Gut microbial imbalance can impact memory, says study 2 months ago (newindianexpress.com) 6 comments sundarurfriend Reply Add to library DANmode 2 months ago It can impact just about everything that goes into homeostasis. az09mugen 2 months ago Since there are neurons in our guts it is not so surprising. GoToRO 2 months ago Gut anything impacts everything. bentt 2 months ago Study link? sundarurfriend 2 months ago Seems most likely this one: "Gut dysbiosis leads to cognitive decline through CNTF-mediated activation of microglia in mice" https://link.springer.com/article/10.1186/s12915-025-02454-xThe underlying mechanism seems applicable to humans too, but it's annoyingly ironic that the paper mentions mice in the title clearly and doesn't even mention humans, and the article doesn't mention mice even once. cyanydeez 2 months ago [flagged]
bentt 2 months ago Study link? sundarurfriend 2 months ago Seems most likely this one: "Gut dysbiosis leads to cognitive decline through CNTF-mediated activation of microglia in mice" https://link.springer.com/article/10.1186/s12915-025-02454-xThe underlying mechanism seems applicable to humans too, but it's annoyingly ironic that the paper mentions mice in the title clearly and doesn't even mention humans, and the article doesn't mention mice even once.
sundarurfriend 2 months ago Seems most likely this one: "Gut dysbiosis leads to cognitive decline through CNTF-mediated activation of microglia in mice" https://link.springer.com/article/10.1186/s12915-025-02454-xThe underlying mechanism seems applicable to humans too, but it's annoyingly ironic that the paper mentions mice in the title clearly and doesn't even mention humans, and the article doesn't mention mice even once.
It can impact just about everything that goes into homeostasis.
Since there are neurons in our guts it is not so surprising.
Gut anything impacts everything.
Study link?
Seems most likely this one: "Gut dysbiosis leads to cognitive decline through CNTF-mediated activation of microglia in mice" https://link.springer.com/article/10.1186/s12915-025-02454-x
The underlying mechanism seems applicable to humans too, but it's annoyingly ironic that the paper mentions mice in the title clearly and doesn't even mention humans, and the article doesn't mention mice even once.
[flagged]