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Does alcohol consumed with a meal affect vascular function

Published online by Cambridge University Press:  30 June 2021

S. Hampton ,
C. Isherwood  and
B. Griffin
S. Hampton
Affiliation:
Faculty of Health and Medical Sciences, University of Surrey, Guildford, UK
C. Isherwood
Affiliation:
Faculty of Health and Medical Sciences, University of Surrey, Guildford, UK
B. Griffin
Affiliation:
Faculty of Health and Medical Sciences, University of Surrey, Guildford, UK
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Abstract

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Abstract
Information
Proceedings of the Nutrition Society , Volume 67 , Issue OCE5: Joint meeting of the Société Française de Nutrition and The Nutrition Society, 6–7 December 2007 , May 2008 , E196
Copyright
Copyright © The Authors 2008

Numerous studies in the literature report effects of alcohol and polyphenols on vascular function. However, interpretation of these effects has been confounded by the limitation of study designs and the composition of the food and drinks consumed( Footnote 1 ). It has been reported that de-alcoholised red wine improves vascular function, although red wine has no such effect( Footnote 2 ). The aim of the present study was to determine whether it is alcohol or other components of polyphenol-containing drinks that influence vascular function.

Six healthy subjects (three females and three males; age 22.7 (se 5.2) years, BMI 22.3 (se 1.94; range 19.4–25.3) kg/m2) were recruited. Written consent was obtained before the start of the study and ethical permission was obtained from the University of Surrey Ethics Committee (EC/2993/1211/SBMS). They consumed a standard meal on three separate occasions. The meal consisted of lasagne and chocolate cake, with a total energy intake of 3402 kJ (813 kcal; % energy intake: 47.3 from fat, 16.7 from protein, 37 from carbohydrate). On each occasion subjects consumed a different drink (175 ml) with their meal: red-grape juice plus water (A); red-grape juice plus vodka (12% (v/v) alcohol; B); water (C). The drinks and food were consumed at the same time of day (13.00 hours) in a randomised order to remove any order effects. Vascular function was assessed by flow-mediated dilatation (FMD) using ultrasound (Acuson Aspen; CVS, Aliso Viejo, CA, USA) and measurements of the branchial artery were obtained using branchial image software (Medical Imaging Applications, LLC). Baseline FMD responses were recorded before the start of each study and further readings were taken 30 and 60 min after consuming the meal. Capillary blood samples were taken for the measurement of glucose, TAG and NEFA.

The Figure shows the percentage FMD responses to all three meals. Repeated-measures ANOVA showed a significant effect of the treatments (meal+drinks; P=0.008). While there was no independent effect of time (P=0.079), there was a significant interaction between treatment and time (P=0.012). There was no significant difference in percentage FMD or other variables at baseline. There were also no significant differences in plasma glucose, TAG and NEFA, either within treatments or between treatments.

The consumption of meals A and B significantly improved endothelial function relative to meal C. Although meal B produced the greatest vascular response, there was no significant difference in percentage FMD responses between meals A and B. The study provides evidence to suggest that the favourable vascular response produced by alcoholic beverages such as red wine is not necessarily a result of the alcohol but of other polyphenolic components.

References

1. Puddey, IB, Zilkens, RR, Croft, KD & Beilin, LJ (2001) Clin Exp Pharmacol Physiol 28, 10201024.CrossRefGoogle Scholar

2. Agewall, S, Wright, S, Doughty, RN, Whalley, GA, Duxbury, M & Sharpe, N (2000) Eur Heart J 21, 7478.CrossRefGoogle Scholar