@bradstradamus @thom_ivy_1 @DogIsABot And how much of that impacts metabolic function? It seems that antibiotics can increase the risk of liver not filtering out pesticides. Maybe you have to have a disrupted gut *AND* a toxin to have the impact. https://
@RoullierY @LCP @AgnesRunacher @LePontdesidees ce qui pourrait augmenter le risque d'exposition aux pesticides. https://t.co/a2eey4BTFO
@spiderfoods Lots of bad ideas in this space. Like did you know its probably that gut bacteria are protecting frogs from the pesticides that are is making the frogs hermaphroditic? https://t.co/2uH7DDfo11
@BoilingPb @deepfates @djinnius @balajis There are a ton of ways like this where multiple things in the water & host's gut bacteria interact. Often having overlapping and compounding effects. The interplay with antibiotics is a big one tho. https://t.c
The challenge here is that if it is disrupting microbes as I suspect, it would be hard to distinguish it from other antibiotics in the water. In field tests we would be seeing statistical ghosts. https://t.co/2uH7DDfo11
@nimrod_cain @limitlessjest I've got documents coming out of my ears. https://t.co/X56QxMiS3N
@RootCauseDoctor You should explore gut microbiota metabolism of that and similar pesticides. It suggests that some people are resistant to it and explain mixed findings. https://t.co/X56QxMiS3N
Whoops. I have the documents. "The antibiotic-altered gut microbiota that could alter the hepatic metabolic enzyme gene expression and intestinal absorption-related proteome was a critical cause of the increased bioavailability." https://t.co/1Pqt6AfGTC
So what happens if you use antibiotics and then drink the water? "Abuse of antibiotics may increase the risks associated with xenobiotics, such as pesticides, and amplify their consequent toxic effects." https://t.co/1Pqt6AfGTC
RT @MicrobiomeJ: As we enter the year of the rat, we recognize the invaluable contribution the rat has made as a model animal. Exploring th…
From the many animals used in genetic studies to newer gnotobiotic mice in #microbiome studies, thank you for your sacrifices and contributions to scientific discovery. The #OmicsEra lies on the back of rats!
RT @MicrobiomeJ: As we enter the year of the rat, we recognize the invaluable contribution the rat has made as a model animal. Exploring th…
As we enter the year of the rat, we recognize the invaluable contribution the rat has made as a model animal. Exploring the interactive impact of antibiotics on pesticides: https://t.co/7KXvtQDcmX #microbiome #ChineseNewYear #YearoftheRat https://t.co/Cx7R
RT @GMFHx: The gut microbiota is involved in modulating xenobiotics metabolism. In rats, scientists have found that antibiotics used at hum…
RT @GMFHx: The gut microbiota is involved in modulating xenobiotics metabolism. In rats, scientists have found that antibiotics used at hum…
Interesting. Antibiotics could increase the pesticide bioavailability and thereby may increase the pesticide exposure risk. #antibiotics #xenobiotics https://t.co/VJDBzEqjtw
RT @GMFHx: The gut microbiota is involved in modulating xenobiotics metabolism. In rats, scientists have found that antibiotics used at hum…
RT @GMFHx: The gut microbiota is involved in modulating xenobiotics metabolism. In rats, scientists have found that antibiotics used at hum…
RT @GMFHx: The gut microbiota is involved in modulating xenobiotics metabolism. In rats, scientists have found that antibiotics used at hum…
The gut microbiota is involved in modulating xenobiotics metabolism. In rats, scientists have found that antibiotics used at human doses increase the pesticide bioavailability and thereby may increase the pesticide exposure risk via @BioMedCentral https://
RT @swestreich: Gut microbes may protect from absorbing pesticides, and taking antibiotics increases the amount of absorbed pesticides - h…
Gut microbes may protect from absorbing pesticides, and taking antibiotics increases the amount of absorbed pesticides - https://t.co/ZGnpfjKylu
Antibiotics may increase triazine herbicide exposure risk via disturbing gut mi... - Zhan J et al. - https://t.co/fsZPrJnwEO #microbiome
Antibiotics may increase triazine herbicide exposure risk via disturbing gut microbiota https://t.co/TOfppvMRlN
Antibiotics may increase triazine herbicide exposure risk via disturbing gut microbiota https://t.co/gzPs5W4sHo