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A “neuropsychology of schizophrenia” without vision

Published online by Cambridge University Press:  04 February 2010

Fred H. Previc
Fred H. Previc*
Affiliation:
Crew Technology Division, Armstrong Laboratory, Brooks AFB, TX 78235–5000 Electronic mail: previc%[email protected]
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Information
Behavioral and Brain Sciences , Volume 16 , Issue 1 , March 1993 , pp. 207 - 208
Copyright
Copyright © Cambridge University Press 1993

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References

Antelman, S. M. & Caggiula, A. R. (1977) Norepinephrine-dopamine interactions and behavior. Science 195:646–53. [FHP]Google Scholar
Archer, T., Jarbe, T. U. C., Mohammed, A. K. & Priedite, G. (1985) The effects of stimulus pre-exposure upon the context affect in taste aversion learning in noradrenaline depleted rats. Scandinavian Journal of Psychology 26:158–69. [rDRH]Google Scholar
Baddeley, A. (1990) Human memory: Theory and practice. Lawrence Erlbaum. [rDRH]Google Scholar
Baruch, I. (1988) Differential performance of acute and chronic schizophrenics in a latent inhibition task and its relevance for the dopamine hypothesis and the dimensional view of psychosis. Ph.D. thesis, University of London. [rDRH]Google Scholar
Baruch, I., Hemsley, D. R. & Gray, J. A. (1988) Differential performance of acute and chronic schizophrenics in a latent inhibition task. Journal of Nervous and Mental Disease 176:598606. [rDRH, DWS]Google Scholar
Beech, A., Baylis, G. C., Smithson, P. & Claridge, G. (1983) Individual differences in schizotypy as reflected in cognitive measures of inhibition. British Journal of Clinical Psychology 28:117–29. [DWS]Google Scholar
Beech, A. & Claridge, G. (1987) Individual differences in negative priming: Relations with schizotypal personality traits. British Journal of Psychology 78:349–56. [DWS]Google Scholar
Beech, A., Powell, T., McWilliam, J. & Claridge, G. (1989) Evidence of reduced “cognitive inhibition” in schizophrenia. British Journal of Clinical Psychology 28:109–17. [rDRH]Google Scholar
Bemporad, J. R. (1967) Perceptual disorders in schizophrenia. American Journal of Psychiatry 123:971–76. [FHP]CrossRefGoogle ScholarPubMed
Bogartz, R. S. & Witte, K. L. (1966) On the locus of the stimulus familiarization effect in young children. Journal of Experimental Child Psychology 4:317–31. [DWS]Google Scholar
Bracha, H. S., Cabrera, F. J. Jr., Karson, C. N. & Bigelow, L. B. (1985) Lateralization of visual hallucinations in chronic schizophrenia. Biological Psychiatry 20:1132–36. [rDRH, FHP]Google Scholar
Brown, R. M., Crane, A. M. & Goldman, P. S. (1979) Regional distribution of monoamines in the cerebral cortex and subcortical structures of the rhesus monkey: Concentrations and in vivo synthesis rates. Brain Research 168:133–50. [FHP]Google Scholar
Buchanan, R. W., Kirkpatrick, B., Heinrichs, D. W. & Carpenter, W. T. Jr., (1990) Clinical correlates of the deficit syndrome of schizophrenia. American Journal of Psychiatry 147:290–94. [FHP]Google Scholar
Calev, A. (1984a) Recall and recognition in chronic nondemented schizophrenics: Use of matched tasks. Journal of Abnormal Psychology 93:172–77. [rDRH, ADP]Google Scholar
Calev, A. (1984b) Recall and recognition in mildly disturbed schizophrenics: The use of matched tasks. Psychological Medicine 14:425–29. [rDRH, ADP]CrossRefGoogle Scholar
Cantor, G. N. (1969) Effects of stimulus familiarization on child behavior. In: Minnesota symposia on child psychology, vol. 3, ed. Hill, J. P.. University of Minnesota Press. [DWS]Google Scholar
