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The relationship between spatial attention and saccades in the frontoparietal network of the monkey

Bibliographic reference Wardak, Claire ; Olivier, Etienne ; Duhamel, Jean-René. The relationship between spatial attention and saccades in the frontoparietal network of the monkey. In: European Journal of Neuroscience, Vol. 33, no. 11, p. 1973-1981 (2011)
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  1. Andersen R. A., Asanuma C., Essick G., Siegel R. M., Corticocortical connections of anatomically and physiologically defined subdivisions within the inferior parietal lobule, 10.1002/cne.902960106
  2. Assad John A., Maunsell John H. R., Neuronal correlates of inferred motion in primate posterior parietal cortex, 10.1038/373518a0
  3. Baker J. T., Distribution of Activity Across the Monkey Cerebral Cortical Surface, Thalamus and Midbrain during Rapid, Visually Guided Saccades, 10.1093/cercor/bhi124
  4. Balan P. F, Integration of Exogenous Input into a Dynamic Salience Map Revealed by Perturbing Attention, 10.1523/jneurosci.1898-06.2006
  5. Balan P. F., Gottlieb J., Functional Significance of Nonspatial Information in Monkey Lateral Intraparietal Area, 10.1523/jneurosci.0243-09.2009
  6. Balan Puiu F, Oristaglio Jeff, Schneider David M, Gottlieb Jacqueline, Neuronal Correlates of the Set-Size Effect in Monkey Lateral Intraparietal Area, 10.1371/journal.pbio.0060158
  7. Barash, J. Neurophysiol., 66, 1095 (1991a)
  8. Barash, J. Neurophysiol., 66, 1109 (1991b)
  9. Barbas H., Mesulam M-M., Organization of afferent input to subdivisions of area 8 in the rhesus monkey, 10.1002/cne.902000309
  10. Ben Hamed S., Visual Receptive Field Modulation in the Lateral Intraparietal Area during Attentive Fixation and Free Gaze, 10.1093/cercor/12.3.234
  11. Bisley J. W., Neuronal Activity in the Lateral Intraparietal Area and Spatial Attention, 10.1126/science.1077395
  12. Bisley J. W., Neural Correlates of Attention and Distractibility in the Lateral Intraparietal Area, 10.1152/jn.00848.2005
  13. Blatt Gene J., Andersen Richard A., Stoner Gene R., Visual receptive field organization and cortico-cortical connections of the lateral intraparietal area (area LIP) in the macaque, 10.1002/cne.902990404
  14. Brown Joshua W., Hanes Doug P., Schall Jeffrey D., Stuphorn Veit, Relation of frontal eye field activity to saccade initiation during a countermanding task, 10.1007/s00221-008-1455-0
  15. Bruce, J. Neurophysiol., 53, 603 (1985)
  16. Bruce, J. Neurophysiol., 54, 714 (1985)
  17. Bullier Jean, Schall Jeffrey D., Morel Anne, Functional streams in occipito-frontal connections in the monkey, 10.1016/0166-4328(95)00182-4
  18. Buschman T. J., Miller E. K., Top-Down Versus Bottom-Up Control of Attention in the Prefrontal and Posterior Parietal Cortices, 10.1126/science.1138071
  19. Chafee, J. Neurophysiol., 83, 1550 (2000)
  20. Chelazzi Leonardo, Biscaldi Monica, Corbetta Maurizio, Peru Andrea, Tassinari Giancarlo, Berlucchi Giovanni, Oculomotor activity and visual spatial attention, 10.1016/0166-4328(95)00134-4
  21. Colby, J. Neurophysiol., 76, 2841 (1996)
  22. Corbetta Maurizio, Akbudak Erbil, Conturo Thomas E, Snyder Abraham Z, Ollinger John M, Drury Heather A, Linenweber Martin R, Petersen Steven E, Raichle Marcus E, Van Essen David C, Shulman Gordon L, A Common Network of Functional Areas for Attention and Eye Movements, 10.1016/s0896-6273(00)80593-0
