Summary
Previous work has been shown that rats with lesions of the superior colliculus fail to respond to distracting visual stimuli presented in the peripheral field while the animals are running towards a central stimulus. To assess how far this peripheral neglect is due to an attentional deficit, rats were trained before operation to obtain reward by running towards either peripheral or central lights that were presented when the animals' heads were stationary in a known position. Response to stimuli presented 120 deg from the midline was severely impaired after removal of the superior colliculus: the animals behaved as if they had difficulty in detecting the onset of the light. In contrast, response to stimuli 40 deg from midline was unaffected. Control lesions of striate cortex did not significantly impair performance at any position. The finding that collicular animals were impaired at responding to stimuli in the far periphery, that were not irrelevant distractors but instead predicted reward, suggests that one component of the visual neglect produced by damage to the superior colliculus in rats may be a sensory deficit in the far peripheral field. In addition, comparison with previous results indicates that training to attend to visual stimuli in more central regions does improve performance, as would be expected if the deficit were an attentional one. It is therefore argued that collicular neglect in rats should be regarded as a multicomponent impairment.
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References
Butter CM, Weinstein C, Bender DB, Gross CG (1978) Localization and detecton of visual stimuli following superior colliculus lesions in rhesus monkeys. Brain Res 156: 33–49
Cowey A, Henken DB, Perry VH (1982) Effects on visual acuity of neonatal and adult tectal ablation in rats. Exp Brain Res 48: 149–152
Dean P (1978) Visual acuity in hooded rats: effects of superior collicular or posterior neocortical lesions. Brain Res 156: 17–31
Dean P (1981a) Grating detection and visual acuity after lesions of striate cortex in hooded rats. Exp Brain Res 43: 145–153
Dean P (1981b) Visual pathways and acuity in hooded rats. Behav Brain Res 3: 239–271
Dean P, Horlock P, Strachan IM (1981) Meridonal variation in visual acuity of hooded rats reared in a carpentered environment. Perception 10: 423–430
Dean P, Key C (1981) Spatial deficits on radial maze after large tectal lesions in rats: possible role of impaired scanning. Behav Neurol Biol 32: 170–190
Dean P, Pope SG (1981) Visual discrimination learning in rats with lesions of superior colliculus: door-push and approach errors in modified jumping stand. QJ Exp Physiol 33B: 141–157
Dean P, Redgrave R (1983) Head-dipping by rats with lesions of superior colliculus during extended testing in holeboard. Behav Brain Res 8: 309–316
Dean P, Redgrave R (1984a) The superior colliculus and visual neglect in rat and hamster. I. Behavioural evidence. Brain Res Rev 8: 129–141
Dean P, Redgrave R (1984b) The superior colliculus and visual neglect in rat and hamster. II. Possible mechanisms. Brain Res Rev 8: 143–153
Dean P, Redgrave R (1984c) The superior colliculus and visual neglect in rat and hamster. III. Functional implications. Brain Res Rev 8: 155–163
Dean P, Redgrave R, Molton L (1984) Visual desynchronisation of cortical EEG impaired by lesions of superior colliculus in rats. J Neurophysiol 52: 625–637
Finlay BL, Sengelaub DR, Berg AT, Cairns SJ (1980) A neuroethological approach to hamster vision. Behav Brain Res 1: 479–496
Goldberg ME, Robinson DL (1978) Visual system: Superior colliculus. In: Masterton RB (ed) Handbook of behavioral neurobiology. Plenum Press, New York, Vol I, Sensory integration, pp 119–163
Goodale MA, Foreman NP, Milner AD (1978) Visual orientation in the rat: a dissociation of deficits following cortical and collicular lesions. Exp Brain Res 31: 445–457
Goodale MA, Milner AD (1982) Fractionating orientation behavior rodents. In: Ingle DJ, Goodale MA, Mansfield RJW (eds) Analysis of visual behavior. The MIT Press, Cambridge, Massachusetts, pp 267–299
Goodale MA, Milner AD, Rose JEV (1975) Susceptibility to startle during ongoing behaviour following collicular lesions in the rat. Neurosci Lett 1: 333–337
Goodale MA, Murison RCC (1975) The effects of lesions of the superior colliculus on locomotor orientation and the orienting reflex in the rat. Brain Res 88: 243–261
Heywood CA (1983) Behavioural investigations of aberrant visual pathways. Unpublished doctoral dissertation, University of Oxford
Hughes A (1977) A schematic eye for the rat. Vision Res 19: 569–588
Hughes HC (1977) Anatomical and neurobehavioral investigations concerning the thalamo-cortical organization of rat's visual system. J Comp Neurol 175: 311–336
Ingle DJ (1982) Organization of visuomotor behaviors in vertebrates. In: Ingle DJ, Goodale MA, Mansfield RJW (eds) Analysis of visual behavior. The MIT Press, Cambridge, Massachusetts, pp 67–109
Kirk RE (1968) Experimental design: Procedures for the behavioral sciences. Brooks/Cole, Belmont, California
Kirvel RD (1975) Sensorimotor responsiveness in rats with unilateral superior collicular and amygdaloid lesions. J Comp Physiol Psychol 89: 882–891
Linden P, Perry VH (1983) Massive retinotectal projection in rats. Brain Res 272: 145–149
Marshall JF (1978) Comparison of the sensorimotor dysfunctions produced by damage to lateral hypothalamus or superior colliculus in the rat. Exp Neurol 58: 203–217
Midgley GC, Tees RC (1981) Orienting behaviour by rats with visual cortical and subcortical lesions. Exp Brain Res 41: 316–328
Mlinar EJ, Goodale MA (1984) Cortical and tectal control of visual orientation in gerbil: evidence for parallel channels. Exp Brain Res 55: 33–48
Mort E, Cairns S, Hersch H, Finlay B (1980) The role of the superior colliculus in visually guided locomotion and visual orienting in the hamster. Physiol Psychol 8: 20–28
Overton P, Dean P, Redgrave P (1984) The effects of superior colliculus lesions and pre-dorsal bundle knife cuts on orientation in the rat. Neurosci Lett Suppl 18: S238
Paxinos G, Watson C (1982) The rat brain in stereotaxic coordinates. Academic Press, Sydney
Pope SG, Dean P (1979) Hyperactivity, aphagia and motor disturbance following lesions of superior colliculus and underlying tegmentum in rats. Behav Neur Biol 27: 433–453
Schneider GE (1966) Superior colliculus and visual cortex: contrasting behavioral effects of their ablation in the hamster. Unpublished doctoral thesis, Massachusetts Institute of Technology
Schneider GE (1969) Two visual systems. Science 163: 895–902
Tiao Y-C, Blakemore C (1976a) Functional organisation in the visual cortex of the golden hamster. J Comp Neurol 168: 459–482
Tiao Y-C, Blakemore C (1976b) Functional organisation in the superior colliculus of the golden hamster. J Comp Neurol 168: 483–504
Tunkl JE (1980) Location of auditory and visual stimuli in cats with superior colliculus ablations. Exp Neurol 68: 395–402
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Overton, P., Dean, P. & Redgrave, P. Detection of visual stimuli in far periphery by rats: possible role of superior colliculus. Exp Brain Res 59, 559–569 (1985). https://doi.org/10.1007/BF00261347
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DOI: https://doi.org/10.1007/BF00261347