Carlsson, A. (1988) The current state of the dopamine hypothesis of schizophrenia. Neuropsychopharmacology 1:179203. [MHJ]Google Scholar
Cecil, L. S., Kraut, A. G. & Smothergill, D. W. (1984) An alertness decrement hypothesis of response inhibition to repeatedly presented stimuli. American Journal of Psychology 97:391–98. [DWS]Google Scholar
Chapman, J. (1966) The early symptoms of schizophrenia. British Journal of Psychiatry 112:225–51. [FHP]Google Scholar
Corin, M. S., Elizan, T. S. & Bender, M. B. (1972) Oculomotor function in patients with Parkinson's disease. Journal of the Neurological Sciences 15:251–65. [FHP]Google Scholar
Crow, T. J. (1973) Catecholamine-containing neurones and electrical self-stimulation: 2. A theoretical interpretation and some psychiatric implications. Psychological Medicine 3:6673. [FHP]Google Scholar
Davidson, T. L. & Jarrard, L. E. (1989) Retention of concurrent conditional discriminations in rats with ibotenate lesions of hippocampus. Psychobiology 17:4960. [rDRH]Google Scholar
Dawson, M. E. & Hazlett, E. A. (1991) Heterogeneity, orienting and habituation in schizophrenia. Behavioral and Brain Sciences 14:2425. [ADP, DWS]Google Scholar
Deakin, J. F. W., Slater, P., Simpson, M. D. C., Gilchrist, A. C., Skan, W. J. & Royston, M. C et al. , (1989) Front cortical and left temporal glutamatergic dysfunction in schizophrenia. Journal of Neurochemistry 52:1781–86. [MHJ]Google Scholar
Deutch, A. M., Ying Tarn, S. & Roth, R. R. (1985) Footshock and conditioned stress increase 3, 4-dihydroxyphenylacetic acid (DOPAC) in the ventral tegmental area but not substantia nigra. Brain Research 333:143–46. [rDRH]Google Scholar
Dougherty, G. D., Steinhauer, S. R., Zubin, J. & van Kammen, D. P. (1991) How does the physiology change with symptom exacerbation and remission in schizophrenia? Behavioral and Brain Sciences 14:2526. [rDRH]Google Scholar
Flor-Henry, P. (1976) Lateralized temporal-limbic dysfunction and psychopathology. Annals of the New York Academy of Science 280:777–97. [FHP]Google Scholar
Flor-Henry, P. (1986) Auditory hallucinations, inner speech, and the dominant hemisphere. Behavioral and Brain Sciences 9:523–24. [FHP]Google Scholar
Foote, S. L., Bloom, F. E. & Aston-Jones, G. (1983) Nucleus locus ceruleus: New evidence of anatomical and physiological specificity. Physiological Reviews 63:844914. [FHP]Google Scholar
Frith, C. D. (1987) The positive and negative symptoms of schizophrenia reflect impairments in the perception and initiation of action. Psychological Medicine 17:631–48. [MHJ]Google Scholar
Frith, C. D. (1991) In what context is latent inhibition relevant to the symptoms of schizophrenia? Behavioral and Brain Sciences 14:2829. [ADP]Google Scholar
Garety, P. A., Hemsley, D. R. & Wessely, S. (1991) Reasoning in deluded schizophrenic and paranoid patients; biases in performance on a probabilistic reasoning task. Journal of Nervous and Mental Disease 179:194201. [rDRH]Google Scholar
George, L. & Neufeld, R. W. J. (1985) Cognition and symptomatology in schizophrenia. Schizophrenia Bulletin 11:264–85. [FHP]Google Scholar
Gewirtz, J. C. (1991) Novelty value in associative learning. Behavioral and Brain Sciences 14:29. [DWS]Google Scholar
Godden, D. R. & Baddeley, A. D. (1975) Context-dependent memory in two natural environments: On land and underwater. British Journal of Psychology 66:325–31. [ADP]Google Scholar
Godden, D. R. & Baddeley, A. D. (1980) When does context influence recognition memory? British Journal of Psychology 71:99104. [ADP]Google Scholar
Gray, J. A. (1982) The neuropsychology of anxiety: An enquiry into the function of the septo-hippocampal system. Oxford University Press. [rDRH]Google Scholar
