Postprandial response on fatty meal is affected by sea buckthorn (Hippophae rhamnoides) supplementation: NMR metabolomics study

resumo

Nuclear magnetic resonance fingerprinting (H-1 NMR) combined with different statistical tools was used to assess the effect of phenolics-rich sea buckthorn berries on postprandial plasma and urine after consumption of a fatty meal and to obtain information about the absorption and excretion of ethyl-O-beta-D-glucopyranoside and various inositols in sea buckthorn berries. Analyses of plasma samples indicated the delayed postprandial increase of lipid levels and the restrained increase of 3-hydroxy butanoic acid and N-acetyl glycoproteins when sea buckthorn meal was compared to control. The rise of acetic acid concentration and the occurrence of methyl-O-beta-D-glucopyranoside and ethyl-O-beta-D-glucopyranoside, but no inositols, were noticed after sea buckthorn meal in plasma. The methylglucoside was detected for the first time in plasma in relation to sea buckthorn containing diet, and the compound has subsequently been identified for the first time in sea buckthorn. Analyses of postprandial urine samples revealed a lower creatinine and dimethylamine concentrations and a higher hippuric acid concentration in urine after the berry meal when compared to the control. Excretion of the ethylglucoside in urine was detected after the sea buckthorn meal which indicates that this alkyl sugar is not efficiently metabolized by human body. (C) 2013 Elsevier Ltd. All rights reserved.

palavras-chave

DIFFERENT ORIGINS; VITAMIN-C; URINE; LIPEMIA; METABOLITES; CONSUMPTION; BERRIES; PLASMA; ACIDS; SPECTROSCOPY

categoria

Food Science & Technology

autores

Lindstedt, A; Jarvinen, R; Sinkkonen, J; Lehtonen, HM; Graca, G; Viitanen, M; Gil, AM; Kallio, H

nossos autores

agradecimentos

The present study was performed as part of a LUMABS-project funded by ABS graduate school, Finnish Food and Drink Industries' Federation (ETL), Turku University Foundation, Juho Vainio Foundation, Magnus Ehrnrooth foundation, and Raisio Oyj Research Foundation. The authors would like to thank Katja Tanner, Hannele Jokioinen and Jie Zheng for skillful technical assistance and Kaisa Linderborg for advice on clinical study arrangements. Study subjects are also thanked. AMG thanks Bruker BioSpin, Germany for access to databases and acknowledges funding from the European Regional Development Fund through the Competitive Factors Thematic Operational Programme and from the Foundation for Science and Technology (FCT), Portugal, the Portuguese National NMR Network (RNRMN) supported with FCT funds, and Pest-C/CTM/LA0011/2013. GG acknowledges funding from Foundation for Science and Technology (FCT), Portugal, grant SFRH/BD/41869/2007.

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