Convergent functional architecture of the superior parietal lobule unraveled with multimodal neuroimaging approaches

Human Brain Mapping

Volumn 36, Issue 1, 2015, Pages 238-257

  Wang, Jiaojian ^a   Yang, Yong ^b   Fan, Lingzhong ^b   Xu, Jinping ^a   Li, Changhai ^a   Liu, Yong ^b   Fox, Peter T ^c   Eickhoff, Simon B ^d,e   Yu, Chunshui ^f   Jiang, Tianzi ^a,b,g  

^a UNIVERSITY OF ELECTRONIC SCIENCE AND TECHNOLOGY OF CHINA   (China)

^b INSTITUTE OF AUTOMATION   (China)

^c UNIVERSITY OF TEXAS HEALTH SCIENCE CENTER AT SAN ANTONIO   (United States)

^d FORSCHUNGSZENTRUM JÜLICH   (Germany)

^e HEINRICH HEINE UNIVERSITY   (Germany)

^f TIANJIN MEDICAL UNIVERSITY   (China)

^g UNIVERSITY OF QUEENSLAND   (Australia)

Author keywords

Behavioral domains analyses; Coactivation; Functional connectivity; Parcellation; Structural connectivity

Indexed keywords

ADOLESCENT; BRAIN MAPPING; FEMALE; HUMAN; MALE; NERVE CELL NETWORK; NERVE TRACT; NEUROIMAGING; PARIETAL LOBE; PHYSIOLOGY; REST; VASCULARIZATION; YOUNG ADULT;

ADOLESCENT; BRAIN MAPPING; FEMALE; HUMANS; MALE; NERVE NET; NEURAL PATHWAYS; NEUROIMAGING; PARIETAL LOBE; REST; YOUNG ADULT;

EID: 84916600827     PISSN: 10659471     EISSN: 10970193     Source Type: Journal    
DOI: 10.1002/hbm.22626     Document Type: Article

References (89)