Gray, J. A., Feldon, J., Rawlins, J. N. P., Hemsley, D. R. & Smith, A. D. (1991a) The neuropsychology of schizophrenia. Behavioral and Brain Sciences 14:120. [rDRH, ADP, FHP, DWS]Google Scholar
Gray, J. A., Hemsley, D. R., Feldon, J., Gray, N. S. & Rawlins, J. N. P. (1991r) Schiz bits: Misses, mysteries and hits [Response to commentary]. Behavioral and Brain Sciences 14:5671. [rDRH, ADP]Google Scholar
Gray, N. S., Pickering, A. D., Hemsley, D. R., Dawling, S. & Gray, J. A. (1992) Abolition of latent inhibition by a single 5 mg dose of d-amphetamine in man. Psychopharmacology 107:425–30. [MHJ]Google Scholar
Gross, G. (1989) The “basic” symptoms of schizophrenia. British Journal of Psychiatry 155 (suppl. 7):2125. [rDRH]CrossRefGoogle Scholar
Hall, G. & Channell, S. (1985) Differential effects of contextual change in latent inhibition and in the habituation of an orienting response. Journal of Experimental Psychology: Animal Behaviour Processes 11:470–81. [rDRH]Google Scholar
Hamilton, V. (1972) The size constancy problem in schizophrenia: A cognitive skill analysis. British Journal of Psychology 63:7384. [rDRH]Google Scholar
Hartmann, E. (1976) Schizophrenia: A theory. Psychopharmacology 49:115. [FHP]Google Scholar
Hemsley, D. R. (1987) An experimental psychological model for schizophrenia. In: Search for the causes of schizophrenia, ed. Häfher, H., Gattaz, W. F. & Janzavik, W.. Springer Verlag. [rDRH, MHJ]Google Scholar
Hemsley, D. R. (in press) Perceptual and cognitive abnormalities as the bases for schizophrenic symptoms. In: Neuropsychology of schizophrenia, ed. David, A. & Cutting, J.. Lawrence Erlbaum. [rDRH]Google Scholar
Hikosaka, O. & Wurtz, R. H. (1989) The basal ganglia. In: The neurobiology of saccadic eye movements, ed. Wurtz, R. H. & Goldberg, M. E.. Elsevier. [FHP]Google Scholar
Holman, J. G. & Mackintosh, N. J. (1981) The control of appetitive instrumental responding does not depend on classical conditioning to the discriminative stimulus. Quarterly Journal of Experimental Psychology 33B:2132. [rDRH]Google Scholar
Holzman, P. S. (1987) Recent studies of psychophysiology in schizophrenia. Schizophrenia Bulletin 13:4975. [FHP]CrossRefGoogle ScholarPubMed
Hornykiewicz, O. (1986) Brain noradrenaline and schizophrenia. Progress in Brain Research 65:2939. [FHP]Google Scholar
Jones, S. H. (1989) The Kamin blocking effect, incidental learning, and choice reaction time in acute and chronic schizophrenia. Ph.D. thesis, University of London. [rDRH]Google Scholar
Jones, S. H., Hemsley, D. R. & Gray, J. A. (1991) Contextual effects on choice reaction time and accuracy in acute and chronic schizophrenia: Impairment in selective attention or in the influence of prior learning? British Journal of Psychiatry 159:415–21. [rDRH, ADP]Google Scholar
Joseph, M. H., Frith, C. D. & Waddington, J. L. (1979) Dopaminergic mechanisms and cognitive deficit in schizophrenia: A neurobiological model. Psychopharmacology 63:273–80. [MHJ]Google Scholar
Joseph, M. H., Young, A. M. J. & Gray, J. A. (1991) Reinforcement, conditioning and dopamine function in the nucleus accumbens. In: Monitoring molecules in neuroscience, ed. Rollema, H., Westerink, B. H. C. & Drijfhout, W. J., University Centre for Pharmacy, Groningen. [MHJ]Google Scholar
Kaiya, H. (1980) Neuromelanin, neuroleptics and schizophrenia. Hypothesis of an interaction between noradrenergic and dopaminergic system. Neuropsychobiology 6:241–48. [FHP]Google Scholar
Kamin, L. J. (1968) “Attention-like” processes in classical conditioning. In: Miami symposium on the prediction of behavior, ed. Jones, M. R.. University of Miami Press. [MHJ]Google Scholar
