Studies involving disease:Gastrointestinal disease
| Study ID | Study Title | Species | Institute |
|---|---|---|---|
| ST001054 | Fingerprinting gastrointestinal diseases by 1H NMR | Human | Giotto Biotech s.r.l. |
| ST003094 | Lactiplantibacillus plantarum intervention on serum untargeted metabolome of gestational fecal microbiome transplant germ-free mice | Mouse | Beijing Sanyuan Foods Co. Ltd |
| ST003095 | Lactiplantibacillus plantarum intervention on serum choline derivatives of gestational fecal microbiome transplant germ-free mice | Mouse | Beijing Sanyuan Foods Co. Ltd |
| ST003096 | Lactiplantibacillus plantarum intervention on cecum short-chain fatty acids of gestational fecal microbiome transplant germ-free mice | Mouse | Beijing Sanyuan Foods Co. Ltd |
| ST003097 | Lactiplantibacillus plantarum intervention on cecum bile acids of gestational fecal microbiome transplant germ-free mice | Mouse | Beijing Sanyuan Foods Co. Ltd |
| ST003098 | Lactiplantibacillus plantarum intervention on cecum tryptophans of gestational fecal microbiome transplant germ-free mice | Mouse | Beijing Sanyuan Foods Co. Ltd |
| ST003099 | Lactiplantibacillus plantarum intervention on fecal short-chain fatty acids of gestational fecal microbiome transplant germ-free mice | Mouse | Beijing Sanyuan Foods Co. Ltd |
| ST003100 | Lactiplantibacillus plantarum intervention on fecal bile acids of gestational fecal microbiome transplant germ-free mice | Mouse | Beijing Sanyuan Foods Co. Ltd |
| ST003299 | Lactiplantibacillus plantarum intervention on fecal tryptophans of gestational fecal microbiome transplant germ-free mice | Mouse | Beijing Sanyuan Foods Co. Ltd |
| ST003527 | Combining antibiotics alters the longitudinal maturation of gut microbiota and its short chain fatty acid metabolites in extremely and very preterm infants | Human | Seoul National University |
| ST003796 | Short-term alterations in dietary amino acids override host genetic susceptibility and reveal mechanisms of Salmonella Typhimurium small intestine colonization | Mouse | Vanderbilt University |
| ST004196 | High fluoride exposure disrupts the intestinal microbiota and induces intestinal barrier damage | Mouse | Animal Microecology Institute, Sichuan Agricultural University |
