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Verbal reports and visual awareness

Published online by Cambridge University Press:  04 February 2010

Geoffrey Underwood
Affiliation:
Department of Psychology, University of Nottingham, Nottingham NG7 2RD, England

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Open Peer Commentary
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Copyright © Cambridge University Press 1983

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References

Apkarian, P. (1983) Visual training after long term deprivation; a case report. International Journal of Neuroscience, in press. [PBR]Google Scholar
Avant, L. L. (1965) Vision in the ganzfeld. Psychological Bulletin 64: 246–58. [taJC]10.1037/h0022208 5318040 CrossRefGoogle Scholar
Bach-y-Rita, P. (1972) Brain mechanisms in sensory substitution. Academic Press. [PBR]Google ScholarPubMed
Bach-y-Rita, P. (1980) Brain plasticity as a basis for therapeutic procedures. In: Recovery of function: Theoretical considerations for brain injury rehabilitation, ed. Bach-y-Rita, P., pp. 225–69. University Park Press. [PBR]Google Scholar
Bach-y-Rita, P. (1981) Brain plasticity as a basis of the development of rehabilitation procedures for hemiplegia. Scandinavian Journal of Rehabilitation 13:7383. [PBR]Google ScholarPubMed
Bach-y-Rita, P., Collins, C. C., Saunders, F., White, B. & Scadden, L. (1969) Vision substitution by tactile image projection. Nature 221: 963–64. [PBR]10.1038/221963a0 5818337 CrossRefGoogle ScholarPubMed
Barbur, J. L., Ruddock, K. H. & Waterfield, V. A. (1980) Human visual responses in the absence of the geniculo-calcarine projection. Brain 103:905–28. [JLB. BB, tarJC].10.1093/brain/103.4.905 7437894 CrossRefGoogle ScholarPubMed
Barlow, H. B. (1980) Cortical function: A tentative theory and preliminary tests. In: Neural mechanisms in behaviour, ed. McFadden, D., pp. 143–71. Springer-Verlag. [taJC]CrossRefGoogle Scholar
Barnet, A. B., Manson, J. I., & Wilner, E. (1970) Acute cerebral blindness in childhood. Six cases studied clinically and electrophysiologically. Neurology (N.Y.) 20:1147–56. [RS]5529902 CrossRefGoogle ScholarPubMed
Bender, M. B. & Krieger, H. P. (1951) Visual function in perimetrically blind fields. Archives of Neurology and Psychiatry 65:7279. [taJC, OM]CrossRefGoogle Scholar
Bender, M. B. & Teuber, H.-L. (1946) Phenomena of fluctuation, extinction and completion in visual perception. Archives of Neurology and Psychiatry 55:627–58. [taJC]CrossRefGoogle Scholar
Benevento, L. A. & Rezak, M. (1976) The cortical projections of the inferior pulvinar and adjacent lateral pulvinar in the rhesus monkey (Macacamulatta): An autoradiographic study. Brain Research 108: 124. [PP]10.1016/0006-8993(76)90160-8 819095 CrossRefGoogle Scholar
Benevento, L. A. & Standage, C. (1982). Demonstration of lack of dorsal lateral geniculate nucleus input to extrastriate areas MT and visual 2 in the macaque monkey. Brain Research 252:161–66. [rJC]10.1016/0006-8993(82)90991-X 7172018 CrossRefGoogle ScholarPubMed
Benevento, L. A. & Yoshida, K. (1981). The afferent and efferent organization of the lateral geniculo-prestriate pathways in the macaque monkey. Journal of Comparative Neurology 203: 455–74. [rJC, LW]10.1002/cne.902030309 6274921 CrossRefGoogle ScholarPubMed
Benton, S., Levy, I. & Swash, M. (1980) Vision in the temporal crescent in occipital infarction. Brain 103:8397. [OM]10.1093/brain/103.1.83 7363060 CrossRefGoogle Scholar
Blochert, P. K., Ferrier, R. J. & Cooper, R. M. (1976) Effects of pretectal lesions on rats wearing light diffusing occluders. Brain Research 104:121–28. [CRL]10.1016/0006-8993(76)90651-X 1247897 CrossRefGoogle ScholarPubMed
Bodis-Wollner, I., Atkin, A., Raab, E. & Wolkstein, M. (1977) Visual association cortex and vision in man: Pattern-evoked occipital potentials in a blind boy. Science 198:629–31. [OM, RS]10.1126/science.918658 918658 CrossRefGoogle Scholar
ter, Braak J. W. G., Schenk, V. W. D. & van, Vliet A. G. M. (1971) Visual reactions in a case of long-lasting cortical blindness. Journal of Neurology, Neurosurgery and Psychiatry 34:140–47. [taJC]Google Scholar
Bridgeman, B., Kirch, M. & Sperling, A. (1981) Segregation of cognitive and motor aspects of visual function using induced motion. Perception and Psychophysics 29: 336–42. [BB]7279556 CrossRefGoogle Scholar
Bridgeman, B., Lewis, S., Heit, G. & Nagle, M. (1979) Relation between cognitive and motor-oriented systems of visual position perception. Journal of Experimental Psychology: Human Perception and Performance 5:692700. [BB]10.1037/0096-1523.5.4.692 528967 Google ScholarPubMed
