key: cord-0054791-gxu535lu authors: Taha, Rabab; Feteih, Maun title: Pulmonary Manifestations of Connective Tissue Diseases date: 2020-08-29 journal: Skills in Rheumatology DOI: 10.1007/978-981-15-8323-0_7 sha: 968fa90384be547a330ec30fab1bf7e4fbf578b3 doc_id: 54791 cord_uid: gxu535lu Pulmonary manifestations cause a huge burden for connective tissue disease (CTD) patients. It has been associated with higher rates of mortality and morbidity. Pulmonary manifestations cause a huge burden for patients with connective tissue diseases (CTD). It has been associated with higher rates of mortality and morbidity. There are six CTDs which have significant pulmonary manifestations: • Systemic sclerosis (SSc) or scleroderma. • To develop a practical approach to chronic and acute dyspnea and cough for the previously mentioned CTDs' patients. • To know when and how to screen for the pulmonary diseases related to the CTDs. • To develop knowledge about most of the pulmonary manifestations of CTDs and how to diagnose them and treat them sufficiently. In the chapter, for every CTD, the pulmonary manifestations will be discussed according to the anatomical structure of the respiratory system as follows: • Airways: -Upper airway. -Lower airway. • In general, interstitial lung diseases (ILD) and pulmonary arterial hypertension (PAH) are the most common pulmonary manifestations of CTDs. • The most common subtypes of ILD are nonspecific interstitial pneumonia (NSIP) and usual interstitial pneumonia (UIP). Furthermore, for all CTDs except SSc, NSIP, which presents with ground glass opacities (GGO) on high resolution computed tomography (HRCT), has better prognosis than UIP, which presents as reticular opacities with or without honeycombing on HRCT. That's because GGO represents an ongoing inflammatory process, while reticular opacities and honeycombing represent fibrosis. Due to the rarity of some CTDs or some of the pulmonary manifestations, there are few or lack of large randomized control trials (RCTs) to relay on in decision making, which makes the management not standardized. Most of the pulmonary manifestations could occur before, co-exist, or after the CTD itself being clinically manifested. • The prevalence of each entity of pulmonary manifestations related to each CTD is presented in Table 7 .1. • Screening for pulmonary complications in CTD patients is not well established. However, the following model seems to be acceptable to be applied to all CTDs, while physicians should tailor it according to their patients and the clinical context ( Fig. 7.1 ). • CTD-related interstitial lung disease (CTD-ILD) subtypes are similar to those in idiopathic interstitial pneumonia (IIP). Each subtype has been named according to its histological and/or radiological pattern (Table 7 .2). • Classification of pulmonary hypertension ( Fig. 7. 2; Table 7 .3). • The decision of when to start treatment in CTD-ILD is considered a dilemma because some patients present with respiratory symptoms and others are asymptomatic but have physiological (i.e., pulmonary function test [PFT] ) or radiological (i.e. HRCT) abnormalities related to ILD. Thus, a useful stepwise approach developed by the authors of the Scleroderma lung study could be used depending on the severity of the disease on HRCT. See text below (SSc-ILD treatment) and combine it with (Fig. 7. 3). We think it's appropriate to apply it to the rest of the CTD-ILD. • The approach to screening for CTD-related pulmonary hypertension (CTD-PAH) is illustrated in Fig. 7 .4 [1] . • The approach to acute dyspnea in CTDs is presented in Fig. 7 .5. • The approach to chronic dyspnea in CTDs is presented in Fig. 7 .6. • Pleural fluid analysis for CTDs (except for PM/DM and MCTD, due to the lack of sufficient information about them) ( Table 7 .4). • Although drug-induced lung injury is an uncommon complication (mostly reported in observational studies), treating physicians should consider it as one of the differential diagnoses of lung injuries. Furthermore, it's important to know the common and serious adverse events of the medications used in CTD-ILD, so it would be easier to monitor them and follow them up with patients. Once drug-induced lung injury is suspected, one should take into consideration the duration between starting the drug and the development of pulmonary manifestation in addition to the dose of the drug. Eventually, there is no single test that