Kaye, H. & Pearce, J. M. (1987) Hippocampal lesions attenuate latent inhibition and the decline of the orienting response in rats. Quarterly Journal of Experimental Psychology 39B:107–25. [rDRH]Google Scholar
Knight, R. A. (1984) Converging models of cognitive deficit in schizophrenia. In: Theories of schizophrenia and psychosis, ed. Spaulding, W. & Cole, J. K.. University of Nebraska Press. [rDRH]Google Scholar
Kraut, A. G. (1976) Effects of familiarization on alertness and encoding in children. Developmental Psychology 12:491–96. [DWS]Google Scholar
Kraut, A. G. & Smothergill, D. W. (1978) A two-factor theory of stimulus repetition effects. Journal of Experimental Psychology: Human Perception and Performance 4:191–97. [DWS]Google Scholar
Kraut, A. G., Smothergill, D. W. & Farkas, M. S. (1981) Stimulus repetition effects on attention to words and colors. Journal of Experimental Psychology: Human Perception and Performance 7:1303–11. [DWS]Google Scholar
Litman, R. E., Hommer, D. W., Clem, T., Rapaport, M. H., Pato, C. N. & Pickar, D. (1989) Smooth pursuit eye movements in schizophrenia: Effects of neuroleptic treatment and caffeine. Psychopharmacology Bulletin 25:473–78. [FHP]Google Scholar
Ljungberg, T. & Enquist, M. (1987) Disruptive effects of low doses of d-amphetamine on the ability of rats to organise behaviour into functional sequences. Psychopharmacology 93:146–51. [MHJ]Google Scholar
Lorden, J. F., Rickert, E. J., Dawson, R. Jr., & Pelleymounter, M. A. (1980) Forebrain norepinephrine and the selective processing of information. Brain Research 190:569–73. [FHP]Google Scholar
Lubow, R. E. (1989) Latent inhibition and conditioned attention theory. Cambridge University Press. [rDRH, MHJ, DWS]Google Scholar
Lubow, R. E. (1991) Schizophrenia and attention: In and out of context. Behavioral and Brain Sciences 14:3536. [ADP]CrossRefGoogle Scholar
Mackintosh, N. J. (1975) A theory of attention: Variations in the associability of stimuli with reinforcement. Psychological Review 82:276–98. [rDRH]Google Scholar
Mason, S. T. (1981) Noradrenaline in the brain: Progress in theories of behavioural function. Progress in Neurobiology 16:263303. [FHP]Google Scholar
Mason, S. T. & Lin, D. (1980) Dorsal noradrenergic bundle and selective attention in the rat. Journal of Comparative Physiology and Psychology 44:819–32. [rDRH]Google Scholar
Matussek, P. (1952) Studies in delusional perception. Psychiatrie und Zeitschrift Neurologie 189:279318. (trans. 1987 in: The clinical roots of the schizophrenia concept, ed. J. Cutting & M. Shepherd. Cambridge University Press. [rDRH]Google Scholar
Mayes, A. R., Meudell, P. R. & Pickering, A. D. (1985) Is organic amnesia caused by a selective deficit in remembering contextual information? Cortex 21:167202. [ADP]Google Scholar
McLaren, I. P. L., Kaye, H. & Mackintosh, N. J. (1989) An associative theory of the representation of stimuli: Applications to perceptual learning and latent inhibition. In: Parallel distributed processing – implications for psychology and neurobiology, ed. Morris, R. G. M.. Oxford University Press. [rDRH]Google Scholar
McNeil, J. (1991) Recall-recognition discrepancies in schizophrenic memory test performance. M.Sc. thesis, Institute of Psychiatry, London University. [rDRH]Google Scholar
Merritt, R. D. & Balogh, D. W. (1990) Backward masking as a function of spatial frequency. A comparison of MMPI-identified schizotypics and control subjects. Journal of Nervous and Mental Disease 178:186–93. [FHP]Google Scholar
Miller, J. (1987) Priming is not necessary for selective-attention failures: Semantic effects of unattended, unprimed letters. Perception & Psychophysics 41:419–34. [rDRH, ADP]Google Scholar