Bridgeman, B. & Staggs, D. (1982) Plasticity in human blindsight. Vision Research 22:11991203. [BB, rJC, LW, RW]10.1016/0042-6989(82)90085-2 7147730 CrossRefGoogle Scholar
Brindley, G. S., Gautier-Smith, P. C. & Lewin, W. (1969) Cortical blindness and the functions of the non-geniculate fibres of the optic tracts. Journal of Neurology, Neurosurgery and Psychiatry 32: 259–64. [taJC, OM]Google ScholarPubMed
Campion, J., Latto, R. & Smith, Y. M. (1982) Blindsight: Extra-striate vision or artefact? Abstract of paper presented at the Fifth INS European Conference, Deauville, France, 06 1618. [taJC]Google Scholar
Carnap, R. (1954) Testability and meaning. Whitlock. [RW]Google Scholar
Carnap, R. (1956) The methodological character of theoretical concepts. In: Minnesota studies in the philosophy of science, vol. 1, ed. Feigl, H. & Scriven, M., pp. 3876. University of Minnesota Press. [RW]Google Scholar
Celesia, G. G., Archer, C. R., Kuroiwa, Y. & Goldfader, P. R. (1980) Visual function of the extrageniculo-calcarimse system in man. Relationship to cortical blindness. Archives of Neurology 37:704–6. [OM, RS]7436812 CrossRefGoogle ScholarPubMed
Celesia, G. G., Polcyn, R. D., Holden, J. E., Nickles, R. J., Gatley, J. S. & Koeppe, R. A. (1982) Visual evoked potentials and positron emission tomographic mapping of regional cerebral blood flow and cerebral metabolism: Can the neuronal potential generators be visualized? Electroencephalography and Clinical Neurophysiology-EEG Journal 54:243–56. [RS]10.1016/0013-4694(82)90174-2 CrossRefGoogle ScholarPubMed
Chow, K. L. & Stewart, D. L. (1972) Reversal of structural and functional effects of long-term visual deprivation in cats. Experimental Neurology 34:409–33. [PBR]10.1016/0014-4886(72)90038-6 5022786 CrossRefGoogle ScholarPubMed
Corso, J. F. (1967) The experimental psychology of sensory behaviour. Holt, Rinehart & Winston. [taJC, RNH, GU]Google Scholar
Cowey, A. (1961) Perimetry in monkeys. Ph.D. thesis, University of Cambridge. [LW]Google Scholar
Cowey, A. (1967) Perimetric study of field defects in monkeys after cortical and retinal ablations. Quarterly Journal of Experimental Psychology 19: 232–45. [rJC, AC, LW]10.1080/14640746708400098 4965358 CrossRefGoogle ScholarPubMed
Cowey, A. & Weiskrantz, L. (1963) A perimetric study of visual field defects in monkeys. Quarterly Journal of Experimental Psychology 15:91115. [LW]10.1080/17470216308416561 CrossRefGoogle Scholar
Cynader, M. & Berman, N. (1972) Receptive field organization of monkey superior colliculus. Journal of Neurophysiology 35:187201. [ MTP]4623918 Google ScholarPubMed
Dean, P. (1978) Visual acuity in hooded rats: Effects of superior collicular or posterior neocortical lesions. Brain Research 156: 1731. [CRL]10.1016/0006-8993(78)90076-8 568019 CrossRefGoogle Scholar
Dennett, D. C. (1978a) Brainstorms. Bradford Books. [RP]Google Scholar
Dennett, D. C. (1978b) Towards a cognitive theory of consciousness. In: Brainstorms. Bradford Books. [AM]Google Scholar
De, Valois R., Morgan, H., Polson, M., Mead, W. & Hull, E. (1974) Psychophysical studies of monkey vision. I. Macaque luminosity and color vision tests. Vision Research 14:5367. [MTP]10.1016/0042-6989(74)90116-3 4204837 Google Scholar
De, Valois R., Morgan, H. & Snodderly, D. (1974) Psychophysical studies of monkey vision. III. Spatial luminance contrast sensitivity tests of macaque and human observers. Vision Research 14:7581. [MTP]10.1016/0042-6989(74)90118-7 4204839 Google Scholar
Dineen, J. & Keating, E. G. (1981) The primate visual system after bilateral removal of striate cortex. Experimental Brain Research 41:338–45. [taJC, PP]10.1007/BF00238891 Google ScholarPubMed
Dixon, N. F. (1970) Subliminal perception: The nature of a controversy. McGraw-Hill. [taJC]Google Scholar
Donovan, H. C., Weale, R. A. & Wheeler, C. (1978) The perimeter as a monitor of glaucomatous changes. British Journal of Ophthalmology 62:705–8. [RAW]10.1136/bjo.62.10.705 708672 CrossRefGoogle ScholarPubMed
Doty, R. W. (1973) Ablation of visual areas in the central nervous system. In: handbook of sensory physiology, vol. VII/3B, Visual centers in the brain, ed. Jung, R., pp. 483541. Springer-Verlag. [taJC]Google Scholar
Ellenberger, C. Jr, (1980) Perimetry: Principles, technique and interpretation. Raven Press. [taJC]Google Scholar
Feinberg, T., Pasik, P. & Pasik, T. (1977) Visually mediated space localization in monkeys without striate cortex. Federation Proceedings 36:507. [PP]Google Scholar
Feinberg, T. E., Pasik, T. & Pasik, P. (1978) Extrageniculostriate vision in the monkey. VI. Visually guided accurate reaching behavior. Brain Research 152:422–28. [PP]10.1016/0006-8993(78)90276-7 98218 CrossRefGoogle ScholarPubMed