could help in confirming this diagnosis. However, withdrawal of the offending drug appears to be best step to diagnose it besides other findings, which are presented in Table 7 .5. Moreover, a useful website established by French pulmonologists from Dijon University has been launched to provide information about drugs causing lung toxicity (www.pneumotox.com). Of note, doing bronchoalveolar lavage (BAL) is a must to rule out infections (bacterial, viral, fungal, mycobacterial). According to each CTD Systemic sclerosis (SSc) is a rare multisystem disease that involves skin and other body organs causing fibrosis and vascular complications. It is divided into local cutaneous systemic sclerosis (lcSSc), which is more commonly associated with the CREST syndrome, and diffuses systemic sclerosis (dcSSc) depending on skin involvement and distribution. Furthermore, lung involvement occurs in about 70% of SSc cases. Also, it is considered to be the leading cause of death in SSc patients [2] . Moreover, the most common pulmonary manifestations in SSc are ILD and PAH. While less common pulmonary involvements are pleural effusion, aspiration pneumonitis, spontaneous pneumothorax, bronchiectasis, drug-associated pneumonitis, and lung cancer. SSc-associated interstitial lung disease (SSc-ILD), it occurs in about 40-52% of all SSc patients. However, the dcSSc type appears to be associated with higher risk to develop it compared with lcSSc. Risk factors are African American, gastroesophageal reflux disease (GERD), higher skin score, high level of C-reactive protein (CRP), hypothyroidism, cardiac involvement, Th/To ribonucleoprotein antibodies (anti-Th/To), and anti-topoisomerase I (Scl-70). On the other hand, anti-centromere antibody is considered protective against ILD in SSc. Of note, SSc-ILD is classified into limited versus extensive depending on HRCT finding and FVC (Fig. 7.3 ). Usually patients present with dry cough, shortness of breath, decreased exercise intolerance, fine bibasilar crackles, and, infrequently, finger clubbing. The diagnosis is made collectively by symptoms, signs, PFT (which mostly shows restrictive pattern with low diffusion lung capacity of carbon monoxide [DLCO]) and imaging (chest radiograph may appear normal at the beginning but then progresses to irregular linear opacities and marked interstitial marking). However, in HRCT, it may show GGO without honeycombing in NSIP or reticular pattern with basilar honeycombing in UIP with/without traction bronchiectasis. Furthermore, the most common subtypes of SSc-ILD are NSIP followed by UIP. Although usually the subtypes of ILD may affect the outcome of CTD-ILD, in SSc it is not the case. For that, it is enough to diagnose it as SSc-ILD without specifying the subtype. While BAL is helpful ILD in SSc has poor outcome despite treatment. It's associated with higher mortality. The median survival for patients is 5-8 years. Many issues are involved in treating SSc-ILD, which are the decision of initiation of treatment, treatment modalities, the follow-up of treatment, duration of treatment, and assessment of success of treatment and promising drugs. It is difficult to decide whether to initiate treatment or not since treatment has a minor effect on the outcome of SSc-ILD. Physicians should balance between the benefit of treatment and the adverse drug reactions. Factos that favor starting treatment are the presence of respiratory symptoms, abnormal or declining lung functions (specially DLCO and forced vital capacity [FVC]), progressive disease, early intervention (within 12-24 months of the diagnosis of SSc-ILD), young age, GGO on HRCT, and no contraindications (such as active or suspected infection, neutropenia, history of cyclophosphamide hemorrhagic cystitis, pregnancy, and lactation) [3, 4] . When physician and patient agree to start treatment, there are three modalities available, which are drug therapy, lung transplantation, and hematopoietic stem cell transplantation. To start with, there is no drug, up to date, considered as the gold standard treatment for SSc-ILD because of lacking of strong evidence to relay on. However, commonly used regimen is cyclophosphamide (CYC) (oral or intravenous) combined with low dose glucocorticoids (equal to or less than 10 mg/day equivalent to prednisone) for 12 months duration [5] [6] [7] [8] [9] [10] .Then, physicians could stop the CYC and the steroids and start a