View clinical trials related to Microbial Composition.
Filter by:Background: The human microbiota is the bacteria and other microbes found in and on the human body. Scientists study the microbiota because it is related to many health conditions. The way samples are collected and handled can greatly affect microbiota study findings. Researchers want to learn more about how collection methods affect these studies. Objectives: To compare different oral and fecal collection methods. To test the effect of new methods to get DNA out of these samples. Eligibility: Adults ages 18 and older who are National Cancer Institute employees and have not taken antibiotics in the past 3 months Design: Participants will discuss the study with researchers. Participants will give an oral or fecal sample or both. For the oral sample, participants will be told what not to do beforehand. This includes chewing gum and smoking. Participants will spit saliva into a tube. Then they will get mouthwash in a vial. They will swish and gargle the mouthwash for 30 seconds then spit it back in the vial. Participants giving a fecal sample will get a collection kit. They can collect the sample at home or elsewhere. Participants will have a bowel movement into the collection container. They will smear some of it on a card with a stick and put the rest in 2 tubes. They will mix the feces with the solution in the tubes. Participants will write the date and time of collection on the instructions and return the sample within 24 hours. Participants providing both samples could have 3 study visits: 1 to give an oral sample, 1 to get the fecal sample collection kit, and 1 to return that sample.
The gastrointestinal (GI) ecosystem is a complex network of bacterial cells, host cells and tissues that change with age. Fewer numbers and less diversity of beneficial bacteria and greater number and diversity of non-beneficial bacteria occurs with age and conditions associated with accelerated aging (i.e. obesity, high fat diet)(1,2). This imbalance of the microbiota contributes to increased inflammation of the gastrointestinal lining and changes to the integrity of the intestinal cell wall. Prebiotics, such as non-digestible carbohydrates, can induce the growth or activity microorganisms that contribute to the well-being of the host. Recent studies have shown that prebiotic treatment can have beneficial effects on glucose levels, lipid metabolism, and inflammatory markers in an obese population(3). The polyphenol blend is rich in anthocyanins, which is a unique subgroup of flavonoids that have been demonstrated to impact the microbiome and have anti-inflammatory properties(4,5,6,7). This open-label study will assess the benefits of a prebiotic and polyphenol blend in healthy obese adults.