Fischler, I. & Goodman, G. O. (1978) Latency of associative activation in memory. Journal of Experimental Psychology: Human Perception and Performance 4:455–70. [GU]10.1037/0096-1523.4.3.455 Google Scholar
Frank, Y. & Torres, F. (1979) Visual evoked potentials in the evaluation of “cortical blindness” in children. Annals of Neurology 6:126–29. [RS]10.1002/ana.410060208 496406 CrossRefGoogle ScholarPubMed
Fries, W. (1981) The projection from the lateral geniculate nucleus to the prestriate cortex of the macaque monkey. Proceedings of the Royal Society, London, B, 213:7380. [EP, LW].10.1098/rspb.1981.0054 CrossRefGoogle ScholarPubMed
Frost, D. & Pöppel, E. (1976) Different programming modes of human saccadic eye movements as a function of stimulus eccentricity: Indications of a functional subdivision of the visual field. Biological Cybernetics 23:3948. [EP]10.1007/BF00344150 953086 CrossRefGoogle ScholarPubMed
Fukada, Y. & Saito, H. (1971) The relation between response characteristics to flicker stimulation and receptive field organizatioms in the cat's optic nerve fibres. Vision Research 11: 227–40. [BB, rJC]10.1016/0042-6989(71)90187-8 5579838 CrossRefGoogle Scholar
Gassel, M. M. & Williams, D. (1963) Visual function in patiemsts with homoisymous hemianopia. III. The completion phenomenon; insight and attitude to the defect; and visual functional efficiency. Brain 86:229–60. [OM]10.1093/brain/86.2.229 13946751 CrossRefGoogle Scholar
Giolli, R. A. & Towns, L. C. (1980) A review of axon collateralizatioms in the mammalian visual system. Brain, Behavior and Evolution 17:364–90. [PP]Google ScholarPubMed
Goldberg, M. E. & Robinson, D. L. (1978) Visual system: Superior colliculus. In: Handbook of behavioral neurobiology, vol. 1, Sensory integration, ed. Masterton, R. B., pp. 119–64. Plenum Press. [taJC]Google Scholar
Goldberg, M. E. & Wurtz, R. H. (1972) Activity of superior colliculus in behaving monkey. 1. Visual receptive fields of single neurons. Journal of Neurophysiology 35:542–59. [rJC, MTP]4624739 Google Scholar
Goodale, M. A., Foreman, N. P. & Milner, A. D. (1978) Visual orientation in the rat: A dissociation of deficits following cortical and collicular lesions. Experimental Brain Research 31: 445–57. [CRL]10.1007/BF00237301 CrossRefGoogle Scholar
Goodale, M. A. & Murison, R. C. (1975) The effects of lesions of the superior colliculus on locomotor orientation and the orienting reflex in the rat. Brain Research 88:243–61. [CRL]10.1016/0006-8993(75)90388-1 1148825 CrossRefGoogle ScholarPubMed
Gouras, P. (1968) Identification of cone mechanisms in monkey ganglion cells. Journal of Physiology 199: 533–47. [BB]4974745 CrossRefGoogle ScholarPubMed
Graham, C. H. (1965) Some fundamental data. In: Vision and visual perception, ed. Graham, C. H., pp. 6880. Wiley. [taJC]Google Scholar
Haber, R. N. & Hershenson, M. (1980) The psychology of visual perception. Holt, Rinehart & Winston. [RNH]Google Scholar
Hale, P. T. & Sefton, A. J. (1978) A comparison of the visual and electrical properties of cells of the dorsal and ventral lateral geniculate nuclei. Brain Research 153:591600. [CRL]10.1016/0006-8993(78)90343-8 698797 CrossRefGoogle ScholarPubMed
Harnad, S. (1982) Consciousness: An afterthought. Cognition and Brain Theory 5:2947. [JE]Google Scholar
Harting, J. K., Casagrande, V. A. & Weber, J. T. (1978) The projection of the primate superior colliculus upon the dorsal lateral geniculate nucleus: Autoradiographic demonstration of interlaminar distribution of tectogeniculate axons. Brain Research 150:593–99. [PP]10.1016/0006-8993(78)90822-3 79427 CrossRefGoogle ScholarPubMed
Hécaen, H. & Albert, M. L. (1978) Human neuropsychology. Wiley. [taJC]Google Scholar
Held, R. (1968) Dissociation of visual functions by deprivation and rearrangement. Psychologische Forschung 31:338–48. [BB]10.1007/BF00422718 CrossRefGoogle Scholar
Held, R. (1970) Two modes of processing spatially distributed visual stimulation. In: The neurosciences: Second study program, ed. Schmidt, F. O., pp. 317–24. Rockefeller University Press. [RNH[Google Scholar
Hess, C. W., Meienberg, O. & Ludin, H. P. (1982) Visual evoked potentials in acute occipital blindness. Diagnostic amsd prognostic value. Journal of Neurology 227:193200. [OM]10.1007/BF00313386 6183405 CrossRefGoogle Scholar
Hine, M. L. (1918) The recovery of fields of vision in concussion injuries of the occipital cortex. British Journal of Ophthalmology 2:1225. [taJC]10.1136/bjo.2.1.12 18167738 CrossRefGoogle Scholar
Holmes, G. (1918) Disturbances of vision by cerebral lesions. British Journal of Ophthalmology 2:353–84. [taJC]10.1136/bjo.2.7.353 18167806 CrossRefGoogle ScholarPubMed
