grosbras M.H., Evans A.C., Zilles K., Amunts K. Assignment of functional activations to probabilistic cytoarchitectonic areas revisited. NeuroImage 2007, 36:511-521.
35. Everitt B.S., Landau S., Leese M. Cluster Analysis 2001, Hodder Arnold, London.
36. Felleman D.J., Van Essen D.C. Distributed hierarchical processing in the primate cerebral cortex. Cereb. Cortex 1991, 1:1-47.
37. Fox M.D., Snyder A.Z., Vincent J.L., Corbetta M., Essen D.C.V., Raichle M.E. The human brain is intrinsically organized into dynamic, anticorrelated functional networks. Proc. Natl. Acad. Sci. U. S. A. 2005, 102:9673-9678.
38. Fox M.D., Corbetta M., Snyder A.Z., Vincent J.L., Raichle M.E. Spontaneous neuronal activity distinguishes human dorsal and ventral attention systems. Proc. Natl. Acad. Sci. U. S. A. 2006, 103:10046-10051.
39. Giesbrecht B., Woldorff M.G., Song A.W., Mangun G.R. Neural mechanisms of top-down control during spatial and feature attention. NeuroImage 2003, 19:496-512.
40. Gillebert C.R., Mantini D., Thijs V., Sunaert S., Dupont P., Vandenberghe R. Lesion evidence for the critical role of the intraparietal sulcus in spatial attention. Brain 2011, 134:1694-1709.
41. Gillebert C.R., Dyrholm M., Vangkilde S., Kyllingsbæk S., Peeters R., Vandenberghe R. Attentional priorities and access to short-term memory: parietal interactions. NeuroImage 2012, 62:1551-1562.
42. Gillebert C.R., Caspari N., Wagemans J., Peeters R., Dupont P., Vandenberghe R. Spatial stimulus configuration and attentional selection: extrastriate and superior parietal interactions. Cereb Cortex 2012, 10.1093/cercor/bhs263.
43. Grefkes C., Fink G. The functional organization of the intraparietal sulcus in humans and monkeys. J. Anat. 2005, 207:3-17.
44. Gregoriou G.G., Borra E., Matelli M., Luppino G. Architectonic organization of the inferior parietal convexity of the macaque monkey. J. Comp. Neurol. 2006, 496:422-451.
45. Greicius M.D., Krasnow B., Reiss A.L., Menon V. Functional connectivity in the resting brain: a network analysis of the default mode hypothesis. Proc. Natl. Acad. Sci. U. S. A. 2003, 100:253-258.
46. Hayes D.J., Huxtable A.G. Interpreting deactivations in neuroimaging. Front. Psychol. 2012, 3:27.
47. Hopfinger J.B., Buonocore M.H., Mangun G.R. The neural mechanisms of top-down attentional control. Nat. Neurosci. 2000, 3:284-291.
48. Juch H., Zimine I., Seghier M.L., Lazeyras F., Fasel J.H.D. Anatomical variability of the lateral frontal lobe surface: implication for intersubject variability in language neuroimaging. NeuroImage 2005, 24:504-514.
49. Kastner S., Pinsk M.A., Weerd P.D., Desimone R., Ungerleider L.G. Increased activity in human visual cortex during directed attention in the absence of visual stimulation. Neuron 1999, 22:751-761.
50. Kelley T.A., Serences J.T., Giesbrecht B., Yantis S. Cortical mechanisms for shifting and holding visuospatial attention. Cereb. Cortex 2008, 18:114-125.
51. Kim Y.H., Gitelman D.R., Nobre A.C., Parrish T.B., LaBar K.S., Mesulam M.M. The large-scale neural network for spatial attention displays multifunctional overlap but differential asymmetry. NeuroImage 1999, 9:269-277.
52. Kincade J.M., Abrams R.A., Astafiev S.V., Shulman G.L., Corbetta M. An event-related functional magnetic resonance imaging study of voluntary and stimulus-driven orienting of attention. J. Neurosci. 2005, 25:4593-4604.
