Development of a Disease Activity and Responder Index for Psoriatic Arthritis — Report of the Psoriatic Arthritis Module at OMERACT 11

Aims of the Module

Philip Mease briefly reviewed work and introduced the aims of the module at OMERACT 11: (1) to present a literature review of various outcome measures that individually reflect different domains of PsA, and compare them with other composite measures of disease activity in RA; (2) to highlight the patient’s perspective with an illustration of the many ways in which this disease can affect a single patient over time; (3) to present work to date assessing performance of the proposed PsA responder indices in datasets from completed RCT and independent populations; (4) to provide a forum for discussion of these proposals and an opportunity for feedback and debate; and (5) to define issues that remain in the research agenda regarding domains and instruments for their assessment in PsA.

Review of Outcome Measures Used in PsA Clinical Trials

A number of outcome measures have been developed and used in PsA to measure different aspects of the disease^{2,5,6,7,8,9,10} (Table 1). For arthritis, the majority of measures used in RCT in PsA were adopted from RA. Dr. Laura Coates summarized data regarding the use of ACR and DAS outcomes in PsA, explaining that these measures had been shown to be responsive in polyarticular PsA in clinical trial datasets¹¹. Deficiencies included that 28-joint counts are not reliable in PsA, particularly in oligoarthritis¹². The Psoriatic Arthritis Response Criteria (PsARC) was the first composite measure designed specifically for PsA and uses a composite measure of tender joint counts (TJC) and swollen joint counts (SJC) with patient and physician global assessments of disease activity¹³. However, it was arbitrarily derived and does not specifically incorporate other features of PsA such as enthesitis, dactylitis, or axial or skin disease. The use of the physician and patient global visual analog scale (VAS) scores may partially reflect activity in these elements of disease depending on the wording of the VAS questions.

A brief summary of new articular composite measures specifically designed for PsA was presented, i.e., the PsA Joint Activity Index (PsAJAI) and the Disease Activity in PSoriatic Arthritis (DAPSA). Both scores have specifically excluded skin disease activity, although for different reasons. The PsAJAI, a response measure using a 30% reduction in disease activity as the cutoff, was developed from and tested in 2 independent samples from RCT datasets of tumor necrosis factor (TNF) inhibitors using statistical modeling. Therefore, it has been validated in a predominantly polyarticular, not oligoarticular, subset of disease. It ultimately excluded a measure of skin disease activity because the magnitude of skin disease improvement in these trials was so large that it overwhelmed responses in articular disease¹⁴. The DAPSA score¹⁵ was suggested for PsA after principal component analysis of data in 105 patients with PsA found that the key disease domains were represented by measures included in the DAREA (Disease Activity index for Reactive Arthritis), originally developed for reactive arthritis¹⁶. In this analysis, skin disease activity was proposed as a component, but did not quite reach significance, possibly because of the low level of skin disease in this specific patient cohort. Components of the DAREA include SJC and TJC, patient global score, pain score, and C-reactive protein (CRP). Ultimately, both the PsAJAI and the DAPSA have included only specific measures of articular disease; although the global patient reported scores for disease activity and pain may partially encompass other elements of PsA, it is unclear to what extent.

For psoriasis, several skin measures have been developed for use in RCT and longitudinal observational studies. Interestingly, patients enrolled in PsA clinical trials often have low body surface area (BSA) involvement of psoriasis and thus may not be reliably evaluated with the Psoriasis Area and Severity Index (PASI) score¹⁷. The PASI exhibits poorer performance in subjects with < 3% BSA involvement. A “target lesion” score may be used, where 1 lesion is evaluated over the course of the study⁵, but this does not reflect the total extent of disease involvement nor which areas are involved. Newer scoring methods such as the Lattice System Physician’s Global Assessment of psoriasis¹⁸ and the Copenhagen Psoriasis Severity Index¹⁹ were also briefly discussed. Nail involvement is also a common problem in psoriasis, and particularly in PsA. The Psoriasis Nail Severity Score, developed in Bath²⁰, has been used in studies; and even more recently, several PsA trials have successfully incorporated a modified Nail Psoriasis Severity Index (mNAPSI) score for evaluation of responses in nail involvement²¹.

Recognizing the importance of enthesitis and dactylitis as domains, measures for these clinical features have evolved over the past several years and are now routinely performed. Several measures of enthesitis, which assess different groups of entheseal insertion sites, are being used, and it is anticipated that as these are evaluated, a single measure may emerge as standard for PsA. Measures specifically developed for PsA, such as the Leeds Enthesitis Index, and measures developed in a mixed group of patients with spondyloarthritis (SpA), such as the SPARCC (Spondyloarthritis Research Consortium of Canada) enthesitis index, are now being used in ongoing research. It was highlighted that up to half of patients with PsA experience dactylitis at some point in their disease course. Measurement of this phenomenon has been evaluated by Helliwell, et al who have compared existing measures such as digit counts and semiquantitative scoring of dactylitis and have developed the dactylometer, which allows quantification of clinical digit swelling^22,23.