Horel, J. A. (1968) Effects of sub-cortical lesions on brightness discrimination acquired by rats without visual cortex. Journal of Comparative and Physiological Psychology 65:103–7. [CRL]10.1037/h0025393 5648441 CrossRefGoogle Scholar
Horel, J. A., Bettinger, L. A., Royce, G. J. & Meyer, D. R. (1966) Role of neocortex in the learning and relearning of two visual habits by the rat. Journal of Comparative and Physiological Psychology 61:6678. [CRL]10.1037/h0022857 5948229 CrossRefGoogle ScholarPubMed
Humphrey, N. K. (1970) What the frog's eye tells the monkey's brain. Brain, Behaviour and Evolution 3:324–37. [tarJC]Google ScholarPubMed
Humphrey, N. K. (1980) Nature's psychologists. In: Consciousness and the physical world, ed. Josephson, B. D. & Ramachandran, V. S.. Pergamon Press. [GU]Google Scholar
Humphrey, N. K. & Weiskrantz, L. (1967) Vision in monkeys after removal of the striate cortex. Nature 215:595–97. [taJC, MTP]10.1038/215595a0 4963569 CrossRefGoogle ScholarPubMed
Jones, E. J. (1974) The anatomy of extrageniculostniate visual mechanisms. In: The neurosciences. Third study program, ed Schmitt, F. O. & Worden, F. G., pp. 215–27. MIT Press. [PP]Google Scholar
Keating, E. G. (1979) Rudimentary color vision in the monkey after removal of striate and preoceipital cortex. Brain Research 179:379–84. [PP]10.1016/0006-8993(79)90454-2 116717 CrossRefGoogle ScholarPubMed
Keating, E. G. (1980) Residual spatial vision in the monkey after removal of striate and preoccipital cortex. Brain Research 187:271–90. [PP]10.1016/0006-8993(80)90203-6 6768421 CrossRefGoogle ScholarPubMed
Keating, E. G. & Dineen, J. (1982) Visuomotor transformations of the primate tectum. In: Analysis of visual behavior, ed. Ingle, D. J., Goodale, M. A. & Mansfield, R. J. W., pp. 335–65. MIT Press. [taJC]Google Scholar
Klüver, H. (1941) Visual functions after removal of the occipital lobes in mats. Journal of Psychology 11:2345. [taJC]CrossRefGoogle Scholar
Koerner, F. & Teuber, H. -L. (1973) Visual field defects after missile injuries to the geniculo-striate pathway in man. Experimental Brain Research 18:88113. [taJC, OM, PP]10.1007/BF00236558 CrossRefGoogle Scholar
Kooi, K. A. & Sharbrough, F. W. (1966) Electrophysiological findings in cortical blindness, Report of a case. Elect roencepholography and Clinical Neurophysiology-EEG Journal 20:260–63. [RS]10.1016/0013-4694(66)90091-5 CrossRefGoogle ScholarPubMed
Krieger, H. P. & Bender, M. B. (1951) Dark adaptation in perimetrically blind fields. Archives of Ophthalmology 45:625–36. [PP]CrossRefGoogle Scholar
Kuffler, S. W. & Nicholls, J. G. (1976) From neuron to brain. Sinauer. [taJC]Google Scholar
Latto, R. (1982) Visual perception and occulomotor areas in the primate brain. In: Analysis of visual behaviour, ed. Ingle, D. J., Goodale, M. A. & Mansfield, R. J. W., pp. 671–91. MIT Press. [rJC]Google Scholar
Legg, C. R. (1977) Do pretectal lesions impair visual discrimination acquisition in rats? Physiology and Behaviour 17:781–86. [CRL]10.1016/0031-9384(77)90183-4 CrossRefGoogle Scholar
Legg, C. R. (1981) Behavioural analysis of the recovery of function: The limits of discrimination learning techniques. In: Functional recovery from brain damage. ed. Van Hof, M. W. & Mohn, G., pp. 203–8. Elsevier/North Holland Biomedical Press. [CRL]Google Scholar
Legg, C. R. & Cowey, A. (1977a) Effects of subcortical lesions on visual intensity discrimination in rats. Physiology and Behaviour 19:635–46. [CRL]10.1016/0031-9384(77)90038-5 CrossRefGoogle ScholarPubMed
Legg, C. R. (1977b) The role of the ventral lateral geniculate nucleus and posterior thalamus in intensity discrimination in rats. Brain Research 123:261–73. [CRL]10.1016/0006-8993(77)90478-4 843925 CrossRefGoogle ScholarPubMed
Legg, C. R. & Turkish, S. (1982) Spatial contrast sensitivity changes after subcortical visual system lesions in the rat. Behavioural Brain Research, in press. [CRL]Google Scholar
Leibowitz, H. W., Rodemer, C. S. & Dichgans, J. (1979) The independence of dynamic spatial orientation from luminance and refractive error. Perception and Psychophysics 25:7579. [RN H]432101 CrossRefGoogle ScholarPubMed
Lerman, S. & Borkman, R. (1978) Ultraviolet radiation in the aging and cataractous lens. A survey. Acta Ophthalmnologica 56:139–49. [RAW]10.1111/j.1755-3768.1978.tb00476.x CrossRefGoogle ScholarPubMed
Magnussen, S. & Torjussen, T. (1974) Sustained visual afterimages. Vision Research 14:743–44. [TT]10.1016/0042-6989(74)90074-1 4420081 CrossRefGoogle ScholarPubMed
Magoun, H. W., Ranson, W. S. & Mayer, L. L. (1935) The pupillary light reflex after lesions of the posterior commissure in the Cat. American Journal of Ophthalmology 18:624–30. [PP]CrossRefGoogle Scholar