  23. Deubel Heiner, Schneider Werner X., Saccade target selection and object recognition: Evidence for a common attentional mechanism, 10.1016/0042-6989(95)00294-4
  24. Dias, J. Neurophysiol., 81, 2191 (1999)
  25. Dickinson A. R., Nonspatial Saccade-Specific Activation in area LIP of Monkey Parietal Cortex, 10.1152/jn.00788.2002
  26. Ekstrom L. B., Roelfsema P. R., Arsenault J. T., Bonmassar G., Vanduffel W., Bottom-Up Dependent Gating of Frontal Signals in Early Visual Cortex, 10.1126/science.1153276
  27. Felleman D. J., Van Essen D. C., Distributed Hierarchical Processing in the Primate Cerebral Cortex, 10.1093/cercor/1.1.1
  28. Filali-Sadouk Nabil, Similar effect of cueing conditions on attentional and saccadic temporal dynamics, 10.1167/10.4.21
  29. Gerits , A. Wardak , C. Kolster , H. Arsenault , J.T. Orban , G.A. Vanduffel , W. 2009 Behavioral and brain-wide functional consequences of reversible LIP inactivation during visual search Program No. 803.13. 2009 Neuroscience Meeting Planner
  30. Gottlieb Jacqueline, Balan Puiu, Attention as a decision in information space, 10.1016/j.tics.2010.03.001
  31. Gottlieb Jacqueline, Goldberg Michael E., 10.1038/13209
  32. Gottlieb Jacqueline, Snyder Lawrence H., Spatial and non-spatial functions of the parietal cortex, 10.1016/j.conb.2010.09.015
  33. Goldberg Michael E., Gottlieb Jacqueline P., Kusunoki Makoto, 10.1038/35135
  34. Gottlieb J., Simultaneous Representation of Saccade Targets and Visual Onsets in Monkey Lateral Intraparietal Area, 10.1093/cercor/bhi002
  35. de Haan Bianca, Morgan Paul S., Rorden Chris, Covert orienting of attention and overt eye movements activate identical brain regions, 10.1016/j.brainres.2008.01.105
  36. Hanks Timothy D, Ditterich Jochen, Shadlen Michael N, Microstimulation of macaque area LIP affects decision-making in a motion discrimination task, 10.1038/nn1683
  37. Hoffman James E., Subramaniam Baskaran, The role of visual attention in saccadic eye movements, 10.3758/bf03206794
  38. Huerta Michael F., Krubitzer Leah A., Kaas Jon H., Frontal eye field as defined by intracortical microstimulation in squirrel monkeys, owl monkeys, and macaque monkeys: I. Subcortical connections, 10.1002/cne.902530402
  39. Huerta Michael F., Krubitzer Leah A., Kaas Jon H., Frontal eye field as defined by intracortical microstimulation in squirrel monkeys, owl monkeys, and macaque monkeys II. cortical connections, 10.1002/cne.902650304
  40. Ipata A. E., Activity in the Lateral Intraparietal Area Predicts the Goal and Latency of Saccades in a Free-Viewing Visual Search Task, 10.1523/jneurosci.5074-05.2006
  41. Ipata Anna E., Gee Angela L., Bisley James W., Goldberg Michael E., Neurons in the lateral intraparietal area create a priority map by the combination of disparate signals, 10.1007/s00221-008-1557-8
  42. Janssen Peter, Shadlen Michael N, A representation of the hazard rate of elapsed time in macaque area LIP, 10.1038/nn1386
  43. Juan C.-H., Shorter-Jacobi S. M., Schall J. D., Dissociation of spatial attention and saccade preparation, 10.1073/pnas.0403507101
  44. Klein Jeffrey T., Deaner Robert O., Platt Michael L., Neural Correlates of Social Target Value in Macaque Parietal Cortex, 10.1016/j.cub.2008.02.047
  45. Kodaka Yasushi, Mikami Akichika, Kubota Kisou, Neuronal activity in the frontal eye field of the monkey is modulated while attention is focused on to a stimulus in the peripheral visual field, irrespective of eye movement, 10.1016/s0168-0102(97)00055-2
