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Showing 1-20 of 63 trials
NCT07578103
The consumption of an adequate quantity of protein in the diet is essential to maintain a healthy body composition and functioning. It is also well established that all proteins are not equal regarding their ability to promote health benefits. Recently, we have innovated in that matter by showing that under the context of high intake of dietary fat, the dairy protein casein was more effective than a mix of proteins representative of a western diet to prevent body weight gain and insulin resistance. This was explained in part by modifications of the gut microbiota. This finding represents the main conceptual basis of the present research program that is aimed to determine the impact of dairy protein from yogurt compared to a plant-based equivalent on body composition indicators including muscle mass and bone mineral density, in relation to the profile of the gut microbiota, the production of newly discovered protein-derived metabolites, and markers of metabolic health. This program will include a human and an animal component requiring the testing of these variables before and after a standardized intervention. The human component will be a clinical study consisting of a 12-week diet-based weight loss intervention in postmenopausal overweight women being randomly assigned to one of the three following groups: yogurt, plant-based yogurt, or kept on diet without supplements. The animal experimentation will permit to causally determine the implication of the gut microbiota in the protein effects following transfer of the human bacteria to germ free mice and validate the benefits seen in humans. It is anticipated that these two complementary investigative approaches will allow a thorough documentation of the impact of fermented dairy protein on body composition and functioning, a better understanding of the underlying mechanisms, and the identification of new biomarkers to better appreciate related health benefits.
NCT07550023
This study will investigate how adding a specific type of dietary fat to daily meals for two weeks affects the gut bacteria and their activity. Participants will be randomly assigned to consume one of four types of fat: butter, coconut oil, olive oil, or sunflower oil (60 mL each day for 2 weeks). Stool and blood samples (after an overnight fast) will be collected at 3 time points during the study (Days 1, 7, and 22). These samples will be used to measure metabolites produced by gut bacteria, the types of bacteria present in the gut, blood lipids, and inflammatory markers. The study, based on previous in vitro findings, aims to understand whether different types of fats (based on their structure and level of saturation) have different effects on gut bacteria and their activity in healthy subjects.
NCT07122284
Patients with concurrent Helicobacter pylori infection and small intestinal bacterial overgrowth (SIBO) represent a clinically challenging subgroup, often experiencing refractory gastrointestinal symptoms and diminished treatment responses. Current evidence indicates that individuals infected with H. pylori may related SIBO as a comorbidity; however, the synergistic effects of these conditions on gut ecosystem homeostasis remain poorly understood. To address this knowledge gap, we employed a dual-omics approach that combined shotgun metagenomic sequencing with liquid chromatography-mass spectrometry (LC-MS) metabolomic profiling. This methodology allowed for a comprehensive mapping of microbial community structures, including species-level taxonomy and functional pathways, as well as host-microbiota co-metabolism signatures in fecal samples.
NCT06136793
Individuals of Chinese heritage are the largest and fastest growing segment of the US Asian population. US Chinese have sociodemographic characteristics and culture that differ substantially from other US Asians, and therefore, differ in social determinants of health, health status, and disease risk. US Chinese adults are at increased risk for cardiometabolic disease, related conditions (obesity, type 2 diabetes mellitus, hypertension), and systemic inflammation that promotes disease onset and progression. Immigration to a new country can substantially impact the gut microbiome which may promote systemic inflammation. Pilot interventions indicate a high-fiber diet rich in whole grains reduced inflammation and improved obesity. Additionally, the United States Department of Agriculture (USDA) supported, evidence-based HomeStyles intervention has demonstrated feasibility, acceptability, and efficacy in improving lifestyle behaviors and home environments associated with obesity risk in families. A lack of linguistically, culturally tailored interventions to their specific health needs makes it difficult for US Chinese to implement healthy lifestyle behaviors and reduce health risks. Interventions tailored for US Chinese that could attenuate modifiable cardiometabolic risk factors, understand physiological sequelae, and bridge health equity are not currently available. Thus, the overall goal of this project is to test the efficacy of HomeStyles in improving health outcomes in US Chinese. Project aims are to: A) Culturally adapt the HomeStyles intervention through community-engaged approaches. B) Conduct a 10-week, 2-armed Randomized Controlled Trial (RCT) to test HomeStyles intervention efficacy on health outcomes (dietary intake, physical activity, self-efficacy, HbA1C, waist circumference, and BMI), hypothesizing that participants randomized to the treatment condition will have greater improvements in health outcomes than control comparators. C) Examine associations between intervention participation and gut microbiota/systemic inflammation and test hypotheses that a whole-grain rich diet adopted by those in the intervention group will increase anti-inflammatory gut bacteria, reduce inflammatory gut bacteria, and lower systemic inflammation.