maintenance therapy with azathioprine (AZA) for18 months [11] . Although oral cyclophosphamide is superior to IV route, some clinicians prefer the IV route due to possible less side effects as a result of lower cumulative dose. An alternative regimen to CYC and steroids is AZA plus lowdose prednisone [12, 13] . This regimen is inferior to CYC and steroids but could be used if patient could not tolerate CYC. Steroids are used mostly as an adjuvant therapy to cyclophosphamide with low doses (equal to or less than 10 mg/day equivalent to prednisone). That's because moderate to high doses (>15 mg/day equivalent to prednisone) could expose patients to the risk of developing scleroderma renal crisis (SRC), which presents with acute kidney injury (AKI), hypertension (including hypertensive crisis), and mild proteinuria. Of note, there are some other prom-ising drugs such as mycophenolate mofetil [14] [15] [16] [17] [18] [19] [20] , rituximab [21, 22] , and imatinib [23, 24] , but more trials are needed to compare their efficacy to cyclophosphamide. Monitoring usually consists of monthly followup to make sure there are no drug adverse events and, then, a visit every 6 months to check for respiratory symptoms, PFT, and HRCT. Clinicians should monitor patients for CYC drug toxicity by monitoring white blood cell (WBC) count, renal function, and urine analysis (specially for red blood cells [RBCs] ) in urine to predict hemorrhagic cystitis and/or proteinuria [25] . Afterward, the treatment is considered successful if stabilization (no improvement nor deterioration) of respiratory symptoms and PFT is achieved. However, mild to moderate improvement could occur. Cyclophosphamide is associated with high toxicity profile, which is a concern for both patients and physicians. The new preferred regimen is mycophenolate mofetil (MMF) (oral or intravenous) along with glucocorticoids. Both regimens showed significant reduction in loss of pulmonary function, but mycophenolate mofetil has safer profile with less side effects, better toleration, and the improvement last longer with (MMF) than (CYC). Although the MMF duration in the last study was for 2 years, most of expertise recommend to continue the treatment for several years [26] . The second modality of treatment is lung transplantation. It is considered when drug therapy fails. The 1-year survival is 68-93% [27, 28] . Absence of GERD may play a great role in improving survival [27] . Last treatment modality is hematopoietic stem cell transplantation. It is still an experimental therapy. However, great improvement in FVC within 2 years occurred when using this method. Furthermore, it shows superiority to IV cyclophosphamide [29] . Pulmonary hypertension (PH) defined as mean pulmonary artery pressure (PAP) equals to or > 25 mmHg at rest. It can occur as a complication of SSc itself, which is SSc-PAH, or as a complication of ILD caused by SSc. Here, SSc-PAH is discussed. It presents in 12-38% of SSc patients. Risk factors are increased number of telangiectases, lcSSc with anti-centromere antibody, dcSSc with ANA (dcSSc alone is less commonly associated with PAH), progressive decline in DLCO, and exercise-induced PAH on right heart catheterization. Patients usually present with exertional dyspnea, lethargy, and fatigue, which are the most common symptoms, and, less frequently, could be exertional angina, exertional syncope, symptoms of right ventricular failure (RVF) (due to Cor pulmo-nale), cough, hemoptysis, and Ortner's syndrome (horsiness due left recurrent laryngeal nerve palsy caused by pulmonary artery compression or other cardiac cause). On physical examination, if there is no right ventricular hypertrophy (RVH), loud pulmonary component of second heart sound is heard. However, If right ventricular hypertrophy present, then, parasternal heave, forth heart sound, prominent A wave in jugular venous pressure (JVP) could be noticed. Moreover, ascites and lower limb edema may be present. Recent studies showed that combination therapy with phosphodiesterase type 5 inhibitors or combination between (ERA/PDE5I) is superior than endothelin receptor antagonist alone by decreasing deterioration time, recent European guidelines recommend combination initial therapy, But it still has not established yet in American guidelines [32] . In regard to screening for SSc-PAH, physicians could use the same screening method as any patient newly diagnosed