53. Lachaux J.P., Jung J., Mainy N., Dreher J.C., Bertrand O., Baciu M., Minotti L., Hoffmann D., Kahane P. Silence is golden: transient neural deactivation in the prefrontal cortex during attentive reading. Cereb. Cortex 2008, 18:443-450.
54. Liu Y., Yttri E.A., Snyder L.H. Intention and attention: different functional roles for LIPd and LIPv. Nat. Neurosci. 2010, 13:495-500.
55. MacMillan N., Creelman C. Detection Theory: A User's Guide 1991, Cambridge University Press, Cambridge, UK.
56. Mantini D., Vanduffel W. Emerging roles of the brain's default network. Neuroscientist 2013, 19:76-87.
57. Mantini D., Perrucci M.G., Gratta C.D., Romani G.L., Corbetta M. Electrophysiological signatures of resting state networks in the human brain. Proc. Natl. Acad. Sci. U. S. A. 2007, 104:13170-13175.
58. Mantini D., Gerits A., Nelissen K., Durand J.B., Joly O., Simone L., Sawamura H., Wardak C., Orban G.A., Buckner R.L., Vanduffel W. Default mode of brain function in monkeys. J. Neurosci. 2011, 31:12954-12962.
59. Mantini D., Hasson U., Betti V., Perrucci M.G., Romani G.L., Corbetta M., Orban G.A., Vanduffel W. Interspecies activity correlations reveal functional correspondence between monkey and human brain areas. Nat. Methods 2012, 9:277-282.
60. Mars R.B., Jbabdi S., Sallet J., O'Reilly J.X., Croxson P.L., Olivier E., Noonan M.P., Bergmann C., Mitchell A.S., Baxter M.G., Behrens T.E.J., Johansen-Berg H., Tomassini V., Miller K.L., Rushworth M.F.S. Diffusion-weighted imaging tractography-based parcellation of the human parietal cortex and comparison with human and macaque resting-state functional connectivity. J. Neurosci. 2011, 31:4087-4100.
61. Mars R.B., Sallet J., Schüffelgen U., Jbabdi S., Toni I., Rushworth M.F.S. Connectivity-based subdivisions of the human right "temporoparietal junction area": evidence for different areas participating in different cortical networks. Cereb. Cortex 2012, 22:1894-1903.
62. McKiernan K.A., Kaufman J.N., Kucera-Thompson J., Binder J.R. A parametric manipulation of factors affecting task-induced deactivation in functional neuroimaging. J. Cogn. Neurosci. 2003, 15:394-408.
63. Molenberghs P., Mesulam M.M., Peeters R., Vandenberghe R. Re-mapping attentional priorities: differential contribution of superior parietal lobule and intraparietal sulcus. Cereb. Cortex 2007, 17:2703-2712.
64. Molenberghs P., Gillebert C.R., Peeters R., Vandenberghe R. Convergence between lesion-symptom mapping and functional magnetic resonance imaging of spatially selective attention in the intact brain. J. Neurosci. 2008, 28:3359-3373.
65. Nardo D., Santangelo V., Macaluso E. Stimulus-driven orienting of visuo-spatial attention in complex dynamic environments. Neuron 2011, 69:1015-1028.
66. Nelissen N., Pazzaglia M., Vandenbulcke M., Sunaert S., Fannes K., Dupont P., Aglioti S.M., Vandenberghe R. Gesture discrimination in primary progressive aphasia: the intersection between gesture and language processing pathways. J. Neurosci. 2010, 30:6334-6341.
67. Nelson S.M., Cohen A.L., Power J.D., Wig G.S., Miezin F.M., Wheeler M.E., Velanova K., Donaldson D.I., Phillips J.S., Schlaggar B.L., Petersen S.E. A parcellation scheme for human left lateral parietal cortex. Neuron 2010, 67:156-170.
68. Nobre A.C., Sebestyen G.N., Gitelman D.R., Mesulam M.M., Frackowiak R.S., Frith C.D. Functional localization of the system for visuospatial attention using positron emission tomography. Brain 1997, 120:515-533.
