A Multidisciplinary Evaluation Helps Identify the Antisynthetase Syndrome in Patients Presenting as Idiopathic Interstitial Pneumonia

DISCUSSION

In our study, we describe a cohort of patients that presented with IIP and were ultimately confirmed to have SynS and/or myositis spectrum of disease after multidisciplinary evaluation. Most of the cohort was ANA-negative, yet two-thirds had a positive SSA or Ro52 antibody. All had positive myositis-specific or -associated antibody. Although nearly all had subtle extrathoracic features of CTD, biochemical evidence of myositis was present only in a minority of patients. No patient met the traditional Bohan and Peter classification criteria^13,14 for IIM. Our data build on published studies that highlight how IIM is a “spectrum” disease^{2,6,15,16,17,18,19,20,21}, with ILD occasionally being the most clinically apparent manifestation. Further, our study demonstrates the value, in patients who present with IIP, of a multidisciplinary evaluation that includes dedicated consultation with pulmonary and rheumatology providers and attention to clinical, serologic, radiographic, and histopathologic features.

Watanabe, et al retrospectively screened sera from 198 consecutive patients with IIP for 6 anti-tRNA-synthetase antibodies¹⁵. They found 13 (6.6%) who were positive for anti-tRNA-synthetase (EJ in 6, PL-12 in 3, and Jo1, PL-7, KS, and OJ each in 1). Arthralgias or joint deformities were found in 2 of 13 patients (15.6%), and cutaneous manifestations (Gottron or heliotrope rash) were present in 4 of 13 patients (30.8%). Extrapulmonary features of SynS were not identified in 6 of 13 patients who were positive for an anti-tRNA-synthetase antibody (46.2%).

Somewhat paradoxically, patients with IIM may present without clinically apparent myositis^2,6,16,17,18. Muscle involvement in SynS can postdate other manifestations, especially ILD, by up to several years, and some patients remain amyopathic indefinitely¹⁹. In their very large retrospective series of 202 patients with SynS, Douglas, et al demonstrated that ILD was the first manifestation of IIM in one-quarter of their cohort. Other CTD manifestations (e.g., arthritis, Raynaud phenomenon, fever, or rash) were the presenting manifestation in some patients, but they were less frequently identified than ILD¹⁷. After 15 years of followup, most patients (75%) developed myositis (85.2% in Jo1-positive vs 60.0% in non-Jo1–positive).

Although we cannot be certain, we suspect that referral bias likely accounts for the relative lack of clinically apparent myositis in our cohort. More specifically, our cohort consists of patients referred to a respiratory medical center and ILD specialty program for evaluation of a lung-predominant disease (i.e., IIP), not patients referred to a rheumatologist for unexplained muscle inflammatory symptoms. In another large cohort of 95 patients with SynS, myositis was present in only 60 of them (63.2%). Interestingly, it appears that antibody status may reveal something about the clinical phenotype in these patients: 69.3% of Jo1 versus only 40.0% of the non-Jo1 patients at diagnosis¹⁹. Also, Raynaud phenomenon (46.7% in Jo1 vs 40.0% in non-Jo1), mechanic hands (29.3% vs 30.0%), esophageal involvement (22.7% vs 20.0%), and arthritis (63.3% vs 40.0%) were frequently encountered at diagnosis. Similarly, Hervier, et al described 233 patients with SynS²⁰. At diagnosis, myositis was present in 133 (57%), arthritis in 47 (20%), Raynaud phenomenon in 99 (42%), mechanic hands in 45 (19%), fever in 66 (28%), and cutaneous signs of dermatomyositis in 65 (28%). Finally, in a group of 31 PL-12–positive patients²¹, 65% of the 28 patients with ILD first presented to an outside pulmonologist. ILD preceded the CTD diagnosis in 15 (53%), was concurrent in 8 (29%), and developed during the course of the CTD in 5 (18%). Myositis was diagnosed in 16 (52%), and it was subclinical in 5. Joint symptoms were present in 18 (58%), Raynaud phenomenon in 20 (65%), fever in 14 (45%), and mechanic hands in 5 (16%). Because of the small sample size in the cohort, we are unable to draw conclusions regarding the clinical phenotype of those with and without Jo1 antibodies.

When evaluating patients with IIP, careful attention to subtle extrathoracic clinical features is useful because they may suggest the presence of an underlying systemic autoimmune disease. Eighty-five percent of our cohort had at least 1 symptom or sign associated with CTD at presentation, including recurrent fevers, Raynaud phenomenon, mechanic hands, Gottron sign, nailfold capillary abnormalities, and periungueal erythema. Autoantibody testing can be an important component of the ILD evaluation as part of the assessment for underlying CTD as well. However, if the investigation is limited to the assessment of ANA, the myositis spectrum, and SynS in particular, may be missed. Indeed, in our cohort, a positive ANA was identified in less than one-third of the patients, and yet each patient had a myositis-specific or myositis-associated autoantibody.

Because the tRNA-synthetase proteins reside in the cytoplasm of the cell²², and not the nucleus, detection of autoimmunity, as assessed by nuclear antibodies (i.e., the ANA), can be misleading. ANA assessment by immunofluorescence can be an important tool for detecting a cytoplasmic staining pattern that is potentially indicative of Ro-52 and/or other myositis-specific or myositis-associated antigen targets. Clinicians who wish to assess for these disorders by autoantibody testing should consider obtaining SSA, Ro52, and a more extensive panel that includes myositis-specific and myositis-associated antibodies.

Thoracic HRCT scan and findings on histopathology may also yield valuable insights into whether a CTD is present. The patterns of NSIP and/or OP should heighten suspicion for the presence of a CTD. The thoracic HRCT scan in patients with SynS-ILD most classically demonstrates NSIP with OP^23,24, as characterized by a combination of ground-glass opacities with consolidation in a peripheral, subpleural, bibasilar distribution, “pancaking” the diaphragms⁹. Although these findings are not specific for SynS, such radiographic findings should increase the level of suspicion for CTD and prompt an evaluation for myositis autoantibodies and the subtle extrathoracic manifestations of the disease. Similarly, the primary patterns of NSIP, OP, and lymphocytic interstitial pneumonia and the secondary features of interstitial lymphoid aggregates with germinal centers and diffuse lymphoplasmacytic infiltration with or without lymphoid follicles should also raise strong suspicions for underlying CTD²⁵.

Our study has limitations. We present data that were retrospectively collected from a single specialized respiratory referral center and so the cohort described may not be representative of the larger SynS population. Further, because we were unable to determine the total number of patients that presented with an IIP during the time frame of our study, we cannot provide an estimate of the frequency with which patients who present with IIP are ultimately diagnosed with SynS or myositis spectrum of disease. This is an important question to be addressed through additional, prospective studies.

Our study highlights the importance of a multidisciplinary evaluation among those that present with an IIP and the integration of a combination of clinical, morphologic (both histopathologic and radiographic), and serologic features to help confirm the diagnosis of occult SynS and/or myositis spectrum of disease.