1. Anwander A, Tittgemeyer M, von Cramon DY, Friederici AD, Knosche TR (2007): Connectivity-based parcellation of Broca's area. Cereb Cortex 17:816-825.
2. Barnes KA, Nelson SM, Cohen AL, Power JD, Coalson RS, Miezin FM, Vogel AC, Dubis JW, Church JA, Petersen SE, Schlaggar BL (2012): Parcellation in left lateral parietal cortex is similar in adults and children. Cereb Cortex 22:1148-1158.
3. Battaglia-Mayer A, Caminiti R (2002): Optic ataxia as a result of the breakdown of the global tuning fields of parietal neurones. Brain 125:225-237.
4. Behrens TE, Johansen-Berg H, Woolrich MW, Smith SM, Wheeler-Kingshott CA, Boulby PA, Barker GJ, Sillery EL, Sheehan K, Ciccarelli O, Thompson AJ, Brady JM, Matthews PM (2003): Non-invasive mapping of connections between human thalamus and cortex using diffusion imaging. Nat Neurosci 6:750-757.
5. Behrens TE, Berg HJ, Jbabdi S, Rushworth MF, Woolrich MW (2007): Probabilistic diffusion tractography with multiple fibre orientations: What can we gain? NeuroImage 34:144-155.
6. Brodmann K (1909): Vergleichende Lokalisationslehre der Groβhirnrinde-in ihren Prinzipien dargestellt auf Grund des Zellenbaues. Leipzig (Germany): Verlag von Johann Ambrosius Barth.
7. Buccino G, Binkofski F, Fink GR, Fadiga L, Fogassi L, Gallese V, Seitz RJ, Zilles K, Rizzolatti G, Freund HJ (2001): Action observation activates premotor and parietal areas in a somatotopic manner: An fMRI study. Eur J Neurosci 13:400-404.
8. Bzdok D, Laird AR, Zilles K, Fox PT, Eickhoff SB (2013a): An investigation of the structural, connectional, and functional subspecialization in the human amygdala. Hum Brain Mapp 34:3247-3266.
9. Bzdok D, Langner R, Schilbach L, Jakobs O, Roski C, Caspers S, Laird AR, Fox PT, Zilles K, Eickhoff SB (2013b): Characterization of the temporo-parietal junction by combining data-driven parcellation, complementary connectivity analyses, and functional decoding. NeuroImage 81:381-392.
10. Calvo-Merino B, Glaser DE, Grezes J, Passingham RE, Haggard P (2005): Action observation and acquired motor skills: An FMRI study with expert dancers. Cereb cortex 15:1243-1249.
11. Calvo-Merino B, Grezes J, Glaser DE, Passingham RE, Haggard P (2006): Seeing or doing? Influence of visual and motor familiarity in action observation. Curr Biol 16:1905-1910.
12. Caminiti R, Ferraina S, Johnson PB (1996): The sources of visual information to the primate frontal lobe: A novel role for the superior parietal lobule. Cereb Cortex 6:319-328.
13. Caspers S, Zilles K, Laird AR, Eickhoff SB (2010): ALE meta-analysis of action observation and imitation in the human brain. NeuroImage 50:1148-1167.
14. Cauda F, Costa T, Torta DM, Sacco K, D'Agata F, Duca S, Geminiani G, Fox PT, Vercelli A (2012): Meta-analytic clustering of the insular cortex: Characterizing the meta-analytic connectivity of the insula when involved in active tasks. NeuroImage 62:343-355.
15. Cieslik EC, Zilles K, Caspers S, Roski C, Kellermann TS, Jakobs O, Langner R, Laird AR, Fox PT, Eickhoff SB (2013): Is there "one" DLPFC in cognitive action control? Evidence for heterogeneity from co-activation-based parcellation. Cereb Cortex 23:2677-2689.
16. Clos M, Amunts K, Laird AR, Fox PT, Eickhoff SB (2013): Tackling the multifunctional nature of Broca's region meta-analytically: Co-activation-based parcellation of area 44. NeuroImage 83:174-188.
17. Cohen AL, Fair DA, Dosenbach NU, Miezin FM, Dierker D, Van Essen DC, Schlaggar BL, Petersen SE (2008): Defining functional areas in individual human brains using resting functional connectivity MRI. NeuroImage 41:45-57.
18. Corbetta M, Miezin FM, Shulman GL, Petersen SE (1993): A PET study of visuospatial attention. J Neurosci 13:1202-1226.
19. Corbetta M, Shulman GL, Miezin FM, Petersen SE (1995): Superior parietal cortex activation during spatial attention shifts and visual feature conjunction. Science 270:802-805.
20. Culham JC, Valyear KF (2006): Human parietal cortex in action. Curr Opin Neurobiol 16:205-212.
21. Culham JC, Cavina-Pratesi C, Singhal A (2006): The role of parietal cortex in visuomotor control: What have we learned from neuroimaging? Neuropsychologia 44:2668-2684.
22. Damoiseaux JS, Greicius MD (2009): Greater than the sum of its parts: A review of studies combining structural connectivity and resting-state functional connectivity. Brain Struct Funct 213:525-533.