  46. Kowler Eileen, Anderson Eric, Dosher Barbara, Blaser Erik, The role of attention in the programming of saccades, 10.1016/0042-6989(94)00279-u
  47. Koyama Minoru, Hasegawa Isao, Osada Takahiro, Adachi Yusuke, Nakahara Kiyoshi, Miyashita Yasushi, Functional Magnetic Resonance Imaging of Macaque Monkeys Performing Visually Guided Saccade Tasks, 10.1016/s0896-6273(04)00047-9
  48. Leon Matthew I, Shadlen Michael N, Representation of Time by Neurons in the Posterior Parietal Cortex of the Macaque, 10.1016/s0896-6273(03)00185-5
  49. Liu Yuqing, Yttri Eric A, Snyder Lawrence H, Intention and attention: different functional roles for LIPd and LIPv, 10.1038/nn.2496
  50. Lynch J. C., Graybiel A. M., Lobeck L. J., The differential projection of two cytoarchitectonic subregions of the inferior parietal lobule of macaque upon the deep layers of the superior colliculus, 10.1002/cne.902350207
  51. Maimon Gaby, Assad John A, A cognitive signal for the proactive timing of action in macaque LIP, 10.1038/nn1716
  52. Mazzoni, J. Neurophysiol., 76, 1439 (1996)
  53. Monosov Ilya E., Trageser Jason C., Thompson Kirk G., Measurements of Simultaneously Recorded Spiking Activity and Local Field Potentials Suggest that Spatial Selection Emerges in the Frontal Eye Field, 10.1016/j.neuron.2007.12.030
  54. Moore Tirin, Armstrong Katherine M., Selective gating of visual signals by microstimulation of frontal cortex, 10.1038/nature01341
  55. Moore T., Fallah M., Control of eye movements and spatial attention, 10.1073/pnas.98.3.1273
  56. Murthy, J. Neurophysiol., 86, 2634 (2001)
  57. Nobre A.C., Gitelman D.R., Dias E.C., Mesulam M.M., Covert Visual Spatial Orienting and Saccades: Overlapping Neural Systems, 10.1006/nimg.2000.0539
  58. Nowak, Cerebral Cortex, 205 (1997)
  59. Oristaglio J., Schneider D. M., Balan P. F., Gottlieb J., Integration of Visuospatial and Effector Information during Symbolically Cued Limb Movements in Monkey Lateral Intraparietal Area, 10.1523/jneurosci.1779-06.2006
  60. Peck C. J., Jangraw D. C., Suzuki M., Efem R., Gottlieb J., Reward Modulates Attention Independently of Action Value in Posterior Parietal Cortex, 10.1523/jneurosci.1929-09.2009
  61. Perry R. J., Zeki S., The neurology of saccades and covert shifts in spatial attention, 10.1093/brain/123.11.2273
  62. Petrides M., Pandya D. N., Projections to the frontal cortex from the posterior parietal region in the rhesus monkey, 10.1002/cne.902280110
  63. Platt Michael L., Glimcher Paul W., 10.1038/22268
  64. Pouget P., Chronometry of Visual Responses in Frontal Eye Field, Supplementary Eye Field, and Anterior Cingulate Cortex, 10.1152/jn.01097.2004
  65. Powell, J. Neurophysiol., 84, 301 (2000)
  66. Quian Quiroga R., Movement Intention Is Better Predicted than Attention in the Posterior Parietal Cortex, 10.1523/jneurosci.3468-05.2006
  67. Ray S., Pouget P., Schall J. D., Functional Distinction Between Visuomovement and Movement Neurons in Macaque Frontal Eye Field During Saccade Countermanding, 10.1152/jn.00270.2009
  68. Rizzolatti Giacomo, Riggio Lucia, Dascola Isabella, Umiltá Carlo, Reorienting attention across the horizontal and vertical meridians: Evidence in favor of a premotor theory of attention, 10.1016/0028-3932(87)90041-8
  69. Rizzolatti, Attention and Performance XV, 231 (1994)
  70. Roitman, J. Neurosci., 22, 9475 (2002)