69. Orban G.A., Vanduffel W. Comment on Devlin and Poldrack. NeuroImage 2007, 37:1057-1058.
70. Orban G.A., Claeys K., Nelissen K., Smans R., Sunaert S., Todd J.T., Wardak C., Durand J.B., Vanduffel W. Mapping the parietal cortex of human and non-human primates. Neuropsychologia 2006, 44:2647-2667.
71. Petrides M., Pandya D. Projections to the frontal cortex from the posterior parietal region in the rhesus monkey. J. Comp. Neurol. 1984, 228:105-116.
72. Posner M.I. Cognitive Neuroscience of Attention 2012, The Guilford Press, New York/London.
73. Posner M.I., Snyder C.R., Davidson B.J. Attention and the detection of signals. J. Exp. Psychol. 1980, 109:160-174.
74. Posner M.I., Walker J.A., Friedrich F.J., Rafal R.D. Effects of parietal injury on covert orienting of attention. J. Neurosci. 1984, 4:1863-1874.
75. Pravatà E., Sestieri C., Mantini D., Briganti C., Colicchio G., Marra C., Colosimo C., Tartaro A., Romani G.L., Caulo M. Functional connectivity MR imaging of the language network in patients with drug-resistant epilepsy. AJNR. Am. J. Neuroradiol. 2011, 32:532-540.
76. Rafal R. Neglect. The Attentive Brain 1998, 489-525. The MIT Press, Cambridge MA. R. Parasuraman (Ed.).
77. Rizzolatti G., Arbib M.A. Language within our grasp. Trends Neurosci. 1998, 21:188-194.
78. Rosenberg-Lee M., Chang T.T., Young C.B., Wu S., Menon V. Functional dissociations between four basic arithmetic operations in the human posterior parietal cortex: a cytoarchitectonic mapping study. Neuropsychologia 2011, 49:2592-2608.
79. Rozzi S., Calzavara R., Belmalih A., Borra E., Gregoriou G.G., Matelli M., Luppino G. Cortical connections of the inferior parietal cortical convexity of the macaque monkey. Cereb. Cortex 2006, 16:1389-1417.
80. Rushworth M.F.S., Behrens T.E.J., Johansen-Berg H. Connection patterns distinguish 3 regions of human parietal cortex. Cereb. Cortex 2006, 16:1418-1430.
81. Scheperjans F., Eickhoff S.B., Höke L., Mohlberg H., Hermann K., Amunts K., Zilles K. Probabilistic maps, morphometry, and variability of cytoarchitectonic areas in the human superior parietal cortex. Cereb. Cortex 2008, 18:2141-2157.
82. Scheperjans F., Hermann K., Eickhoff S.B., Amunts K., Schleicher A., Zilles K. Observer-independent cytoarchitectonic mapping of the human superior parietal cortex. Cereb. Cortex 2008, 18:846-867.
83. Schleicher A., Amunts K., Geyer S., Morosan P., Zilles K. Observer-independent method for microstructural parcellation of cerebral cortex: a quantitative approach to cytoarchitectonics. NeuroImage 1999, 9:165-177.
84. Seeley W.W., Menon V., Schatzberg A.F., Keller J., Glover G.H., Kenna H., Reiss A.L., Greicius M.D. Dissociable intrinsic connectivity networks for salience processing and executive control. J. Neurosci. 2007, 27:2349-2356.
85. Seghier M.L., Lazeyras F., Pegna A.J., Annoni J.M., Khateb A. Group analysis and the subject factor in functional magnetic resonance imaging: analysis of fifty right-handed healthy subjects in a semantic language task. Hum. Brain Mapp. 2008, 29:461-477.
86. Sereno M.I., Pitzalis S., Martinez A. Mapping of contralateral space in retinotopic coordinates by a parietal cortical area in humans. Science 2001, 294:1350-1354.
87. Shulman G.L., Astafiev S.V., McAvoy M.P., d'Avossa G., Corbetta M. Right TPJ deactivation during visual search: functional significance and support for a filter hypothesis. Cereb. Cortex 2007, 17:2625-2633.