23. Deco G, Corbetta M (2011): The dynamical balance of the brain at rest. Neuroscientist 17:107-123.
24. Deco G, Ponce-Alvarez A, Mantini D, Romani GL, Hagmann P, Corbetta M (2013): Resting-state functional connectivity emerges from structurally and dynamically shaped slow linear fluctuations. J Neurosci 33:11239-11252.
25. Dice LR (1945): Measures of the amount of ecologic association between species. Ecology 26:297-302.
26. Eickhoff SB, Grefkes C (2011): Approaches for the integrated analysis of structure, function and connectivity of the human brain. Clin EEG Neurosci 42:107-121.
27. Eickhoff SB, Stephan KE, Mohlberg H, Grefkes C, Fink GR, Amunts K, Zilles K (2005): A new SPM toolbox for combining probabilistic cytoarchitectonic maps and functional imaging data. NeuroImage 25:1325-1335.
28. Eickhoff SB, Laird AR, Grefkes C, Wang LE, Zilles K, Fox PT (2009): Coordinate-based activation likelihood estimation meta-analysis of neuroimaging data: A random-effects approach based on empirical estimates of spatial uncertainty. Hum Brain Mapp 30:2907-2926.
29. Eickhoff SB, Jbabdi S, Caspers S, Laird AR, Fox PT, Zilles K, Behrens TE (2010): Anatomical and functional connectivity of cytoarchitectonic areas within the human parietal operculum. J Neurosci 30:6409-6421.
30. Eickhoff SB, Bzdok D, Laird AR, Roski C, Caspers S, Zilles K, Fox PT (2011): Co-activation patterns distinguish cortical modules, their connectivity and functional differentiation. NeuroImage 57:938-949.
31. Eickhoff SB, Bzdok D, Laird AR, Kurth F, Fox PT (2012): Activation likelihood estimation meta-analysis revisited. NeuroImage 59:2349-2361.
32. Fan L, Wang J, Zhang Y, Han W, Yu C, Jiang T (2013): Connectivity-Based Parcellation of the Human Temporal Pole Using Diffusion Tensor Imaging. Cerebral cortex (in press).
33. Gilbert CD, Li W (2013): Top-down influences on visual processing. Nature reviews. Neuroscience 14:350-363.
34. Goel V, Dolan RJ (2003): Explaining modulation of reasoning by belief. Cognition 87:B11-B22.
35. Greicius MD, Supekar K, Menon V, Dougherty RF (2009): Resting-state functional connectivity reflects structural connectivity in the default mode network. Cereb Cortex 19:72-78.
36. Hagmann P, Cammoun L, Gigandet X, Meuli R, Honey CJ, Wedeen VJ, Sporns O (2008): Mapping the structural core of human cerebral cortex. PLoS Biol 6:e159.
37. Heiervang E, Behrens TE, Mackay CE, Robson MD, Johansen-Berg H (2006): Between session reproducibility and between subject variability of diffusion MR and tractography measures. NeuroImage 33:867-877.
38. Honey CJ, Sporns O, Cammoun L, Gigandet X, Thiran JP, Meuli R, Hagmann P (2009): Predicting human resting-state functional connectivity from structural connectivity. Proc Natl Acad Sci USA 106:2035-2040.
39. Iacoboni M (2006): Visuo-motor integration and control in the human posterior parietal cortex: Evidence from TMS and fMRI. Neuropsychologia 44:2691-2699.
40. Jakobs O, Langner R, Caspers S, Roski C, Cieslik EC, Zilles K, Laird AR, Fox PT, Eickhoff SB (2012): Across-study and within-subject functional connectivity of a right temporo-parietal junction subregion involved in stimulus-context integration. NeuroImage 60:2389-2398.
41. Johansen-Berg H, Behrens TE, Robson MD, Drobnjak I, Rushworth MF, Brady JM, Smith SM, Higham DJ, Matthews PM (2004): Changes in connectivity profiles define functionally distinct regions in human medial frontal cortex. Proc Natl Acad Sci USA 101:13335-13340.
42. Johansen-Berg H, Della-Maggiore V, Behrens TE, Smith SM, Paus T (2007): Integrity of white matter in the corpus callosum correlates with bimanual co-ordination skills. NeuroImage 36(Suppl 2):T16-T21.
43. Jones EG, Coulter JD, Hendry SH (1978): Intracortical connectivity of architectonic fields in the somatic sensory, motor and parietal cortex of monkeys. J Comp Neurol 181:291-347.
44. Kelly C, Toro R, Di Martino A, Cox CL, Bellec P, Castellanos FX, Milham MP (2012): A convergent functional architecture of the insula emerges across imaging modalities. NeuroImage 61:1129-1142.
45. Kim JH, Lee JM, Jo HJ, Kim SH, Lee JH, Kim ST, Seo SW, Cox RW, Na DL, Kim SI, Saad ZS (2010): Defining functional SMA and pre-SMA subregions in human MFC using resting state fMRI: Functional connectivity-based parcellation method. NeuroImage 49:2375-2386.
