Clinical Research Directory

Intestinal Microbiota Profiling in Severe Acute Alcoholic Hepatitis Patients

In humans, alcohol-related dysbiosis exists with a decrease in bacteroides. This dysbiosis is responsible for the breakdown of the intestinal barrier by a decrease in the synthesis of protective mucus, and some proteins involved in tight junctions or a decrease in defensin (Reg3b, Reg3g) which promotes bacterial growth and ultimately bacterial translocation. The microbiota of a patient with alcoholic hepatitis is different from that of a patient without alcoholic hepatitis. Acute alcoholic hepatitis has a severe prognosis and corticosteroids are the only first line therapy option, with better survival at 28 days versus placebo. However, mortality remains high at 30% at 3 months, which highlights the importance of seeking intestinal microbiota profile on treatment response. The determination of one or more intestinal microbiota signatures associated with the treatment response Corticosteroids plus FMT or Corticosteroids plus placebo will allow the clinician to have a simple and rapid test obtained in 16S RNA analysis to predict the therapeutic response and potentially the best treatment to adopt and to address medical and medico-economic stakes. The investigators will first characterize the alcohol-induced dysbiosis by a whole microbiota sequencing in the different groups. Specific bacterial species identify by DNA sequencing should be confirmed by qPCR of 16S rDNA to determine a fingerprint of sAH microbiota. Metabolic properties of intestinal microbiota, such as production of short chain fatty acids, will be analyzed by using HPLC. In the sAH group, evolution of intestinal microbiota will be observed by shotgun DNA sequencing between the day 0 and the day 7 of corticosteroids treatment. The analysis of sAH patients' microbiota (day 0) will allow us to obtain a non-responder profile to corticosteroids that can be used as a prognostic marker to use in the clinic. The deliverable is the bacterial fingerprint of the treatment response and its valuation is its use as a predictive tool of the response.

Effects of Brazil Nut Supplementation in Patients With Chronic Kidney Disease Undergoing Conservative Treatment

The aim of this study is to evaluate the effects of Brazil nut supplementation on inflammation, oxidative stress and intestinal microbiota in patients with chronic kidney disease undergoing conservative treatment.

Research on the Role of Probiotics in Human Intestinal Health

Evaluate the efectiveness and safety of Bifidobacterium bifidum BBi32 as a food supplement compared to a placebo in improving intestinal andimmune functions in healthy adults.

Characteristics of Vaginal and Intestinal Microbiota and Cervical HPV Infection

There are different microbial communities on the surface of human body (skin, hair, nails, etc.) and in the cavity connected with the outside world. The human microbiota is the general term of the genetic information of microorganisms that coexist with human beings and cause various diseases under certain conditions. The results of human microbial genome analysis show that the microbial communities in different parts of the human body and different individuals have amazing diversity, some of which play an important role in human health, and some are closely related to diseases. Female lower genital tract infection is often associated with human papillomavirus (HPV) infection and bacterial vaginosis (BV), such as cervical and vaginal precancerous lesions, cancer, condyloma acuminatum and other sexually transmitted diseases (STD). Persistent infection of high-risk human papillomavirus (HR-HPV) is closely related to the occurrence of invasive cervical cancer. New evidence suggests that vaginal microbiota composition is different in women with HR-HPV infection and high-grade cervical lesions. The increase of the severity of cervical intraepithelial neoplasia is related to the decrease of the relative abundance of vaginal Lactobacillus. In addition to vaginal microbes, the powerful intestinal flora is considered to be the "invisible organ" of the human body. There is a dynamic and balanced interaction network between intestinal microorganisms and human immune cells. Once the intestinal flora is out of balance, the changes in species, quantity, proportion, location and biological characteristics will cause a series of inflammatory reactions and immune system diseases, and even lead to cancer. Some studies have shown that there is a potential relationship between intestinal microorganisms and vaginal microorganisms. Recent research evidence suggests that the mutually beneficial relationship between oral bacteria and other vaginal bacteria supports the colonization of pathogens and may help maintain the characteristics of vaginal flora imbalance.