1 Department of Pharmacology and
2 Department of Prevention and Treatment of Addictions, Institute of Psychiatry and Neurology, Warsaw,
3 Department of Otolaryngology and
4 Department of Experimental and Clinical Pharmacology, Warsaw Medical University, Warsaw and
5 AstraZeneca, Clinical Research Unit Central Europe, Warsaw, Poland
Received 12 April 2001; in revised form 16 June 2001; accepted 5 July 2001
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ABSTRACT |
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INTRODUCTION |
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However, it should be noted that both inherited and environmental factors might have contributed to the results of Kampov-Polevoy et al. (1997, 1998). For example, it is possible that long-term consumption of alcoholic beverages alters taste sensitivity in alcohol addicts (Smith, 1972; Maier et al., 1994
). Thus, in the present study, we decided to compare taste responses in male alcoholics and individuals without alcohol-related problems. For this aim, all subjects rated intensity and pleasantness of sweet (sucrose), bitter (quinine), sour (citric acid) and salty (sodium chloride) solutions.
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SUBJECTS AND METHODS |
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Increasing concentrations of sucrose (1, 10, 30%, w/v; Krasnystaw Sugar Refinery, Krasnystaw, Poland), quinine hydrochloride (0.001, 0.002, 0.005%; Polfa, Warsaw, Poland), citric acid (0.02, 0.04, 0.1%; Libella, Kotyn, Poland), and sodium chloride (0.18, 0.36, 0.9%; Polfa, Lublin, Poland) were administered in a volume of 1 ml on the anterior tongue from single-use syringes. The same volume of distilled water was used as a control stimulus (Scinska et al., 2000, 2001). Accordingly, each participant received and rated 13 different gustatory samples. The highest sucrose concentration (30% = 0.88 M) administered in the present study was comparable with that (0.83 M) used by Kampov-Polevoy et al. (1997, 1998). The solutions were prepared with distilled water on the day of administration and stored at room temperature. The order of tastants administration was counterbalanced across the subjects.
The participants were asked to taste thoroughly each sample within the entire oral cavity and to rate intensity and pleasantness on 100-mm lines labelled at the ends for intensity not at all' and extremely' (scored 0 to 100) and for pleasantness extremely unpleasant' and extremely pleasant' (scored 50 to 50) (Scinska et al., 2001). The testing of each sample was separated by 60 s during which the subjects filled response forms, rinsed their mouths with distilled water, and waited for the next sample. The subjects were instructed to spit out or swallow the solutions. Sucrose concentration rated as the most pleasant was identified for each participant. The subjects preferring 30% sucrose (0.88 M) were designated as sweet-likers (Kampov-Polevoy et al., 1997
; Scinska et al., 2001
). To accommodate the large number of comparisons, Bonferroni's correction was used in statistical analyses.
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RESULTS AND DISCUSSION |
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A two-way analysis of variance (ANOVA) (Group x Concentration) revealed that intensity ratings of every tastant increased with concentration (F > 53.59, P < 0.01; Table 2). The analysis of responses to sucrose, quinine, citric acid and sodium chloride did not reveal any significant Group effect or Group x Concentration interaction (F < 1.99, P > 0.05).
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Sixty-three per cent of the alcoholics preferred the highest sucrose concentration compared with 53% of the control group. The proportion of sweet-likers did not differ between the groups (P > 0.05, Fisher exact test). Taste responses in the group of alcoholics did not correlate with abstinence duration (P > 0.05, Pearson product-moment correlation test).
Contrary to the previous suggestions (Kampov-Polevoy et al., 1997, 1999
, 2001), no differences were found in responses to sucrose solutions between controls and alcoholics. The percentage of sweet-likers as well as reported amounts of sugar added to beverages did not differ between the groups. Paternal history of alcoholism did not alter reactivity to sweet solutions in the present study. In general, our findings are in line with recent reports (Kranzler et al., 2001
; Scinska et al., 2001
; but see also Kampov-Polevoy et al., 2001
) showing normal responses to sweets in children of alcoholics, i.e. in the population known to be at increased risk of developing alcohol dependence (Cloninger et al., 1981
; Goodwin, 1985
). The results of the present study may also support the findings of Agabio et al. (2000), who showed that selectively bred Sardinian alcohol-preferring (sP) and Sardinian alcohol-non-preferring (sNP) rats consume similar amounts of sweet solutions.
However, it should be mentioned that there are some basic procedural differences between the present and previous studies on the relationship between sweet preference and alcohol dependence (Kampov-Polevoy et al., 1997, 2001
). First, tastants other than sucrose have not been used in the previous studies. Although the order of the sample administration was randomized in our study, it is possible that the inclusion of other tastants altered gustatory responses to sweet solutions. Second, samples of distilled water were not administered by Kampov-Polevoy et al. These latter authors used five different sucrose solutions administered in a volume of 25 ml. Each solution was presented five times in random order. Thus, it seems that the subjects in the previous studies might have had a better reference point to evaluate pleasantness of different sucrose solutions.
Despite the above differences, the proportions of sweet-likers among the alcoholics in the present (63%) and previous studies (4665%) were similar. In contrast, the percentage of sweet-likers among the controls in the present study (53%) was much higher than that (1221%) reported by Kampov-Polevoy et al. (1997, 1998, 2001). Our results seem to be more comparable with data presented by Kranzler et al. (2001) who classified 75% of their non-alcoholic subjects (mean age: 26 years) as sweet-likers. Hedonic responses to sweets may decline with age (Cullen and Leopold, 1999). However, the non-alcoholic men recruited by Kampov-Polevoy et al. were even younger (mean age: 32.0 or 38.8 years) than those enrolled in the present study.
In a study on the relationship between alcohol dependence and reactivity to bitter solutions, Smith (1972) showed that alcohol addicts had higher taste threshold to quinine. The results of the present study seem not to support this latter finding. However, one should be aware that a completely different procedure (determination of threshold concentration) was used by Smith (1972). It is also possible that the alcoholics included in the present study do not represent the population of alcohol addicts. For example, men with more severe forms of alcohol dependence, e.g. with more antisocial features, are less likely to seek professional help and to enter in-patient treatment programmes. Given the well-known effects of alcohol on oral biology (Dutta et al., 1992; Maier et al., 1994
), further studies with larger experimental groups will be necessary to evaluate fully the effects of chronic alcohol consumption on taste reactivity in humans.
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ACKNOWLEDGEMENTS |
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FOOTNOTES |
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