46. Koch G, Cercignani M, Bonni S, Giacobbe V, Bucchi G, Versace V, Caltagirone C, Bozzali M (2011): Asymmetry of parietal interhemispheric connections in humans. J Neurosci 31:8967-8975.
47. Lacquaniti F, Guigon E, Bianchi L, Ferraina S, Caminiti R (1995): Representing spatial information for limb movement: Role of area 5 in the monkey. Cereb Cortex 5:391-409.
48. Lacquaniti F, Perani D, Guigon E, Bettinardi V, Carrozzo M, Grassi F, Rossetti Y, Fazio F (1997): Visuomotor transformations for reaching to memorized targets: A PET study. NeuroImage 5:129-146.
49. Laird AR, Eickhoff SB, Kurth F, Fox PM, Uecker AM, Turner JA, Robinson JL, Lancaster JL, Fox PT (2009): ALE Meta-Analysis Workflows Via the Brainmap Database: Progress Towards A Probabilistic Functional Brain Atlas. Front Neuroinform 3:23.
50. Laird AR, Eickhoff SB, Fox PM, Uecker AM, Ray KL, Saenz JJ Jr., McKay DR, Bzdok D, Laird RW, Robinson JL, Turner JA, Turkeltaub PE, Lancaster JL, Fox PT (2011): The BrainMap strategy for standardization, sharing, and meta-analysis of neuroimaging data. BMC Res Notes 4:349.
51. Laird AR, Eickhoff SB, Rottschy C, Bzdok D, Ray KL, Fox PT (2013): Networks of task co-activations. NeuroImage 80:505-14.
52. Lewis CM, Baldassarre A, Committeri G, Romani GL, Corbetta M (2009): Learning sculpts the spontaneous activity of the resting human brain. Proc Natl Acad Sci USA 106:17558-17563.
53. Li W, Qin W, Liu H, Fan L, Wang J, Jiang T, Yu C (2013): Subregions of the human superior frontal gyrus and their connections. NeuroImage 78:46-58.
54. Liu H, Qin W, Li W, Fan L, Wang J, Jiang T, Yu C (2013): Connectivity-based parcellation of the human frontal pole with diffusion tensor imaging. J Neurosci 33:6782-6790.
55. Makris N, Pandya DN (2009): The extreme capsule in humans and rethinking of the language circuitry. Brain Struct Funct 213:343-358.
56. Makris N, Kennedy DN, McInerney S, Sorensen AG, Wang R, Caviness VS Jr., Pandya DN (2005): Segmentation of subcomponents within the superior longitudinal fascicle in humans: A quantitative, in vivo, DT-MRI study. Cereb Cortex 15:854-869.
57. Makuuchi M, Bahlmann J, Anwander A, Friederici AD (2009): Segregating the core computational faculty of human language from working memory. Proc Natl Acad Sci USA 106:8362-8367.
58. Marconi B, Genovesio A, Battaglia-Mayer A, Ferraina S, Squatrito S, Molinari M, Lacquaniti F, Caminiti R (2001): Eye-hand coordination during reaching. I. Anatomical relationships between parietal and frontal cortex. Cereb Cortex 11:513-527.
59. Mars RB, Jbabdi S, Sallet J, O'Reilly JX, Croxson PL, Olivier E, Noonan MP, Bergmann C, Mitchell AS, Baxter MG, Behrens TE, Johansen-Berg H, Tomassini V, Miller KL, Rushworth MF (2011): Diffusion-weighted imaging tractography-based parcellation of the human parietal cortex and comparison with human and macaque resting-state functional connectivity. J Neurosci 31:4087-4100.
60. Mountcastle VB, Lynch JC, Georgopoulos A, Sakata H, Acuna C (1975): Posterior parietal association cortex of the monkey: Command functions for operations within extrapersonal space. J Neurophysiol 38:871-908.
61. Nebel MB, Joel SE, Muschelli J, Barber AD, Caffo BS, Pekar JJ, Mostofsky SH (2012): Disruption of functional organization within the primary motor cortex in children with autism. Hum Brain Mapp 35:567-580.
62. Nee DE, Brown JW, Askren MK, Berman MG, Demiralp E, Krawitz A, Jonides J (2013): A meta-analysis of executive components of working memory. Cereb Cortex 23:264-282.
63. Nelson SM, Cohen AL, Power JD, Wig GS, Miezin FM, Wheeler ME, Velanova K, Donaldson DI, Phillips JS, Schlaggar BL, Petersen SE (2010): A parcellation scheme for human left lateral parietal cortex. Neuron 67:156-170.
64. Pandya DN, Seltzer B (1982): Intrinsic connections and architectonics of posterior parietal cortex in the rhesus monkey. J Comp Neurol 204:196-210.
65. Passingham RE, Stephan KE, Kotter R (2002): The anatomical basis of functional localization in the cortex. Nature reviews. Neuroscience 3:606-616.
66. Robinson JL, Laird AR, Glahn DC, Lovallo WR, Fox PT (2010): Metaanalytic connectivity modeling: Delineating the functional connectivity of the human amygdala. Hum Brain Mapp 31:173-184.