with SSc ( Fig. 7.1) . Also, other indications for earlier echocardiography screening are when symptoms, signs, and PFT findings are suggestive of PAH are present, such as DLCO <70% predicted or FVC/DLCO >1.6 and echocardiography with Doppler study findings are suggestive of PAH such as RVH, right ventricular enlargement (the chamber itself), right atrial enlargement, tricuspid regurge (TR), mid-systolic notch on the pulmonary artery Doppler flow tracing and shifting of the interventricular septum toward the left ventricle, pulmonary artery systolic pressure (PASP) >50 and the maximum tricuspid regurgitant jet velocity (TVR) >3.4. The SSc-PAH diagnosis is confirmed by right heart catheterization when mean pulmonary arterial pressure equals to or > 25 mmHg at rest and mean pulmonary capillary wedge pressure (PCWP) <15 mmHg after excluding other causes of PH such as having normal ventilation/perfusion scan (V/Q scan) (to rule out chronic thromboembolic disease), negative HIV and hepatitis serology, normal or mild ILD findings on HRCT (to rule out significant ILD), and normal sleep study in the appropriate clinical context. Although the advancement of treatment during the past decade has improved the survival, it's still worse than that in idiopathic PAH (IPAH) [33] . The 3-year survival is estimated to be 64% [33] . Moreover, early detection has a good impact in survival [34] . On the other hand, SSc-PAH associated with ILD has worse prognosis than that of SSc-PAH alone. The 3-year survival for SSc-PAH with ILD is 47% [35] . In general, therapy is usually directed to the underlying cause of PAH and to the PAH itself if it persisted. However, since there is no specific treatment for SSc, the therapy will be directed to PAH itself. Nevertheless, many issues are involved in the treatment of SSc-PAH such as the decision of initiation of treatment, treatment modalities, duration of treatment, and follow-up of therapy. The decision of initiation of treatment is all symptomatic patients defined by the World Health Organization (WHO) functional classes of II or more (i.e., at minimum to have dyspnea when doing ordinary activity). This category should receive treatment. Treatment modalities are PAH specific drug therapy, supportive therapy, and lung transplantation. To start with, for the PAH specific drug therapy, there is no single drug that has shown superiority for treatment in SSc or other CTDs in general. However, the drug classes that have shown effect in CTD-PAH are endothelin-1 receptor antagonists (ERA), phosphodiesterase type 5 (PDE5) inhibitors, and prostanoids (PGI-2). All of them improved the 6-min walk test (6MWT) [36] . Clinicians should, most of the time, start with monotherapy then step up for a combination if no improvement is observed. Furthermore, the choice for PAH-specific drug therapy depends on physician expertise, patient preference, and cost-effectiveness. Also, supportive therapy should be considered for most patients. It consists of supple-mental oxygen for patients with hypoxemia, to keep oxygen saturation > 90%. In addition, diuretics could be given for patients with fluid overload. Moreover, anticoagulation might be considered for all patients based on non-randomized trials, especially those who receive IV prostaglandins (due to the risk of catheter related thrombosis) but also one should weigh risk of bleeding against benefits [37] . Furthermore, warfarin is the drug of choice to reach a therapeutic INR of 1.5-2.5 [37] . On top of that, exercise, with a special training program (bicycle ergometer at lower and higher workload for 15-30 min/day, dumbbell training [0.5-1 kg], and respiratory training) could be advised. However, heart rate should be monitored not to reach above 120 beat/min and the oxygen saturation not to fall <90% (if a supplemental oxygen is given). These exercises has been tested and showed improvement in 6-min walk test (6MWT) [38, 39] . Lastly, digoxin is not usually used in PAH because there are no enough data to support its effectiveness [37] . Nevertheless, it is usually used in patients with COPD and biventricular failure [40] . As a last resort, when drug therapy fails, lung transplantation should be considered, specially, in patients with severe symptoms. The 2-year survival reaches 71% [27] . It is a common finding on HRCT, but usually not clinically manifested, reaching 59% of SSc patients, and this may be attributed