A growing appreciation that the intestinal microbiota might exert changes on the central nervous system via the gut-brain has emerged as a new research frontier in neurological disorders. Moreover, new approaches for studying and manipulating the gut microbiome, including metabolomics and faecal microbiota transplantation, have highlighted the tremendous potential that microbes have on neuroinflammation, metabolic, and neuroendocrine signaling pathways. Despite the large proliferation of studies in animal models examining the linkage between microbial disequilibrium and epilepsy, intestinal profiles at a functional level in humans have remained scarce. We reviewed the scientific evidence on gut microbiota's role in epilepsy, both in clinical and experimental studies, to better understand how targeting the gut microbiota could serve as a diagnostic or prognostic research tool. Likewise, translating microbial molecular mechanisms to medical settings could fill the gaps related to alternative therapies for patients with epilepsy, mainly in cases with refractory phenotypes.

Gut-microbiota-directed strategies to treat epilepsy: clinical and experimental evidence

Striano P.
2021-01-01

Abstract

A growing appreciation that the intestinal microbiota might exert changes on the central nervous system via the gut-brain has emerged as a new research frontier in neurological disorders. Moreover, new approaches for studying and manipulating the gut microbiome, including metabolomics and faecal microbiota transplantation, have highlighted the tremendous potential that microbes have on neuroinflammation, metabolic, and neuroendocrine signaling pathways. Despite the large proliferation of studies in animal models examining the linkage between microbial disequilibrium and epilepsy, intestinal profiles at a functional level in humans have remained scarce. We reviewed the scientific evidence on gut microbiota's role in epilepsy, both in clinical and experimental studies, to better understand how targeting the gut microbiota could serve as a diagnostic or prognostic research tool. Likewise, translating microbial molecular mechanisms to medical settings could fill the gaps related to alternative therapies for patients with epilepsy, mainly in cases with refractory phenotypes.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11567/1053302
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