Output pathways from the rat superior colliculus mediating approach and avoidance have different sensory properties (original) (raw)

• Albers FJ, Meek J, Nieuwenhuys R (1988) Morphometric parameters of the superior colliculus of albino and pigmented rats. J Comp Neurol 274:357–370
  Article PubMed CAS Google Scholar
• Bagshaw EV, Evans MH (1976) Measurement of current spread from microelectrodes when stimulating within the nervous system. Exp Brain Res 25:391–400
  Article PubMed CAS Google Scholar
• Bell C, Sierra G, Buendia N, Segundo JP (1964) Sensory properties of neurons in the mesencephalic reticular formation. J Neurophysiol 27:961–987
  PubMed CAS Google Scholar
• Bickford ME, Hall WC (1989) Collateral projections of predorsal bundle cells of the superior colliculus in the rat. J Comp Neurol 283:86–106
  Article PubMed CAS Google Scholar
• Bishop PO, Burke W, Davis R (1962) The identification of single units in central visual pathways. J Physiol 162:409–431
  PubMed CAS Google Scholar
• Bower TGR, Broughton JM, Moore MK (1970) Infant responses to approaching objects: an indicator of response to distal variables. Percept Psychophys 9:193–196
  Google Scholar
• Chalupa LM, and Rhoades RW (1977) Responses of visual, somatosensory, and auditory neurones in the golden hamster's superior colliculus. J Physiol 270:595–626
  PubMed CAS Google Scholar
• Chevalier G, Deniau JM (1984) Spatio-temporal organisation of a branched tecto-spinal/tecto-diencephalic neuronal system. Neuroscience 12:427–439
  Article PubMed CAS Google Scholar
• Chevalier G, Vacher S, Deniau JM (1984) Inhibitory nigral influence on tectospinal neurons, a possible implication of basal ganglia in orienting behaviour. Exp Brain Res 53:320–326
  Article PubMed CAS Google Scholar
• Chevalier G, Vacher S, Deniau JM, Desban M (1985) Disinhibition as a basic process in the expression of striatal functions. I. The striato-nigral influence on tecto-spinal/tecto-diencephalic neurons. Brain Res 334:215–226
  Article PubMed CAS Google Scholar
• Coles SK, Iles JF, Nicolopoulos-Stournaras S (1989) The mesencephalic centre controlling locomotion in the rat. Neuroscience 28:149–157
  Article PubMed CAS Google Scholar
• Dean P, Redgrave P, Sahibzada N, Tsuji K (1986) Head and body movements produced by stimulation of superior colliculus in rats: effects on interruption of crossed tectoreticulospinal pathway. Neuroscience 19:367–380
  Article PubMed CAS Google Scholar
• Dean P, Mitchell IJ, Redgrave P (1988a) Responses resembling defensive behaviour produced by microinjection of glutamate into superior colliculus of rats. Neuroscience 24:501–510
  Article PubMed CAS Google Scholar
• Dean P, Redgrave P, Mitchell IJ (1988b) Organisation of efferent projections from superior colliculus to brainstem in rat: evidence for functional output channels. Progr Brain Res 77:27–36
  Article Google Scholar
• Dean P, Redgrave P, Westby GWM (1989) Event or emergency? Two response systems in the mammalian superior colliculus. Trends Neurosci 12:137–147
  Article PubMed CAS Google Scholar
• Dräger UC, Hubel DH (1975) Responses to visual stimulation and relationship between visual, auditory and somatosensory inputs in mouse superior colliculus. J Neurophysiol 38:690–713
  PubMed Google Scholar
• Dykes R, Lamour Y (1988) Neurons without demonstrable receptive fields outnumber neurons having receptive fields in samples from the somatosensory cortex of anaesthetised or paralysed cats and rats. Brain Res 440:133–143
  Article PubMed CAS Google Scholar
• Edelman GM, Finkel LH (1984) Neuronal group selection in the cerebral cortex. In: Edelman GM, Gall WE, Cowan WM (eds) Dynamic aspects of neocortical function. Wiley, New York, pp 653–695