to the high number of GERD and aspirations [41] . Clinicians should pay attention to bronchiectasis when intended to start immunosuppressive therapy due to the risk of sever lower respiratory tract infections [42] . Occurs in about 7% of SSc patients. Usually asymptomatic and occasionally associated with pericardial effusion. It resolves spontaneously. It's a rare complication of SSc. Patients present with shortness of breath and/or pleuritic chest pain. The management depends on cardiopulmonary status and pneumothorax size on CXR. Supplemental oxygen and air drainage by needle aspiration or chest tube insertion should be considered depending on the clinical context. This could lead to respiratory failure with or without hypercapnia [43, 44] . Background SLE is a multisystem autoimmune disease and affects mostly women in childbearing age. Pulmonary involvement, manifested clinically or radiologically, occurs in around 25% of all SLE patients. They usually happen later in the course of the disease. Furthermore, most common pulmonary diseases are pleuritis (78%) followed by bacterial infections (58%), alveolar hemorrhage (26%), distal airway alterations (21%), opportunistic infections (14%), and, lastly, acute or chronic pulmonary thromboembolism (8%). Pleural Diseases Pleuritis • Presents as pleuritic chest pain, shortness of breath, and fever. On physical examination, pleuritic friction rub may be heard. It is a clinical diagnosis. However, pleural biopsy could be done but rarely needed. If so, it shows peculiar immunofluorescent pattern characterized by staining of nuclei with anti-IgG, anti-IgM, and anti-C3 [45] . Treatment usually consists of NSAIDS for mild cases and steroid for severe cases. It tends to be bilateral and small to moderate in size; however, large effusion may occur. It usu-ally presents with shortness of breath, cough, and/or chest pain. Nevertheless, sometimes, it could be asymptomatic. Physical examination may show dullness on percussion, decrease tactile fremitus, decrease intensity of breath sound, and decrease vocal resonance. Although the following investigations could lead to the diagnosis of pleural effusion to be secondary to SLE, physicians should always rule out other common/serious causes of pleural effusion such as heart failure, parapneumonic effusion, and pulmonary embolism if suspected. Chest radiograph shows blunting of costophrenic angle. Furthermore, pleural fluid analysis is shown in Table 7 .4. Small asymptomatic pleural effusion needs no treatment. It resolves spontaneously. On the other hand, mild symptomatic effusion usually responds to NSAIDs [46] , while severe symptomatic effusion is treated with steroids. Also, if patient is currently on steroids, increasing the dose may be required [46] . In refractory cases, tetracycline or talc pleurodesis might be an alternative option [47] [48] [49] . It's an uncommon but serious complication of SLE, which occurs in 2-8% of patients. It affects younger and newly diagnosed SLE patients and also could manifest as a fulminant pattern in pregnant women. Acute-onset fever, cough, shortness of breath, pleuritic chest pain, and, occasionally, hemoptysis. Physical examination shows signs of hypoxia and bibasilar crackles. It's a diagnosis of exclusion (Fig. 7.5) . However, BAL, with or without transbron-chial biopsy, must be done to rule out infection. Blood tests may show high levels of anti-Ro (anti-SS-A), which are associated with more likelihood of ALP. Chest radiograph may show bilateral alveolar infiltrates with predominance in lower lung fields. Also, pleural effusion may occur in half of the cases. Rarely, chest radiograph could be normal or showing nodules. Chest CT may show diffuse ground glass opacities. BAL, when done, the sample should be sent for cell count and differential, bacterial, fungal, and viral cultures, cytology, pneumocystis pneumonia (PCP) stain, and acid-fast bacilli (AFB) smear, and culture in the appropriate clinical context. Transbronchial biopsy, when done, shows non-specific diffuse alveolar damage (DAD) with or without alveolar hemorrhage and capillaritis. Less common pathologic features are alveolar edema, hyaline membrane formation, and immunoglobulin and complement deposition. Usually starts with empiric broad-spectrum antibiotics for 3 days. If no response, then, pulse steroids (1 g methylprednisolone daily for 3 days) should be started. Furthermore, adding