Abstract
Reports on smoking and nicotine effects upon memory are contradictory: improvement, no change, and impairment have been observed. These inconsistencies may be due at least in part to different types of learning tasks and to experimental designs: in most studies, acute nicotine effects were analysed after previous smoking deprivation. This study compared learning, retention, and retrieval between nonsmoking after previous deprivation and “usual” smoking without previous deprivation. Twenty female smokers (S) participated in two sessions, between 8.00 and 11.00 a.m. The Austin maze and a Word Recognition Task (WRT) were applied. During the WRT, ERP were recorded from Fz and Cz scalp locations. Heart rate, CO, and subjective ratings (dizziness and smoking need) but neither WRT nor maze performance discriminated between deprivation and smoking. However, significant differences were obtained between those Ss who usually start smoking within 1 h after getting up (ES) and those who start later (LS). In maze learning and WRT, LS performed better when deprived than smoking, and ES performed better when smoking than deprived, i.e. when the time of the tests met their usual smoking habits. Results are discussed in terms of a modulation of smoking effects on memory functions by the Ss’ internal state.
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References
Andersson K (1974) Effects of cigarette smoking on learning and retention. Psychopharmacologia 41:1–5
Andersson K, Hockey GRJ (1977) Effects of cigarette smoking on incidental memory. Psychopharmacology 52:223–226
Bättig K, Buzzi R, Martin JR, Feierabend JM (1984) The effects of caffeine on physiological functions and mental performance. Experientia 40:1218–1223
Beyreiß J, Hoffmann B, Roth N (1991) Effekte einer experimentellen Stimulantientherapie bei hyperaktiven Kindern mit atopischen Erkrankungen: Ergebnisse einer Pilotstudie. In: Baerlocher K, Jelinek J (eds) Ernährung und Verhalten. Thieme, Stuttgart, pp 92–95
Bowden SC (1984) Boltheads revisited: a model of performance on the Austin maze. Proceedings of the 1984 Brain Impairment Conference, Brisbane, Australia
Canavan AG (1983) Stylus-maze performance in patients with frontal-lobe lesions: effects of signal valency and relationship to verbal and spatial abilities. Neuropsychologia 21:375–382
Dixon N (1981) The conscious unconscious interface: contributions to an understanding. Psychol Res Bul 5:1–15
Dunne MP, MacDonald D, Hartley LR (1986) The effects of nicotine upon memory and problem solving performance. Physiol Behav 37:849–854
Edwards JA, Wesnes K, Warburton DM, Gale A (1985) Evidence of more rapid stimulus evaluation following cigarette smoking. Addict Behav 10:113–126
Gardner MK, Rothkopf EZ, Lapan R, Lafferty T (1987) The word frequency effect in lexical decision: finding a frequency based component. Mem Cognit 15:24–28
Hasenfratz M, Michel C, Nil R, Bättig K (1989) Can smoking increase attention in rapid information processing during noise? Electrocortical, physiological and behavioral effects. Psychopharmacology 98:75–80
Hasenfratz M, Nil R, Bättig K (1990) Development of central and peripheral smoking effects over time. Psychopharmacology 101:359–365
Hasenfratz M, Bättig K (1991) Psychophysiological reactions during active and passive stress coping following smoking cessation. Psychopharmacology 104:356–362
Herning RI, Pickworth WB (1985) Nicotine gum improved processing during tobacco withdrawal. Psychophysiology 22:594
Hindmarch I, Kerr JS, Sherwood N (1990) Effects of nicotine gum on psychomotor performance in smokers and non-smokers. Psychopharmacology 100:535–541
Houston JP, Schneider NG, Jarvik ME (1978) Effects of smoking on free recall and organization. Am J Psychiatry 135:220–222
Hughes JR, Hatsukami DK (1986) Signs and symptoms of tobacco withdrawal. Arch Gen Psychiatry 43:289–294
