Inflammatory Bowel Diseases (IBD) are chronic, disabling conditions that affect young adults with a predilection for flare-ups interspersed with periods of remission. Crohn's disease (CD) and ulcerative colitis (UC) are the two main types of IBD.
IBD is a chronic disease, the course of which is often marked by complications. Until recently, the medical treatment of IBD was based on the use of immunosuppressants, particularly thiopurines. The management of IBD has been modified in recent years by the appearance of new so-called 'biological' treatments. Anti-TNFa antibodies (such as infliximab or adalimumab) represent, highly effective weapon in the arsenal available for treating IBD. Biological treatments appear to have a synergistic effect with thiopurines and their administration is therefore often concomitant. These immunosuppressive and biological treatments are not harmless, especially as they are taken for prolonged periods by young patients. In particular, the use of thiopurines is associated with a marked increase in the risk of non-melanoma skin cancers and lymphomas. The long-term risks of biological treatments are still poorly understood. For the treatment of IBD, there are now much more biologics available, including Ustekinumab, vedolizumab and also small molecules, such as JAK inhibitors.
Despite recent advances, the cause of IBD remains unknown. The currently dominant hypothesis is that of an inappropriate immune response to the intestinal microbiota in genetically predisposed individuals.
In humans, an imbalance in the composition of the intestinal microbiota (dysbiosis) has been demonstrated in patients with CD and UC, with a reduction in 'beneficial' bacteria and an increase in potentially 'harmful' bacteria. Finally, certain bacteria in the intestinal microbiota could be used as a marker of disease activity or as a predictive factor for progression, as we have shown with the Faecalibacterium prausnitzii bacterium and postoperative recurrence of Crohn's disease.
Given the phenotypic heterogeneity of UC and CD in terms of progression and complications, it is essential to identify predictive factors that will enable patients at risk to be identified as early as possible so that treatment can be adapted at an early stage.
Given the clinical and pathophysiological heterogeneity of IBD, it would seem difficult to use clinical factors alone to predict patient outcome. On the other hand, it would also be very important to be able to predict the response or side-effects of a treatment before starting it, which again would enable appropriate decisions to be made without wasting time. It therefore seems necessary to look for biological determinants of the course and complications of IBD.
The aims of the study are (i) to identify biological determinants of the course, complications and response to treatment of chronic inflammatory bowel disease and (ii) to gain a better understanding of the underlying pathophysiological mechanisms.
The primary outcome is to describe the Biological parameters of the host and microbiota as a prognosis factor, and the response to treatment in IBD.
The secondary outcomes are lister below:
* Identification of genetic polymorphisms
* Identification of serum markers
* Identification of iImmune characteristics of the intestinal microbiota
* Identification of markers of the intestinal microbiota
* Mucosal characteristics of the intestinal microbiota
* Mucosal markers of the intestinal microbiota
* Mechanistic analysis: Exploratory study into the pathophysiology of host-microbiota interactions; interactions between epithelial cells, immune cells and micro-organisms and omics analysis including microbiome sequencing, transcriptomics, metabolomics, and functional assay will be perform to analyze the interactions between epithelial or immune cells with the gut microbiome
