View clinical trials related to Autoinflammatory Disease.
Filter by:Rare diseases are defined as those that affect one person in 2,000, or around three million people in France. The majority of rare diseases are caused by genetics and tend to be severe when they begin in childhood. Autoimmune and autoinflammatory diseases, such as systemic lupus, juvenile dermatomyositis, and juvenile idiopathic arthritis, are examples of rare pediatric diseases. While autoimmune diseases are characterized by an inappropriate adaptive immune response, autoinflammatory diseases involve an excess of the innate immune response. The precise mechanisms of these diseases are not yet fully understood, but recent research has led to advances in their diagnosis and identification, particularly in early onset and familial forms. However, the rarity of these diseases and limited availability of biological samples pose significant challenges. This study aims to create a biological collection, which includes primary cells (PBMC), DNA, RNA, lymphoblastic lines, and serum, that will help identify genetic and immunological abnormalities in rare autoimmune and autoinflammatory diseases through various research projects.
Patients with autoinflammatory diseases (AID) have recurrent episodes of systemic inflammation accompanied by nonspecific elevation of blood inflammation markers typically absent between attacks. A complication of autoinflammatory diseases is AA amyloidosis, which can lead to renal failure and dialysis. Advances in genetic analysis have led to the identification of new autoinflammatory diseases and thus new pathophysiological pathways. However, genetic analyses are sometimes confronted with results that are difficult to interpret. These are the Variants of Unknown Significance, for which genetic analysis alone does not allow to determine if the genetic mutation is responsible for the symptoms. genetic analysis sometimes has limitations in the diagnosis of AID which can only be overcome by pathophysiological studies of the variants found.
This clinical trial aims to examine the biochemical and cytological features of pericardial effusion during acute and recurrent pericarditis and to understand the molecular factors responsible for pathogenesis. The primary objective of this study is to identify and validate diagnostic criteria in pericardial fluid analysis that can differentiate patients with acute and recurrent pericarditis from those with only pericardial fluid but no inflammation. This study will enroll patients with acute pericarditis who require pericardiocentesis for either diagnostic or therapeutic purposes. Two control groups will also be included: one consisting of patients who need cardiac surgery with a collection of pericardial fluid, and the other consisting of patients who require pericardiocentesis for non-inflammatory pericardial effusion. The purpose of the study is to compare the cell activation status and cytokines present in pericardial fluid during acute pericarditis with those present during other pericardial pathologies.
Autoinflammatory diseases (AID) are caused by innate immunity dysregulation. AID pathophysiology is only partly understood, especially in the case of unclassified AID. Mast cells (MC) are innate immune cells associated with a spectrum of disease between systemic mastocytosis and mast cell activation syndrome. The implication of MC has been shown in cryopyrin associated periodic syndrome (CAPS).Our aim is to evaluate the involvement of MC in AID by assessing clinical and biological signs of MC activation and studying cutaneous and digestive biopsies.