NCT07476573
The aim of this research is to analyze the effect of a Lactiplantibacillus plantarum Dad-13 supplementation on the gut microbiota profile and performance of adolescent athletes.
NCT07471373
This project PestiEndoMicro aims to provide an innovative approach, studying endometriosis under the genital and gut microbiota scope. To realize this project, the investigators are planning to dose cfDNA to assess the oxidative stress caused by endometriosis and study its epigenetics. At the same time, the investigators will take a pragmatic approach by assessing pesticide exposure in these patients and estimate the correlation between gut or genital dysbiosis and chemical agent exposure. Also, the investigators will take the initiative to use classic culture, qPCR techniques, and NGS to establish signatures in vaginal, endometrial and gut microbiota in patients with endometriosis. With these approaches, the goal is to gain more knowledge about endometriosis and optimize early diagnosis by establishing a signature in the genital and gut microbiota, but also by dosing the cfDNA. By doing so the investigators could open new opportunities to develop new therapeutic strategies for endometriosis.
NCT07440147
Night shift work is associated with an increased risk of obesity, insulin resistance, and cardiometabolic disorders, largely due to circadian misalignment, disrupted sleep, and altered eating patterns. These behavioral and physiological disturbances impair glucose metabolism and are further influenced by the gut microbiota. In particular, the bacterium Akkermansia muciniphila has been linked to improved metabolic health, including enhanced insulin sensitivity, lipid regulation, and maintenance of intestinal barrier integrity. Berberine, a bioactive plant-derived compound, has demonstrated metabolic benefits, including upregulation of A. muciniphila, improvement of insulin sensitivity, and modulation of lipid metabolism. Together, these complementary mechanisms suggest that combined A. muciniphila supplementation and berberine administration may synergistically improve metabolic health in shift workers by targeting gut microbiota composition and circadian-regulated metabolic pathways. Based on this rationale, a double-blind, randomized, placebo-controlled, crossover study is being conducted in 200 night-shift workers from healthcare and industrial sectors in Austria and Denmark. Participants are stratified by age, sex, and work sector and randomly assigned to intervention sequences. Each participant receives either the combined supplement or placebo for 12 weeks, followed by a four-week washout, after which the alternate intervention is administered for another 12 weeks, with a total participation of 28 weeks. Assessments are performed at four study visits and include anthropometry, body composition, blood pressure, and collection of blood, urine, and feces. Participants complete validated questionnaires on dietary intake, lifestyle, work schedules, and general health to monitor behavioral patterns throughout the study. Dietary intake is recorded for four days prior to each sampling visit in consideration of shift schedules. Sleep duration and quality are monitored via diaries and actigraphy and aligned with dietary records. Circadian variation is minimized by standardizing sampling times and implementing a fasting and synchronization period prior to visits. The primary outcome is insulin sensitivity, measured by HOMA-IR. Secondary exploratory outcomes include gut microbiota composition and diversity, biomarkers of intestinal permeability and inflammation, lipid profiles, body composition, sleep quality, and dietary behavior. These measures collectively provide a comprehensive evaluation of the metabolic, microbiome, and circadian effects of combined A. muciniphila and berberine supplementation in night-shift workers.
NCT07009223
The goal of this clinical study is to investigate if lifestyle changes can help prevent cognitive decline and reduce depressive symptoms in people between the ages of 50 and 80 with depressive symptoms or a diagnosis of major depression, but without signs of cognitive decline. The main questions it aims to answer are: * Does regular physical activity improve mood and memory in people who are depressed or have depressive symptoms? * Does cognitive training help prevent mental difficulties in people at risk of cognitive decline? * Do changes in diet and lifestyle alter the composition of the gut microbiota and immuno-related infiammatory factors? Researchers will compare three different treatment groups to see which intervention is most effective in improving mental and cognitive health. The participants: * Will take part to online sessions on healthy eating based on the Mediterranean diet * Some will do regular exercise, supervised by a personal trainer * Others will do weekly cognitive training in small groups at the hospital * They will provide blood and fecal samples and complete cognitive tests and clinical questionnaires at the beginning, at the end of the treatment (12 weeks), and after 3 months.