Marcel, A. J. (1982) Is cortical blindness a problem of visual consciousness or visual function? Paper presented at the Fifth International Neuropsychological Society European Conference, Deauville, France, 06 16–18. [taJC]Google Scholar
Marquis, D. G. (1935) Phylogenetic interpretation of the functions of the visual cortex. Archives of Neurology and Psychiatry 33:807–15. [taJC]CrossRefGoogle Scholar
Maaterton, R. B. & Glendenning, K. K. (1978) Phylogeny of the vertebrate sensory systems. In: Handbook of behavioural neurobiology, vol. 1, Sensory integration, ed. Masterton, R. B., pp. 138. Plenum Press. [taJC]Google Scholar
Meienberg, O. (1981) Sparing of the temporal crescent in homonymous hemianopia and its significance for visual orientation. Neuroophthalmology 2:129–34. [OM]10.3109/01658108109004931 CrossRefGoogle Scholar
Meienberg, O., Zangemeister, W. H., Rosenberg, M., Hoyt, W. F. & Stark, L. (1981) Saccadic eye movement strategies in patients with homonymous hemianopia. Annals of Neurology 9:537–44. [tarJC, OM, JZ]10.1002/ana.410090605 7259115 CrossRefGoogle ScholarPubMed
Midgley, G. C. & Tees, R. C. (1981) Orienting behaviour by rats with visual cortical and subcortical lesions. Experimental Brain Research 41:316–28. [CRL]10.1007/BF00238889 Google ScholarPubMed
Miller, M., Pasik, P. & Pasik, T. (1980) Extrageniculostriate vision in the monkey. VII. Contrast sensitivity functions. Journal of Neurophysiology 43:1510–26. [PP]7411174 Google ScholarPubMed
Milner, A. D., Goodale, M. A. & Morton, M. C. (1979) Visual sampling after lesions of the superior colliculus in rats. Journal of Comparative and Physiological Psychology 93:1015–23. [CRL]10.1037/h0077638 521517 CrossRefGoogle ScholarPubMed
Mohler, C. W. & Wurtz, R. H. (1977) Role of striate cortex and superior colliculus in visual guidance of saccadic eye movements in monkeys. Journal of Neurophysiology 40:7494. [taJC, MTP, LW]401874 Google Scholar
Mort, E., Cairns, S., Hersch, H. & Finlay, B. (1980) The role of the superior colliculus in visually guided locomotor and visual orienting in the hamster. Physiological Psychology 8:2028. [PP]CrossRefGoogle Scholar
Natsoulas, T. (1982) Conscious perception and the paradox of “blind-sight.” In: Aspects of consciousness, vol. 3, ed. Underwood, G.. Academic Press. [GU]Google Scholar
Neiaser, U. (1966) Cognitive psychology. Appleton-Century-Crofts. [taJC]Google Scholar
Paillard, J. (1982) Le Corps et ses langages d'espace. In: Le corps enpsychiatrie, ed. Jeddi, E., pp. 5369. Masson. [AC]Google Scholar
Pasik, P. & Pasik, T. (1964) Oculomotor function in monkeys with lesions of the cerebrum and the superior colliculi. In: The oculomotor system, ed. Bender, M. B., pp. 4080. Hoeber. [PP]Google Scholar
Pasik, P. (1973) Extrageniculostriate vision in the monkey. V. Role of the accessory optic system. Journal of Neurophysiology 36:450–57. [PP]4633362 Google ScholarPubMed
Pasik, P. (1982) Visual functions in monkeys after total removal of visual cerebral cortex. In: Contributions to sensory physiology. vol. 7, ed. Neff., W. D. pp. 147200. Academic Press. [PP]Google Scholar
Pasik, P., Pasik, T. & Schildcr, P. (1969) Extrageniculostriate vision in the monkey: Discrimination of luminous flux-equated figures. Experimental Neurology 24:421–38. [PP]10.1016/0014-4886(69)90146-0 4979315 CrossRefGoogle ScholarPubMed
Pasik, T. & Pasik, P. (1971) The visual world of monkeys deprived of striate cortex: Effective stimulus parameters and the importance of the accessory optic system. In: Visual processes in vertebrates, Vision Research Supplement no. 3, ed. Shipley, T. & Dowling, J. E., pp. 419–35. Pergamon Press. [PP]Google Scholar
Pasik, T. (1973) Extrageniculostriate vision in the monkey. IV. Critical structures for light vs. no-light discrimination. Brain Research 56:165–82. [PP]10.1016/0006-8993(73)90333-8 4197646 CrossRefGoogle ScholarPubMed
Pasik, T. (1975) Experimental models of oculomotor dysfunction in the rhesus monkey. In: Primate models of neurological disorders, Advances in Neurology, vol. 10, ed. Meldrum, B. S. & Marsden, C. D., pp. 7789. Raven Press. [PP]Google Scholar
Pasik, T. (1980) Extrageniculostriate vision in primates. Neuro-Ophthalmology 1:95119. [PP. LW]10.3109/01658108009004904 Google Scholar
Pasik, T., Pasik, P. & Bender, M. B. (1966) The superior colliculi and eye movements. An experimental study in the monkey. Archives of Neurology 15:420–36. [PP]4958014 CrossRefGoogle ScholarPubMed
Pasik, T. (1969) The pretectal syndrome in monkeys. II. Spontaneous and induced nystagmus and “lightning” eye movements. Brain 92:871–84. [PP]10.1093/brain/92.4.871 4983246 CrossRefGoogle Scholar
