Diet and Microbiome in Health and Aging
Diet plays a fundamental role in shaping the composition and metabolic activity of the gut microbiota and, thus, it could determine the interrelationship between the gut microbiome and the host. The colon is the part of the human body that is most densely populated, containing bacteria, archaea, vir...
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Format: | Electronic Book Chapter |
Language: | English |
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Basel
MDPI - Multidisciplinary Digital Publishing Institute
2022
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Online Access: | DOAB: download the publication DOAB: description of the publication |
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700 | 1 | |a Salazar, Nuria |4 edt | |
700 | 1 | |a Arboleya, Silvia |4 edt | |
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245 | 1 | 0 | |a Diet and Microbiome in Health and Aging |
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520 | |a Diet plays a fundamental role in shaping the composition and metabolic activity of the gut microbiota and, thus, it could determine the interrelationship between the gut microbiome and the host. The colon is the part of the human body that is most densely populated, containing bacteria, archaea, viruses, and some unicellular eukaryotes that have co-evolved with humans in a commensal way. The gut microbiota plays a crucial role in the maintenance of normal host physiology. The rapid development of next-generation sequencing (NGS) methods for DNA sequencing in the last decade has facilitated in-depth study of gut microbiome composition and function. These methods have contributed to providing evidence regarding the relevance of the intestinal microbiota for host health as well as the basis for putative dietary interventions aimed at counteracting microbiota dysbiosis. Understanding the complex and dynamic interaction between dietary exposures and gut microbiota can help to elucidate their potential role in different pathologies and to guide future strategies for the prevention and treatment of diseases. Age-related changes in the gut microbiome are also associated with physiological changes in the gastrointestinal tract as well as in dietary patterns, with a concomitant decline in the normal function of the immune system that may contribute to increased risk of infection and frailty. More studies are needed to better understand how the microbiota shifts with different environmental factors and how they are associated with dietary changes. | ||
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546 | |a English | ||
650 | 7 | |a Research & information: general |2 bicssc | |
650 | 7 | |a Biology, life sciences |2 bicssc | |
650 | 7 | |a Food & society |2 bicssc | |
653 | |a coffee | ||
653 | |a (poly)phenol | ||
653 | |a gut microbiota | ||
653 | |a Bacteroides | ||
653 | |a Western diet | ||
653 | |a chronic disease | ||
653 | |a prebiotic | ||
653 | |a probiotic | ||
653 | |a clinician | ||
653 | |a autism spectrum disorder | ||
653 | |a microbiome | ||
653 | |a aetiology | ||
653 | |a comorbidities | ||
653 | |a diet | ||
653 | |a prebiotics | ||
653 | |a probiotics | ||
653 | |a faecal microbial transplant | ||
653 | |a inulin fiber | ||
653 | |a acacia fiber | ||
653 | |a immune system | ||
653 | |a microbiota | ||
653 | |a mineral absorption | ||
653 | |a IgA | ||
653 | |a metagenomics | ||
653 | |a aged | ||
653 | |a Faecalibacterium prausnitzii | ||
653 | |a orienteering | ||
653 | |a polyphenols | ||
653 | |a blueberries | ||
653 | |a in vitro | ||
653 | |a human study | ||
653 | |a oxidative stress | ||
653 | |a type 2 diabetes mellitus | ||
653 | |a Lactobacillus paracasei | ||
653 | |a antihyperglycemia | ||
653 | |a dietary intake | ||
653 | |a cognitive decline | ||
653 | |a elderly | ||
653 | |a healthy ageing | ||
653 | |a inflammation | ||
653 | |a dietary patterns | ||
653 | |a Mediterranean diet | ||
653 | |a dietary indices | ||
653 | |a Alzheimer's disease | ||
653 | |a microbiota-gut-brain axis | ||
653 | |a neuroinflammation | ||
653 | |a infertility | ||
653 | |a repetitive abortion | ||
653 | |a implantation failure | ||
653 | |a Lactobacillus salivarius | ||
653 | |a vaginal microbiome | ||
653 | |a TGF-β | ||
653 | |a VEGF | ||
653 | |a synbiotics | ||
653 | |a children | ||
653 | |a allergic rhinitis | ||
653 | |a asthma | ||
653 | |a infants | ||
653 | |a Staphylococcus | ||
653 | |a Enterococcus | ||
653 | |a Bifidobacterium | ||
653 | |a weight gain | ||
653 | |a n/a | ||
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856 | 4 | 0 | |a www.oapen.org |u https://directory.doabooks.org/handle/20.500.12854/93765 |7 0 |z DOAB: description of the publication |