View clinical trials related to Microbiota.
Filter by:Many studies describe the relationship between microbiota alteration and the occurrence of metabolic, alcoholic or inflammatory liver diseases. Nevertheless, the modifications of microbiota during liver transplantation (LT) as well as its implication are poorly studied. Similarly, only the intestinal microbiota is studied in this context, and no data are available on the biliary microbiota, even if it is known that bile microbiota can interfere with hepatobiliary diseases. This study proposes a clinical and biological in-depth follow-up with multiple sampling of liver transplanted patients to study biliary and intestinal microbiota alterations along LT, as well as bile acids metabolism in corresponding fluids. Indeed, in recipient samples as saliva, blood, urine, and feces can be taken before LT, and surgeons can easily perform bile sampling during LT. In donors all samples can be taken during liver removal. This offers the opportunity to have a microbiotic landscape of individuals without liver disease (donor), and patients suffering from a chronic liver disease or a liver cancer before and after transplantation. Also, in Grenoble University hospital, in case of biliary anastomotic incongruence, a biliary stent is placed during LT in 60% of recipients. This stent is removed by endoscopic retrograde cholangiopancreatography (ERCP) within 6 months after LT, offering a second opportunity to obtain bile samples in transplanted patients, after the early post-LT period. Patients who do not require a biliary stent will also be included for the study of secondary objectives, as intestinal microbiota is very poorly characterized in liver transplanted patients too. A portion of the patients without biliary stent, may also develop an anastomotic biliary stricture requiring an ERCP. If this ERCP is realized within the follow-up period of the study, the patient will also be included in the primary objective of the study. These multiple and sequential samples will allow a complete analysis of microbiota changes in LT patients and aim to answer to 3 questions: 1. What are the modifications of intestinal and biliary microbiomes during LT? 2. What is the influence of bile acids' composition on intestinal and biliary microbiota? 3. What are the relationships between microbiome alterations and the emergence of LT complications?
The study is based on the hypothesis that patients with postoperative anastomotic leakage have a different bacterial profile contributing to poor tissue healing, and that patients operated for colon cancer presumably have a different preoperative microbiota than healthy patients. This different composition is probably induced by the high heme level in the light intestinal tract that tumor spoliation generates. The objective of the study is to evaluate the feasibility of a larger study to evaluate the difference between microbiota composition of patients with and without colorectal cancer, with inflammatory bowel disease and those with and without anastomotic leakage postoperatively of a colonic resection. Stool samples will be taken from 20 patients, including 5 without intestinal pathology, 5 with colorectal cancer undergoing colorectal surgery, 5 with inflammatory bowel disease and 5 with anastomotic leakage after colectomy for colorectal cancer or inflammatory bowel disease. The stool samples will be analyzed at CRCHUM to draw up a profile of the bacteria that make up the microbiota of each patient.
The mechanical bowel preparation (BP) used to clean the colon prior to colonoscopy frequently results in a significant but temporary reduction in patient's symptoms for a number of bowel disorders including symptomatic uncomplicated diverticular disease. The cause of this improvement is unknown. We hypothesise that changes to the gut microbial population (microbiota) are responsible for this improvement and that the repopulation of the GI tract with bacteria following colonoscopy results in a return of their normal symptoms. This pilot study will test this in a preliminary way by examining the stool, urine and blood of patients before and after bowel preparation to detect any destabilising effect that BP has on the gut microbiota and to what extent the microbiota repopulates at 3 months If the hypothesis is proven, this study will show that BP generates a 'window of opportunity' in which to influence the subsequent re-establishment of the microbiota. This is with the eventual aim of correcting potential dysbiosis and preventing the progression of symptomatic uncomplicated diverticular disease (SUDD).
Colorectal cancer (CRC) is the third most common cancer type in males and the second in females, accounting for about 693,900 deaths worldwide per year. Although the annual CRC mortality rate is still very high, it demonstrated a decline by 47% among men and 44% among women from 1990 to 2015. This decreasing trend may be attributed to improved screening, early detection as well as combined CRC treatment. In fact, the mortality rate is expected to reduce further by long-term use of chemopreventive agents that can prevent the development of neoplasms in the large bowel. Several decades of research both in clinic and laboratory has identified aspirin as an effective synthetic CRC chemoprevention drug. It is commonly accepted that aspirin exerts its chemopreventive effects by inhibiting catalytic enzymes cyclooxygenase (COX) -1 and COX-2 involved in prostaglandin synthesis. But the mechanism of its chemopreventive effect on CRC is not clearly understood. Other than CRC, aspirin also showed its potential inhibitory effects on some other types of solid cancer, such as pancreatic, lung, breast and prostate cancers. However, its effects on extragastrointestinal cancer types are still elusive due to lack of reliable supporting evidence from randomized clinical trials. Based on current knowledge, it is unclear why aspirin appears to inhibit CRC more than other cancers. This might be associated with the unique microenvironment comprising trillions of microbes in which CRC resides.
Autoimmune thyroiditis (AITD) mainly includes Hashimoto's thyroiditis (HT) and Grave's disease (GD). Studies have shown that autoimmune thyroiditis is closely related to microbial disorders such as autoimmune thyroiditis However, there is no report on the relationship between oral microecology and autoimmune thyroiditis. Therefore, our group will study the correlation between oral microbiota and AITD.
Graves' disease is an organ-specific autoimmune disease in which both genetic predisposition and environmental factors serve as disease triggers. Many studies have indicated that alterations in the gut microbiota are important environmental factors in the development of inflammatory and autoimmune diseases. Investigators systematically performed a comparative analysis of the gut microbiota in GD patients and healthy controls and analyse the relationship between intestinal microbiota and GD drug therapy.
In this study the investigators aim to investigate the changes of the intestinal microbiome in three different cohorts (IBD, IBS, healthy) after applying the uniform disruptive factor of osmotic diarrhea induced by macrogol. The investigators hypothesis is that ill people will show more severe changes of the microbiome than healthy people and that these changes persist longer.
This case-control study aims to compare the pelvic microbiomes of benign ovarian diseases and ovarian malignancies by 16s RNA techniques and culture. Discharges/flushing fluid from vagina, faces and fimbria end of fallopian tube are collected from age and menopausal status matched patient before and during procedures of laparoscopies. The discharges/flushing fluid would be sent for 16s RNA analysis and microculture respectively, and the results would get self-contrasted comparison and case-control comparison.
The aim of this study is to investigate changes in nutrient intake, the human gut microbiota and pesticide excretion in urine when shifting from conventional food habits to sustainable food habits.
A prospective observational study. Enrolled participants admitted to ICU due to pneumonia and respiratory failure need mechanical ventilator support. Investigators collected the residual specimens, such as sputum from endotrachea aspiration, bronchoalveolar lavage fluid in those participants as the usual care in the ICU. Those residual samples were sent to extract RNA and sequence by using high-throughput sequencing (next-generation sequencing) method. Investigators will compared the microbiome feature between lower respiratory tract and stool specimens in those participants diagnosed as pneumonia with respiratory failure.