View clinical trials related to Microbial Colonization.
Filter by:The microbiome acts as an antigen and can induce signaling through receptors like TLRs and NODs. Microbial metabolites can directly act on gut cells or reach other organs systemically. Studies show that the commensal, non-pathogenic microbiota plays an important role in regulating the immune system in various ways: - Promoting differentiation of Th17 cells and ILC3 signaling to regulate IL-17A production - Influencing iNKT cell generation early in life to prevent inflammatory activities - Facilitating CD4+ T cell differentiation and balancing Th1/Th2 responses - Inducing regulatory T cells (Tregs) that promote immune homeostasis - Tregs in Peyer's patches help maintain a microbiome that supports homeostasis The microbiome influences T cells, B cells and immune homeostasis. This has implications for transplantation, where modulating the microbiome could impact the graft's acceptance by affecting the recipient's immune cells that respond to the transplant. In summary, it highlights the microbiome's role in immune regulation and the potential for leveraging this interaction therapeutically, including in the context of transplantation.
The FEEDMe Study is a single-group, open label pilot study exploring how diverse, commercially available foods rich in arabinose influence the gut microbiome in adults from diverse populations.
Polymethylmethacrylate (PMMA) has been the material of choice for fabricating complete dentures for more than 80 years now.(1,2) As a material it is easy to handle and can be easily repaired and polished. PMMA while being a low-cost material has good esthetics. Some disadvantages of PMMA as a material are surface roughness and porosities which lead to staining, plaque accumulation and bacterial adhesion over time. Among the various factors that can influence microbial attachment to surfaces, surface roughness, hydrophilicity and free surface energy of PMMA are most important. Carboxylate and methyl ester groups found in PMMA make it a very hydrophilic material with a large amount of free surface energy. Despite the influence of the chemical composition, processing methods play the most important role in developing surface roughness.
Biodiversity is essential for nature and human well-being. Land use has reduced biodiversity in cities that is associated with altered commensal microbiota and a rising burden of immunological disorders among urban children. The investigators will estimate how rewilding of kindergarten yards affects commensal microbiome, prevalence of allergies, asthma, atopic dermatitis and infections, cortisol levels, cognitive skills and plasma cytokine levels of children. Our specific aims are: To assess if rewilding diversifies health-associated skin, saliva and gut microbiota and reduces infectious diseases and atopic or allergic symptoms. Assess whether the rewilding has positive effects on cognitive skills. Assess whether the rewilding changes cortisol and plasma cytokine levels. The investigators will recruit altogether 320 (160 per treatment) study subjects aged between 1-5 to questionnaire study (Task 2), from which 120 study subjects will be analyzed more detailed using microbiological and blood samples (Task 1).
The prevalence of atopic dermatitis has increased along with urbanization and biodiversity loss. According to biodiversity hypothesis, the main reason is urban lifestyle and reduced contact to microbial diversity. Previous studies indicate association between atopic dermatitis and exposure to natural microbes in childhood. Sand Play - the Effect of Biodiversity Exposure on Atopic Dermatitis will investigate whether the exposure to microbial diversity in sandbox reduces the symptoms of atopic dermatitis, alters commensal microbiota and modifies immune regulation in children.
Biodiversity is essential for nature and human well-being. Land use has reduced biodiversity in cities, which weakens the functionality of the urban ecosystems and the well-being of citizens. This may also increase the risk of immune-mediated disorders among urban dwellers. In Biodiversity interventions for assisted living centers (BIWE 2), microbial biodiversity interventions are performed to increase biodiversity in urban housing units for people with autism spectrum disorder, disabled people and elderly. Results from the intervention trials are combined with publicly available land cover and ecological data. These are analyzed from the viewpoint of shifts in ecosystems and human well-being and immune regulation, ecological quality, and urban planning. The investigators set up an intervention study in which yards of the housing units are rewilded with diverse vegetation and decaying deadwood and plant residuals. The investigators aim to evaluate the effect of rewilding, and yard management practices on commensal microbiome, cortisol levels and well-being and salivary cytokine levels, and gene pathways.
The goal of this observational study is to classify patients that undergo pancreatic resection for presumed pancreatic or periampullary malignancy into high and low risk groups for postoperative complications based on longitudinal saliva, rectal/faecal, tumor, blood and/or bile microbiome profiles. To identify the dynamics of the microbiome, as well as the possibly related short-term and long-term complications, multiple samples at different timepoints are needed from the patients.
Biodiversity is essential for nature and human well-being. Land use has reduced biodiversity in cities, which weakens the functionality of the urban ecosystems and the well-being of citizens. This may also increase the risk of immune-mediated disorders among urban dwellers. In Biodiversity interventions for well-being (BIWE), microbial biodiversity interventions are performed to increase biodiversity in urban built areas. Results from the intervention trials are combined with publicly available land cover and ecological data. These are analyzed from the viewpoint of shifts in ecosystems and human well-being and immune regulation, ecological quality, and urban planning. The investigators set up an intervention study in which urban private yards are rewilded with diverse vegetation and decaying deadwood and plant residuals. The investigators aim to evaluate the effect of rewilding, and yard management practices on commensal microbiome, cortisol levels and well-being and salivary cytokine levels, and gene pathways.
The goal of this observational study is to learn about vaginal microbial characteristics in the patients under in vitro fertilization treatment. The study aims to address the following questions: (1) Is there any difference in microbial composition between the pregnancy and non-pregnancy groups? (2) Is there any differences in specific bacterial species between the two groups? (3) What are the favorable or unfavorable profiles of vaginal microbiota associated with achieving pregnancy? Patients will be asked to complete a questionnaire regarding their basic characteristics, and vaginal secretions will be collected via vaginal swab during frozen-blastocyst transfer procedures. The study will compare vaginal microbiota between pregnant and non-pregnant patients to assess its potential influence on clinical outcomes.
In this research study (PREVENT 1), Alba Health, in collaboration with academic institutions (Uppsala University, COPSAC and University of Antwerp) is investigating the association between the developing gut microbiota (collection of microbes present in the human gut) in the first year of life and lifestyle, wellbeing and health in a Swedish population. The study is the first of its kind in a Swedish population to collect and associate microbiome composition to an extensive family history and health questionnaire, stool colour and crying type, building on learnings from previous studies performed in other countries, such as the HELMI and COPSAC studies (HELMI - Finnish Health and Early Life Microbiota cohort from the University of Helsinki in Finland; COPSAC - Copenhagen Prospective Studies on Asthma in Childhood in Denmark). The PREVENT 1 study is an observational research study led by Alba Health involving 300 families in Sweden with children between 0 and 12 months of age at the time of the study's start. After providing informed consent, the participating families will be asked to provide three stool samples from their child (the sample collection is not invasive and does not cause discomfort) and will be asked to answer questionnaires on lifestyle, well-being and family health. The participating families will not be asked to change their lifestyle beyond sample and data collection. From the collected stool samples, we will extract microbial DNA and subject this to deep metagenomic sequence analysis. The study will only analyze microbial DNA, any human related material will be discarded. The stool samples will be destroyed within one month of sequencing (maximum 3 months from collection). The data will be stored according to GDPR and Swedish law, with informed consent in Sweden and with appropriate security measures. All research will be carried out in Sweden.