  Google Scholar
• Ellard CG, Goodale MA (1986) The role of the predorsal bundle in head and body movements elicited by electrical stimulation of the superior colliculus in the Mongolian gerbil. Exp Brain Res 64:421–433
  Article PubMed CAS Google Scholar
• Ellard CG, Goodale MA (1988) A functional analysis of the collicular output pathways: a dissociation of deficits following lesions of the dorsal tegmental decussation and the ipsilateral collicular efferent bundle in the Mongolian gerbil. Exp Brain Res 71:307–319
  Article PubMed CAS Google Scholar
• Finlay BL, Schneps SE, Wilson KG, Schneider GE (1978) Topography of visual and somatosensory projections to the superior colliculus of the golden hamster. Brain Res 142:223–235
  Article PubMed CAS Google Scholar
• Gioia M, Bianchi R (1987) Ultrastructural study of the nucleus cuneiformis in the cat. J Hirnforsch 28:375–383
  PubMed CAS Google Scholar
• Harris LR, Blakemore C, Donaghy M (1980) Integration of visual and auditory space in the mammalian superior colliculus. Nature 288:56–59
  Article PubMed CAS Google Scholar
• Harting JK, Huerta MF (1984) The mammalian superior colliculus: studies of its morphology and connections. In: Vanega H (ed)The comparative neurology of the optic tectum. Plenum Press, New York, pp 687–773
  Google Scholar
• Harting JK, Huerta MF, Hashikawa T, Weber JT, van Lieshout, DP (1988) Neuroanatomical studies of the nigrotectal projection in the cat. J Comp Neurol 278:615–631
  Article PubMed CAS Google Scholar
• Humphrey NK (1968) Responses to visual stimuli in the superior colliculus of rats and monkeys. Exp Neurol 20:312–340
  Article PubMed CAS Google Scholar
• Illing RB, Graybiel AM (1986) Complementary and non-matching affrent compartments in the cat's superior colliculus: innervation of the acetylcholinestaerase-poor domain of the intermediate grey layer. Neuroscience 18:373–394
  Article PubMed CAS Google Scholar
• Ingle DJ (1982) Organization of visuomotor behaviours in vertebrates. In: Ingle DJ, MA Goodale, RJW Mansfield (eds).Analysis of visual behaviour. MIT Press, Cambridge MA
  Google Scholar
• Ingle DJ (1983) Brain mechanisms of visual localisation in frogs and toads. In: Ewert JP, Capranica RR, Ingle DJ (eds)Advances in vertebrate neurobiology. Plenum, New York, pp 177–226
  Google Scholar
• Keay KA, Redgrave P, Dean P (1987) Cardiovascular changes elicited by microinjection of N-methyl-D-aspartate into the superior colliculus of the hooded lister rat. Neurosci Lett Suppl 29:S127
  Google Scholar
• Keay KA, Redgrave P, Dean P (1988) Cardiovascular and respiratory changes elicited by stimulation of rat superior colliculus. Brain Res Bull 20:13–26
  Article PubMed CAS Google Scholar
• Keay KA, Westby GWM, Frankland P (1989) Sensory segregation of the cells of origin of the contralateral descending pathway in rat superior colliculus: an electrophysiological analysis. Neurosci Lett Suppl 36:S70
  Google Scholar
• Kemel ML, Desban M, Gauchy C, Glowinski J, Besson MJ (1988) Topographical organisation of efferent projections from the cat substantia nigra pars reticulata. Brain Res 455:307–323
  Article PubMed CAS Google Scholar
• Killackey HP, Erzurumlu RS (1981) Trigeminal projections to the superior colliculus of the rat. J Comp Neurol 201:221–242
  Article PubMed CAS Google Scholar
• Kilpatrick IC, Collingridge GL, Starr MS (1982) Evidence for the participation of gamma-aminobutyrate containing neurones in the striatal and nigral-derived circling in the rat. Neuroscience 7:207–222
  Article PubMed CAS Google Scholar
• King AJ, Palmer AR (1983) Cells responsive to free-field auditory stimuli in guinea pig superior colliculus: distribution and response properties. J Physiol 342:361–381