NCT07257913
The primary objective is to investigate the impact of milk, fermented milk, and soy beverages, incorporated in a diet reflecting adherence to Canadian food guide recommendations on food choices on gut microbiota in middle-aged adults (45-65 years) with abdominal obesity and slightly deteriorated lipids and/or glucose profile. The study aims to discern whether the integration of soy beverages (control), milk, and fermented milk within the CFG diet contributes to distinct gut outcomes and alterations in gut health. We hypothesized that milk and fermented milk will further promote beneficial changes in gut health parameters including gut microbiota composition, trans-epithelial permeability, and inflammation, relative to soy beverages.
NCT07220369
The purpose of this proof-of-concept study in humans is to determine if a noninvasive, ingestible device, called a "mini-pill", can collect gastrointestinal (GI) luminal content samples from 2 different locations along the GI tract after consumption of diets differing in protein source (meat and plant-based meat alternatives). The mini-pills will be recovered in the stool. We will analyze the microbial profile of the mini-pill contents and in stool, and also measure blood biomarkers related to cardiometabolic risk, to better understand the relationship between diet, microbiota and health.
NCT07207109
This study investigates the effects of follow-on formula in infants aged 6-9 months over a 12-week period. After parents give consent, their baby's feeding habits, stool characteristics, and any illnesses or medication use will be recorded. Infants will be randomly assigned to receive either the test or control product. Growth and health data will be collected during study visits. Parents will collect stool samples and complete diaries to help researchers better understand the baby's digestion and overall health. A follow-up phone call will be made to check on the baby's well-being after the study ends.
NCT07194772
This study aimed to investigate the effects of a three-week consumption of sucralose-sweetened beverages (low-calorie sweetener) on postprandial glycemic responses in healthy adults, compared with sugar-sweetened beverages under real-world conditions. In brief, postprandial glycemic responses are used as an indicator of how your body manages blood sugar levels after consuming glucose. To explore potential mechanisms underlying any observed changes in postprandial glycemic responses, we further investigated potential alterations in gut microbiota composition and functionality, as well as plasmatic biomarkers of intestinal permeability and systemic low-grade inflammation. Finally, this project explored whether free sugars derived from a natural source (100% natural fruit juice) elicit metabolic responses that differ from those of refined sugars. Participants visited the laboratory for a preliminary screening session to assess eligibility prior to being randomly assigned to one of the three experimental groups consuming either sucralose-sweetened beverages (LCS), sucrose-sweetened beverages (SSB), or 100% natural fruit juice (FJ) at dosage approximating real-world consumption over three weeks. Participants underwent two experimental sessions (duration of 3 hours each) at the beginning and completion of the study as outlined below.
NCT06691100
This study aims to elucidate the differences in the gut microbiome functional activity and metabolome in adult premenopausal women with distinctive fitness levels and BMIs (with obesity, w/o obesity). The specific aims are as follows: * Aim 1: To examine the effects of acute aerobic exercise at 60-70% heart rate reserve (HRRmax) for 30 minutes bout on changes in the abundance of SCFA-producing bacteria and their functional downstream metabolic activity. * Aim 2: To examine the effects of acute aerobic exercise at 60-70% HRRmax 30-minute bout on changes in GM-released SCFA concentrations in stool and plasmatic metabolome.
NCT04880083
This is a non-randomized, single-arm, open-label, prospective interventional study using a commercially available starter infant formula in healthy term formula-fed infants with a parallel group of healthy term breast-fed infants as reference group. Approximately 120 male and female infants (60 per group) who are 3-28 days old and are exclusively or predominately formula-feeding or breastfeeding will be enrolled.
NCT04435548
The Westlake Gut Microbiome study is a prospective cohort study. This project aims to characterize the gut microbiome among Chinese populations from different regions of China, and explore the relationships between gut microbiota and human health. Human fecal samples will be collected from the participants and muli-omics detection and analysis will be performed.