another immunosuppressive agents like cyclophosphamide (CYC) could be considered [50] . In refractory cases, intravenous immunoglobulin (IVIG), plasma exchange, or rituximab may help [51] [52] [53] . It has poor prognosis with mortality reaching 50% [54] . BAL showing eosinophilia and neutrophilia have worse prognosis than lymphocytosis. The prevalence ranges from <2% to 5.4% and it tends to recur. Furthermore, it occurs more frequently in lupus nephritis patients and with high levels of serum anti-DNA antibody. Usually presents with acute shortness of breath, cough, fever, and hemoptysis, although absence of hemoptysis dose not rule out DAH. The mean duration from onset of DAH to resolution of radiographic finding is 7.8 days. Physical examination reveals signs of respiratory distress and hypoxia. Supportive therapy (i.e., mechanical ventilation) plays a major rule since most patients are admitted to the intensive care unit (ICU) [55, 56] . However, if infection is ruled out or BAL suggest hemorrhage, physician should start pulse intravenous steroids (methylprednisolone 1 g/day for 3 days) followed by 60 mg/ day of oral prednisone plus intravenous CYC every 4 weeks (the CYC could be started after discharge from hospital) [55, 56] . In refractory cases, plasmapheresis is an effective alternative, which improves survival. Also, rituximab has shown promising results [56] [57] [58] . DAH has a very poor outcome with mortality ranges between 50% and 90% [55, 58] . Occurs in around 9% of SLE patients [59, 60] . Moreover, the most common ILD patterns are NSIP, UIP, and lymphocytic interstitial pneumonia (LIP). The initial presentation could be a dry cough. Other symptoms are shortness of breath and decreased exercise intolerance. Physical examination could reveal fine bibasilar crackles; however finger clubbing is rare. It is made by symptoms, signs, PFT, and HRCT collectively. Lung biopsy is not usually required unless such diagnosis is doubted. Chest radiograph may be normal at the beginning but then progresses to irregular linear opacities and marked interstitial markings. HRCT may show GGO without honeycombing in NSIP. On the other hand, reticular pattern with basilar honeycombing occurs in UIP with/without traction bronchiectasis. Moreover, 30% of asymptomatic patients could have abnormal HRCT findings. PFT may show restrictive pattern with low DLCO. Also, it does not correlate with the severity of ILD in HRCT. BAL is helpful in rolling out infection. While biopsy needed to confirm the subtype of ILD when HRCT is controversial. In mild cases, systemic corticosteroid (prednisone 60 mg/day for at least 4 weeks) could be used [56] . However, for moderate to severe cases, a combination therapy of oral glucocorticoids and AZA is a choice [60] . Furthermore, in severe cases, a combination of oral glucocorticoids and CYC could be considered [60] . ILD associated with SLE has better prognosis compared to the idiopathic forms [61] . [63] . Some clinicians use long-term low-dose aspirin as a primary prevention [64] . CAPS is usually treated by systemic glucocorticoids, immunosuppressants, plasmapheresis, and/or IVIg in addition to anticoagulation [56] . For CAPS, the mortality reaches 50% [65] . For definition of PAH, please see SSc-PAH. The duration of SLE, since diagnosis, does not correlate with the risk of development SLE-PAH. Its prevalence varies between 0.5% and 15% in SLE patients. Risk factors are Raynaud's phenomenon, which occurs in 75% of SLE-PAH [54] ; antiphospholipid antibodies (aPL), which present in 83% of SLE-PAH; and anti-U1 ribonuclear protein (RNP), which presents in >25% of SLE-PAH. Please see SSc-PAH. Due to the rarity of PAH in SLE, annual echocardiogram screening should be directed to women in childbearing age, pregnant ladies, patients with Reynaud's phenomenon, anticardiolipin antibody, and anti-U1 RNP antibody [66] . All patients should receive supportive therapy as needed (See SSc-PAH). On the other hand, mild PAH patients should receive immunosuppressive therapy alone, while moderate to severe PAH patients should receive PAH-specific therapy with or without immunosuppressive therapy [56] . PAH-specific therapies are effective in SLEassociated PAH specially epoprostenol, bosentan, sildenafil, ambrisentan, and tadalafil. They improved the 6MWT and functional class [67] [68] [69] [70] . Adding immunosuppressive therapy (e.g., IV CYC with