Mirabile, C. S. Jr., Glueck, B. C. & Stroebel, C. F. (1976) Susceptibility to motion sickness and field dependence-independence as measured with the rod and frame test. Neuropsychobiology 2:4551. [FHP]Google Scholar
Mirkin, A. M. (1985) Bimodal electrodermal activity in schizophrenics. British Journal of Clinical Psychology 24:131–32. [rDRH]Google Scholar
Mohammed, A. K., Callenholm, N. E. B., Jarbe, T. V. C., Swedberg, M. D. B., Danysz, W., Robbins, T. W. & Archer, T. (1986) Role of central noradrenaline neurons in the contextual control of latent inhibition in taste aversion learning. Behavioural Brain Research 21:109–18. [rDRH]Google Scholar
Morrison, J. H. & Foote, S. L. (1986) Noradrenergic and serotoninergic innervation of cortical, thalamic, and tectal visual structures in old and new world monkeys. Journal of Comparative Neurology 243:117–38. [FHP]Google Scholar
Nuechterlein, K. H. & Green, M. F. (1991) Neuropsychological vulnerability or episode factors in schizophrenia? Behavioral and Brain Sciences 14:3738. [rDRH]Google Scholar
Oades, R. D. (1982) Attention and schizophrenia: Neurobiological bases. Pitman. [rDRH]Google Scholar
Oades, R. D. (1991) Bases for irrelevant information processing in schizophrenia. Behavioral and Brain Sciences 14:3839. [ADP]Google Scholar
Ohman, A., Nordby, H. & d'Elia, G. (1986) Orienting and schizophrenia: Stimulus significance attention and distraction in a signalled reaction time task. Journal of Abnormal Psychology 95:326–34. [rDRH]Google Scholar
Oke, A. F. & Adams, R. N. (1987) Elevated thalamic dopamine: Possible link to sensory dysfunctions in schizophrenia. Schizophrenia Bulletin 13:589604. [FHP]Google Scholar
Ornitz, E. M. (1970) Vestibular dysfunction in schizophrenia and childhood autism. Comprehensive Psychiatry 11:159–73. [FHP]Google Scholar
Peters, E., Pickering, A. & Hemsley, D. R. (submitted) Cognitive inhibition and positive symptomatology. [rDRH]Google Scholar
Peters, S. L., Gray, J. A. & Joseph, M. H. (1992) Nicotine blocks latent inhibition in rats: Evidence for increased functional activity of dopamine in the mesolimbic system. Journal of Psychopharmacology 6:110. [MHJ]Google Scholar
Phillipson, O. T. & Harris, J. P. (1985) Perceptual changes in schizophrenia: A questionnaire survey. Psychological Medicine 15:859–66. [FHP]Google Scholar
Posner, M. I. & Boies, S. (1971) Components of attention. Psychological Review 78:391408. [DWS]Google Scholar
Posner, M. I., Early, T. S., Reiman, E., Pardo, P. J. & Dhawan, M. (1988) Asymmetries in hemispheric control of attention in schizophrenia. Archives of General Psychiatry 45:814–21. [FHP]Google Scholar
Previc, F. H. (1990a) Functional specialization in the lower and upper visual fields in humans: Its ecological origins and neurophysiological implications. Behavioral and Brain Sciences 13:519–42. [FHP]Google Scholar
Previc, F. H. (1990r) Visual processing in three-dimensional space: Perceptions and misperceptions [Response to commentary]. Behavioral and Brain Sciences 13:559–66. [FHP]Google Scholar
Previc, F. H. (1991) A general theory concerning the prenatal origins of cerebral lateralization in humans. Psychological Review 98:299334. [FHP]Google Scholar
Pycock, C. J., Donaldson, I. M. & Marsden, C. D. (1975) Circling behaviour produced by unilateral lesions in the region of the locus coeruleus in rats. Brain Research 97:317–29. [FHP]Google Scholar
Rief, W. (1991) Visual perceptual organisation in schizophrenic patients. British Journal of Clinical Psychology 30:359–66. [rDRH]Google Scholar
Robbins, T. W., Everitt, B. J., Fray, P. J., Gaskin, M., Carli, M. & de la Riva, C. (1982) The roles of central catecholamines in attention and learning. In: Behavioural models and the analysis of drug action, ed. Spiegelstein, M. M. & Levy, A.. Elsevier. [rDRH]Google Scholar