67. Rottschy C, Caspers S, Roski C, Reetz K, Dogan I, Schulz JB, Zilles K, Laird AR, Fox PT, Eickhoff SB (2013): Differentiated parietal connectivity of frontal regions for "what" and "where" memory. Brain Struct Funct 218:1551-1567.
68. Rushworth MF, Paus T, Sipila PK (2001): Attention systems and the organization of the human parietal cortex. J Neurosci 21:5262-5271.
69. Scheperjans F, Grefkes C, Palomero-Gallagher N, Schleicher A, Zilles K (2005a): Subdivisions of human parietal area 5 revealed by quantitative receptor autoradiography: A parietal region between motor, somatosensory, and cingulate cortical areas. NeuroImage 25:975-992.
70. Scheperjans F, Palomero-Gallagher N, Grefkes C, Schleicher A, Zilles K (2005b): Transmitter receptors reveal segregation of cortical areas in the human superior parietal cortex: Relations to visual and somatosensory regions. NeuroImage 28:362-379.
71. Scheperjans F, Eickhoff SB, Homke L, Mohlberg H, Hermann K, Amunts K, Zilles K (2008a): Probabilistic maps, morphometry, and variability of cytoarchitectonic areas in the human superior parietal cortex. Cereb Cortex 18:2141-2157.
72. Scheperjans F, Hermann K, Eickhoff SB, Amunts K, Schleicher A, Zilles K (2008b): Observer-independent cytoarchitectonic mapping of the human superior parietal cortex. Cereb Cortex 18:846-867.
73. Shirer WR, Ryali S, Rykhlevskaia E, Menon V, Greicius MD (2012): Decoding subject-driven cognitive states with whole-brain connectivity patterns. Cereb Cortex 22:158-165.
74. Smith SM, Fox PT, Miller KL, Glahn DC, Fox PM, Mackay CE, Filippini N, Watkins KE, Toro R, Laird AR, Beckmann CF (2009): Correspondence of the brain's functional architecture during activation and rest. Proc Natl Acad Sci USA 106:13040-13045.
75. Stoodley CJ, Valera EM, Schmahmann JD (2012): Functional topography of the cerebellum for motor and cognitive tasks: An fMRI study. NeuroImage 59:1560-1570.
76. Toro R, Fox PT, Paus T (2008): Functional coactivation map of the human brain. Cereb Cortex 18:2553-2559.
77. Turkeltaub PE, Eickhoff SB, Laird AR, Fox M, Wiener M, Fox P (2012): Minimizing within-experiment and within-group effects in Activation Likelihood Estimation meta-analyses. Hum Brain Mapp 33:1-13.
78. Tzourio-Mazoyer N, Landeau B, Papathanassiou D, Crivello F, Etard O, Delcroix N, Mazoyer B, Joliot M (2002): Automated anatomical labeling of activations in SPM using a macroscopic anatomical parcellation of the MNI MRI single-subject brain. NeuroImage 15:273-289.
79. van den Heuvel MP, Hulshoff Pol HE (2010): Exploring the brain network: A review on resting-state fMRI functional connectivity. Eur Neuropsychopharmacol 20:519-534.
80. Vandenberghe R, Gitelman DR, Parrish TB, Mesulam MM (2001): Functional specificity of superior parietal mediation of spatial shifting. NeuroImage 14:661-673.
81. Vingerhoets G, de Lange FP, Vandemaele P, Deblaere K, Achten E (2002): Motor imagery in mental rotation: An fMRI study. NeuroImage 17:1623-1633.
82. Wager TD, Jonides J, Reading S (2004): Neuroimaging studies of shifting attention: A meta-analysis. NeuroImage 22:1679-1693.
83. Wang J, Fan L, Zhang Y, Liu Y, Jiang D, Zhang Y, Yu C, Jiang T (2012): Tractography-based parcellation of the human left inferior parietal lobule. NeuroImage 63:641-652.
84. Weiss PH, Marshall JC, Zilles K, Fink GR (2003): Are action and perception in near and far space additive or interactive factors? NeuroImage 18:837-846.
85. Wenderoth N, Debaere F, Sunaert S, van Hecke P, Swinnen SP (2004): Parieto-premotor areas mediate directional interference during bimanual movements. Cereb Cortex 14:1153-1163.
86. Wolbers T, Weiller C, Buchel C (2003): Contralateral coding of imagined body parts in the superior parietal lobe. Cereb Cortex 13:392-399.
87. Zago L, Tzourio-Mazoyer N (2002): Distinguishing visuospatial working memory and complex mental calculation areas within the parietal lobes. Neurosci Lett 331:45-49.
88. Zhang D, Snyder AZ, Shimony JS, Fox MD, Raichle ME (2010): Noninvasive functional and structural connectivity mapping of the human thalamocortical system. Cereb Cortex 20:1187-1194.
89. Zhang Y, Fan L, Zhang Y, Wang J, Zhu M, Zhang Y, Yu C, Jiang T (2014): Connectivity-based parcellation of the human posteromedial cortex. Cereb Cortex 24:719-727.