Iterative Development and Reliability of the OMERACT Hand Osteoarthritis MRI Scoring System

METHODS

RESULTS

DISCUSSION

In our study, the OMERACT MRI Task Force developed a preliminary OMERACT HOAMRIS and tested its interreader reliability in 2 iterative scoring exercises. The scoring system constituted 6 MRI features, all scored on 0–3 scales for normal to severe. When the readers used an atlas with examples of images, good to very good reliability was demonstrated for all the MRI features, suggesting that MRI can reliably assess structural and inflammatory features in the DIP and PIP joints in patients with hand OA.

The Oslo hand OA MRI scoring system for hand OA was used as a starting point³, and the experience and results from the validation studies performed in Oslo were taken into account during the development of the HOAMRIS^4,5. Haugen, et al found that flexor tenosynovitis had only moderate reliability and was not related to OA severity, or associated with pain in the same joint^3,4. Concerns were also raised regarding a potential magic angle phenomenon (i.e., increase in signal intensity occurring when collagen fibers are oriented 55 degrees relative to the static magnetic field) for the assessment of collateral ligament discontinuation, which may result in false positive reading of collateral ligament pathology¹⁰. Consequently, we chose to exclude flexor tenosynovitis and collateral ligament pathology from the scoring system.

The definitions of the features were reassessed and modified. In the Oslo system, the definition of erosion was based mainly on loss of bone volume, and subchondral bone attrition (flattening or depression of the joint plate, leading to small loss of bone volume) was scored as grade 1 only³. We felt the severity of bone attrition was not captured by the Oslo system. In the HOAMRIS system, the grading of erosions was based on both the volume of the erosions and the extent to which the joint surface was affected by bone damage. With this definition, the severity of OA central erosions with bone attrition is expected to be better captured.

When scoring erosions, cysts, and bone marrow lesions, one should assess the total volume from both the distal and proximal side. Hence, 2 erosions estimated at 15% bone loss on both the proximal and distal side (in total 30%) and an erosion estimated at 30% on 1 side should both be scored as grade 3.

Terminology was also changed, and the term for cartilage loss assessment was changed from “joint space narrowing” to “cartilage space loss” to have a more precise wording of the feature. The thickness of the cartilage in the small DIP and PIP joints is difficult to assess directly owing to current image resolution, and the definition was therefore based on the interbone distance.

All features were scored on 0–3 scales with increments of 0.5 for synovitis, erosive damage, and BML. These features were considered to be most important in future clinical trials; thus, an increment of 0.5 was chosen to improve sensitivity to detect more subtle alterations, cross-sectionally and longitudinally. An increment of 0.5 should be used when a reader is uncertain about 2 adjacent categories, e.g., grade 1.5 if uncertain about whether to assign grade 1 or 2. In longitudinal studies or clinical trials, a 0.5 increment can be used when there is increase/decrease without change of category. The use of 0.5 increments may potentially lead to reduced reliability, and there is therefore a need for further evaluation of this in future reliability studies. Training sessions between the readers and more example images in the atlas may improve the reliability between readers.

Our results clearly show the importance of calibration between readers. Higher reliability was found in the second exercise, in which the readers used an atlas with example images. The atlas that was used in the second exercise was based on images from the first exercise, and did not include example images of all categories for all features. More work is therefore needed to improve and complete the atlas. Only a few validation studies of MRI have been performed in hand OA^4,5,11, and they are limited by the lack of a gold standard as reference. MRI can detect more erosions and osteophytes than conventional radiography⁴, but these results need to be confirmed in studies using computed tomography (CT) or histology to show that these MRI features represent true findings. Suboptimal resolution of the MRI also makes the distinction between marginal erosions and cysts as well as cysts and bone marrow lesions difficult, emphasizing the need for validation studies using CT and/or histology. Longitudinal studies will also show the temporal relationship between, for example, bone marrow lesions and cysts, which have been shown to be temporally related in knee OA¹².

In the current reliability exercise we used MRI from patients in the Oslo hand OA cohort³. In this cohort the patients had MRI of their dominant hand. However, we have not added any recommendations for which hand to scan, as future studies may want to use other inclusion criteria, such as the hand with most symptoms or radiographic criteria.

One limitation is that the current scoring system does not include the base of the thumb. Thumb base involvement is important for both pain and function in patients with hand OA¹³. In the Oslo hand OA cohort, only the DIP and PIP joints were scanned, since inclusion of the thumb base joint would have required a separate acquisition. In future studies, we need to examine whether we can use the same definitions for the thumb base joint as for the DIP and PIP joints. Further, the interpretation of the ICC values is dependent on the range of the measuring scale¹⁴; the wider the range, the better the results. The patient variation was larger in the second exercise (i.e., broader IQR) for some of the features. Larger patient variation may lead to larger ICC as an artefact, i.e., patient variance being a larger component of the total variance (the denominator). However, also PEA and PCA agreement was higher in the second exercise, supporting a true improvement of reliability. We also found good reliability for features that were less frequently present, such as cysts, malalignment, and BML. A potential limitation is the use of contrast-enhanced images for evaluation of synovitis in a typically elderly population with patients with OA. Future studies should look into whether MRI without contrast have similar sensitivity and specificity in detection of synovitis in hand OA as contrast-enhanced MRI. In both exercises, we used MRI from 8 patients. However, a greater number of patients would have allowed us to look into a subset of patients to explore how different patients affect the reliability.

The next step in the validation of the preliminary OMERACT hand OA MRI score is to examine the feasibility of the scoring system and whether it is sensitive to change. At this time, the OMERACT MRI Task Force does not have available data from any observational longitudinal cohorts or clinical trials using MRI as an outcome measure. However, we expect that within a few years we will have such data available to explore responsiveness.

The OMERACT MRI Task Force has developed a preliminary hand scoring system, the OMERACT HOAMRIS, and tested its interreader reliability. Our results suggest that MRI can reliably assess OA features when readers use an atlas with example images. However, further validation of MRI features and assessment of sensitivity to change must be tested before MRI can be recommended as an outcome measure in clinical hand OA trials.