19 Clinical Trials for Various Conditions
The goal of this clinical trial is to learn if a microbiome analysis, education, and recommendation program can improve gut health, reduce future health risks, and empower parents in their children's health in infants aged 0-3 months delivered via Cesarean section. The main questions it aims to answer are: Will the intervention increase bacteria considered beneficial, decrease the C- section microbiome signatures, promote a reduction in opportunistic pathogens, and improved functional potential for HMO digestion and SCFA production Will the intervention decrease microbiome signatures associated with atopic march conditions. Researchers will compare participants in the intervention arm, who will receive microbiome reports, personalized action plans, and educational materials, to participants in the control arm, who will receive microbiome results and educational materials after the study's completion, to see if the intervention leads to improved gut health and reduced risk of health conditions. Participants will: * Provide two microbiome stool samples three months apart. * Receive detailed infant gut health reports via the Tiny Health app. * Receive personalized action plans tailored to their infant's gut health needs. * Engage in gut health coaching sessions with a microbiome expert. * Receive an educational email series on infant gut health. * Complete a series of surveys/questionnaires on health history, symptoms, and diet. This study seeks to demonstrate that targeted microbiome interventions can significantly improve early infant gut health, leading to potential long-term health benefits. These benefits may include reduced healthcare costs by lowering the incidence of related chronic conditions. By establishing a foundation for mitigating these conditions, the intervention could consequently result in fewer doctor visits, reduced need for medications, and a lower incidence of hospitalizations over the first 3-4 years of the infant's life.
This study intends to evaluate the microbiome of chronically constipated patients as compared to those with a non-constipated gastrointestinal system.
The goal of this observational study is to learn if a ketone ester can improve the content of the gut microbiome. The main questions it aims to answer are: * Does a ketone ester reduce age-related signatures in the gut microbiome? * What changes occur in the gut microbiome after consuming a ketone ester? Participants will: * Take a ketone ester drink every day for seven (7) days * Collect and ship stool samples within seven (7) days before, during, and within seven (7) days after the study period * Measure their ketone levels with a urine strip every day after having the drink * Answer questions about their typical diet on a normal day * Record their symptoms, if any arise
This is a prospective, randomized, placebo controlled, double-blind study to assess the effects of a postbiotic blend on exercise induced oxidative stress markers and exercise performance in healthy adult.
This study aims to evaluate whether probiotics can help maintain a healthy gut microbiome in patients receiving prophylactic antibiotics during elective orthopedic surgery. Antibiotics, while effective in preventing infections, can disrupt the balance of gut bacteria, leading to dysbiosis. The study hypothesizes that the use of probiotics during the perioperative period can prevent or reduce this disruption, supporting gut health and overall well-being. The research seeks to answer whether combining probiotics with routine antibiotic prophylaxis can preserve gut microbiome balance and improve patient outcomes.
This study aims to test the hypothesis that a unique blend of resistant starches and fiber will promote gastrointestinal health, as measured by an increase in short-chain fatty acids and improvement in quality of life measures in conjunction with microbial community changes. This study specifically evaluates the impact on short-chain fatty acids and gut microbiota and the impact on quality of life from a resistant starch blend in healthy adult humans with occasional gastrointestinal distress.
Background: The Laboratory of Immune System Biology (LISB) works with other labs at the National Institutes of Health. They study how parts of living things come together to make a whole. LISB designs and improves research tests on human samples like blood and cells. In order to do its work, LISB needs to have a lot of these samples available. Objective: To collect biological specimens to use for designing and improving research tests. Specimens include blood, stool, saliva, and skin/mucosal swabs. Eligibility: Healthy people ages 3-80 Design: Participants will be screened with an interview about their general health and their medical history. They will have a physical exam and blood tests. If the results of the screening are normal, participants will be asked to give one or more of these samples: Blood will be drawn from an arm vein with a needle and syringe. Mucus and skin will be collected by rubbing the area with a cotton swab. The areas may include the top of the tongue, inside the cheek, nostrils, behind the ear, elbow pit, or vagina. Participants will spit into a tube to collect saliva. Participants will pass stool into a plastic container that fits in the toilet under the seat. They will get sampling kits and instructions. Over the next 5 years, if more samples are needed, participants will be contacted to set up another visit to the NIH. These visits will each take about 1 hour. About every 2 years, when participants come to NIH for a visit, extra blood will be collected. It will be tested for HIV and hepatitis B and C.