  PubMed CAS Google Scholar
• King AJ, Palmer AR (1985) Integration of visual and auditory information in bimodal neurones in the guinea pig superior colliculus. Exp Brain Res 60:492–500
  Article PubMed CAS Google Scholar
• King SM, Redgrave P, Dean P (1989) Defensive reactions to peripheral visual stimuli in humans. Neurosci Lett Suppl 36:S69
  Google Scholar
• Lemon R (1984) Methods for neuronal recording in conscious animals. IBRO series: methods in the neurosciences, Vol 4. Wiley, Chichester
  Google Scholar
• Lipski J (1981) Antidromic activation of neurones as an analytic tool in the study of the central nervous system. J Neurosci Meth 4:1–32
  Article CAS Google Scholar
• Marrow LP, Redgrave P (1989) Topographical organisation of the nigrotectal pathway in rat. Neurosci Lett Suppl 36:S10
  Google Scholar
• McHaffie JG, Kao CQ, Stein BE (1989) Nociceptive neurons in rat superior colliculus: response properties, topography and functional implications. J Neurophysiol 62:510–525
  PubMed CAS Google Scholar
• McMahon SB, Wall PD (1985) Electrophysiological mapping of the brainstem projections of spinal cord lamina I cells in the rat. Brain Res 333:19–26
  Article PubMed CAS Google Scholar
• Meredith MA, Stein BE (1985) Descending efferents from the superior colliculus relay integrated multisensory information. Science 227:657–659
  PubMed CAS Google Scholar
• Meredith MA, Stein BE (1986) Visual, auditory and somatosensory convergence on cells in superior colliculus results in multisensory integration. J Neurophysiol 56:640–662
  PubMed CAS Google Scholar
• Mitchell IJ, Redgrave P, Dean P (1988) Plasticity of behavioral response to repeated injection of glutamate in cuneiform area of rat. Brain Res 460:394–397
  Article PubMed CAS Google Scholar
• Murray EA, Coulter JD (1982) Organisation of tecto-spinal neurons in the cat and rat superior colliculus. Brain Res 243:201–214
  Article PubMed CAS Google Scholar
• Northmore DPM, Levine ES, Schneider GE (1988) Behavior evoked by electrical stimulation of the hamster superior colliculus. Exp Brain Res 73:595–605
  Article PubMed CAS Google Scholar
• Palmer AR, King AJ (1982) The representation of auditory space in the mammalian superior colliculus. Nature 299:248–249
  Article PubMed CAS Google Scholar
• Papez JW, Freeman GL (1930) Superior colliculi and their fibre connections in the rat. J Comp Neurol 51:409–439
  Article Google Scholar
• Paxinos G, Watson C (1986) The rat brain in stereotaxic coordinates, 2nd edn. Academic Press, Sydney
  Google Scholar
• Pellegrino LJ, Pellegrino AS, Cushman AJ (1979) A stereotaxic atlas of the rat brain, 2nd edn. Plenum Press, New York
  Google Scholar
• Petrovicky P (1876) Projections from the tectum mesencephali to brain stem structures in the rat. Folia Morphol 24:41–48
  Google Scholar
• Ranck JB (1975) Which elements are excited in electrical stimulation of mammalian central nervous system: a review. Brain Res 98:417–440
  Article PubMed Google Scholar
• Redgrave P, Dean P (1985) Tonic desynchronisation of cortical EEG by electrical stimulation of the superior colliculus and surrounding structures in urethane-anaesthetised rats. Neuroscience 16:659–671
  Article PubMed CAS Google Scholar
• Redgrave P, Odenkule A, Dean P (1986) Tectal cells of origin of the predorsal bundle in rat: location and segregation from ipsilateral descending pathway. Exp Brain Res 63:279–293
  Article PubMed CAS Google Scholar
• Redgrave P, Dean P, Souki W, Lewis G (1981) Gnawing and changes in reactivity produced by microinjections of picrotoxin into the superior colliculus of rats. Psychopharmacology 75:198–203
