View clinical trials related to Giant Cell Arteritis.
Filter by:Sirukumab is a human anti-IL-6 monoclonal antibody that selectively binds to the cytokine with high affinity that may have therapeutic benefit in the treatment of polymyalgia rheumatica (PMR) by interrupting multiple pathogenic pathways. Sirukumab inhibits IL-6-mediated signal transducer and activator of transcription 3 (STAT3) phosphorylation, resulting in the inhibition of the biological effect of IL-6. This study will evaluate the efficacy and safety of sirukumab to characterize the benefit-to-risk profile of sirukumab in the treatment of active PMR. The study will be conducted in 2 parts (Part A and Part B) and consists of the following phases: Screening phase, Part A: 52-week double-blind treatment phase, Part B: 52-week extension phase with no study drug administration and a 16-week follow-up phase if applicable. Approximately 150 subjects with a diagnosis of PMR and active disease within 6 weeks of baseline will be randomized into Part A, the 52-week double-blind treatment phase, to receive one of two doses of sirukumab or placebo, each in addition to a pre-specified prednisone taper. The efficacy and safety of sirukumab in sustaining remission will be assessed at Week 52. Subjects completing Part A of the study who are in clinical remission will be eligible to enter Part B, the 52-week extension phase, designed to investigate the long-term maintenance of remission and safety following cessation of sirukumab treatment and to assess long-term corticosteroid use. Subjects will need to have follow-up safety evaluations for at least 16 weeks after receiving the last dose of study drug, applicable for those who have withdrawn prematurely from the study or who have completed Part A but are not eligible for Part B.
Pathophysiology of polymyalgia rheumatica (PMR) is ill defined. This study aims at characterizing immunological abnormalities in PMR patients, and to assess the effects of tocilizumab therapy on this abnormalities.
Giant cell arteritis (GCA) is the most frequent vascularitis after 50 years of age The investigators recently showed that GCA was accompanied by an elevation in Th1 and Th17 response [1]. Even though a quantitative deficit in regulatory TL (Treg) was shown, there are to date no data concerning their precise phenotypic and functional characteristics and notably their ability to inhibit Th1 and Th17 polarisation. The hypothesis of the investigator is that, in GCA, there is quantitative and above all functional deficit of Treg. Recently, progress has been made in the identification of Treg with new markers (CD39), which will make it possible to better identify and to study their specific functions. In this study the phenotypic and functional characteristics of Treg in GCA will be analysed. Better understanding of the role des Treg in GCA should lead to better-targeted treatments for patients with GCA, notably via the blockage of cytokines that inhibit the differentiation and/or function of Treg. The study is classified interventional because a lot of blood samples are taken.
Giant cells arteritis or Horton disease is a vasculitis that affects great vessels. This is the most frequent vasculitis of the population over the age of 50. This vasculitis is at the origin of an inflammatory infiltrate of arterial tunics, essentially composed of lymphocytes. Clinical signs are a deterioration of general state, unusual cephalgias, jaw pain, scalp hyperesthesia, but can also be serious ischemic complication, especially ophthalmologic with the possibility to go blind. Until now, the standard treatment is a high dosage corticosteroid therapy. Diagnosis is based on criterias of the American College of Rheumatology, dating back to 1990. The relapse rate is important, ranging from 10 to 64 % according to studies. There are also issues of becoming dependent on steroid. So it is important to determine new diagnosis markers and a therapeutic following of giant cells arteritis. With this study several biomarkers of inflammation will be studied in order to determine if one ore many of them have a good sensitivity and special feature for diagnosis and following of giant cells arteritis. The main goal is to determine a new diagnosis marker for giant cells arteritis.