The primary goal of this study is to assess differences in the microbiome between women with and without endometriosis. A second goal of this study is to assess immunologic differences between the eutopic (within the uterus) and ectopic (outside of the uterus) endometrial tissue in women with endometriosis. In order to investigate these areas of interest, 25 women with endometriosis and 25 women without endometriosis will be enrolled. All women will be undergoing a previously scheduled surgical procedure at which time presence or absence of endometriosis will be confirmed and specimens will be obtained.
The skin and gut microbiome of rosacea patients differs from individuals without rosacea and that the microbiome suffers from unique derangements in rosacea patients following antibiotic therapy. This study was proposed to examine microbial signatures of the skin and gut microbiome in patients with moderate to severe rosacea and to identify differences between microbe communities in patients with rosacea and volunteers without rosacea using 16S ribosomal ribonucleic acid (rRNA) polymerase chain reaction (PCR) amplification, sequencing and computational phylogenetics and to assess alterations in the gut and skin microbiota of patients with moderate to severe rosacea in response to varying formulations of antimicrobial treatment.
To characterize the microbiome in 4 groups of subjects (primary hyperoxaluria type I (PH1), idiopathic CaOx stone, enteric hyperoxaluria (EH) and healthy participants) by comparing the number of species and diversity of the microbial populations and pathway for oxalate metabolism by paralleling the gene expression of enzymes involved in oxalate degradation by gut bacteria.
The primary objective of this prospective observational study is to characterize the gut and oral microbiome as well as the whole blood transcriptome in gastrointestinal cancer patients and correlate these findings with cancer type, treatment efficacy and toxicity. Participants will be recruited from existing clinical sites only, no additional clinical sites are needed.
This is a longitudinal, observational study with the goal of understanding vaginal microbiome changes both within a single day and across a menstrual cycle. The study will be composed of at least 10 women that have regular menstrual cycles and are 18 years of age or older. This study is direct to participant and will NOT utilize clinical sites.
This is a cross-sectional, non-interventional study, consisting of three study arms, (1) Full Characterization (AIMS-Full), (2) Surgery Arm (AIMS-OR), and (3) Mucus Collection (AIMS-M). Participants will be recruited and enrolled in either AIMS-Full or AIMS-OR (based on participant availability). Participants who complete the initial characterization study (either AIMS-Full or AIMS-OR), may also go on to participate in the AIMS-M arm, which focuses mainly on sample collection. Participants who choose not to participate in either characterization arm are able to enroll directly into AIMS-M for sample collection only.
This study aims to investigate the impact of various healthy diets, specifically a modified plant-based Mediterranean diet, on the gut microbiome and overall well-being post-colonoscopy. The investigators hypothesize that certain diets can positively influence gut bacteria, reducing inflammation and enhancing metabolic signals. To explore this, they will utilize metagenomic testing on stool samples to analyze the DNA of gut microorganisms. Additionally, they will conduct immune profiling on serum samples and perform metabolomic analysis to comprehensively evaluate the diet-induced changes in immune response and metabolic pathways. This multi-faceted approach will help them understand how dietary changes affect the composition and function of the gut microbiome, immune function, and overall metabolism.
This is an open-label, one-arm, one-time-point pilot assessing the intra- and inter-group variation of gut microbiome collection methods and storage conditions using metagenomic sequencing for analysis. This study recruited 6 adult volunteers collecting 12 fecal samples from one bowel movement. Subjects were given detailed instructions as to collect and store feces samples into the 4 different collection and preservation methods and return samples for metagenomic analysis.