Knott VJ (1989) Effects of cigarette smoking on subjective and brain evoked responses to electrical pain stimulation. Pharmacol Biochem Behav 35:341–346
Kroll JF, Merves JS (1986) Lexical access for concrete and abstract words. J Exp Psychol [Learn Mem Cognit] 12:92–107
Kosslyn SM (1980) Image and mind. Harvard University Press, Cambridge, Mass
Mangan GL, Golding JF (1983) The psychopharmacology of smoking. Cambridge University Press, Cambridge
Michel Ch, Nil R, Buzzi R, Woodson PP, Bättig K (1987) Rapid information processing and concomitant event-related brain potentials in smokers differing in CO absorption. Neuropsychobiology 17:161–168
Milner B (1965) Visually guided maze learning in man: effects of bilateral hippocampal, bilateral frontal, and unilateral cerebral lesions. Neuropsychologia 3:317–338
Molfese DL, Papanicolaou A, Hess TM, Molfese VJ (1979) Neuroelectrical correlates of semantic processes. In: Begleiter H (ed) Evoked brain potentials and behavior. Plenum Press, New York, pp 89–106
Neisser U (1967) Cognitive psychology. Appleton-Century-Crofts, New York
Parrott AC, Winder G (1989) Nicotine chewing gum (2 mg, 4 mg) and cigarette smoking: comparative effects upon vigilance and heart rate. Psychopharmacology 97:257–261
Peeke SC, Peeke HVS (1984) Attention, memory, and cigarette smoking. Psychopharmacology 84:205–216
Perkins KA, Epstein LH, Jennings JR, Stiller R (1986) The cardiovascular effects of nicotine during stress. Psychopharmacology 90:373–378
Pögelt A, Roth N, Pögelt B, Leubuscher HJ, Bergmann R (1984) The application of a programmable maze as a behavioural model in psychophysiology. Z Psychol 192:307–317
Posner MI, Snyder SRR (1975) Attention and cognitive control. In: Solso RL (ed) Information processing and cognition: the Loyolla symposium. Erlbaum, Hillsdale, NY pp 55–85
Roth N, Boddy J (1989) Event-related potentials and the recognition of subliminally exposed words after repeated presentation. J Psychophysiol 3:281–289
Roth N, Roscher G, Heine A (1988) Memory recall after “subliminal” stimuli: a psychophysiological analysis. Activ Nerv Super 30:131–132
Snyder FR, Henningfield JE (1989) Effects of nicotine administration following 12h of tobacco deprivation: assessment on computerized performance tasks. Psychopharmacology 97:17–22
Sperling G (1960) The information available in brief visual presentations. Psychological Monographs 74, whole No. 11
Warburton DM (1985) Nicotine and the smoker. Reviews on environmental health 5:343–390
Warburton DM, Wesnes K, Shergold K, James M (1986) Facilitation of learning and state dependency with nicotine. Psychopharmacology 89:55–59
Wesnes K, Warburton DM (1983) The effects of smoking on rapid information processing. Neuropsychobiology 9:223–229
Wesnes K, Warburton DM, Matz B (1983) Effects of nicotine on stimulus sensitivity and response bias in a visual vigilance task. Neuropsychobiology 9:41–44
West RJ, Russell MAH (1987) Cardiovascular and subjective effects of smoking before and after 24 h of abstinence from cigarettes. Psychopharmacology 92:118–121
West RJ, Schneider N (1988) Drop in heart rate following smoking cessation may be permanent. Psychopharmacology 94:566–568
Williams DG (1980) Effects of cigarette smoking on immediate memory and performance in different kinds of smoker. Br J Psychol 71:83–90
Zimmer K (1987) Psychophysiologische Experimente zur Wirkung emotionaler Reize auf die Gedächtnisaktivierung. Wiss Z Humboldt-Univ Berlin 36:407–413
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Roth, N., Lutiger, B., Hasenfratz, M. et al. Smoking deprivation in “early” and “late” smokers and memory functions. Psychopharmacology 106, 253–260 (1992). https://doi.org/10.1007/BF02801981
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DOI: https://doi.org/10.1007/BF02801981