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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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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. Bueno‐Junior LS, Ruggiero RN, Rossignoli MT, Del Bel EA, Leite JP, Uchitel OD (2017) Acetazolamide potentiates the afferent drive to prefrontal cortex in vivo. Physiological Reports, 5(1):e13066
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3. Chandrasekaran CF, Lemus L, Trubanova A, Gondan M, Ghazanfar AA (2011) Monkeys and humans share a common computation for face/voice integration. Public Library of Science Computational Biology, 7(9):e65535
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4. Chandrasekaran CF (2011) Natural signal structure and its role in audiovisual communication. PhD Thesis, Princeton University, pp.
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5. Chen Y, Li X, Liu L, Wang J, Lu C, Yang M, Jiao Y (2015) Tinnitus and hyperacusis involve hyperactivity and enhanced connectivity in auditory-limbic-arousal-cerebellar network. e-Life, 4:e6576
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6. Costa M (2016) Les effets du vieillissement sur les réponses auditives et audiovisuelles des neurones du collicule supérieur chez le rat. PhD Thesis, Université de Montréal, 255pp.
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7. Costa M, Piché M, Lepore F, Guillemot J (2016) Age-related audiovisual interactions in the superior colliculus of the rat. Neuroscience, 320:19-29
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8. Costa M, Lepore F, Guillemot J (2017) Spectral and temporal processing in the superior colliculus of aged rats. Neurobiology of Aging, :
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9. Dunlop SA (2007) Functional aspects of optic nerve regeneration. In: Becker CG, Becker T (eds) Model organisms in spinal cord regeneration. Wiley, pp 323–354
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10. Felch DL, Khakhalin AS, Aizenman CD (2016) Multisensory integration in the developing tectum is constrained by the balance of excitation and inhibition. e-Life, 5:e15600
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11. Friedlander MJ (2007) Mixing modalities is more than meets the eye alone. Focus on: "Multisensory versus unisensory integration: contrasting modes in the superior colliculus". Journal of Neurophysiology, 97(5):3165
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12. Henneberger C, Redman SJ, Grantyn R (2007) Cortical efferent control of subcortical sensory neurons by synaptic disinhibition. Cerebral Cortex, 17(9):2039-2049
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13. Hirokawa J, Sadakane O, Sakata S, Bosch M, Sakurai Y, Yamamori T (2011) Multisensory information facilitates reaction speed by enlarging activity difference between superior colliculus hemispheres in rats. Public Library of Science ONE, 6(9):e25283
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14. Holmes NP (2007) The law of inverse effectiveness in neurons and behaviour: Multisensory integration versus normal variability. Neuropsychologia, 45(14):3340-3345
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15. Holmes NP, Spence C (2005b) Multisensory integration: Space, time, and superadditivity. Current Biology, 15(18):R762-764
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16. 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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17. Jones PR (2016) A tutorial on cue combination and signal detection theory: using changes in sensitivity to evaluate how observers integrate sensory information. Journal of Mathematical Psychology, 73:117-139
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18. Morgan ML, DeAngelis GC, Angelaki DE (2008) Multisensory integration in macaque visual cortex depends on cue reliability. Neuron, 59(4):662-673
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19. Nagy A, Eördegh G, Paróczy Z, Márkus Z, Benedek G (2006) Multisensory integration in the basal ganglia. European Journal of Neuroscience, 24(3):917-924
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20. Nodal FR, Doubell TP, Jiang ZD, Thompson ID, King AJ (2005) Development of the projection from the nucleus of the brachium of the inferior colliculus to the superior colliculus in the ferret. Journal of Comparative Neurology, 485(3):202-217
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21. Ohshiro T, Angelaki DE, DeAngelis GC (2017) A neural signature of divisive normalization at the level of multisensory integration in primate cortex. Neuron, 95(2):399-411
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22. Rossetti F, Rodrigues MCA, de Oliveira JAC, Garcia-Cairasco N (2006) EEG wavelet analyses of the striatum-substantia nigra pars reticulata-superior colliculus circuitry: audiogenic seizures and anticonvulsant drug administration in Wistar audiogenic rats (War strain). Epilepsy Research, 72(2-3):192-208
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23. Tai L (2008) Neural mechanisms of selective auditory attention in rats. Thesis, , pp.
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24. Tang Z, Wu L, Xiao Z, Feng X, Sun X, Tang W, Wang J, Jin L (2016) Manganese‐enhanced mri (me mri) in evaluation of the auditory pathway in an experimental rat model. NMR Biomedicine, :
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25. Tang Z, Wang J, Xiao Z, Sun X, Feng X, Tang W, Chen Q, Wu L, Wang R, Zhong Y, Wang W, Luo J (2017) Manganese‐enhanced magnetic resonance imaging combined with electrophysiology in the evaluation of visual pathway in experimental rat models with monocular blindness. Brain and Behavior, :
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26. Ungerleider LG, Galkin TW, Desimone RJ, Gattass R (2014) Subcortical projections of area v2 in the macaque. Journal of Cognitive Neuroscience, 26(6):1220-1233
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27. Vachon-Presseau E, Martin A, Leporé F, Guillemot J (2009) Development of the representation of auditory space in the superior colliculus of the rat. European Journal of Neuroscience, 29(3):652-660
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