View clinical trials related to Microbial Colonization.
Filter by:The study evaluates the effects of Helichrysum italicum and Helichrysum Arenarium on different components of the metabolic syndrome. The components of metabolic syndrome will be measured at baseline and four weeks after daily consumptions of either Helichrysum italicum or either Helichrysum Arenarium, and after two weeks of washout. In addition, stool samples will be also taken at baseline and after four weeks of daily consumtion of either Helichrysum italicum or either Helichrysum Arenarium.
Intestinal flora or microbiota is the group of bacteria that live in the intestine, in a symbiotic relationship with the human body. It is estimated that human beings have around 2,000 different bacteria species. The gut microbiota plays a key in many of the body's functions. Hence, the analysis of the gut microbiome provides insight into the state of the microbiota as an indicator of overall health due to its metabolic, protective and nutritional functions. A balanced diet promotes the formation and maintenance of a well-structured microbiota, in which the different species of microorganisms cohabit in a balanced and controlled system. The study is based on the hypothesis that the intake of certain plant-based foods rich in various active ingredients (especially non-digestible carbohydrates, certain types of fats and polyphenols) can modulate the microbiota and thus improve the health status of the human population. Taking into account this background, the objective of this study is to assess the effect of the inclusion of functional foods and ingredients within a balanced diet on the composition of the microbiota and also on health parameters associated with metabolic disease.
Bacteria living in the nose and throat are generally harmless, but in some circumstances cause infections of the lungs (pneumonia) and brain (meningitis), which are among the commonest causes of death worldwide in young children (especially newborns). Babies with certain 'good' bacteria in the nose and throat are less likely to have infections by such 'bad' bacteria. Scientists have tried giving probiotics ('good' bacteria swallowed or sprayed into the nose) to pregnant women, new mothers and babies. These studies show that many probiotics are safe, but the amount of bacteria given is often unknown, and it is unclear if they work. A more precise option is to use controlled inoculation, by inserting a specific amount of particular 'good' bacteria into the nose under carefully controlled conditions. Our team have previously shown that inoculation with Neisseria lactamica ('good' bacteria) safely and reliably decreases Neisseria meningitidis ('bad' bacteria) in healthy adults' noses. N. lactamica is a type of harmless bacteria found in over 40% of children aged 1-2 years, but is uncommon in newborns and adults. We plan to inoculate 20 healthy pregnant women with N. lactamica nose drops, to find out if it is transferred to their babies after birth. Newborns become rapidly covered (colonised) with bacteria from their mothers, other people, and the environment, so this method mimics a natural way that babies receive bacteria. We will take saliva and nose swabs one day, one week, one month and four months after birth, and will use microbiological and genetic methods to study how the bacteria changes in babies compared with their mothers.
The aim of this study is to verify the quantitative and qualitative effect of Erbium dental laser therapy on microbial populations in carious lesions and to compare the laser therapy with traditional conservative therapies.
Both the endocannabinoid system and the microbiome are highly conditioned by nutrition and physical activity, and have an interdependent, bidirectional relationship. We suggest studying the interleaving between the endocannabinoidome-microbiome axis and host metabolism under the combined effect of a diet and physical activity. More specificly, we will study the link between the impact of the diet on the intestinal microbiome and the endocannabinoid reaction after intense exercise.
Over recent years there has been a lot of research looking at how the bacteria in our gut affects our health. Some medications are known to cause changes in gut bacteria. Many patients that are prescribed iron report gastrointestinal side effects. This research project aims to see if the cause of the gastrointestinal side effects is due to iron causing changes in the gut bacteria. This can be detected via measuring the levels of hydrogen and methane and other compounds in the breath and stool.
Background: Worldwide, more than 50 million children under 5 years of age are wasted (weight-for-length/height Z-score (WLZ) <-2) and over 150 million children under 5 are stunted (length/height-for-age Z-score (LAZ) <-2); such wasting and stunting often begin during infancy.1 Optimal nutrition can prevent wasting and stunting. Exclusive breastfeeding (EBF) is widely recommended by community health workers, doctors and nurses and provides optimal nutrition for most infants. However, early growth faltering is common for infants in low and middle income countries (LMIC) and can both increase an infant's risk of early mortality and also lead to deficits in attained height and weight throughout childhood. Thus research is needed to determine the most efficacious strategy to promote healthy early growth in LMIC. Objective: The proposed study will test the efficacy of early small-volume supplementation (ESVS) for increasing weight-for-age z-score (WAZ) at 1 month of age. Methodology: The PRIMES pilot (Study 3) will be a randomized clinical trial enrolling infants in Guinea-Bissau and Uganda weighing ≥2000g at birth. Infants weighing 2000-2499g at <6 hours of age (n=144; 72 per site) will be randomized on enrollment to one of two groups: 1) Early Small-Volume Supplementation (ESVS intervention group), which consists of up to 59 mL formula administered daily after breastfeeding through 30 days of age followed by EBF through 6 months of age; or 2) frequent exclusive breastfeeding without any food or fluid other than vitamins, minerals and medications (control) through 6 months of age. Infants weighing 2500-3300g at <6 hours of age will be weighed again at 4 days of age; those weighing <2600g at 4 days of age (n=180; 90 per site) will be randomized to the same intervention and control groups. Weight will be measured on all enrolled babies at birth on Day 1 and at 4, 14, 30, 60 and 180 days of age and additional measures including height, MUAC, skinfolds, and hemoglobin will be assessed at other time points. The study's primary outcome will be WAZ at 1 month of age. Secondary outcomes will include WLZ at 1 month of age; WAZ, WLZ and LAZ through 6 months of age; breastfeeding duration and infant intestinal microbiota.
Over recent years there has been a lot of research looking at how the bacteria in our gut affect our health. Changes to gut bacteria has been linked to several diseases. Taking specific live bacteria supplements (sometimes known as 'probiotics'), to change the balance of our gut bacteria to result in a health benefit have been trialled as a treatment option for many diseases in recent years. Bio-Kult Advanced is a live bacteria Food supplement that contains 14 different bacteria cultures. The effect of Bio-Kult Advanced on gut bacteria is unknown, therefore, the aim
The primary objective of the present study was to evaluate the effects of long-term supplementation of an infant formula supplemented with prebiotic inulin-type oligosaccharides on immunological-health related outcomes.
This study aims to investigate the effect of probiotic added to the diet of mothers on infantile colic in the postpartum period and the content of the neonatal intestinal microbiota.