Pasik, T., Pasik, P., Schilder, P. & Wininger, J. (1973) Extrageniculostriate vision in the monkey: Effect of circumstriate cortex or superior colliculi ablations. Excerpta Medica, International Congress Series no. 296:201–2. [PP]Google Scholar
Perenin, M. T. (1978) Visual fuisction within the hamianopic field following early cerebral hemidecortication in man. II. Pattern discrimination. Neuropsychologia 16:697708. [taJC]10.1016/0028-3932(78)90004-0 748806 CrossRefGoogle Scholar
Perenin, M. T. & Jeannerod, M. (1975) Residual vision in cortically blind hemifields. Neuropsychologia 13:17.[taJC]10.1016/0028-3932(75)90041-X 1109450 CrossRefGoogle Scholar
Perenin, M. T. (1978) Visual function within the hemianopic field following early cerebral hemidecortication in man. I. Spatial localisation. Neuropsychologia 16:113. [tarJC, MTP, RW]10.1016/0028-3932(78)90037-4 634453 CrossRefGoogle Scholar
Perenin, M. T., Ruel, J. & Hécaen, H. (1980) Residual visual capacities in a case of cortical blindness. Cortex 16:605–12. [taJC, OM, RW]7226857 CrossRefGoogle Scholar
Polyak, S. (1957) The vertebrate visual system. Edited by Klüver, H.. University of Chicago Press. [MTP]Google Scholar
Pöppel, E. (1977) Midbrain mechanisms in human vision. In: Neurosciences research program bulletin, vol. 15, Neuronal mechanisms in visual perception, ed. Pöppel, E., Held, R. & Dowling, J. E., pp. 335–43. MIT Press, [taJC, EP]Google Scholar
Pöppel, E., Brinkmann, R., von, Cramon D. & Singer, W. (1978) Association and dissociation of visual functions in a case of bilateral occipital lobe infarction. Archiv für Psychiatrie und Nervenkrankheiten 225:121. [EP]10.1007/BF00367348 306239 CrossRefGoogle Scholar
Pöppel, E., Held, R. & Frost, D. (1973) Residual visual function after brain wounds involving the central visual pathways in man. Nature 243:295–96. [tarJC, EP, JZ].10.1038/243295a0 4774871 CrossRefGoogle ScholarPubMed
Pöppel, E. & Richards, W. (1974) Light sensitivity in cortical scotoma contralateral to small islands of blindness. Experimental Brain Research 21:125–30. [EP, WR]CrossRefGoogle ScholarPubMed
Poppelreuter, W. (1917) Die psychischen Schädigungen durch Kopfschluss im Kriege 1914–1916: die Störungen der niederen und höheren Schleistungen durch Verletzungen des Okzipitalhirns. Voss. [TT]Google Scholar
Potts, A. M., Hodges, G., Shelman, C. B., Fritz, K. J., Levy, N. S. & Mangnall, Y. (1972) Morphology of the primate optic nerve. II. Total fiber size distribution and fiber density distribution. Investigative Ophthalmology 11: 9891003. [MTP]4629436 Google ScholarPubMed
Poulton, E. C. (1980) Range effects and asymmetric transfer in studies of motor skills. In: Psychology of motor behavior and sport, ed. Nadeau, C. H. et al. , pp. 339–59. Human Kinetic Publications. [MTP]Google Scholar
Prablanc, C., Echallier, J. F., Komilis, E. & Jeannerod, M. (1979) Optimal response of eye and hand motor systems in pointing at a visual target. I. Spatio-temporal characteristics of eye and hand movements and their relationships when varying the amount of visual information. Biological Cybernetics 35:113–24. [MTP]10.1007/BF00337436 518932 CrossRefGoogle Scholar
Regan, D., Regal, D. M. & Tibbles, J. A. R. (1982) Evoked potentials during recovery from blindness recorded serially from an infant and his normally sighted twin. Electroencepholography and Clinical Neurophysiology-EEG Journal 54:465–68. [RS]10.1016/0013-4694(82)90210-3 CrossRefGoogle ScholarPubMed
Richards, W. (1973) Visual processing in scotomata. Experimental Brain Research 17:333–47. [tsJC, JE, WR]10.1007/BF00234098 CrossRefGoogle Scholar
Richards, W. & Pöppel, E. (1972) Sensitization in scotomata symmetric with island of blindness. Second annual meeting of the Society for Neurosciences, Houston. [WR]Google Scholar
Riddoch, G. (1917) Dissociation of visual perceptions due to occipital injuries, with especial reference to appreciation of movement. Brain 40:1557. [taJC, OM]10.1093/brain/40.1.15 CrossRefGoogle Scholar
Rosenthal, R. & Rubin, D. B. (1978) Interpersonal expectancy effects: The first 345 cases. Behavioral and Brain Sciences 1:377415. [TI]10.1017/S0140525X00075506 S0140525X00075506 CrossRefGoogle Scholar
Rozeboom, W. W. (1960) The fallacy of the null-hypothesis significance test. Psychological Bulletin 57:416–28. [taJC]10.1037/h0042040 13744252 CrossRefGoogle Scholar
Sanders, M. D. Warrington, E. K., Marshall, J. & Weiskrantz, L. (1974) “Blindsight”: Vision in a field defect. Lancet 04 20:707–8. [taJC, RW]10.1016/S0140-6736(74)92907-9 CrossRefGoogle Scholar