The purpose of this study is to learn more about what happens in the human body after consuming a meal that contains ultra-processed foods like hamburgers, and if this is different to what happens after consuming a meal that contains lots of whole foods, like fresh vegetables, instead.
This study is aimed at understanding the impact of gut microbiota on efficacy of cancer therapies, in particular checkpoint inhibitors, and using the resulting information to design microbial immunotherapies. Although animal models are of use to determine the influences of gut and other microbiota on cancer treatment modalities, they are limited due to differences between mouse and human physiology and immunology, as well as the inherent differences in gut microbial populations between the two mammalian organisms. Therefore, samples obtained as donations from human subjects undergoing cancer treatment are of great value for the identification and determination of bacteria and their metabolic processes that are involved in the successful cure and remission of cancer by checkpoint inhibitor therapies. The objective of this study is to collect 3 samples each of blood, urine, and stool in subjects with cancer. This is a non-interventional, 2 site study in 100 people who are undergoing any type of cancer immunotherapy. Subjects who meet the entry criteria will provide 5 samples each of blood, urine, and stool over a 12-month period.
Background: - Bacteria and other micro-organisms in the intestines play important roles in immunity and other health conditions. As a result, these micro-organisms are likely to affect many health conditions, including several types of cancer. Because cancer and other diseases may affect the digestive system and the bacteria within it, fecal samples that are taken both before and after the onset of a disease may show important changes in the body and provide information about possible treatments. However, unlike repositories of blood and tissue samples, researchers do not have a repository of fecal specimens. Researchers are interested in determining whether standard collection procedures used for fecal occult blood testing can provide accurate information on micro-organisms in the intestine. Objectives: - To determine whether standard fecal occult blood testing procedures can provide accurate collections of fecal micro-organisms for research purposes. Eligibility: - Healthy volunteers at least 18 years of age. Design: * At the clinical center, participants will be provided with written and illustrated instructions for the collection procedures and a self-administered risk questionnaire. The questionnaire will assess the challenges of collecting fecal specimens and will collect data on major dietary restrictions (e.g., vegan, vegetarian, food allergies), medication use and major illnesses, knowledge of and past experience with fecal occult blood testing, colonoscopy and colon cancer, and the fecal collection devices. * Participants will be provided with a collection bag for the sample, 16 sample collection tubes, and a box with frozen gel packs. * On the morning of collection, participants will collect the fecal sample in the bag and use the collection tubes to obtain material from different parts of the stool. * The tubes will be sealed and placed in the box with the gel packs, and the participant will hand deliver the entire box to the clinical center. * Characteristics of the bacteria in the material will be measured by laboratories at the University of Maryland. * Statistical comparisons will determine how well the procedures worked.
Women´s period comprises different hormonal stages, being one of them the stage for maximum receptivity and proper embryo implantation. This stage is named window of implantation (WOI), and is characterized by a specific molecular pattern than can be assessed by the Endometrial Receptivity Analysis (ERA® test), developed by Igenomix. Determining the WOI allows to schedule a personalized embryo transfer (pET) when the endometrium is most receptive for the implantation. The main objective of the present study is to improve our knowledge on the endometrial factor in an infertile population with previous implantation failures. To do so, a diagnosis of the endometrial receptivity to determine the WOI (ERA®) and the microbiome (EMMA®) of each participant will be performed, assessing its impact on deferred embryo transfers in terms of reproductive outcomes. Participants will follow their previously programmed IVF/ICSI treatment and, only when one embryo with no major anomalies is reported by PGT-A (Preimplantation Genetic Testing for Aneuploidies), they will be asked to attend to the specific study visit for endometrial fluid and biopsy samples collection. These samples will be used to determine the patient's WOI (ERA®) and endometrial microbiome (EMMA®). The results of neither of the tests will be disclosed to the patient or the doctor, being only used for the study purpose. After this visit, the patient will follow the pre-established schedule for an embryo transfer and pregnancy assessment.