Spinal involvement in PsA has generally been under-researched, with no specific clinical trials in this group of patients. Spinal involvement is not commonly measured in RCT in PsA, partly because of difficulties assessing this disease component. Physical examination measures of the spine are reliable in axial PsA²⁴ and reflect not only disease activity but also significant cumulative damage. Measures of axial disease activity used in axSpa, including the Bath Ankylosing Spondylitis Disease Activity Index and ASDAS, have been shown to correlate with constructs of disease activity in axial PsA^25,26,27, but not to differentiate between peripheral and axial disease activity, casting doubt on their construct validity in PsA.

A Patient’s Perspective

Next, a patient representative provided valuable perspective as an individual with PsA, but also as a physician who treats PsA and conducts research in PsA. Her initial symptoms were primarily axial and entheseal, and although she visited a rheumatologist early in her disease course, she came away without a diagnosis because no significant arthritis or skin disease was present at onset, and initial laboratory assessments and radiographs were negative. Cognizant of US healthcare system issues around preexisting conditions, she did not return for diagnosis or treatment when synovitis developed about 1 to 2 months later. Instead, she reported she chose to self-manage the disease with minocycline and ibuprofen. She originally thought she had AS, but once she developed onycholysis of her large toenails, she recognized she most likely had PsA. She shared that the axial symptoms and fatigue had been some of her worst symptoms and that she also changed jobs to minimize the effect of stress, travel, and lack of sleep on her health. She recognized in herself complaints that her patients had made to her about, e.g., walking on marbles related to metatarsal pain, hobbling to the bathroom in the morning because of stiffness, keeping nail polish on her toenails to avoid showing evidence of her onycholysis. Eventually she returned to her rheumatologist, who recognized her reluctance to start a TNF inhibitor and instead prescribed sulfasalazine (SSZ). She was thrilled as was her rheumatologist when she reported how well SSZ had worked for her symptoms, especially the stiffness and peripheral joint disease. She mentioned that stress and lack of sleep continued to precipitate flares, and she has made it a priority to manage these. She recognized that SSZ has probably been a temporizing measure because it has not worked as well for her axial symptoms or nail disease as it has for her peripheral disease. Her disease and its effect on her and her family life were evolving, and her therapy would also evolve. Ultimately, she stressed that as a researcher and physician as well as a patient, the currently available tools did not accurately assess the effect of PsA on her disease or her life.

Current Proposed Composite Outcome Measures — CPDAI

Work developing 2 key composite measures has been initiated and led by members of GRAPPA. FitzGerald and colleagues developed a composite outcome measure based on the GRAPPA treatment grid published by Ritchlin, et al²⁸. For the Composite Psoriatic Disease Activity Index (CPDAI), a score of 0–3 is assigned to each of the 5 domains (arthritis, enthesitis, dactylitis, skin and spinal disease) of PsA based on disease activity and effect of disease for this domain (Table 2). The scores are added together to give a total score of 0–15, thus providing an overall assessment of disease activity²⁹. One concern raised during the development of this measure was that patients with severe disease activity in only 1 domain may be disadvantaged by a relatively low total score. Two potential solutions have been proposed: first, modified classification, where anyone with a single domain scored as severe would be classified as “severe” overall; second a “modified CPDAI,” where the total score is divided by the number of active domains involved yielding a mean score.

Oliver FitzGerald presented validation data for CPDAI from analysis of the PRESTA (Psoriasis Randomized Etanercept Study) data³⁰. Individual measures of joint disease, enthesitis, and dactylitis showed similar changes between higher and lower doses of etanercept, but a superior response was evident with the higher dose for skin disease. There were a few limitations of this dataset. Like many RCT of PsA, the majority of patients had polyarticular disease despite its not being an inclusion criterion, so this dataset does not provide evidence for responsiveness of these measures in oligoarthritis. Like many RCT in PsA, there was no specific assessment or measure of axial disease in this trial. For this reason, a modified CPDAI assessing 4 domains (peripheral joint disease, skin, dactylitis, and enthesitis) was scored from 0–12 rather than 0–15.

The CPDAI showed good responsiveness to change and identified a significant difference between treatment groups at 12 weeks that was likely driven by the differential response in skin disease (p = 0.049). In stepwise regression analysis, enthesitis, the Health Assessment Questionnaire (HAQ), dactylitis and the Dermatology Life Quality Index all contributed significantly to the CPDAI values at baseline³¹. In comparison, the DAPSA score showed a significant improvement between baseline and 12 weeks in both treatment groups but did not identify a significant difference between the treatment groups at Week 12. Thus, while both the DAPSA and CPDAI show responsiveness in measures of arthritis, the CPDAI has a potential advantage in that it can also reflect changes in the other domains of PsA.