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Holmes NP (2009b) The principle of inverse effectiveness in multisensory integration: Some statistical considerations. Brain Topography, 21(3-4):168-176        
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1. Alvarado JC, Vaughan JW, Stanford TR, Stein BE (2007) Multisensory versus unisensory integration: Contrasting modes in the superior colliculus. Journal of Neurophysiology, 97(5):3193-3205
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2. Alvarado JC, Stanford TR, Vaughan JW, Stein BE (2007) Cortex mediates multisensory but not unisensory integration in superior colliculus. Journal of Neuroscience, 27(47):12775-12786
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3. Diederich A, Colonius H (2008) When a high-intensity 'distractor' is better then a low-intensity one: Modeling the effect of an auditory or tactile nontarget stimulus on visual saccadic reaction time. Brain Research, 1242:219-230
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4. Driver J, Noesselt T (2008) Multisensory interplay reveals crossmodal influences on 'sensory-specific' brain regions, neural responses, and judgments. Neuron, 57(1):11-23
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5. Gondan M, Niederhaus B, Rösler F, Röder B (2005) Multisensory processing in the redundant-target effect: A behavioral and event-related potential study. Perception & Psychophysics, 67(4):713-726
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6. Holmes NP, Calvert GA, Spence C (2007a) Tool use changes multisensory interactions in seconds: Evidence from the crossmodal congruency task. Experimental Brain Research, 183(4):465-476
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7. Kayser C, Petkov CI, Logothetis NK (2008) Visual modulation of neurons in auditory cortex. Cerebral Cortex, 18(7):1560-1574
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8. King AJ, Palmer AR (1985) Integration of visual and auditory information in bimodal neurones in the guinea-pig superior colliculus. Experimental Brain Research, 60(3):492-500
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9. Lakatos P, Chen C, O'Connell MN, Mills A, Schroeder CE (2007) Neuronal oscillations and multisensory interaction in primary auditory cortex. Neuron, 53(2):279-292
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10. Laurienti PJ, Perrault TJJ, Stanford TR, Wallace MT, Stein BE (2005) On the use of superadditivity as a metric for characterizing multisensory integration in functional neuroimaging studies. Experimental Brain Research, 166(3):289-297
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11. Meredith MA, Stein BE (1986a) Visual, auditory, and somatosensory convergence on cells in superior colliculus results in multisensory integration. Journal of Neurophysiology, 56(3):640-662
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12. Meredith MA, Stein BE (1986) Spatial factors determine the activity of multisensory neurons in cat superior colliculus. Brain Research, 365(2):350-354
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13. Meredith MA, Nemitz JW, Stein BE (1987) Determinants of multisensory integration in superior colliculus neurons. I. Temporal factors. Journal of Neuroscience, 7(10):3215-3229
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14. Perrault TJJ, Vaughan W, Stein BE, Wallace MT (2003) Neuron-specific response characteristics predict the magnitude of multisensory integration. Journal of Neurophysiology, 90(6):4022-4026
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15. Perrault TJJ, Vaughan JW, Stein BE, Wallace MT (2005) Superior colliculus neurons use distinct operational modes in the integration of multisensory stimuli. Journal of Neurophysiology, 93(5):2575-2586
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16. Ross LA, Saint-Amour D, Leavitt VA, Javitt DC, Foxe JJ (2007) Do you see what I am saying? Exploring visual enhancement of speech comprehension in noisy environments. Cerebral Cortex, 17(5):1147-1153
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17. Serino A, Farnè A, Rinaldesi ML, Haggard P, Làdavas E (2007a) Can vision of the body ameliorate impaired somatosensory function? Neuropsychologia, 45(5):1101-1107
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18. Skaliora I, Doubell TP, Holmes NP, Nodal FR, King AJ (2004) Functional topography of converging visual and auditory inputs to neurons in the rat superior colliculus. Journal of Neurophysiology, 92(5):2933-2946
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19. Stevenson RA, James TW (2009) Audiovisual integration in human superior temporal sulcus: Inverse effectiveness and the neural processing of speech and object recognition. NeuroImage, 44(3):1210-1223
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20. Sumby WH, Pollack I (1954) Visual contribution to speech intelligibility in noise. Journal of the Acoustical Society of America, 26(2):212-215
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