View clinical trials related to Cryoglobulinemia.
Filter by:The primary aim is to establish a prospective cohort of patients with plasma cell disorders (PCDs). All of the hospitalized PCD patients who are willing to sign the informed consent form (ICF) will be included in this study. Clinical characteristics, treatment options and responses will be collected. Peripheral blood, bone marrow aspirate and urine samples before and after the treatment will banked for future research. Our team will focus on the clinical and pathological features of PCDs, the correlation between the minimal residual disease (MRD) status and prognosis, and the role of Tumor Microenvironment (TME) in the pathogenesis and progress of PCDs.
Cryoglobulinaemia is defined as the presence of immunoglobulins in the serum, which reversibly precipitate and form a gel when the temperature drops below 37°C and redissolve upon re-warming. Classification includes three subgroups based on Immunoglobulin (Ig) composition. Type I cryoglobulinaemia consists of only one isotype or subclass of immunoglobulin. Types II and III are classified as mixed cryoglobulinaemia (MC) because they include both IgG and IgM components. Overall, cryoglobulinaemia is considered a rare disease (<5/10,000 in the general European and North American population), although prevalence is likely to be higher in some areas such as the Mediterranean Basin. MC vasculitis is a multi-organic disease involving kidneys, joints, skin, and peripheral nerves. In type I cryoglobulinaemic vasculitis, searching for an underlying plasma-cell neoplasms is mandatory. Cryoglobulinaemia composed of IgG is more often found in multiple myeloma or monoclonal gammapathy of unknown significance. The course of MC vasculitis varies widely, and the prognosis is influenced by both MC-induced damage to vital organs and co-morbidities associated with underlying diseases. Type I cryoglobulinaemic vasculitis is a plasma cell associated disorder at the crossroad between autoimmunity and plasma-cell neoplasm. Treatment should be modulated according to the underlying associated disease and the severity of internal organ involvement. The overall 10-year survival after a diagnosis of cryoglobulinaemic syndrome ranges from 50% to 90% in case of renal involvement. The main therapeutic goal must be the cure of the underlying haematological disease (overwhelmingly plasma-cell neoplasms). The most common neoplasias are multiple myeloma (predominantly associated with type I cryoglobulinaemia and hyper-viscosity) in more than 50% of cases. Treating the underlying monoclonal disorder has been associated with improvement/stabilization of cryoglobulinaemic symptoms in most patients with type I cryoglobulinemia, although negativation of serum cryoglobulins was achieved in only half the patients. Alkylating agents and bortezomib are the main therapeutic options, but are associated with side effects including neuropathy. Patients presenting with symptomatic hyperviscosity require urgent therapeutic intervention using plasma exchange or plasmapheresis to remove cryoglobulins from the circulation. There is no standard of care or international guidelines for treatment of type 1 cryoglobulinemia. Isatuximab is an anti-CD38 monoclonal antibody that has been effective to treat relapsed or refractory multiple myeloma. Autoreactive plasma cells represent a key player in autoimmune disorders and particularly in type I cryoglobulinemia. Type I cryoglobulinemia is a model of plasma cell associated disorder at the crossroad between autoimmunity and plasma-cell neoplasm. However, rituximab fails to target this population and is poorly effective in this condition. Thus, there is an unmeet need for plasma cell targeted therapy in type I cryoglobulinemia. Clonal plasma cells in type I cryoglobulinemia do express surface CD38, providing a rationale for the use of isatuximab in cryoglobulinemia. Although the biology of the clonal plasma cell in type I cryoglobulinemia is distinct from that of Amyloid light-chain (AL) amyloidosis, they are models of hematological diseases associated with monoclonal Ig and whose tumor mass is low. In AL amyloidosis anti-CD38 targeted therapy was highly efficient as monotherapy in treatment naïve patients and relapsers. Thus, Isatuximab represents a highly promising therapy in type I cryoglobulinemia that could be use as monotherapy. This study is a Phase 2 pilot prospective study of 21 patients with type I cryoglobulinemia treated by Isatuximab. Isatuximab will be given intravenously at 10 mg/kg at day 0, week (W)1, W2, W3, and W4 then every 2 weeks for a total of 12 infusions.