NCT07010445
Epilepsy is one of the most common neurological chronic conditions with a serious burden on patients, their caregivers, and society. Drug-resistant epilepsy (DRE) heightens this burden. New approaches are thus a priority. Studies in animal models and humans have shown the link between gut microbiota (GM) and the central nervous system in health, neurological conditions, and neurodevelopmental disorders. DRE has been linked to GM dysbiosis. Preliminary findings in children with DRE showed GM modifications when responding to a ketogenic diet. The mediator role of GM has not yet been studied in DRE patients undergoing surgery/vagal nerve stimulation. CARE's central hypothesis is that the GM and its metabolic profile could contribute to clinical outcomes following these different therapeutic procedures. Identifying microbial biomarkers will enable us to deepen the knowledge of the role of gut-brain axis in epilepsy and to tailor the intervention to each patient based on GM modulation.
NCT04991792
A multi-centre, randomized, parallel-group, double-blind, controlled, exploratory clinical trial is conducted to assess the positive effect of feeding a formula containing synbiotics (pre- and probiotics) on the composition of the gut microbiota in caesarean section (CS) born healthy term infants within the first 6 months of life.
NCT06513416
This study adopts a combination of retrospective and prospective cohort research methods to explore the composition of preoperative oropharyngeal and gut microbiota in elderly patients undergoing elective upper abdominal surgery, aiming to analyze the correlation between preoperative oropharyngeal and intestinal microbiota composition and metabolite levels and the occurrence of postoperative pulmonary complications (PPCs). The research subjects of the retrospective cohort study were participants (ClinicalTrials.gov No. NCT05679661) included in the prospective RCT on the effects of perioperative immune nutrition intervention and oral hygiene on postoperative complications in elderly patients, which was conducted at Peking Union Medical College Hospital from January 2023 to present. The prospective cohort study plans to continue enrolling elderly patients aged ≥ 65 who underwent elective upper abdominal surgery. This study collects preoperative oropharyngeal and fecal samples, as well as preoperative plasma from patients for microbial sequencing and untargeted metabolomics analysis. The main outcome measurement is PPCs, which include pneumonia, atelectasis, and hypoxemia within 7 days after surgery. Inflammatory cells and cytokines in peripheral blood are secondary outcomes.
NCT06638606
Oral, fecal and conjunctival samples will be collected from participants and will be stored (at - 20 and - 80 ◦C) until further processing. On Day 1 and Day 2, all couples will participate in an oral, conjunctival and gut microbiota composition study. Optometry examinations will be completed for each participant Three and Six months later, oral, conjunctival and gut microbiota composition will be analyzed again with the same protocol. The participants will complete a validated Persian version of Pittsburgh Sleep Quality Inventory (PSQI), Epworth Sleepiness Scale (ESS), Insomnia Severity Index (ISI), global sleep assessment questionnaire (GSAQ) and Ocular Surface Disease Index. Consecutive couples will undergo a standard ophthalmology exam and specific assessments for dry eye, including non-anesthetic Schirmer's test and fluorescein tear break-up time on Day 1 and Day 90.
NCT06502535
Previous research has revealed that adults with pre-hypertensive and hypertensive blood pressure levels typically exhibit impaired vasodilation, which is a crucial aspect of blood vessel function, due to decreased nitric oxide production. Flow-mediated dilation (FMD) is a widely used technique for assessing vasodilation, which gauges the capacity of blood vessels to widen in response to increased blood flow. Nitrate supplements have been shown to enhance blood vessel function both in the short and long term by elevating nitric oxide (NO) production. Similarly, acetate, a by-product of fibre digestion, has demonstrated anti-inflammatory effects in the gut and may also increase NO production. However, further investigation is needed to determine whether these two supplements work synergistically to improve FMD responses by augmenting NO production in the human body. This study will involve administering inulin plus nitrate supplements to adults aged 45-74 with untreated high blood pressure (120-139/80-89 mmHg and 140/90 mmHg or higher) for a period of 4 weeks, followed by a subsequent 4-week period where only inulin supplements are consumed. The supplements will be provided in the form of powder, to be mixed with water, and will be given in a cross-over and counterbalanced order. Various measurements, including brachial artery function, faecal samples, blood pressure, plasma nitrate and nitrite levels, plasma short-chain fatty acid levels, red blood cell and whole blood S-Nitrosothiols, and salivary nitrate and nitrite levels, will be taken at the baseline and after each supplementation period. Additionally, acute supplementation measurements will be collected on two separate occasions before the start of the longer-term supplement regimen.