Schilder, P., Paik, P. & Pasik, T. (1972) Extrageniculostriate vision in the monkey III. Circle vs triangle and “red vs green” discrimination. Experimental Brain Research 14:436–48. [taJC, PP]10.1007/BF00235038 CrossRefGoogle Scholar
Schilder, P., Pasik, T. & Pasik, P. (1971) Extrageniculostriate vision in the monkey. II. Demonstration of brightness discrimination. Brain Research 32:383–98. [PP]10.1016/0006-8993(71)90331-3 5002599 CrossRefGoogle ScholarPubMed
Schneider, G. E. (1969) Two visual systems. Science 163:895902. [taJC, PP]10.1126/science.163.3870.895 5763873 CrossRefGoogle Scholar
Searle, J. R. (1979) The intentionality of intention and action. Inquiry 22:253–80. [GU]10.1080/00201747908601876 CrossRefGoogle Scholar
Sekuler, R. W., Pantle, A. & Levinson, E. (1978) Physiological basis of motion perception. In: Handbook of sensory physiology, vol. 8, Perception, ed. Held, R., Leibowitz, H. W., & Teuber, H.-L., pp. 6796. Springer-Verlag. [RN H]Google Scholar
Shackel, B. (1967) Eye movement recording by electro-oculography. In: A manual of psychophysiological methods, ed. Venables, P. H. & Martin, I., pp. 299334. North-Holland Publishing Company. [taJC]Google Scholar
Singer, W., Zihl, J. & Pöppet, E. (1977) Subcortical control of visual thresholds in humans: Evidence of modality specific and retinotopically organized mechanisms of selective attention. Experimental Brain Research 29:173190. [taJC, EP]10.1007/BF00237040 CrossRefGoogle ScholarPubMed
Solomon, S. J., Pasik, T. & Pasik, P. (1979) Effects of striate cortex and/or superior colliculi ablations on accurate reaching by monkeys. Society for Neuroscience Abstracts 5:808. [PP]Google Scholar
Solomon, S. J., (1981) Extrageniculostriate vision in the monkey. VIII. Critical structures for spatial localization. Experimental Brain Research 44:259–70. [PP. MTP]10.1007/BF00236563 CrossRefGoogle ScholarPubMed
Spehlmann, R., Gross, R. A., Ho, S. U., Leestma, J. E. & Norcross, K. A. (1977) Visual evoked potentials and postmortem findings in a case of cortical blindness. Annals of Neurology 2:531–34. [OM, RS]10.1002/ana.410020615 569461 CrossRefGoogle Scholar
Sperling, G. (1960) The information available in brief visual presentations. Psychological Monographs 74, whole 498. [GU]Google Scholar
Sprague, J. M. (1966) Interaction of cortex and superior colliculus in mediation of visually guided behaviour in the cat. Science 153:1544–47. [taJC, EP, WR]10.1126/science.153.3743.1544 CrossRefGoogle ScholarPubMed
Sprague, J. M., Berlucchi, G. & Rizzolatti, G. (1973) The role of the superior colliculus and pretectum in vision and visually guided behaviour. In: Handbook of sensory physiology, vol. VII/3B, Central processing of visual information, ed. Jung, R., pp. 27101. Springer-Verlag. [CRL]Google Scholar
Stone, J., & Dreher, B. (1982) Parallel processing of information in the visual pathways – a general principle of sensory coding? Trends in Neurosciences 5:441–46. [rJC[10.1016/0166-2236(82)90237-5 CrossRefGoogle Scholar
Stone, J. & Fukada, Y. (1974) The naso-temporal division of the cat's retina re-examined in terms of W-, X- and Y- cells. Journal of Comparative Neurology 155:377–94. [rJC]10.1002/cne.901550402 4847732 CrossRefGoogle Scholar
Swets, J. A., Tanner, W. P. Jr, & Birdsall, T. G. (1961) Decision processes in perception. Psychological Review 68:301–40. [taJC]10.1037/h0040547 13774292 CrossRefGoogle ScholarPubMed
Teuber, H.-L. (1955) Physiological psychology. Annual Review of Psychology 6:267–96. [PP]10.1146/annurev.ps.06.020155.001411 14377367 CrossRefGoogle Scholar
Torjussen, T. (1976) Residual function in cortically blind hemifields. Scandinavian Journal of Psychology 17:320–22. [rJC, TT]10.1111/j.1467-9450.1976.tb00247.x 1013654 CrossRefGoogle ScholarPubMed
Torjussen, T. (1978) Visual processing in cortically blind hemifields. Neuropsychologia 16:1521. [tarJC, TT]10.1016/0028-3932(78)90038-6 634459 CrossRefGoogle ScholarPubMed
Trevarthen, C. (1968) Two mechanisms of vision in primates. Psychologische Forschung 31:299337. [BB]10.1007/BF00422717 4973634 CrossRefGoogle Scholar
Trevarthen, C. (1970) Experimental evidence for a brain stem contribution to visual perception in man. Brain, Behaviour and Evolution 3: 338–52. [taJC]Google ScholarPubMed
Underwood, G. (1977) Attention, awareness and hemispheric differences in word recognition. Neuropsychologia 15:6167. [GU]10.1016/0028-3932(77)90115-4 831154 CrossRefGoogle ScholarPubMed
Ungerleider, L. G. & Mishkin, M. (1982) Two cortical visual systems. In: Analysis of visual behavior, ed. Ingle, D. J., Goodale, M. A. & Mansfield, R. J. W., pp. 549–86. MIT Press. [RNH]Google Scholar
Weale, R. A. (1957) Some observations on the Ferry-Porter Law. Journal of Physiology 137:5051P. [RAW]Google Scholar