88. Silver M.A., Kastner S. Topographic maps in human frontal and parietal cortex. Trends Cogn. Sci. 2009, 13:488-495.
89. Silver M.A., Ress D., Heeger D.J. Topographic maps of visual spatial attention in human parietal cortex. J. Neurophysiol. 2005, 94:1358-1371.
90. Skudlarski P., Jagannathan K., Calhoun V.D., Hampson M., Skudlarska B.A., Pearlson G. Measuring brain connectivity: diffusion tensor imaging validates resting state temporal correlations. NeuroImage 2008, 43:554-561.
91. Slotnick S.D., Schwarzbach J., Yantis S. Attentional inhibition of visual processing in human striate and extrastriate cortex. NeuroImage 2003, 19:1602-1611.
92. Swisher J.D., Halko M.A., Merabet L.B., McMains S.A., Somers D.C. Visual topography of human intraparietal sulcus. J. Neurosci. 2007, 27:5326-5337.
93. Uddin L.Q., Supekar K., Amin H., Rykhlevskaia E., Nguyen D.A., Greicius M.D., Menon V. Dissociable connectivity within human angular gyrus and intraparietal sulcus: evidence from functional and structural connectivity. Cereb. Cortex 2010, 20:2636-2646.
94. Van Essen D.C. A Population-Average, Landmark- and Surface-based (PALS) atlas of human cerebral cortex. NeuroImage 2005, 28:635-662.
95. Van Essen D.C., Dierker D.L. Surface-based and probabilistic atlases of primate cerebral cortex. Neuron 2007, 56:209-225.
96. Vandenberghe R., Gillebert C.R. Parcellation of parietal cortex: convergence between lesion-symptom mapping and mapping of the intact functioning brain. Behav. Brain Res. 2009, 199:171-182.
97. Vandenberghe R., Gitelman D.R., Parrish T.B., Mesulam M.M. Functional specificity of superior parietal mediation of spatial shifting. NeuroImage 2001, 14:661-673.
98. Vandenberghe R., Geeraerts S., Molenberghs P., Lafosse C., Vandenbulcke M., Peeters K., Peeters R., Hecke P.V., Orban G. Attentional responses to unattended stimuli in human parietal cortex. Brain 2005, 128:2843-2857.
99. Vandenberghe R., Molenberghs P., Gillebert C.R. Spatial attention deficits in humans: the critical role of superior compared to inferior parietal lesions. Neuropsychologia 2012, 50:1091-1103.
100. Vossel S., Thiel C.M., Fink G.R. Cue validity modulates the neural correlates of covert endogenous orienting of attention in parietal and frontal cortex. NeuroImage 2006, 32:1257-1264.
101. Wager T.D., Nichols T.E. Optimization of experimental design in fMRI: a general framework using a genetic algorithm. NeuroImage 2003, 18:293-309.
102. Wandell B., Dumoulin S., Brewer A. Visual field maps in human cortex. Neuron 2007, 56:366-383.
103. Woldorff M.G., Hazlett C.J., Fichtenholtz H.M., Weissman D.H., Dale A.M., Song A.W. Functional parcellation of attentional control regions of the brain. J. Cogn. Neurosci. 2004, 16:149-165.
104. Wu S.S., Chang T.T., Majid A., Caspers S., Eickhoff S.B., Menon V. Functional heterogeneity of inferior parietal cortex during mathematical cognition assessed with cytoarchitectonic probability maps. Cereb. Cortex 2009, 19:2930-2945.
105. Yantis S., Schwarzbach J., Serences J.T., Carlson R.L., Steinmetz M.A., Pekar J., Courtney S.M. Transient neural activity in human parietal cortex during spatial attention shifts. Nat. Neurosci. 2002, 5:995-1003.
106. Zilles K., Schleicher A., Palomero-Gallagher N., Amunts K. Quantitative analysis of cyto- and receptor architecture of the human brain. Brain Mapping, the Methods 2002, 573-602. Elsevier. J. Mazziotta, A. Toga (Eds.).