  Article PubMed CAS Google Scholar
• Redgrave P, Mitchell IJ, Dean P (1987a) Descending projections from the superior colliculus in the rat: a study using orthograde transport of wheatgerm-agglutinin conjugated horseradish peroxidase. Exp Brain Res 68:147–167
  Article PubMed CAS Google Scholar
• Redgrave P, Mitchell IJ, Dean P (1987b) Further evidence for segregated output channels from the superior colliculus in the rat: ipsilateral tecto-pontine and tecto-cuneiform projections have different cells of origin. Brain Res 413:170–174
  Article PubMed CAS Google Scholar
• Redgrave P, Dean P, Mitchell IJ, Odenkule A, Clark A (1988) The projection from the superior colliculus to cuneiform area in the rat. I. Anatomical studies. Exp Brain Res 72:611–625
  Article PubMed CAS Google Scholar
• Regan D, Beverley KI (1987) Looming detectors in the human visual pathway. Vision Res 18:415–421
  Article Google Scholar
• Rhoades RW, DellaCroce DD (1980) Cells of origin of the tectospinal tract in the golden hamster: an anatomical and electrophysiological investigation. Exp Neurol 67:163–180
  Article PubMed CAS Google Scholar
• Rhoades RW, Mooney RD, Klein BG, Jacquin MF, Szczepanik AM, Chiaia NL (1987) The structural and functional characteristics of tectospinal neurons in the golden hamster. J Comp Neurol 255:451–465
  Article PubMed CAS Google Scholar
• Rye DB, Saper CB, Lee HJ, Wainer BH (1987) Pedunculopontine tegmental nucleus of the rat: cytoarchitecture, cytochemistry and some extrapyramidal connections of the mesopontine tegmentum. J Comp Neurol 250:482–524
  Google Scholar
• Sahibzada N, Dean P, Redgrave P (1986) Movements resembling orientation and avoidance elicited by electrical stimulation of the superior colliculus in rats. J Neurosci 6:723–733
  PubMed CAS Google Scholar
• Schiff W (1965) Perception of impending collision: a study of visually directed avoidant behaviour. Psychol Monogr Gen Appl 79:1–26
  Google Scholar
• Schneider GE (1969) Two visual systems. Science 163:895–902
  PubMed CAS Google Scholar
• Siminoff R, Schwassmann HO, Kruger L (1966) An electrophysiological study of the visual projection to the superior colliculus of the rat. J Comp Neurol 127:435–444
  Article PubMed CAS Google Scholar
• Sparks DL (1986) Translation of sensory signals into commands for the control of saccadic eye-movements: role of the superior colliculus. Ann Rev Neurosci 66:118–171
  CAS Google Scholar
• Sprague JM, Meikle TH (1965) The role of the superior colliculus in visually guided behaviour. Exp Neurol 11:115–146
  Article PubMed CAS Google Scholar
• Sprague JM, Berlucchi G, Rizzolatti G (1973) The role of the superior colliculus and pretectum in vision and visually guided behaviour. In: Jung R (ed) Handbook of sensory physiology, Vol VIII/3B. Springer, Berlin
  Google Scholar
• Stein BE, Dixon JP (1979) Properties of superior colliculus neurons in the golden hamster. J Comp Neurol 183:269–284
  Article PubMed CAS Google Scholar
• Tiao Y-C, Blakemore C (1976) Functional organization in the superior colliculus of the golden hamster. J Comp Neurol 168:483–503
  Article PubMed CAS Google Scholar
• Waldron HA, Gwyn DG (1969) Descending nerve tracts in the spinal cord of the rat. I. Fibres from the midbrain. J Comp Neurol 137:143–154
  Article PubMed CAS Google Scholar
• Westby GWM, Redgrave P, Dean P (1988) Electrophysiological characterisation of collicular output pathways mediating approach and avoidance in the rat. Neurosci Lett Suppl 32:S39
  Google Scholar
• Zemlan FP and Behbehani MM (1988) Nucleus cuneiformis and pain modulation: anatomy and behavioural pharmacology. Brain Res 453:89–102
  Article PubMed CAS Google Scholar