Rosenbaum, G., Shore, D. L. & Chapin, K. (1988) Attention deficit in schizophrenia and schizotypy: Marker versus symptom variables. Journal of Abnormal Psychology 97:4147. [FHP]Google Scholar
Ross, R. T., Orr, W. B., Holland, P. C. & Berger, T. (1984) Hippocampectomy disrupts acquisition and retention of learned conditional responding. Behavioural Neuroscience 98:211–23. [rDRH]Google Scholar
Rudy, J. W. & Sutherland, R. J. (1989) The hippocampal formation is necessary for rats to learn and remember configural discriminations. Behavioural Brain Research 34:97109. [rDRH]Google Scholar
Rund, B. R. (1986) Verbal hallucinations and information processing. Behavioral and Brain Sciences 9:531–32. [rDRH]Google Scholar
Schmajuk, N. A. (1987) Animal models of schizophrenia: The hippocampally lesioncd animal. Schizophrenia Bulletin 12:317–27. [rDRH]Google Scholar
Schmajuk, N. A. & DiCarlo, J. J. (1991) A hippocampal theory of schizophrenia. Behavioral and Brain Sciences 14:4749. [rDRH]Google Scholar
Schneider, C. (1930) Die Psychologie der Schizophrenen. G. Thieme. [rDRH]Google Scholar
Schwartz Place, E. J. & Gilmore, G. C. (1980) Perceptual organization in schizophrenia. Journal of Abnormal Psychology 89:409–18. [rDRH, FHP]Google Scholar
Slade, P. D. (1973) The psychological investigation and treatment of auditory hallucinations. British Journal of Medical Psychology 46:293–96. [rDRH]Google Scholar
Smith, S. M., Glenberg, A. & Bjork, R. A. (1978) Environmental context and human memory. Memory and Cognition 6:342–53. [ADP]Google Scholar
Smothergill, D. W. & Kraut, A. G. (1989) Developmental studies of alertness and encoding effects of stimulus repetition. In: Advances in child development and behavior, vol. 22, ed. Reese, H. W.. Academic Press. [DWS]Google Scholar
Solomon, P. R., Crider, A., Winkelman, J. W., Turi, A., Kamer, R. M. & Kaplan, L. J. (1981) Disrupted latent inhibition in the rat with chronic amphetamine or haloperidol-induced supersensitivity: Relationship to schizophrenic attention disorder. Biological Psychiatry 16:519–37. [MHJ]Google Scholar
Spohn, H. E., Coyne, L. & Spray, J. (1988) The effect of neuroleptics and tardive dyskinesia on smooth-pursuit eye movements in chronic schizophrenics. Archives of General Psychiatry 45:833–40. [FHP]Google Scholar
Stein, L. & Wise, C. D. (1971) Possible etiology of schizophrenia: Progressive damage to the noradrenergic reward system by 6-hydroxydopamine. Science 171:1032–36. [FHP]Google Scholar
Stevens, J. R. & Gold, J. M. (1991) What is schizophrenia? Behavioral and Brain Sciences 14:5051. [rDRH]Google Scholar
Svensson, T. H. (1987) Peripheral, autonomic regulation of locus coeruleus noradrenergic neurons in the brain: Putative implications for psychiatry and psychopharmacology. Psychopharmacology 92:17. [rDRH]Google Scholar
Tandon, R. & Greden, J. F. (1989) Cholinergic hyperactivity and negative schizophrenic symptoms. Archives of General Psychiatry 46:745–53. [FHP]Google Scholar
Tsaltas, E., Preston, G. C., Rawlins, J. N. P., Winocur, G. & Gray, J. A. (1984) Dorsal bundle lesions do not affect latent inhibition of conditioned suppression. Psychopharmacology 84:549–55. [rDRH]Google Scholar
Tucker, D. M. & Williamson, P. A. (1984) Asymmetric neural control systems in human self-regulation. Psychological Review 91:185215. [FHP]Google Scholar
Van Dongen, P. A. M. (1981) The human locus coeruleus in neurology and psychiatry. Progress in Neurobiology 17:97139. [FHP]Google Scholar
Van Kammen, D. P. & Kelley, M. (1991) Dopamine and norepinephrine activity in schizophrenia. Schizophrenia Research 4:173–91. [rDRH]Google Scholar
