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The effects of Aronia berry (poly)phenol supplementation on arterial function and the gut microbiome in middle aged men and women: Results from a randomized controlled trial.
Le Sayec, M, Xu, Y, Laiola, M, Gallego, FA, Katsikioti, D, Durbidge, C, Kivisild, U, Armes, S, Lecomte, M, Fança-Berthon, P, et al
Clinical nutrition (Edinburgh, Scotland). 2022;41(11):2549-2561
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Over the last decades, Aronia melanocarpa, or black chokeberry, has gained increased attention for its high content of (poly)phenols, and potential protection against chronic diseases such as cardiovascular disease and diabetes. The aim of this study was to investigate the effects of 12-week aronia berry (poly)phenol consumption on cardiometabolic health and gut microbiome composition in prehypertensive middle-aged adults. This study was a 2-arm, double-blind, parallel randomised controlled trial. Participants (n = 102; 47 men and 55 women) were assigned randomly to Aronia or control groups. Results showed that there were no significant effects in blood pressure (primary outcome), endothelial function or blood lipids. However, there was a significant improvement in 24-hour ambulatory arterial indices and significant changes in gut microbiome richness, functions and composition between Aronia and control groups. Authors conclude that future studies should be conducted to investigate whether aronia supplementation may be effective in other at-risk populations such as hypertensives or people with cardiovascular disease risk.
Abstract
BACKGROUND AND AIMS Berry (poly)phenol consumption has been associated with cardioprotective benefits, however little is known on the role the gut microbiome may play on such health benefits. Our objective was to investigate the effects of aronia berry (poly)phenol consumption on cardiometabolic health and gut microbiome richness and composition in prehypertensive middle-aged men and women. METHODS A total of 102 prehypertensive participants were included in a parallel 12-week randomized double-blind placebo-controlled trial. Volunteers were randomly allocated to daily consume an encapsulated (poly)phenol-rich aronia berry extract (Aronia, n = 51) or a matched maltodextrin placebo (Control, n = 51). Blood pressure (BP) and arterial function (office and 24 h), endothelial function (measured as flow-mediated dilation), serum biochemistry (including blood lipids), plasma and urine (poly)phenol metabolites as well as gut microbiome composition through shotgun metagenomic sequencing were monitored over the study period. Relationships between vascular outcomes, (poly)phenol metabolites and gut microbiome were investigated using an integrated multi-levels approach. RESULTS A significant improvement in arterial indices measured as augmentation index (AIx) and pulse wave velocity (PWV) was found in the Aronia compared to Control group (awake Δ PWV = -0.24 m/s; 95% CI: -0.79, -0.01 m/s, P < 0.05; 24 h peripheral Δ AIx = -6.8; -11.2, -2.3, %, P = 0.003; 24 h central Δ AIx = -3.3; -5.5, -1.0, %, P = 0.006). No changes in BP, endothelial function or blood lipids were found following the intervention. Consumption of aronia (poly)phenols led to a significant increase in gut microbiome gene richness and in the abundance of butyrate-producing species such as Lawsonibacter asaccharolyticus and Intestinimonas butyriciproducens species, compared to Control group. Results from an approach including metabolomic, metagenomic and clinical outcomes highlighted associations between aronia-derived phenolic metabolites, arterial stiffness, and gut microbiome. CONCLUSIONS Aronia berry (poly)phenol consumption improved arterial function in prehypertensive middle-aged individuals, possibly via modulation of gut microbiome richness and composition based on the associations observed between these parameters. CLINICAL TRIAL REGISTRY The National Institutes of Health (NIH)-randomized trial records held on the NIH ClinicalTrials.gov website (NCT03434574). Aronia Berry Consumption on Blood Pressure.
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A nutrient-wide association study on blood pressure.
Tzoulaki, I, Patel, CJ, Okamura, T, Chan, Q, Brown, IJ, Miura, K, Ueshima, H, Zhao, L, Van Horn, L, Daviglus, ML, et al
Circulation. 2012;126(21):2456-64
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Elevated blood pressure (BP) is a major risk factor for coronary heart disease and stroke. This study aims to examine the association between a wide range of nutrients and BP using a systematic nutrient-wide association study (NWAS) approach. Data obtained from the cross-sectional International Study of Macro/Micro-nutrients and Blood Pressure (INTERMAP) were analysed. All foods and drinks, including supplements, from 24-hours dietary recalls as well as analytes from urine collection were recorded. Statistical analyses were then performed for the associations of 82 nutrients from food only, 73 nutrients from foods plus supplements, as well as 3 urinary electrolytes/electrolyte ratios with systolic and diastolic BP. The study found: direct associations between alcohol and urinary sodium/potassium ratio with systolic BP; inverse associations between dietary phosphorus, magnesium, non-heme iron, thiamin, folacin, and riboflavin with systolic BP; inverse associations between dietary folacin and riboflavin with diastolic BP; and inclusion of nutrients from supplements intake decreased the associations of folacin, thiamin and riboflavin intake with BP. Authors emphasised the importance of NWAS approach to identify the complex array of nutritional correlates of systolic and diastolic BP. Findings have a potential to represent causative relations that need to be further examined in observational and interventional studies.
Abstract
BACKGROUND A nutrient-wide approach may be useful to comprehensively test and validate associations between nutrients (derived from foods and supplements) and blood pressure (BP) in an unbiased manner. METHODS AND RESULTS Data from 4680 participants aged 40 to 59 years in the cross-sectional International Study of Macro/Micronutrients and Blood Pressure (INTERMAP) were stratified randomly into training and testing sets. US National Health and Nutrition Examination Survey (NHANES) four cross-sectional cohorts (1999-2000, 2001-2002, 2003-2004, 2005-2006) were used for external validation. We performed multiple linear regression analyses associating each of 82 nutrients and 3 urine electrolytes with systolic and diastolic BP in the INTERMAP training set. Significant findings were validated in the INTERMAP testing set and further in the NHANES cohorts (false discovery rate <5% in training, P<0.05 for internal and external validation). Among the validated nutrients, alcohol and urinary sodium-to-potassium ratio were directly associated with systolic BP, and dietary phosphorus, magnesium, iron, thiamin, folacin, and riboflavin were inversely associated with systolic BP. In addition, dietary folacin and riboflavin were inversely associated with diastolic BP. The absolute effect sizes in the validation data (NHANES) ranged from 0.97 mm Hg lower systolic BP (phosphorus) to 0.39 mm Hg lower systolic BP (thiamin) per 1-SD difference in nutrient variable. Inclusion of nutrient intake from supplements in addition to foods gave similar results for some nutrients, though it attenuated the associations of folacin, thiamin, and riboflavin intake with BP. CONCLUSIONS We identified significant inverse associations between B vitamins and BP, relationships hitherto poorly investigated. Our analyses represent a systematic unbiased approach to the evaluation and validation of nutrient-BP associations.