or without oral glucocorticoids) showed improvement in 6MWT and lowered PAP [71] [72] [73] [74] . It's a rare complication of lupus, and patients usually present with acute and unexplained hypoxia and hypercapnia. Blood investigation may show high C3 levels. Chest radiograph could be normal. V/Q scan should show no evidence of PE. Lastly, arterial blood gases (ABG) shows increase alveolar-arterial (A-a) PO2 gradient. Furthermore, it responds quickly to high-dose systemic corticosteroids [75, 76] . It occurs in around 30% of SLE patients. Also, it involves laryngeal mucosal inflammation or ulceration, cricoarytenoiditis, vocal cord paralysis, necrotizing vasculitis, and angioedema. Patients usually present with hoarseness and/or dyspnea. Moreover, they could develop angioedema symptoms such as lip and mouth swelling, dysphagia, odynophagia, and breathing difficulty. Chest radiograph and CT scan are usually normal. PFT may show flattening of the inspiratory or expiratory loop or both depending on the location of the obstruction. Furthermore, 3-D reconstructive images are needed to locate the site of obstruction. Fibro-optic laryngoscopy or bronchoscopy is needed for direct visualization of the vocal cord. Corticosteroids are of benefit in laryngeal mucosal inflammation or ulceration and vocal cord paralysis [77, 78] . However, in refractory cases, infectious causes should be considered (e.g., Haemophilus influenzae and Streptococcus. Other rare pathogens are Histoplasma, Coccidioides, Cryptococcus, Blastomycosis, and Candida). Bronchiectasis HRCT findings suggestive of bronchiectasis occur in around 21% of SLE patients. However, patients usually are asymptomatic [79] . It's a rare complication of SLE, which is characterized by severe airflow obstruction which is mostly irreversible. Patients usually present with progressive shortness of breath. Moreover, chest HRCT Shows mosaic attenuation pattern that gets accentuated in the expiratory images. PFT shows obstructive pattern. Biopsy is rarely required. Furthermore, anticholinergics were reported to have favorable outcome when compared to systemic steroids and immunosuppressive therapy [80, 81] . It's an uncommon disorder, with a prevalence of 0.6-0.9% of SLE patients [80] [81] [82] , characterized by unexplained dyspnea, decreased lung volumes, elevated diaphragm, and restrictive PFT pattern in the absence of parenchymal lung disease. Patients usually present with shortness of breath aggravated by being in supine position. Pleuritic chest pain is also reported. Physical examination reveals diminished breath sounds at the lung bases with or without crackles. Chest radiograph and HRCT show elevation of both diaphragms and basal atelectasis without evidence of parenchymal lung disease. PFT shows restrictive pattern with preservation of DLCO when corrected for alveolar volume (DL/ VA). Also, respiratory muscle assessment could show reduced maximal inspiratory pressure (MIP) and stable maximal expiratory pressure (MEP). Oral glucocorticoids with or without other immunosuppressive therapy showed to be effective [83, 84] . Other options are AZA, methotrexate (MTX), CYC, and rituximab [82] [83] [84] [85] [86] [87] . Prognosis SLS has good prognosis when treated. Moreover, respiratory failure rarely occurs [64, 88] . It occurs in 4-15% of SLE patients. The most common cause of ARDS in SLE is sepsis. Other causes are ALP, DAH, and CAPS. Furthermore, it occurs more frequently in younger age group and is more progressive than in non-SLE patients. ARDS-related mortality contributes to 30% off all lupus deaths. Furthermore, mortality could reach up to 70%. The treatment is mainly supportive care. Most of the SLE infectious complications happen in patients who are on immunosuppressive therapy. It accounts for 30-50% of all SLE deaths. Furthermore, bacterial infections are the most common (75%) followed by mycobacterial (12%) then fungal infections (7%) and lastly viruses (5%). It could mimic ALP or DAH, so, careful diagnostic approach is recommended. The diagnosis is usually conducted by chest radiograph and HRCT and also BAL to differentiate infectious from non-infectious causes (Fig. 7.5 ). Since the incidence of PCP in SLE patients is very low (0.6%), it is not clear if all SLE patients on immunosuppressants should receive prophylaxis. But, at least patients at highest-risk of PCP infection (e.g., who receive biologic agents or