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Microbiota and Dose Response: Evolving Paradigm of Health Triangle

Margaret Coleman, Christopher Elkins, Bradford Gutting, Emmanuel Mongodin, Gloria Solano‐Aguilar and Isabel Walls

Risk Analysis, 2018, vol. 38, issue 10, 2013-2028

Abstract: SRA Dose‐Response and Microbial Risk Analysis Specialty Groups jointly sponsored symposia that addressed the intersections between the “microbiome revolution” and dose response. Invited speakers presented on innovations and advances in gut and nasal microbiota (normal microbial communities) in the first decade after the Human Microbiome Project began. The microbiota and their metabolites are now known to influence health and disease directly and indirectly, through modulation of innate and adaptive immune systems and barrier function. Disruption of healthy microbiota is often associated with changes in abundance and diversity of core microbial species (dysbiosis), caused by stressors including antibiotics, chemotherapy, and disease. Nucleic‐acid‐based metagenomic methods demonstrated that the dysbiotic host microbiota no longer provide normal colonization resistance to pathogens, a critical component of innate immunity of the superorganism. Diverse pathogens, probiotics, and prebiotics were considered in human and animal models (in vivo and in vitro). Discussion included approaches for design of future microbial dose–response studies to account for the presence of the indigenous microbiota that provide normal colonization resistance, and the absence of the protective microbiota in dysbiosis. As NextGen risk analysis methodology advances with the “microbiome revolution,” a proposed new framework, the Health Triangle, may replace the old paradigm based on the Disease Triangle (focused on host, pathogen, and environment) and germophobia. Collaborative experimental designs are needed for testing hypotheses about causality in dose–response relationships for pathogens present in our environments that clearly compete in complex ecosystems with thousands of bacterial species dominating the healthy superorganism.

Date: 2018
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https://doi.org/10.1111/risa.13121

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