Pathophysiology

The pathophysiologic basis for development of ILD in patients with RA remains elusive. Available data suggest a role for both environmental and genetic factors. Specific human leukocyte antigen (HLA) variants including HLA-B54, HLA-DQB1*0601, HLA-B40, and HLA-DR4 have been associated with RA-ILD. Similarly, cigarette smoking has been linked with both RA and RA-ILD. Some speculate that the lungs may be a site of initial immune dysregulation that leads to the development of RA. Citrullinated proteins have been identified in bronchoalveolar lavage fluid from cigarette smokers without RA, and RA-related autoantibodies are detectable in the sputum of patients identified to be at risk for RA.

It is hoped that investigations of biomarkers for RA-ILD will identify key molecules and thus provide more insight into disease immunopathogenesis and avenues for early diagnosis. To date, serum autoantibodies against multiple citrullinated proteins and peptides including fibrinogen, vimentin, and citrullinated isoforms of heat shock protein 90 and matrix metalloproteinase-7 (MMP-7) and interferon-gamma inducible protein 10 have been associated with RA-ILD. The precise role of these proteins in tissue-specific disease manifestations is not known.

Prognosis and mortality

Information pertaining to the natural history of RA-ILD relies on data from a limited number of studies and more data are needed to confidently characterize prognosis and mortality within this population. The available studies indicate that patients with RA-ILD have a 3-fold increased risk of death relative to those without ILD. In addition, although overall mortality from RA seems to be decreasing, mortality from RA-ILD seems to be increasing, particularly in women and in older age groups. A study of 582 patients with RA identified a median survival of 2.6 years in those with ILD compared with 10 years in age-matched patients with RA without ILD. Within the category of RA-ILD, prognosis varies significantly depending on the precise histopathologic form of RA-ILD and from patient to patient. UIP is the most common subtype of RA-ILD and carries the worst prognosis, which differs from CTDs overall, in which the most common pattern of ILD is NSIP. High-quality studies of additional factors that influence prognosis are lacking. A recent systematic review of current literature investigating predictors of mortality in RA-ILD included 10 studies and found that male gender, older age, lower lung diffusion capacity for carbon monoxide (DLCO), a finding of UIP, and the extent of fibrosis were significant predictors of mortality.

Clinical features

Exertional dyspnea and cough of insidious onset are the predominant clinical symptoms of RA-ILD. Fatigue and generalized weakness are also frequently seen. Radiographic evidence of ILD on HRCT precedes the development of respiratory symptoms in a significant number of patients with RA and time to development of symptoms for patients with subclinical ILD is not known. Given the prevalence of lung involvement in RA, clinicians should have a low threshold to pursue evaluation of new respiratory complaints in this population. Once present, symptoms usually progress over time; however, the rate of progression is variable from patient to patient and within the different histopathologic forms of ILD. Studies indicate that patients with UIP may progress faster than other subtypes of ILD in RA and at rates similar to those reported for idiopathic pulmonary fibrosis (IPF).

Radiographic features

HRCT has increased the diagnostic sensitivity and accuracy for RA-ILD greatly compared with chest radiograph alone. In a study of 150 consecutive individuals with RA, HRCT evidence of ILD was seen in 19% of patients; however, bilateral interstitial infiltrates were seen on chest radiograph in less than 3%. The most common radiographic finding is a UIP pattern, which is characterized on HRCT by peripheral basilar predominant reticular abnormalities, honeycombing, traction bronchiectasis, and minimal to no ground-glass opacification ( Fig. 1 ). NSIP is the other common pattern in RA-ILD and is characterized by reticulation and ground-glass with little or no architectural distortion or honeycombing ( Fig. 2 ).

UIP in RA. The UIP pattern consists of peripheral basilar predominant reticular abnormalities, honeycombing, traction bronchiectasis, and minimal to no ground-glass opacification.

Nonspecific interstitial pneumonia in RA. The nonspecific interstitial pneumonia pattern consists of reticulation and ground-glass with little or no architectural distortion or honeycombing.

Diagnostic evaluation

Early symptoms of respiratory disease, particularly dyspnea on exertion, may be difficult to ascertain in patients with exercise-limiting joint disease. Clinicians should therefore remain alert to subtle symptoms, including new cough, change in activity level, or low resting oxygen levels. The initial diagnostic evaluation for patients with RA with respiratory symptoms includes an assessment of lung physiology with pulmonary function tests (PFTs), radiographic imaging with HRCT, and assessment of the patient’s oxygenation both at rest and with activity. Initial PFTs should include components of lung volume, airflow with bronchodilator challenge, and DLCO measurements. For initial imaging, HRCT imaging is recommended rather than chest radiograph for its superior sensitivity in detecting early parenchymal disease and small airways disease. Lung biopsy is not indicated in most cases of RA-ILD; however, if the diagnosis is uncertain or computed tomography findings are atypical, surgical lung biopsy may be useful. Transbronchial biopsies have low yield and are generally not performed, although they may be helpful for the purpose of ruling out drug-related disease or infection. For all patients with diffuse parenchymal disease, infection and drug-induced disease must be ruled out before making a diagnosis of ILD. Numerous medications used in the treatment of RA have reported pulmonary toxicities ( Table 1 ).

Table 1

Lung toxicity of rheumatoid therapies

Medication	Symptoms	Radiopathologic Findings	Incidence
Methotrexate	Dyspnea, cough, fever	Common: bilateral interstitial granulomatous infiltrates with ground-glass opacification on chest CT Uncommon: unilateral infiltrates, pleural effusions, reticulonodular disease, hilar lymphadenopathy	0.3%–11.6% Most cases occur within 2 y of drug initiation and may occur after a single dose
Anti-TNF	Dyspnea	Aseptic granulomatous pulmonary nodules, both noncaseating and necrotizing Accelerated interstitial lung infiltrates Bronchospasm	ILD, 0.5%–3%
Leflunomide	Dyspnea, fever, cough	Diffuse or patchy ground-glass opacities. Often with septal thickening	ILD, <1% 2-fold increased risk of new ILD seen in those with prior methotrexate use
Rituximab	Dyspnea	Acute/subacute OP Acute respiratory distress syndrome	Unknown
Sulfasalazine	Dyspnea, cough	Variable. Most commonly, eosinophilic pneumonia and peripheral eosinophilia Interstitial fibrosis	Unknown
Tocilizumab	—	OP Exacerbation of ILD Allergic pneumonitis	Unknown

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