Abstract
Rationale
Caffeine produces mild psychostimulant effects that are thought to underlie its widespread use. However, the direct effects of caffeine are difficult to evaluate in regular users of caffeine because of tolerance and withdrawal. Indeed, some researchers hypothesize that the psychostimulant effects of caffeine are due largely to the reversal of withdrawal and question whether there are direct effects of caffeine consumption upon mood, alertness, or mental performance in nondependent individuals.
Objective
This study investigated the physiological, subjective, and behavioral effects of 0, 50, 150, and 450 mg caffeine in 102 light, nondependent caffeine users.
Methods
Using a within-subjects design, subjects participated in four experimental sessions, in which they received each of the four drug conditions in random order under double blind conditions. Participants completed subjective effects questionnaires and vital signs were measured before and at repeated time points after drug administration. Forty minutes after the capsules were ingested, subjects completed behavioral tasks that included tests of sustained attention, short-term memory, psychomotor performance, and behavioral inhibition.
Results
Caffeine significantly increased blood pressure, and produced feelings of arousal, positive mood, and high. Caffeine increased the number of hits and decreased reaction times in a vigilance task, but impaired performance on a memory task.
Conclusion
We confirm that acute doses of caffeine, at levels typically found in a cup of coffee, produce stimulant-like subjective effects and enhance performance in light, nondependent caffeine users. These findings support the idea that the drug has psychoactive effects even in the absence of withdrawal.
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References
Barone JJ, Roberts HR (1996) Caffeine consumption. Food Chem Toxicol 34:119–1129
Bebia Z, Buch SC, Wilson JW, Frye RF, Romkes M, Cecchetti A, Chaves-Gnecco D, Branch RA (2004) Bioequivalence revisited: influence of age and sex on CYP enzymes. Clin Pharmacol Ther 76:618–627
Chait LD (1994) Factors influencing the reinforcing and subjective effects of ephedrine in humans. Psychopharmacology (Berl) 113:381–387
Christopher G, Sutherland D, Smith A (2005) Effects of caffeine in non-withdrawn volunteers. Hum Psychopharmacol 20:47–53
Conklin HM, Curtis CE, Katsanis J, Iacono WG (2000) Verbal working memory impairment in schizophrenia patients and their first-degree relatives: evidence from the digit span task. Am J Psychiatry 157:275–277
Dews PB, Curtis GL, Hanford KJ, O’Brien CP (1999) The frequency of caffeine withdrawal in a population-based survey and in a controlled, blinded pilot experiment. J Clin Pharmacol 39:1221–1232
Evans SM, Griffiths RR (1991) Dose-related caffeine discrimination in normal volunteers: individual differences in subjective effects and self-reported cues. Behav Pharmacol 2:345–356
Evans SM, Griffiths RR (1992) Caffeine tolerance and choice in humans. Psychopharmacology (Berl) 108:51–59
Evans SM, Griffiths RR (1999) Caffeine withdrawal: a parametric analysis of caffeine dosing conditions. J Pharmacol Exp Ther 289:285–294
Fine BJ, Kobrick JL, Lieberman HR, Marlowe B, Riley RH, Tharion WJ (1994) Effects of caffeine or diphenhydramine on visual vigilance. Psychopharmacology (Berl) 114:233–238
Folstein MF, Luria R (1973) Reliability, validity, and clinical application of the visual analogue mood scale. Psychol Med 3:479–486
Foreman N, Barraclough S, Moore C, Mehta A, Madon M (1989) High doses of caffeine impair performance of a numerical version of the stroop task in men. Pharmacol Biochem Behav 32:399–403
Garrett BE, Griffiths RR (1997) The role of dopamine in the behavioral effects of caffeine in animals and humans. Pharmacol Biochem Behav 57:533–541
Griffiths RR, Evans SM, Heishman SJ, Preston KL, Sannerud CA, Wolf B, Woodson PP (1990) Low-dose caffeine discrimination in humans. J Pharmacol Exp Ther 252:970–978
Haertzen CA (1966) Development of scales based on patterns of drug effects, using the addiction Research Center Inventory (ARCI). Psychol Rep 18:163–194
Hart P, Farrell GC, Cooksley WG, Powell LW (1976) Enhanced drug metabolism in cigarette smokers. Br Med J 2:147–149
Hartley TR, Lovallo WR, Whitsett TL (2004) Cardiovascular effects of caffeine in men and women. Am J Cardiol 93:1022–1026
Haskell CF, Kennedy DO, Wesnes KA, Scholey AB (2005) Cognitive and mood improvements of caffeine in habitual consumers and habitual non-consumers of caffeine. Psychopharmacology (Berl) 179:813–825
Heatherley SV, Hayward RC, Seers HE, Rogers PJ (2005) Cognitive and psychomotor performance, mood, and pressor effects of caffeine after 4, 6 and 8 h caffeine abstinence. Psychopharmacology (Berl) 178:461–470
Heishman SJ, Henningfield JE (1992) Stimulus functions of caffeine in humans: relation to dependence potential. Neurosci Biobehav Rev 16:273–287
Hughes R (1996) Drugs which induce anxiety: caffeine. N Z J Psychol 25:36–42
James JE (1991) Caffeine and health. Academic, London
James JE (1994) Does caffeine enhance or merely restore degraded psychomotor performance? Neuropsychobiology 30:124–125
