浆果-肠道菌群相互作用及其对人类健康的影响:随机对照试验的系统综述

IF 5.3 2区 农林科学 Q1 FOOD SCIENCE & TECHNOLOGY
Mirko Marino, Samuele Venturi, Giorgio Gargari, Cristian Del Bo, Daniela Martini, Marisa Porrini, Simone Guglielmetti, Patrizia Riso
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引用次数: 0

摘要

摘要浆果是一种重要的生物活性物质来源,其中多酚类物质是其主要成分。(多)酚已被证明具有重要的生物活性,特别是在调节肠道微生物群和人类健康方面发挥相关作用。肠道微生物群在摄入(多)酚的代谢中起着重要的作用,从而影响了它们的生物学效应。然而,关于(多)酚摄入量与人类肠道微生物群活性之间相互作用的证据仍不清楚。当前系统综述的目的是收集和评估随机临床试验的结果,以解决浆果在调节肠道微生物群组成中的作用,以及这如何有助于浆果(多)酚的代谢。当信息可用时,评估浆果肠道微生物群对人类健康的相互作用。共纳入并分析了16项试验。总的来说,浆果和它们的(多)酚可以代表肠道微生物调节的驱动因素。肠道菌群通过产生生物活性代谢物来分解(多)酚,这对共生菌群的组成和宿主的健康都有积极的影响。作者感谢MIND FoodS HUB(米兰创新区食品系统中心)项目:通过创建一个数字食品系统中心,为农业生产的生态集约化和促进人类健康和长寿的饮食模式提供创新概念,由POR FESR 2014-2020_BANDO Call HUB Ricerca e Innovazione,伦巴第大区共同创立。p.r., S.G.和C.D.B.承认由肠道微生物组(ERA‐HDHL INTIMIC)和Mipaaf(“TOPNUTRIGUT”,D.M. 36959/7303/18-27 December 2018)共同资助的“健康饮食促进健康生活”ERANet联合规划倡议。此外,p.r.、d.m.和C.D.B.对由Mipaaf (MIMOSA项目,DG DISR‐DISR 04‐Prot)提供国家资助的系统性项目(食品和营养安全知识中心)表示感谢。Uscita N.0041532, 2019年12月23日)。Daniela Martini和Cristian Del Bo感谢从Piano di sostegno alla Ricerca-Linea 2, azione a获得的资助,资助号为PSR2020_DMART和PSR2020 CDELB。P.R.也感谢由米兰大学(PSR 2021-GSA-Linea 6)资助的“一个健康行动中心:领土生态系统恢复能力大学工作队”项目。最后,C.D.B.和P.R.感谢北美野生蓝莓协会(WBANA)的支持。作者感谢米兰大学通过APC计划提供的支持。作者声明,本研究是在没有任何可能被解释为潜在利益冲突的商业或财务关系的情况下进行的。作者贡献:smm, GG和CDB撰写了手稿的初稿。MM和SV进行了文献检索,对所选研究进行了回顾,并编制了表格。MM和DM进行偏倚风险分析。PR担任第三审稿人。CDB和PR参与了方案设计和数据分析。PR、SG和MP严格修改了科学内容,提高了稿件的质量。所有作者都对文章做出了贡献,并批准了提交的版本。数据可用性声明本研究的原始贡献包含在文章/补充材料中,进一步的查询可以直接联系通讯作者。补充数据本文的补充数据可以在线访问https://doi.org/10.1080/87559129.2023.2276765
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Berries-Gut Microbiota Interaction and Impact on Human Health: A Systematic Review of Randomized Controlled Trials
ABSTRACTBerries represent an important source of bioactive compounds, among which, (poly)phenols are the main constituents. (Poly)phenols have been shown to have important biological activities and in particular, to take a relevant role in mediating the modulation of gut microbiota and human health. Gut microbiota constitute significant players in the metabolism of ingested (poly)phenols and consequently in their biological effects. However, the evidence regarding the mutual contribution between (poly)phenol intake and gut microbiota activity in humans is still unclear. The aim of the current systematic review was to collect and assess results from randomized clinical trials addressing the role of berries in the modulation of the gut microbiota composition and how this can contribute to the metabolism of berry (poly)phenols. When information was available, the interaction of berry-gut microbiota on human health was evaluated. A total of 16 trials were included and analyzed. Overall, berries and their (poly)phenols could represent a driver for the modulation of intestinal microbes. The gut microbiota catabolize (poly)phenols by producing bioactive metabolites which can positively affect both the composition of commensal microbiota and also the host health.KEYWORDS: BerriesPolyphenolsGut microbiotaMicrobiomeMetabolismHuman health AcknowledgmentsThe authors thank project MIND FoodS HUB (Milano Innovation District Food System Hub): Innovative concept for the eco‐intensification of agricultural production and for the promotion of dietary patterns for human health and longevity through the creation in MIND of a digital Food System Hub, cofounded by POR FESR 2014–2020_BANDO Call HUB Ricerca e Innovazione, Regione Lombardia. P.R., S.G. and C.D.B. acknowledge the Joint Programming Initiative “A Healthy Diet for Healthy Life” ERANet cofunded by Intestinal Microbiomics (ERA‐HDHL INTIMIC) with national funding by Mipaaf (“TOPNUTRIGUT”, D.M. 36959/7303/18—27 December 2018). In addition, P.R., D.M., and C.D.B. acknowledge the SYSTEMIC project (Knowledge Hub on Food and Nutrition Security) with national funding provided by Mipaaf (MIMOSA project, DG DISR‐DISR 04‐Prot. Uscita N.0041532, 23 December 2019). Daniela Martini and Cristian Del Bo’ thank for the grant received from Piano di sostegno alla Ricerca-Linea 2, azione A-grant number PSR2020_DMART and PSR2020 CDELB. P.R. also acknowledge the project “One Health Action Hub: University Task Force for the resilience of territorial ecosystems,” funded by Università degli Studi di Milano (PSR 2021-GSA-Linea 6). Finally, C.D.B. and P.R. thank the Wild Blueberry Association (WBANA) of North America for their support. The authors acknowledge support from the University of Milan through the APC initiative.Disclosure statementThe authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.Author contributionsMM, GG and CDB wrote the first draft of the manuscript. MM and SV conducted the literature search, reviewed the studies selected and prepared the tables. MM and DM performed the risk of bias analysis. PR served as the third reviewer. CDB and PR were involved in the protocol design and data analyses. PR, SG and MP critically revised the scientific content and improved the quality of the manuscript. All authors contributed to the article and approved the submitted version.Data availability statementThe original contributions presented in this study are included in the article/supplementary material, further inquiries can be directed to the corresponding authors.Supplemental dataSupplemental data for this article can be accessed online at https://doi.org/10.1080/87559129.2023.2276765
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来源期刊
Food Reviews International
Food Reviews International 工程技术-食品科技
CiteScore
11.50
自引率
1.70%
发文量
127
审稿时长
>24 weeks
期刊介绍: Food Reviews International presents state-of-the-art reviews concerned with food production, processing, acceptability, and nutritional values—examining the relationship of food and nutrition to health, as well as the differing problems affecting both affluent and developing nations. Offering technical solutions to critical global food dilemmas and shortages, Food Reviews International contains articles of interest for: •food scientists and technologists •food and cereal chemists •chemical engineers •agriculturists •microbiologists •toxicologists •nutritionists
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