View clinical trials related to Polymyalgia Rheumatica.
Filter by:The purpose of this study is to evaluate the ability of contrast enhanced carotid ultrasound to serve as an indicator of disease activity in patients with Takayasu's arteritis or Giant Cell arteritis and to determine if patients with active arteritis have a thickening of their blood vessel walls compared to healthy people of the same age and gender.
This multicenter, randomized, double-blind, placebo-controlled, parallel-group study will evaluate the efficacy and safety of tocilizumab in participants with GCA. The study will consist of 2 parts: a 52-week double-blind treatment period (Part 1) followed by a 104-week open label long-term follow-up period (Part 2). In Part 1 of the study eligible participants will be randomized to receive either tocilizumab every week (qw) or every 2 weeks (q2w) or placebo for 52 weeks, with tapering oral daily doses of prednisone. After Week 52, participants in remission will stop study treatment and enter long-term follow-up, whereas participants with disease activity or flares will receive open-label tocilizumab or other treatment at the discretion of the investigator for a maximum period of 104 weeks.
Phase 1: Patients are treated with infusions of Tocilizumab (TCZ) for 3 months. Clinical evaluation is performed using PMR-AS. The PMR-AS is computed by summing the 5 variables after multiplying by 0.1 for weighting purposes: PMR-AS (activity scale = AS) = C reactive protein (CRP) (mg/dl) + patient scale (VASp) (0-10 scale) + physician scale (VASph) (0-10 scale) + morning stiffness(MST) [min]×0.1) + elevation of upper limbs (EUL) (0-3 scale). At the end of the phase 1,the patients stop TCZ and entered in phase 2 at week 12. Phase 2: All the patients are included in the phase 2 and treated with glucocorticoid (GC)for 3 months. Two arms are possible according to the PMR-AS. Either the classical GC treatment (0.3mg/kg), either a low dose group of GC(0.15mg/kg) .
Giant cell arteritis (GCA) is the most frequent vasculitis in patients above 50 years of age. The disease has limited mortality, mostly due to the development of aortic aneurysms, leading to dissection and rupture. The probability to develop this complication is 17 x higher at the level of the thoracic aorta and 2,4 x at the level of the abdominal aorta in patients with GCA when compared with a control group. Therefore, follow-up of the aortic diameter in patients with GCA is part of good clinical practice. Previous retrospective research showed a link between FDG-uptake at the level of the thoracic aorta, on positron-emission-tomography (PET) at the time of diagnosis, and the increase of diameter and volume of the thoracic aorta during follow-up (on computed tomography (CT)). The purpose of this prospective study is to follow-up on the aortic diameter, and to correlate these measures with FDG-PET uptake at diagnosis. Ideally, this would allow us to define a group of patients at high risk to develop an aortic aneurysm, already at the time of diagnosis.
Giant-cell arteritis (GCA) is an immune-mediated disease that mostly affects people older than 50 years of age. Glucocorticoid (GC) treatment dramatically alters the symptoms and course of GCA, reducing the likelihood of vascular complications that could lead e.g. to blindness. However, relapses usually occur when GC dosages are tapered, resulting in frequent re-treatment with high cumulative dosages of GC over time with substantial toxicity and morbidity (e.g. diabetes mellitus, infections, enhanced cardiovascular risk, osteoporotic fractures, cataracts). Therefore, novel therapies are needed that effectively reduce the dose and duration of GC treatment and provide more durable remissions of GCA. Tocilizumab (TCZ) is a humanized monoclonal antibody directed against the human interleukin-6 receptor (IL-6R). Elevated tissue and serum levels of IL-6 have been implicated in giant cell arteritis. Inhibition of IL-6 and/or its receptor therefore represents a new and novel approach for the treatment of RA. The primary endpoint is the proportion of patients that have achieved complete remission of disease after treatment with TCZ compared to treatment with placebo at week 12. All patients will receive glucocorticoids in a standardized form.
This is a fifteen-month open label, Phase IIa clinical trial is being conducted to assess the tolerability, safety and efficacy of a medication called Tocilizumab (Actemra®) in patients with polymyalgia rheumatica (PMR).
Polymyalgia rheumatica (PMR) is a common inflammatory condition affecting elderly people and involving the girdles. The mainstay of treatment is oral glucocorticoids (GC), with the recent BSR-BHPR guidelines suggesting an initial prednisone dose comprised between 15 and 20 mg as appropriate. However, probably because of the dramatic response of PMR to GC, randomized controlled trials of treatment are lacking. As a result, there is no evidence from controlled studies on the efficacy of different initial doses or drug tapering. Objective of the study: to test if 12.5 mg prednisone/day is an adequate starting dose in polymyalgia rheumatica (PMR) and to evaluate clinical predictors of drug response. Methods: 60 consecutive PMR patients will be treated with a starting dose of 12,5 mg/day prednisone. Clinical, laboratory, and ultrasonographic features will be recorded as possible predictors of response to prednisone. Remission is defined as disappearance of at least 75% of the signs and symptoms of PMR and normalization of ESR and CRP within the first month, a scenario allowing steroid tapering.