Weale, R. A. (1978) The eye and aging. Interdisciplinary Topics in Gerontology 13:113. [RAW]CrossRefGoogle Scholar
Weale, R. A. (1981) Physical changes due to age and cataract. In: Mechanisms of cataract formation in the human lens, ed. Duncan, G.. Academic Press. [RAW]Google Scholar
Weale, R. A. & Wheeler, C. (1977) A note on stray light in the Tübingen perimeter. British Journal of Ophthalmology 61:133–34. [taJC[10.1136/bjo.61.2.133 843510 CrossRefGoogle ScholarPubMed
Weiskrantz, L. (1972) Behavioural analysis of the monkey's visual nervous system. Proceedings of the Royal Society. London, B, 182:427–55. [LW]10.1098/rspb.1972.0087 CrossRefGoogle ScholarPubMed
Weiskrantz, L. (1974) The interaction between occipital and temporal cortex in vision: An overview. In: The neurosciences. Third study program, ed. Schmitt, F. O. & Worden, F. G., pp. 189204. MIT Press. [PP]Google Scholar
Weiskrantz, L. (1980) Varieties of residual experience. Quarterly Journal of Experimental Psychology 32:365–86. [tarJC, LW[10.1080/14640748008401832 7422815 CrossRefGoogle ScholarPubMed
Weiskrantz, L. (1982) A follow-up study of blindsight. Paper presented at the Fifth INS European Conference, Deauville, France, 06 1618. [taJC]Google Scholar
Weiskrantz, L. & Cowey, A. (1967) A comparison of the effects of striate cortex and retinal lesions on visual acuity in the monkey. Science 155:104–6. [LW]10.1126/science.155.3758.104 4959132 CrossRefGoogle ScholarPubMed
Weiskrantz, L., Cowey, A. & Passingham, C. (1977) Spatial responses to brief stimuli by monkeys with striate cortex ablations. Brain 100:655–70. [taJC, PP]10.1093/brain/100.4.655 415795 CrossRefGoogle Scholar
Weiskrantz, L., Warrington, E. K., Sanders, M. D. & Marshall, J. (1974) Visual capacity in the hemianopic field following a restricted occipital ablation. Brain 97:709–28. [tarJC, PP, MTP, EP, GU, LW, RW]10.1093/brain/97.1.709 4434190 CrossRefGoogle ScholarPubMed
Werth, R. (in press) Bewuβtsein - psychologische, neurobiologische und wissenschaftstheoretische Aspekte. Springer-Verlag. [RW]Google Scholar
Westheimer, G. (1972) Optical properties of vertebrate eyes. In: Handbook of sensory physiology. vol. 7/2: Physiology of photoreceptor organs. ed. Fuortes, M., pp. 449–82. Springer-Verlag, [BB, rJC]Google Scholar
Williams, D. & Gassel, M. M. (1962) Visual functions in patients with homonymous hemianopia. Brain 85:175250. [tarJC, JZ]10.1093/brain/85.2.175 14007129 CrossRefGoogle Scholar
Wilson, M. E. (1968) The detection of light scattered from stimuli in impaired regions of the visual field. Journal of Neurology, Neurosurgery and Psychiatry 31:509–13. [taJC]Google ScholarPubMed
Wilson, M. E. & Toyne, M. J. (1970) Retino-tectal and cortico-tectal projections in Macaca mulatta. Brain Research 24:395406. [PP]10.1016/0006-8993(70)90181-2 4099749 CrossRefGoogle ScholarPubMed
Wyszecki, G. & Stiles, W. S. (1982) Color science. 2d ed. Wiley. [JLB]Google Scholar
Yoshida, K. & Benevento, L. A. (1981) The projection from the dorsal geniculate of the thalamus to extrastriate visual association cortex in the macaque monkey. Neuroscience Letters 22: 103–8. [EP[10.1016/0304-3940(81)90071-9 6164960 CrossRefGoogle ScholarPubMed
Yukie, M. & Iwai, E. (1981) Direct projection from the dorsal lateral geniculate nucleus to the prestriate cortex in macaqume monkeys. Journal of Comparative Neurology 201:8197. [EP, LW]10.1002/cne.902010107 7276252 CrossRefGoogle ScholarPubMed
Zappia, R. J., Enoch, J. M., Stamper, E. R., Winkleman, J. Z. & Gay, A. J. (1971) The Riddoch phenomenon revealed in non-occipital lobe lesions. British Journal of Ophthalmology 55:416–20. [OM]10.1136/bjo.55.6.416 5090280 CrossRefGoogle Scholar
Zihl, J. (1980) “Blindsight”: Improvement of visually guided eye movements by systematic practice in patients with cerebral blindness. Neuropsychologia 18:7177. [talC, GU, JZ]10.1016/0028-3932(80)90085-8 7366825 CrossRefGoogle Scholar
Zihi, J. (1981) Recovery of visual functions in patients with cerebral blindness. Experimental Brain Research 44:159–69. [tsJC, RW]Google Scholar
Zihl, J. & von Cramon, D. (1979) Restitution of visual function in patients with cerebral blindness. Journal of Neurology, Neurosurgery and Psychiatry 42:312–22. [taJC, PBR, JZ]Google ScholarPubMed
Zihl, J. (1980) Registration of light stimuli in the cortically blind hemifield and its effect on localization. Behavioural Brain Research 1:287–98. [taJC, RW]7295378 10.1016/0166-4328(80)90022-4 CrossRefGoogle ScholarPubMed
Zihl, J. (1982) Restitution of visual field in patients with damage to the geniculostriate visual pathway. Human Neurobiology 1:58. [taJC]7185781 Google ScholarPubMed

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