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A microbiome (from Ancient Greek μικρός (mikrós) 'small' and βίος (bíos) 'life') is the community of microorganisms that can usually be found living together in any given habitat. It was defined more precisely in 1988 by Whipps et al. as "a characteristic microbial community occupying a reasonably well-defined habitat which has ...
Dysbiosis contributing to neurological conditions is due to interactions with the gut-brain axis allowing the gut microbiome to influence neural development, cognition, and behavior. [34] There has also been evidence that the gut microbiota composition can be altered due to changes in behavior, and changing the microbiome can also cause ...
As a vital conduit for the communication between gastrointestinal tract and the brain, the gut-brain axis influences a variety of physiological processes. A prominent example of the gut–memory connection is the effects that alterations in the gut microbiome can have on the pathogenesis of neural diseases like Alzheimer's. [3]
Experts say the best way to maintain one’s gut microbiome is with a healthy diet, plenty of sleep, and physical activity. Many experts refer to stress as an epidemic since it can take a toll on ...
Certain bacteria may influence aging. ... “While there is some merit to the idea that microbiome health can correlate effectively with someone’s biological age, our gut microbiomes are also ...
Gut microbes play a big role in athletics, and the microbiome could be positively impacted by behavior changes and supplements. Let's dive into some smelly science.
Chemicals released by the gut microbiome can influence brain development, starting from birth. A review from 2015 states that the gut microbiome influences the CNS by "regulating brain chemistry and influencing neuro-endocrine systems associated with stress response, anxiety and memory function". [4]
Research in human gut microecology is important because the microbiome can have profound effects on human health. The microbiome is known to influence the immune system, digestion, and metabolism, and is thought to play a role in a variety of diseases, including diabetes, obesity, inflammatory bowel disease, and cancer.