Giant cell arteritis (GCA) is a medium to large vessel vasculitis with a predilection for the superficial cranial and intrathoracic arteries. Diagnosing the condition and predicting which patients will develop large vessel complications remains a challenge. There are limitations with temporal artery biopsy, magnetic resonance angiography and ultrasound of temporal arteries and American College of Rheumatology classification criteria. Positron emission tomography (PET) has been shown to be a useful modality in detecting inflammation in large intra-thoracic vessels but previously has not been able to accurately detect FDG uptake in the superficial cranial arteries due to poor spatial resolution. Newer scanners can perform finer cuts of the head and can detect uptake in these arteries. This study has three main components: 1. Cross sectional study assessing the accuracy of PET uptake in the superficial cranial and intrathoracic arteries of suspected GCA patients for the diagnosis of GCA 2. Cohort study assessing the prognostic implication of FDG aortic uptake on aortic diameter at 24 months 3. Cohort study assessing the Th1 and Th17 cytokine profile in patients with and without FDG PET uptake at 0, 6 and 24 months
Giant cell arteritis (GCA or temporal arteritis or cranial arteritis) or Horton disease is a vasculitis that occurs in older adults, affecting vessels of medium and large caliber. The diagnosis of GCA is a challenge for general practitioners and specialists. Since 1970, it is based on a combination of clinical, biological and histological signs. Temporal artery biopsy (TAB) was the reference method until recently. However, TAB has many drawbacks. Therefore, researches of the past 20 years have been intended to develop alternative diagnostic methods. This was notably the case of the color Doppler ultrasound (CDU) since the description by Wolfgang Schmidt of the halo sign. Although European and British recommendations put CDU as second line method, many authors suggest the possibility to do without TAB in many cases. In addition, many practitioners believe that it is not "ethical" to use an invasive unprofitable procedure like TAB, and have already been using CDU in their routine practice. However, no diagnostic algorithm validating this approach in a prospective series has been published to date. Therefore, the present study aim at validating a diagnostic algorithm of giant cell arteritis using color Doppler imaging of temporal arteries and cervicocephalic axes as first screening method.
A four-week, randomized, controlled, open-label trial of DR prednisone in which patients receive in period 1 one of three-night time doses of treatment (4mg, 7mg or 10mg) for two weeks followed in period 2 by treatment with 15mg IR prednisone in the morning for two weeks. Period 1 is randomized and open-label and period 2 is open label. Before enrollment and randomization patient diagnosis and responsiveness to 15mg IR prednisone in the morning is established. 45 patients will be randomized, 15 patients in each treatment arm.
Giant Cell Arteritis (GCA) is the most common vasculitis and has significant morbidity in terms of blindness, stroke, and tissue necrosis. It requires protracted treatment with high-dose steroids, and despite this there is a risk of flare during the treatment. Little is known about the initial triggers for the inflammatory process, and there are no good markers of response or relapse. We will study patients referred with suspected GCA to identify important components of the immune response in GCA, and follow them over time to collect evidence of how best to monitor their condition.
Sirukumab is a fully human anti-interleukin-6 (IL-6) immunoglobulin G1-kappa with a high affinity and specificity for binding to the human IL-6 molecule that may have therapeutic benefit in the treatment of giant cell arteritis (GCA) by interruption of multiple pathogenic pathways. Sirukumab inhibits IL-6-mediated signal transducer and activator of transcription 3 (STAT3) phosphorylation, resulting in the inhibition of the biological effect of IL-6. This study will evaluate the efficacy and safety of sirukumab to characterize the benefit-to-risk profile of sirukumab in the treatment of active GCA. The study will be conducted in 2 distinct parts (Part A and Part B) and consists of the following phases: Screening phase, Part A: 52-week double-blind treatment phase, Part B: 104-week extension phase with the option to receive open-label sirukumab based on disease status and a 16-week follow-up phase if applicable. Approximately 204 subjects with a diagnosis of GCA and active disease within 6 weeks of baseline will be randomized into Part A, the 52-week double-blind treatment phase, to receive one of two doses of sirukumab or placebo, each in addition to a pre-specified prednisone taper. The efficacy and safety of sirukumab in sustaining remission will be assessed at Week 52. Subjects completing Part A of the study will be eligible to enter Part B, the 104-week extension phase, designed to investigate the long-term maintenance of remission and safety following cessation of sirukumab treatment and to assess long-term corticosteroid use. Subjects with active GCA at the end of Part A or those with new onset of GCA flare during the first 52 weeks of Part B will be eligible to receive open-label sirukumab. Subjects will need to have follow-up safety evaluations for at least 16 weeks after receiving the last dose of study drug, applicable only for those who are withdrawn prematurely from the study or whose open-label sirukumab treatment in Part B completes after Week 88.
Giant cell arteritis (GCA) is an inflammatory disease causing new, unaccustomed headache in the elderly and which can lead to blindness in 20-30% of untreated cases. The study group have previously shown that ultrasound is a viable non-invasive alternative to temporal artery biopsy in diagnosing GCA. However, there is significant variation in ultrasound assessment (measuring a dark "halo" around the abnormal blood vessels) between sonographers in different centres, requiring a labour intensive and time consuming training programme. The study group propose to standardise the training programme, and use ultrasound and clinical evaluation to define changes occurring over time and with treatment in patients with a diagnosis of GCA made based on ultrasound changes alone. The study group will explore the use of algorithms to automate or semi-automate image interpretation.