Cryoglobulinemia vasculitis (CV) is a systemic immune-mediated small vessel vasculitis. Rituximab proved effective on main vasculitis signs, with a complete clinical response of 65%. However, CV relapse is noted in up to 40% of patients. Following rituximab, serum Blys concentration significantly increased and may favor relapses. Tribeca is a multicentre randomized controled study comparing safety and efficacy of belimumab to placebo in non infectious cryoglobulinemia vasculitis.
The primary purpose of this protocol is to create a registry of patients with plasma cell disorders (PCDs), including for example the cancer multiple myeloma (MM), who complete the assessment, previously known as a "geriatric assessment," as is outlined in this protocol. Secondary objectives include measuring the response rate to participation of patients in this study, assessing patient satisfaction with the questionnaire, and gathering information that would lend support for future research into these types of assessments in patients with PCDs. Additionally the study offers an optional blood draw to look at a genetic marker of aging called p16INK4a (IRB 15-1899, IRB 15-0244).
Hepatitis c associated glomerulonephritis is an immune complex disease that occurs in 21% of patients who have HCV infection.
This study seeks to understand the journey that patients eventually are diagnosed with vasculitis experience in the period prior to their formal diagnosis by a healthcare provider. Data elements of interest include average time from the onset of the first symptoms to the time a diagnosis of vasculitis is confirmed. Other aims include identifying factors associated with the time to diagnosis. These factors will be divided into: a) intrinsic factors, or so-called "patient-related factors", such as the type of vasculitis symptoms, patient demographics, socioeconomic status, patients' beliefs regarding the etiology of their symptoms, and other factors, and b) extrinsic factors, or "professional/health system factors", such as healthcare access, referral patterns, testing patterns, and other factors. Understanding such factors can guide future efforts to shorten delays in diagnosis and thereby improve outcomes. All analyses will be done for the population of patients with vasculitis as a whole and by individual types of vasculitis.
Mixed cryoglobulinemia (MC) is common in patients with chronic hepatitis C virus (HCV) infection. Direct-acting antiviral (DAA) regimens are today very effective with sustained virological response rates (SVR12) above 90%. The objective of this study was to investigate the impact of DAA therapy on cryoglobulin clearance in patients with HCV-associated MC.
Primary Objective: To evaluate the long-term outcomes including liver related morbidity, mortality and hepatocellular carcinoma (HCC) development as compared to those of historical control with interferon(IFN)-based treatment. Secondary Objective: 1. To access liver fibrosis progression/regression in CHC patients after sofosbuvir-based treatment. 2. To investigate the long-term outcomes of extrahepatic manifestations of the sofosbuvir-based treated cohort as compared to their pretreatment status.
Cryoglobulinemia are responsible for systemic vasculitis, and the most frequently targeted organs are the skin, joints, kidney and peripheral nervous system. Cryoglobulinemia vasculitides are associated with significant morbidity and mortality, and require therapeutic intervention. With the discovery of hepatitis C virus (HCV) as the etiologic agent for most cases of mixed cryoglobulinemia new opportunities and problems for crafting therapy of HCV mixed cryoglobulinemia (MC) have emerged. A new and major concern was the potential adverse effects that immunosuppressive therapy with glucocorticoids and cytotoxic drugs could have on an underlying chronic viral infection. Alternatively the discovery of HCV provided the opportunity to control HCV-MC with antiviral therapy based on the belief that the underlying infection was driving immune complex formation and resultant vasculitis. Inducing a sustained virologic and clinical response and minimizing the use of immunosuppressive drugs are the main goals in the treatment of patients with HCV-MC vasculitis. Aggressive antiviral therapy has been shown to induce a complete remission of HCV-MC in up to 70% of patients. New antiviral combination, Interferon (IFN)-free regimens have recently proved very high virological response rate and with a very good safety profile and now need to be evaluated in severe and/or refractory HCV-MC patient's population.
10 patients with chronic genotype 1 HCV infection and mixed cryoglobulinemia will be treated with Ledipasvir/Sofosbuvir 90mg/400 mg FDC once daily for 12 weeks (naïve subjects or non-cirrhotic treatment experienced subjects) or 24 weeks (treatment experienced subjects with cirrhosis). The researchers anticipate that approximately 20% of subjects may have cirrhosis.