Van Kammen, D. P., Peters, J., Yao, J., Van Kammen, W. B., Neylan, T., Shaw, D. & Linnoila, M. (1990) Norepinephrine in acute exacerbations of chronic schizophrenia. Archives of General Psychiatry 47:161–68. [FHP]Google Scholar
Van Neerven, J., Pompeiano, O., Collewijn, H. & Van Der Steen, J. (1990) Injections of β-noradrenergic substances in the flocculus of rabbits affect adaptation of the VOR gain. Experimental Brain Research 79:249–60. [FHP]Google Scholar
Wagner, A. R. (1976) Priming in STM: An information processing mechanism for self-generated or retrieval gene rated-depression of performance. In: Habituation: Perspectives from child development, animal behavior and neuropsychology, ed. Tighe, T. J. & Leighton, R. N.. Lawrence Erlbaum. [rDRH]Google Scholar
Warburton, E. C., Feldon, J., Weiner, I., Gray, J. A. & Joseph, M. H. (1991) Antagonism of amphetamine disruption of latent inhibition by haloperidol, and by the 5HT-3 antagonist, ondansetron. Journal of Psychopharmacology 6:110. [MHJ]Google Scholar
Weckowicz, T. E., Sommer, R. & Hall, R. (1958) Distance constancy in schizophrenic patients. Journal of Mental Science 104:1174–82. [FHP]CrossRefGoogle ScholarPubMed
Weiner, I. (1991) The accumbens-substantia nigra pathway, mismatch and amphetamine. Behavioral and Brain Sciences 14:5455. [rDRH]Google Scholar
Weiner, I., Lubow, R. E. & Feldon, J. (1988) Disruption of latent inhibition by acute administration of low doses of amphetamine. Pharmacology, Biochemistry and Behaviour 30:871–78. [rDRH, MHJ]Google Scholar
Weiner, I., Shofel, A. & Feldon, J. (1990) Disruption of latent inhibition by low dose of amphetamine is antagonised by haloperidol and apomorphine. Journal of Psychopharmacology 4:255. [MHJ]Google Scholar
Weiskrantz, L. (1982) Comparative aspects of studies of amnesia. Philosophical Transactions of the Royal Society B 298:97109. [rDRH]Google Scholar
Wells, D. S. (1987) Global and local processing in schizophrenia. Dissertation Abstracts International 49:1405–B. [FHP]Google Scholar
Wells, D. S. & Leventhal, D. (1984) Perceptual grouping in schizophrenia: Replication of Place and Gilmore. Journal of Abnormal Psychology 93:231–34. [FHP]Google Scholar
Wells, J. O. & Caldwell, W. E. (1967) Perception of the vertical as a function of affective stimuli and extraneous stimulation in schizophrenic and normal subjects. Genetic Psychology Monographs 75:209–34. [FHP]Google Scholar
Wertheim, A. H., Van Gelder, P., Lautin, A., Peselow, E. & Cohen, N. (1985) High thresholds for movement perception in schizophrenia may indicate abnormal extraneous noise levels of central vestibular activity. Biological Psychiatry 20:11971210. [FHP]Google Scholar
Wilbur, R., Kulik, F. A. & Kulik, A. V. (1988) Noradrenergic effects in tardive dyskinesia, akathisia and pseudoparkinsonism via the limbic system and basal ganglia. Progress in Neuro-Psychopharmacology and Biological Psychiatry 12:849–64. [FHP]Google Scholar
Winocur, G., Rawlins, J. N. P. & Gray, J. A. (1987) The hippocampus and conditioning to contextual cues. Behavioral Neuroscience 101:617–25. [rDRH]Google Scholar
Wykes, T., Sturt, E. & Katz, R. (1990) The prediction of rehabilitative success after three years: The use of social, symptom and cognitive variables. British Journal of Psychiatry 157:865–70. [rDRH]Google Scholar
Young, A. M. J., Gray, J. A. & Joseph, M. H. (1991) Dopamine function in selective attention and conditioning: A microdialysis study using latent inhibition. Journal of Psychopharmacology 6:112. [MHJ]Google Scholar
Zuckerman, M. (1969) Hallucinations, reported sensations and images. In: Sensory deprivation: Fifteen years of research, ed. Zubek, J. P.. Appleton-Century Crofts. [rDRH]Google Scholar