James JE, Rogers PJ (2005) Effects of caffeine on performance and mood: withdrawal reversal is the most plausible explanation. Psychopharmacology (Berl) 1–8
James JE, Gregg ME, Kane M, Harte F (2005) Dietary caffeine, performance and mood: enhancing and restorative effects after controlling for withdrawal reversal. Neuropsychobiology 52:1–10
Jarvis MJ (1993) Does caffeine intake enhance absolute levels of cognitive performance? Psychopharmacology (Berl) 110:45–52
Johanson CE, Uhlenhuth EH (1980) Drug preference and mood in humans: diazepam. Psychopharmacology (Berl) 71:269–273
Lieberman HR, Wurtman RJ, Emde GG, Roberts C, Coviella IL (1987) The effects of low doses of caffeine on human performance and mood. Psychopharmacology (Berl) 92:308–312
Liguori A, Hughes JR, Grass JA (1997) Absorption and subjective effects of caffeine from coffee, cola and capsules. Pharmacol Biochem Behav 58:721–726
Logan GD, Cowan WB, Davis KA (1984) On the ability to inhibit simple and choice reaction time responses: a model and a method. J Exp Psychol Hum Percept Perform 10:276–291
Lorist MM, Snel J (1997) Caffeine effects on perceptual and motor processes. Electroencephalogr Clin Neurophysiol 102:401–413
Lott DC, Kim SJ, Cook EH Jr, de Wit H (2005) Dopamine transporter gene associated with diminished subjective response to amphetamine. Neuropsychopharmacology 30:602–609
Martin WR, Sloan JW, Sapira JD, Jasinski DR (1971) Physiologic, subjective, and behavioral effects of amphetamine, methamphetamine, ephedrine, phenmetrazine, and methylphenidate in man. Clin Pharmacol Ther 12:245–258
McNair DLM, Droppleman L (1971) Profile of mood states. Educational and Industrial Testing Service, San Diego
Mumford GK, Benowitz NL, Evans SM, Kaminski BJ, Preston KL, Sannerud CA, Silverman K, Griffiths RR (1996) Absorption rate of methylxanthines following capsules, cola and chocolate. Eur J Clin Pharmacol 51:319–325
Nurminen ML, Niittynen L, Korpela R, Vapaatalo H (1999) Coffee, caffeine and blood pressure: a critical review. Eur J Clin Nutr 53:831–839
Richardson NJ, Rogers PJ, Elliman NA, O’Dell RJ (1995) Mood and performance effects of caffeine in relation to acute and chronic caffeine deprivation. Pharmacol Biochem Behav 52:313–320
Rogers PJ, Dernoncourt C (1998) Regular caffeine consumption: a balance of adverse and beneficial effects for mood and psychomotor performance. Pharmacol Biochem Behav 59:1039–1045
Rogers PJ, Martin J, Smith C, Heatherley SV, Smit HJ (2003) Absence of reinforcing, mood and psychomotor performance effects of caffeine in habitual non-consumers of caffeine. Psychopharmacology (Berl) 167:54–62
Rogers PJ, Heatherley SV, Hayward RC, Seers HE, Hill J, Kane M (2005) Effects of caffeine and caffeine withdrawal on mood and cognitive performance degraded by sleep restriction. Psychopharmacology (Berl) 179:742–752
Silverman K, Griffiths RR (1992) Low-dose caffeine discrimination and self-reported mood effects in normal volunteers. J Exp Anal Behav 57:91–107
Smit HJ, Rogers PJ (2000) Effects of low doses of caffeine on cognitive performance, mood and thirst in low and higher caffeine consumers. Psychopharmacology (Berl) 152:167–173
Smit HJ, Cotton JR, Hughes SC, Rogers PJ (2004) Mood and cognitive performance effects of “energy” drink constituents: caffeine, glucose and carbonation. Nutr Neurosci 7:127–139
Smith AP (2005) Caffeine at work. Hum Psychopharmacol 20:415–441
Smith AP, Brockman P, Flynn R, Maben A, Thomas M (1993) Investigation of the effects of coffee on alertness and performance during the day and night. Neuropsychobiology 27:217–223
Smith A, Kendrick A, Maben A, Salmon J (1994) Effects of breakfast and caffeine on cognitive performance, mood and cardiovascular functioning. Appetite 22:39–55
Warburton DM, Bersellini E, Sweeney E (2001) An evaluation of a caffeinated taurine drink on mood, memory and information processing in healthy volunteers without caffeine abstinence. Psychopharmacology (Berl) 158:322–328
Watson J, Deary I, Kerr D (2002) Central and peripheral effects of sustained caffeine use: tolerance is incomplete. Br J Clin Pharmacol 54:400–406
Wechsler D (1958) The measure and appraisal of adult intelligence. Williams and Wilkins, Baltimore
Yeomans MR, Ripley T, Davies LH, Rusted JM, Rogers PJ (2002) Effects of caffeine on performance and mood depend on the level of caffeine abstinence. Psychopharmacology (Berl) 164:241–249
Acknowledgements
This research was supported by NIDA (DA02812) and the General Clinical Research Center (USPHS MO1RR00055). We thank Michael Miles, Pharm.D., and Peter Tang, Ph.D. of Cincinnati Children’s Hospital Medical Center for help with salivary samples and Michelle Dassinger and Liz Young for their technical assistance.
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Childs, E., de Wit, H. Subjective, behavioral, and physiological effects of acute caffeine in light, nondependent caffeine users. Psychopharmacology 185, 514–523 (2006). https://doi.org/10.1007/s00213-006-0341-3
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DOI: https://doi.org/10.1007/s00213-006-0341-3