View clinical trials related to Gut Microbiota.
Filter by:The purpose of this study is to identify the variations in gut microbiota compositions between two subtypes of major depressive disorder.
To evaluate differences in specific SNPs and intestinal microflora between patients with gout and hyperuricemia and healthy controls.
This mother-infant cohort study aims to determine the geographic differences in the microbial profiles in breast milk from mothers living in Malaysia and China that are potentially important determinants of infant development. It also aims to determine the impact of gut microbiome on infant health (temperament, gastrointestinal symptoms, eczema symptoms, and asthma symptoms).
This study is to find out the association between gut microbiota and moyamoya disease.
Abnormal fetal size includes fetal growth restriction and fetal macrosomia. Onset is closely related to maternal nutrition metabolism. The specific correlation and mechanism is unclear, and there are no effective measures for early diagnosis and treatment. Previous study found that maternal gut microbiota participates in the material metabolism throughout the pregnancy. Insulin sensitivity in pregnant women, and intrauterine environment under abnormal blood glucose and lipid metabolism are important for the gut microbiota of newborns and even they grow up. However, changes in gut microbiota are the cause of the disease or the outcome is not yet clear. Short chain fatty acids (SCFAs) are produced from soluble dietary fibers in the diet by colon bacteriolysis. Studies have found that gut microbiota can regulate insulin sensitivity and glucose and lipid metabolism disorders through SCFAs. Therefore, this research group uses the gut microbiota as a new idea to studythe relationship of gut microbiota characteristics and level's change of SCFAs with glucolipid metabolism and insulin sensitivity in pregnant women with abnormal fetal size and their newborns through 16S-rRNA high-throughput sequencing, pyrosequencing, and gas chromatography-mass spectrometry, so we can reveal the role of gut microbiota in the pathogenesis of abnormal fetal size and explore targeted rational dietary adjustment and SCFAs reconstruction of gut microbiota to improve maternal and neonatal pregnancy outcomes.
Although preliminary evidence suggests that intermittent fasting mimic-diet (IFD) exerts stronger effects on body weight and metabolic parameters, which may link obesity, non-alcoholic fatty liver disease (NAFLD) and major chronic diseases, compared with continuous calorie restriction (CCR), there is a lack of well-powered intervention studies. This randomized controlled trial will test whether IFD, operationalized as the "5:2 diet," has stronger effects on anthropometric and body composition characteristics, and circulating metabolic biomarkers than CCR and a control regimen in adults with NAFLD.
Pancreatic cancer (PC) is one of the deadliest diseases of human digestive malignancies. Despite the recent advances in surgery and chemotherapy, the 5-year survival rate of PC continues to be less than 10%. As a promising tumor therapy,Chimeric antigen receptor T cell (CAR-T), however, performed poorly in PC treatment and need to be further updated. In our study, on the basis of our previous research, we use anti-MSLN CAR-T as effector cell and explore the different effects and mechanism of gut microbiota (PC or healthy control) on anti-MSLN CAR-T treatment. Firstly, we detect the differences of gut microbiota and T cell cholesterol metabolism in PC and healthy control by means of 16S-rRNA,PCR, western blot and ELISA; explore the different effects of gut microbiota on the subtype of T cells; and analyze the relationships between intestinal flora composition and T cell cholesterol metabolism or subtype changes by means of Spearman's correlation. Secondly, we also explore the different effects of gut microbiota on the proliferation, migration, subtype, inflammatory cytokines expression and anti-tumor effector function of anti-MSLN CAR-T cells by means of flow cytometry and cytotoxicity assay. Thirdly, we discuss the different expression of cholesterol esterification enzyme 1 (ACAT-1) and other core genes of cholesterol metabolism in anti-MSLN CAR-T. Lastly, we evaluate the effects of different gut microbiota on the treatment of PC by anti-MSLN CAR-T cells in NSG mouse model of subcutaneous PC transplantation and liver metastasis. Through the above experiments, a new theoretical basis is provided in which gut microbiota regulates the subtype and anti-tumor function of anti-MSLN CAR-T by ACAT-1 expression. Furthermore, our findings, which demonstrate the relationship of gut microbiota and CAR-T cell, may be translatable for the treatment of other solid tumors like PC.
Modulation of the gut microbiota via administration of pro- and prebiotics have been proposed to contribute to weight loss and reduce plasma glucose and serum lipid levels, improving the inflammatory state and decreasing the incidence of type 2 diabetes and cardiovascular disease. This study will test a fermented canola-seaweed (FCS) product, high in glucosinolates and putatively prebiotic oligosaccharides, in human subjects with obesity.
We will use the latest Rome IV criteria to recruit IBS-D patients and evaluate the effects of repeated treatment with rifaximin and sequential treatment with rifaximin and probiotics on different symptoms and quality of life. High-throughput sequencing combined with real-time quantitative PCR will be used to comprehensively analyze the effects of different drugs on intestinal flora. The study has important guiding significance for the treatment of patients with IBS-D.
Specific oral microbiome has been found to contribute to the development of colorectal cancer. We speculate that specific oral microbiota related to colorectal cancer relapse after curative treatment. This study aim to discover if any difference of oral microbiota exist in patients who suffer from cancer relapse compared with patients who do not. Finally develop patient-centred programmes of surveillance protocols base on microbiota analysis.