Loading clinical trials...
Loading clinical trials...
Showing 1-6 of 6 trials
NCT07354906
Participants will be followed as part of the usual management of their disease. No modifications will be made (no additional visits, examinations, or questionnaires). The safety and well-being of participants will therefore remain unchanged. The participant will be informed about the study during one of their routine care visits. The information will be provided by the investigator, and the participant's non-opposition to participation in the study will be obtained. The participant will continue to be followed as part of their usual care. Data will then be collected from the participant's medical record (including medical reports, original laboratory test results, imaging reports and medical examinations, and nursing records) for the period of participation in the research, solely for the purpose of meeting the objectives of the research. The data collected will consist of information from the patient's medical record as part of their routine follow-up and will be strictly necessary to address the primary and secondary objectives of the study. The following data will be collected: demographic data (age, sex, weight, height); clinical data (medical history, diagnosed condition, disease activity), treatments, biological data, imaging data, and adverse events. No genetic data will be collected as part of the study. There will be no transfer of data abroad, and no additional questionnaires, examinations, or visits will be added by the research.
NCT06887062
Large vessel vasculitis (LVV) is a disease that causes damage to blood vessels. This damage to blood vessels can increase the risk of patients with LVV developing cardiovascular disease, including heart attacks and strokes. A chemical produced in the body called endothelin may contribute to this increase in cardiovascular disease risk by causing the vessels to stiffen and blood pressure to increase. It has previously been shown that by blocking the effects of endothelin, vessel stiffness and blood pressure improve. Bosentan is a tablet that blocks the effects of endothelin. Dapagliflozin is a sodium-glucose co-transporter 2 inhibitor that has been shown to improve blood vessel function and stiffness in patients with diabetes. The investigators plan to assess blood vessel function in those with LVV and participants without LVV. Participants with LVV will be given Bosentan and Dapagliflozin for 6 weeks, followed by Dapagliflozin for 4 weeks, to evaluate their impact on blood vessel function.
NCT07269938
B cells are a component of the immune system which appear be important in causing all forms of cardiovascular disease. Until now, it has not been possible to directly study these cells in living patients (essential to assess their potential as the target of new treatments). For the first time in any cardiovascular disease, this study will apply cutting edge scanning technology to visualise B cells in the blood vessels of giant cell arteritis (GCA) patients. GCA is a common and potentially deadly disorder of the blood vessels which is caused by abnormalities of the immune system. Current treatments are mainly limited to steroids. Unfortunately, these drugs bring tremendous side effects and so there is an urgent requirement to discover alternatives. Laboratory investigations tell us that B cells are highly present in GCA and so if the proposed scanning technology fails to identify these cells in the blood vessels of participants, then the technology is unlikely to be useful for other cardiovascular diseases. If, however, the study does successfully visualise B cells, this knowledge could pave the way for clinical trials of B cell targeted treatments (already established in other conditions) as steroid alternatives in GCA. This study aims to map the distribution of the radiotracer zirconium-89 labelled rituximab within the blood vessels of patients with newly diagnosed GCA and compare this with two separate control groups without the condition. This will allow us to determine the role of B cells within this condition, and whether patients would benefit from B cell-depleting treatments such as rituximab.
NCT07001059
The purpose of this study is to evaluate whether the measure of the optic nerve sheath is a reliable diagnostic marker for giant cell arteritis
NCT06609668
Polymyalgia rheumatica (PMR) is a rheumatologic condition occurring in patients \> 50 years old, characterized by inflammatory pain of the scapular (shoulder) and pelvic (hip) girdles. PMR is most often isolated but can be associated with giant cell arteritis (GCA), a large vessels vasculitis, in 16 to 21% of case. The main features of GCA are headaches, jaw claudication, visual disturbances, abnormal temporal artery, scalp tenderness associated to elevated CRP and/or ESR. However, GCA could be asymptomatic in particular in case of isolated involvement of large vessels (subclinical GCA). GCA requires high doses of glucocorticoids, compared to isolated PMR, to avoid complications resulting from vascular remodeling (stroke, blindness). Ruling out GCA in PMR patients relies on the performance of some complementary exams that explore cranial vessels as color doppler ultrasound and/or temporal artery biopsy and large vessels that relies on PET/FDG or angio CT scan. The aim of this study is to identifie serum biomarkers that could rule out or identifies GCA in patients with PMR features. Ultimately, if biomarkers are identified, this could allow to select PMR patients in whom complementary exams are needed or not. For this study, investigators chose to explore thrombomodulin. Thrombomodulin is a protein that is increased in the circulating blood during vascular inflammation, and therefore seems to be a good candidate for distinguish isolated PMR from PMR associated with GCA.
NCT07060274
Giant cell arteritis (GCA) is a rare disease characterized by vasculitis of the large arterial trunks targeting the thoracic aorta and its dividing branches, affecting adults over the age of 50. Vasculitis lesions cause thickening of the arterial wall, visible on temporal artery biopsy (TAB) or vascular imaging (echo-Doppler, angio-CT, angio-MRI, 18FDG PET-CT). This is a severe disease that can lead to blindness. Early diagnosis is essential, so that steroids therapy can be started as soon as possible to prevent complications. Doppler ultrasonography of the temporal arteries provides rapid, non-invasive diagnostic support. However, the recommendations do not specify how soon temporal artery Doppler should be performed after steroids treatment, except that the halo sign would disappear after about 5 days on steroids. Sensitivity seems to be better when the examination is performed early, but the time taken for the halo sign to disappear is unknown. The investigator suggests that the disappearance of the temporal artery halo sign in GCA patients is observed earlier than D14 of steroids treatment usually reported in the literature. He speculates that the sensitivity of the temporal artery Doppler decreases as early as D3 of steroids treatment, and that beyond D7 it is not useful to perform this examination as its sensitivity becomes too low.