Giant Cell Arteritis (GCA) causes inflammation and narrowing of blood vessels and can cause blindness in one third of patients. It is important that a prompt, accurate diagnosis of GCA is made and treatment given as steroids for two or more years. Currently there is no 100% accurate test for GCA. Patients usually have new headache and scalp tenderness, typically with an abnormal blood test. However, it can be difficult to distinguish non-serious forms of headache from GCA; infection produces similar abnormal blood results. If there is a suspicion of GCA, treatment with steroids is started straight away. To confirm a diagnosis, the patient will need a biopsy of a temporal artery (a minor procedure performed under local anaesthetic to remove a sample of one of the scalp arteries). However, up to 44% of patients will have a normal biopsy. Therefore it is difficult to know if a patient with a normal biopsy does or does not have GCA. Withdrawing steroid treatment may increase the risk of blindness. Continuing treatment in a patient without GCA increases the risk of side effects (e.g., weight gain, infection risk, osteoporosis and fracture risk, high blood pressure, diabetes, cataracts). It is important to improve diagnostic tests for GCA. Another test to help in diagnosing GCA is an ultrasound scan of the arteries in the side of the head and under the arms. Ultrasound does not involve surgery; it is a simple test which can be performed as an out patient. Gel is applied to both sides of the head and under each arm. A sound probe is placed over the artery at each site to produce the scan. The investigators' study will examine the role of ultrasound in diagnosis of 402 patients with suspected GCA. All patients will have an ultrasound examination in addition to biopsy within a week of starting steroids. Patients will be treated according to usual practice. After six months, the investigators will reassess the diagnosis. The investigators will look at the accuracy of ultrasound compared with or combined with biopsy. The investigators will look at how a doctor's knowledge of ultrasound results or biopsy results alone would affect the diagnosis and recommendation to continue or stop steroid treatment. The investigators will assess whether knowledge of both results together would alter the diagnosis and treatment. The investigators will collect information to estimate the costs of different ways of diagnosing GCA in relation to the impact on quality of life.
The aim of this study is to evaluate a simple and rapid method in order to better define and treat Polymyalgia Rheumatica by measuring levels of muscle achiness and pain with a blood pressure cuff.
Polymyalgia Rheumatica (PMR) is a disease that usually affects older people. Patients complain of stiffness and pain around the shoulders and hips. The stiffness is more severe in the morning. Research in Rheumatoid Arthritis (RA), which is also much worse in the mornings, has shown that IL-6 (a chemical messenger) peaks in the morning with very low levels in the evening. This may explain why stiffness is most severe in the morning. The investigators have recently shown that timed release tablet (TRT) prednisone reduced morning IL-6 levels close to normal in RA patients. In PMR, IL-6 levels are high. Given that both RA and PMR have the same variation of symptoms (worse in the morning); it's likely that PMR patients have the same variation in IL-6 levels. In a pilot study of 4 patients conducted within our department, IL-6 levels did, indeed, show a pattern similar to that found in RA patients, but the number of patients is small and the results need to be confirmed. PMR is treated with moderate doses of glucocorticoid for about 2 years. While generally abolishing symptoms, these doses are very likely to cause adverse effects such as high blood pressure, weight gain and diabetes. These side effects are much less frequent when lower doses are used but these are not sufficient to control PMR using traditional dosing regimes. Therefore, the investigators wish to investigate whether TRT prednisone in PMR will reduce IL-6 and morning symptoms similar to those in RA. The investigators think that it will do so, and will achieve symptomatic relief at a lower dose. If this is the case, then treating patients with lower doses may mean reduced risk of glucocorticoid induced side effects in the future. Patients will be recruited through the outpatient clinics at the University Hospitals Bristol, NHS Foundation Trust, Rheumatology Centre. Each patient will give fully informed consent after being given details of the study and a patient information sheet. The research doctor will take the consent 2-5 days after this information has been provided and with the presence of a witness. The study will consist of the collection and analysis of sequential blood samples over a 24 hour period on 2 occasions 2 weeks apart, taking TRT prednisone 7 mg / standard release prednisolone 7 mg for the intervening period. The investigators will aim to recruit 12 patients in each arm. A single blood sample will be taken when the patient comes for a routine review 2 weeks later.