View clinical trials related to Bacterial Translocation.
Filter by:Narcolepsy type 1 (NT1) is a rare disease characterized by severe drowsiness, cataplexy, hypnagogic hallucinations, sleep paralysis, poor night sleep, and often obesity. NT1 is caused by irreversible loss of orexin (ORX)/hypocretin neurons in the lateral hypothalamus with decreased ORX levels in the cerebrospinal fluid (CSF). Although the underlying process leading to this destruction remains unclear; an autoimmune origin is suspected. The study authors recently compared the bacterial communities of the fecal microbiota of NT1 patients and control subjects. Initial results demonstrated a difference in overall bacterial community structure in NT1 compared to controls, as assessed by beta diversity, even after adjusting for body mass index (BMI). The Shannon biodiversity index was also correlated with the duration of NT1 disease. However, no association was found between the structure of the microbial community and the clinical characteristics of NT1 patients. In 2022, a second study from the SOMNOBANK cohort on a larger population confirmed these results, showing dysbiosis between NT1 patients and the control population. The altered intestinal microbial diversity supports the important role of the environment in the development and pathogenesis of NT1. Other studies have established a link between dysbiosis, intestinal permeability and inflammation in other neuroimmune pathologies. Currently, no study has focused on these phenomena of bacterial translocation, intestinal permeability and immune activation linked to the microbiota in type 1 narcolepsy patients. The study hypothesis is that NT1 patients with dysbiosis in their intestinal microbiota also present a bacterial translocation with an intestinal origin, leading to a systemic inflammatory syndrome favoring an autoimmune damage destroying hypocretin neurons in the hypothalamus. The study authors suspect that microbial elements (DNA) involved in the autoimmune process could be detected in the CSF. This bacterial translocation could vary over time depending on: i) the progression of the disease and its management; ii) changing dysbiosis and: iii) the increase in intestinal permeability and inflammation.
Infectious complications are responsible for most of deaths in acute pancreatitis.Intestinal barrier dysfunction and increased intestinal permeability was associated with bacterial translocation which is believed to prompted these infections.The purpose of this clinical trail is to observe the potential capability of FMT in reduce the bacterial translocation and alleviate infectious complications by the reconstruction of a gut functional state.
Hypothesis: Plastic wound retractors reduce passage of bacteria from the abdomen to the surgical incision site in abdominal surgery Currently, plastic wound retractors are used in abdominal surgery to facilitate access to the abdominal cavity. This study aims to establish whether they also prevent bacteria crossing from the abdominal cavity to the surgical incision site. Patients undergoing abdominal surgery in which a plastic wound retractor (Alexis®)is used are eligible for inclusion in the study. Swabs are taken from the inside and the outside of the plastic wound retractor prior to removing the retractor from the abdomen. The bacterial flora from swabs taken inside and outside the plastic wound protector are then compared to see if there is any difference between inside and outside the retractor. Bacteria are classified as 'enteric'(i.e. from the gastrointestinal tract) or 'skin' bacteria, depending on their usual location. The study aims to establish whether a plastic wound retractor (Alexis®) reduces translocation of enteric bacteria to the surgical incision site.
Intestinal pathogenes are often involved in postoperative complications after colon surgery. Probiotic bacteria, i e live bacteria which have beneficial effects on the host when ingested, have been shown to reduce bacterial translocation in animal studies. However, in humans studies results have varied. The purpose with this study was to find whether high doses of Lactobacillus plantarum 299v affects the potentially pathogenic microflora of the gut, bacterial translocation and cell proliferation in patients undergoing planned colon surgery.