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Urinary alkylresorcinol metabolites as a biomarker of dietary wholegrain intake and of compliance in a randomised dietary intervention trial: results from the CRESSIDA Study

Published online by Cambridge University Press:  15 April 2015

J. Cuff
Affiliation:
Diabetes and Nutritional Sciences Division, King's College London, London SE1 9NH
T. A. B. Sanders
Affiliation:
Diabetes and Nutritional Sciences Division, King's College London, London SE1 9NH
D. P. Reidlinger
Affiliation:
Diabetes and Nutritional Sciences Division, King's College London, London SE1 9NH
W. L. Hall
Affiliation:
Diabetes and Nutritional Sciences Division, King's College London, London SE1 9NH
R. Gray
Affiliation:
Diabetes and Nutritional Sciences Division, King's College London, London SE1 9NH
J. Darzi
Affiliation:
Diabetes and Nutritional Sciences Division, King's College London, London SE1 9NH
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Abstract

Type
Abstract
Copyright
Copyright © The Authors 2015 

Alkylresorcinols (AR) are a family of phenolic lipids found in the bran fraction of whole grain (WG) wheat and rye, and absent in refined cereals. The AR metabolites, 3,5-dihydroxybenzoic acid (DHBA) and 3-(3,5-dihydroxyphenyl)-propanoic acid (DHPPA) have been proposed as a biomarker of WG intake, and are quantifiable in both plasma and urine(Reference Ross1). However, this is yet to be confirmed in a low (predominantly wheat) WG consuming population, such as in the UK. The present study evaluated the validity and reproducibility of 24-h urinary DHBA, DHPPA and ARTOT (DHBA + DHPPA) excretion, as a biomarker of WG intake, in healthy UK adults, using samples from the CRESSIDA study (ISRCTN92382106).

DHBA and DHPPA excretion was quantified by a modified GC-MS method(Reference Marklund, Landberg and Åman2), in 24-h urine samples collected from 162 healthy men and women, aged 40–70 y. Samples were collected twice at baseline and once at endpoint, following a 12-wk dietary intervention, in which participants were randomised to follow a diet high in refined cereals (CON) or a diet close to dietary guidelines, with an increased content of WG (DG). Dietary intake was assessed by 4-d food diary. Reproducibility was assessed by intra class correlation coefficient (ICC) between duplicate baseline urine collections. Validity was assessed by Spearman's rank test correlations between baseline 24-h urinary AR metabolite excretion and estimated intake of WG, total fibre and cereal fibre. Completeness of urine collection was assessed using the para-amino benzoic acid recovery method (ADJ), a ratio to creatinine (AR:CR) and without adjustment (UNADJ). All data was log transformed prior to statistical analysis.

Moderate to high reproducibility was observed for DHBA (ICC = 0·552–0·620) which was greater than that observed for either DHPPA (ICC = 0·427–0·527) or ARTOT (ICC = 0·488–0·583) and higher than that observed in previously published studies(Reference Marklund, Landberg and Andersson3). In terms of validity, significant and moderate associations between 24-h urinary excretion and estimated total fibre, cereal fibre and WG intake were found, with the strongest associations for DHBA. Following a 12-week intervention, endpoint AR metabolite excretion was significantly higher following DG vs. CON. For all AR metabolites, the strongest associations with estimated dietary intakes were for AR:CR, followed by UNADJ, with the weakest associations with ADJ recoveries.

1All data presented for log transformed AR:CR urinary excretion, 2Correlation assessed by Spearman's Rank Test in comparison to estimated WG intake, 3Difference between DG and CON treatments at endpoint assessed by ANCOVA adjusted for baseline AR metabolite excretion, gender, BMI and age.

These results indicate that all AR metabolites are valid and reproducible biomarkers of WG intake in the adult UK population, where wheat is the primary dietary source of WG. The strongest associations with estimated intake were found for DHBA. By contrast, in Nordic populations, DHPPA was the main predictor of WG intake(Reference Marklund, Landberg and Andersson3, Reference Söderholm, Lundin and Koskela4) probably because rye is consumed in higher amounts as opposed to wheat in the present study. These data suggest total urinary AR adjusted for creatinine may be a useful biomarker of wholegrain intake.

Funding was from the Food Standards Agency and the Department of Health. Currently the project is supported by Public Health England, which is responsible for nutrition advice since April 2013.

References

1.Ross, AB. (2012) J Nutr Metab 2012, 112.Google Scholar
2.Marklund, M, Landberg, R, Åman, P et al. (2010) J Chromatogr B, 878, 888894.Google Scholar
3.Marklund, M, Landberg, R, Andersson, A et al. (2013) Br J Nutr 109, 129–36.Google Scholar
4.Söderholm, PP, Lundin, JE, Koskela, AH et al. (2011) Br J Nutr 106, 1040–4.Google Scholar