  71. Rorden Chris, Mattingley Jason B, Karnath Hans-Otto, Driver Jon, Visual extinction and prior entry: Impaired perception of temporal order with intact motion perception after unilateral parietal damage, 10.1016/s0028-3932(96)00093-0
  72. Sato Takashi R., Schall Jeffrey D., Effects of Stimulus-Response Compatibility on Neural Selection in Frontal Eye Field, 10.1016/s0896-6273(03)00237-x
  73. Schall, J. Neurophysiol., 66, 559 (1991)
  74. Schall Jeffrey D., On the role of frontal eye field in guiding attention and saccades, 10.1016/j.visres.2003.10.025
  75. Schall Jeffrey D., Hanes Doug P., Neural basis of saccade target selection in frontal eye field during visual search, 10.1038/366467a0
  76. Schall, J. Neurosci., 15, 6905 (1995a)
  77. Schall, J. Neurosci., 15, 4464 (1995b)
  78. Schall J. D., Pare M., Woodman G. F., Comment on "Top-Down Versus Bottom-Up Control of Attention in the Prefrontal and Posterior Parietal Cortices", 10.1126/science.1144865
  79. Schmolesky, J. Neurophysiol., 79, 3272 (1998)
  80. Segraves, J. Neurophysiol., 69, 1880 (1993)
  81. Shadlen, J. Neurophysiol., 86, 1916 (2001)
  82. Sheliga B.M., Riggio L., Rizzolatti G., Orienting of attention and eye movements, 10.1007/bf00233988
  83. Sheliga Boris M., Riggio Lucia, Craighero Laila, Rizzolatti Giacomo, Spatial attention-determined modifications in saccade trajectories : , 10.1097/00001756-199502000-00044
  84. Stanton G. B., Goldberg M. E., Bruce C. J., Frontal eye field efferents in the macaque monkey: I. Subcortical pathways and topography of striatal and thalamic terminal fields, 10.1002/cne.902710402
  85. Stanton G. B., Goldberg M. E., Bruce C. J., Frontal eye field efferents in the macaque monkey: II. Topography of terminal fields in midbrain and pons, 10.1002/cne.902710403
  86. Sugrue L. P., Matching Behavior and the Representation of Value in the Parietal Cortex, 10.1126/science.1094765
  87. Thomas N. W. D., Pare M., Temporal Processing of Saccade Targets in Parietal Cortex Area LIP During Visual Search, 10.1152/jn.00413.2006
  88. Thompson, J. Neurophysiol., 76, 4040 (1996)
  89. Thompson K. G., Neuronal Basis of Covert Spatial Attention in the Frontal Eye Field, 10.1523/jneurosci.0741-05.2005
  90. Van der Stigchel Stefan, Meeter Martijn, Theeuwes Jan, Eye movement trajectories and what they tell us, 10.1016/j.neubiorev.2005.12.001
  91. Walker, J. Eye Mov. Res., 2, 1 (2008)
  92. Wardak, J. Neurosci., 22, 9877 (2002)
  93. Wardak Claire, Olivier Etienne, Duhamel Jean-René, A Deficit in Covert Attention after Parietal Cortex Inactivation in the Monkey, 10.1016/s0896-6273(04)00185-0
  94. Wardak C., Contribution of the Monkey Frontal Eye Field to Covert Visual Attention, 10.1523/jneurosci.3336-05.2006
  95. Wardak Claire, Vanduffel Wim, Orban Guy A., Searching for a Salient Target Involves Frontal Regions, 10.1093/cercor/bhp315
  96. Williams Ziv M, Elfar John C, Eskandar Emad N, Toth Louis J, Assad John A, Parietal activity and the perceived direction of ambiguous apparent motion, 10.1038/nn1055
  97. Zénon Alexandre, Hamed Suliann Ben, Duhamel Jean-René, Olivier Etienne, Attentional guidance relies on a winner-take-all mechanism, 10.1016/j.visres.2009.03.010
  98. Zhang Jun, Childress Stephen, Libchaber Albert, Shelley Michael, 10.1038/35048530
  99. Zhang M., Persistent LIP Activity in Memory Antisaccades: Working Memory For a Sensorimotor Transformation, 10.1152/jn.00504.2003