Polymyalgia rheumatica (PMR) is a systemic inflammatory disease that affects elderly people. It is characterized by pain and morning stiffness in the shoulders, pelvic girdles and neck. Glucocorticoids are the mainstay of the treatment. In clinical practice, the disease activity of PMR and corresponding treatment changes are based on the presence of symptoms and inflammatory markers. The interpretation of these abnormalities can be surprisingly difficult, especially when they are not consistent. In 2004, Leeb and Bird developed a composite score for measurement of disease activity in PMR, called the polymyalgia rheumatica activity score. It consists of 5 domains: morning stiffness time, ability to elevate the upper limbs, physician's global assessment, pain and CRP level. However, high-quality evidence on the measurement properties is lacking and there is still no consensus on the optimal cut off point. Based on a Delphi study with physicians and patients OMERACT defines laboratory markers of systemic inflammation, pain, stiffness and physical function as the four inner core of domains considered mandatory for clinical trials of PMR, most frequently measured by erythrocyte sedimentation rate (ESR) and/or C-reactive protein (CRP), visual analogue scale (VAS) for pain, morning stiffness time and Health Assessment Questionnaire-Disability Index (HAQ-DI) respectively. Patient's global fatigue was strongly recommended to measure in PMR as well. Recently, a PMR-specific patient-reported outcome measure was developed, called the PMR impact scale. However, outcome measures in PMR studies lack consistency and there is no high-quality evidence on the measurement properties. In addition, the evolution of these patient reported outcomes is not known.
The primary objective of this prospective observational trial is to validate the PMR-activity score and to determine the optimal cut-off point to discriminate between disease remission and active disease. The secondary objective is to assess the evolution of the patient reported outcomes during the disease course and their relation with disease activity. The investigators intend to perform a 12-month, observational prospective trial in patients with recently diagnosed PMR. Patients will be followed and treated as standard of care. Follow-up visits will be planned at 8 weeks, 16 weeks, 26 weeks and 52 weeks. As in standard of care, additional visits can be planned if necessary, e.g. in case of symptoms suggestive of relapse. Each visit ESR, CRP, morning stiffness time, ability to elevate the upper limbs, physician's global assessment and VAS for pain as components of the PMR-activity score and VAS for global health, pain, stiffness and fatigue, HAQ-DI, Short Form Health survey (SF36) and PMR impact scale as patient-reported outcomes will be collected.
Study Type
OBSERVATIONAL
Enrollment
133
University Hospitals Leuven
Leuven, Belgium
Determination of the sensitivity and specificity of the PMR-activity score and the optimal cut-off point to discriminate between disease remission and active disease
Time frame: 52 weeks
Determination of the sensitivity and specificity of morning stiffness time and the optimal cut-off point to discriminate between disease remission and active disease
Time frame: 52 weeks
Determination of the sensitivity and specificity of ability to elevate the upper limbs and the optimal cut-off point to discriminate between disease remission and active disease
Time frame: 52 weeks
Determination of the sensitivity and specificity of physician's global assessment using a visual analogue scale and the optimal cut-off point to discriminate between disease remission and active disease
Time frame: 52 weeks
Determination of the sensitivity and specificity of patient's assessment of pain using a visual analogue scale and the optimal cut-off point to discriminate between disease remission and active disease
Time frame: 52 weeks
Determination of the sensitivity and specificity of C-reactive protein and the optimal cut-off point to discriminate between disease remission and active disease
Time frame: 52 weeks
Determination of the sensitivity and specificity of the change in the PMR-activity score between two visits and the optimal cut-off point to discriminate between disease remission and active disease
Time frame: 52 weeks
Determination of the sensitivity and specificity of the change in morning stiffness between two visits and the optimal cut-off point to discriminate between disease remission and active disease
Time frame: 52 weeks
Determination of the sensitivity and specificity of the change in ability to elevate the upper limbs between two visits and the optimal cut-off point to discriminate between disease remission and active disease
Time frame: 52 weeks
Determination of the sensitivity and specificity of the change in physician's global assessment using a visual analogue scale between two visits and the optimal cut-off point to discriminate between disease remission and active disease
Time frame: 52 weeks
Determination of the sensitivity and specificity of the change in patient's assessment of pain using a visual analogue scale between two visits and the optimal cut-off point to discriminate between disease remission and active disease
Time frame: 52 weeks
Determination of the sensitivity and specificity of the change in C-reactive protein between two visits and the optimal cut-off point to discriminate between disease remission and active disease
Time frame: 52 weeks
Evolution of Health Assessment Questionnaire-Disability Index (HAQ-DI) over the disease course and the relation with disease activity
Time frame: 52 weeks
Evolution of the ability to elevate the upper limbs over the disease course and the relation with disease activity
Time frame: 52 weeks
Evolution of the patient's assessment of pain using a visual analogue scale over the disease course and the relation with disease activity
Time frame: 52 weeks
Evolution of the patient's assessment of global health using a visual analogue scale over the disease course and the relation with disease activity
Time frame: 52 weeks
Evolution of the patient's assessment of fatigue using a visual analogue scale over the disease course and the relation with disease activity
Time frame: 52 weeks
Evolution of the patient's assessment of stiffness using a visual analogue scale over the disease course and the relation with disease activity
Time frame: 52 weeks
Evolution of morning stiffness time over the disease course and the relation with disease activity
Time frame: 52 weeks
Evolution of 36-item Short Form Health Survey (SF36) over the disease course and the relation with disease activity
Time frame: 52 weeks
Evolution of the PMR impact scale over the disease course and the relation with disease activity
Time frame: 52 weeks
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