View clinical trials related to Familial Mediterranean Fever.
Filter by:The objective of this extension protocol is to collect safety data (serious and non-serious adverse events) and to provide continuous canakinumab to patients in France who completed study CACZ885G2301E1(NCT00891046), CACZ885G2306 (NCT02296424) or CACZ885N2301 (NCT02059291) until a decision regarding reimbursement in France is effective for canakinumab (Ilaris®) in these indications.
This study is to determine whether canakinumab is able to induce and maintain a clinically meaningful reduction of disease activity in participants with Hereditary Periodic Fevers (HPF) compared to placebo.
FMF is the most common periodic fever with a worldwide patient population estimated as 150,000, mainly located in the Eastern Mediterranean basin. colchicine is the established therapy of choice ,however, around 20.000 patients worldwide fail to respond or cannot tolerate therapeutic doses, thereby suffering from recurrent debilitating, severe, painful attacks of peritonitis, pleuritis and synovitis and are at risk to die from reactive amyloidosis .Mutation-induced reduction in pyrin/ marenostrin activity is thought to underlie the disease by leading to NALP3 inflammasome activation ,and thereby to IL-1β related burst of inflammation. The IL-1 receptor antagonist Kineret (Anakinra), seems to be the most appropriate response to the uncontrolled IL-1β elevation. Indeed, an increasing number of reports over the last few years indicate a good response to Kineret (Anakinra), in colchicine-resistant FMF ,also in children ,however, no controlled study has thoroughly evaluated the efficacy and safety of this treatment. Study outline: The study aims to run at the FMF centre in Sheba Medical Center, covering more than 10,000 patients. The study will evaluate the effect of recombinant IL-1 receptor antagonist, Kineret (Anakinra), on the frequency of FMF attacks in patients that, despite maximum tolerable dose of colchicine, present with more than one attack per month. The study is designed as a randomised, placebo-controlled, double-blind study. 50 patients will be randomised to treatment with either Kineret (Anakinra), or placebo treatment for 4 months.
A study designed to evaluate the role of treatment with a biological agent - Canakinumab in pediatric (age 4-20) Familial Mediterranean Fever (FMF) patients that are intolerant or resistant for colchicine treatment. The study hypothesis is that Canakinumab will reduce attack frequency and severity.
Establish the safety and efficacy of 3 months treatment with canakinumab in patients with colchicine resistant Familial Mediterranean Fever.
Colchicine is widely recognized as safe and effective treatment of Familial Mediterranean Fever (FMF) in children and adults. Colchicine is currently used to treat FMF in younger patients by inexact dosing through breaking or crushing adult-dose tablets. An age-appropriate sprinkle formulation will allow for more accurate dosing in pediatric patients. The primary objective of this study is to evaluate and compare the steady-state pharmacokinetics of multiple oral doses of colchicine sprinkle capsules administered to pediatric and adult FMF patients. Secondary objectives include evaluation of the safety and tolerability of this regimen in pediatric and adult FMF patients and measurement of the levels of acute phase reactants (i.e, serum amyloid A [SAA], erythrocyte sedimentation rate [ESR], C-reactive protein [CRP]) at baseline and after dosing.
Familial Mediterranean fever (FMF) is a genetic disease resulting in recurrent attacks of fever, abdominal pain, chest pain, arthritis and rash. There are 5-15% of patients who continue to have FMF attacks despite treatment with colchicine or who cannot tolerate colchicine. Currently there are no alternatives to colchicine. Pyrin, the protein that has a defect in FMF has an important role in the regulation of a molecule called interleukin (IL)-1 beta production and activity. This molecule is very important in the process of inflammation in FMF. Therefore we propose to use IL-1 Trap (Rilonacept), a medication that binds and neutralizes IL-1. We will enroll in this study 17 subjects from the age of 4 years, including adults with active FMF despite colchicine therapy. Subjects will receive in random order two 3-month courses of Rilonacept at 2.2 mg/kg (maximum 160 mg) by weekly subcutaneous injection and two 3-month courses of placebo injection. If patients have at least two FMF attacks during a treatment course they will be able to get if they choose the other treatment until the end of that treatment course. Our hypothesis is that Rilonacept will decrease the number of acute FMF attacks and will be safe to use. This study may confirm the importance of IL-1 in the cause of FMF. Funding source - FDA Office of Orphan Products Development
Autoinflammatory diseases are illnesses characterized by episodes of inflammation that, unlike autoimmune disorders, lack the production of high titer autoantibodies or antigen-specific T cells. There is growing genetic and clinical evidence that Interleukin-1 (IL-1) plays a pathogenic role in several of these diseases. This exploratory study aims to examine the utility of the experimental drug candidate, IL 1 Trap (Regeneron Pharmaceuticals, Inc.) in the treatment of adult subjects with the autoinflammatory disorders Neonatal Onset Multisystem Inflammatory Disease (NOMID), Muckle-Wells Syndrome (MWS), and Familial Cold Autoinflammatory Syndrome (FCAS), Familial Mediterranean Fever (FMF), and adult Still's disease. FMF is associated with mutations in pyrin encoding MEFV. NOMID, MWS and FCAS are associated with mutations in cryopyrin-encoding CIAS1. This pilot study is designed to address: 1) the utility of IL 1 Trap in the treatment of subjects with diseases known to respond to IL-1 blockade (NOMID/MWS/FCAS) as shown by response to treatment with anakinra [Kineret]; 2) the response to IL-1 blockade of subjects with Adult Still's disease and colchicine-resistant FMF once the efficacy of IL-1 Trap has been established in NOMID/MWS/FCAS subjects; and 3) the biochemistry and genetics of autoinflammatory diseases and IL-1 related inflammation. IL-1 Trap is a recombinant fusion protein with picomolar affinity for IL-1 and a half-life of approximately 7.5 days in humans. This agent is currently in Phase 2 clinical studies for the treatment of rheumatoid arthritis and initial studies have shown activity against clinical and biochemical indicators of inflammation. Compared with anakinra, this agent may exhibit improved dosing convenience, potential for fewer injection site reactions, and improved efficacy due to the extremely high affinity of IL-1Trap for its target. In this study, biochemical, genetic, and clinical correlates of autoinflammatory disease will initially be measured at baseline following a withdrawal of any TNF or IL-1 inhibitor medications where applicable. Subjects will receive a course of therapy with IL-1 Trap that is predicted to provide an estimated 3-4 weeks of anti-inflammatory activity. Clinical, biochemical, and genetic correlates of inflammation will be measured at appropriate intervals to ascertain response and to further elucidate disease mechanisms. Subjects will be eligible, based on clinical response, to enter a 1- year extension phase with IL-1 Trap. Those subjects who complete the 1-year extension phase, and maintain improved clinical and laboratory parameters compared to baseline values, may continue to receive study medication at their current dose until the study drug is commercially available. Investigator comment: This protocol (from the NIH standpoint) is a continuation of the ongoing protocol 05-AR-0014, with a new change in study sponsor, the NIH replacing Regeneron as sponsor. this protocol therefore still contains background and procedural information that refer to patients with FMF and FCAS and or MWS and Still's disease, however only patients with Still's disease will be newly enrolled from this point on, enrollment for the FCAS and or MWS patients has already been completed and it has been decided to not enroll any more FMF patients because the number of subjects is too low to reach reasonable conclusions, in addition it has been difficult to recruit patients that are eligible. The background section and study procedures have largely been left as in the currently IRB approved protocol.