immunosuppressants in addition to high dose daily steroid) should do so. The prophylactic drug of choice is trimethoprim-sulfamethoxazole (TMP-SMX) [89] . SLE patients are at increased risk of developing lung cancer. Furthermore, histologically, adenocarcinoma is the most common type (similar to the general population). However, there is a tendency for uncommon thoracic malignancies like carcinoids and bronchoalveolar carcinoma. Please refer to Table 7 .5. Rheumatoid Arthritis (RA) RA is an autoimmune disorder characterized by joint involvement in a chronic and symmetrical fashion. Pulmonary involvement considered one of the most frequent extraarticular manifestations together with the cutaneous involvement. Furthermore, around 10-20% of RA deaths are attributed to pulmonary causes. The most common pulmonary involvements are ILD, airway disease, rheumatoid nodule, and pleural effusion. 1. Pulmonary manifestations. 2. Parenchymal involvement. 3. Interstitial lung disease (ILD). It's the most common pulmonary manifestation of RA with a prevalence of 20-63% radiographically by HRCT. And up to 9.4% of the patients have clinically significant symptoms. Usually happens in a well-established RA disease. However, in around 20%, it could precede it. The most common patterns are UIP followed by NSIP then desquamative interstitial pneumonia (DIP) and organizing pneumonia (OP). Also, risk factors for that are older age group, male gender, history of cigarette smoking, high titer of rheumatoid factor (RF), and anti-cyclic citrullinated peptides (anti-CCP) [90] . Symptoms start to appear when lung function is greatly impaired. Moreover, pleuritic chest pain occasionally accompanied ILD symptoms. Please see SSc-ILD for more information. Chest radiograph might be normal in affected patients especially in early disease [91] . However, chest HRCT is the most important tool to diagnose early RA-ILD. UIP manifests as reticulation and honeycombing, while NSIP presents with GGO with/without bronchiectasis. The correlation between the radiographic and the histopathologic pattern is poor in NSIP [86] . Also, OP appears as diffuses patchy alveolar opacity and GGO. It's common to see different patterns simultaneously [90] . PFT may show restrictive pattern with declining of DLCO to be the earliest PFT sign [92, 93] . BAL might be utilized to rule out opportunistic infections, DAH, and/or drug reactions [86, 94, 95] . Biopsy is not recommended as a regular investigation unless the radiologic pattern is unclear and another treatment could make a difference [90] . Patients with mildly progressive disease should receive high dose prednisone [96] . However, there are anecdotal reports of using daily oral CYC and corticosteroids in rapidly progressive extensive disease [97] . There is also another regimen of monthly IV CYC combined with corticosteroids. In refractory cases, physician could use rituximab, infliximab, or tocilizumab. The routine use of these agents has not been established yet due to the lack of strong evidence and the questionable safety, which is under investigation [98] . Of note, PCP prophylaxis should be given. In general, RA-ILD has mild and slowly progressive nature. However, spontaneous resolution could happen [99] . When DLCO is <54%, it is suggestive of worse prognosis [99] . On the other hand, NSIP has better prognosis than UIP [100, 101] . It's the second most common pulmonary involvement in RA (after ILD) with a prevalence ranges between 5% and 22%. It usually occurs unilaterally and small to moderate in size; however, large effusions may occur. Moreover, it is associated with RA flares. Risk factors are smoking, previous pleurisy, rupture of subpleural nodule, and high effusion protein levels (prevents resorption). Mostly asymptomatic, but if not, dyspnea, fever, and chest pain (if pleurisy) are the main manifestations [102] . Chest radiograph shows blunting of costophrenic angles. Chest CT scan is more sensitive than chest radiograph. Furthermore, thoracentesis, if done, pleural fluid analysis could be diagnostic as following (Table 7 .4). Pleural biopsy may be considered when TB or malignancy is suspected or when thoracentesis is not diagnostic. Also, the parietal pleura are the mainly involved part rather than the visceral one. When biopsy is done, it shows absence of the normal mesothelial cells covering the pleura, and they are replaced by pseudostratified layer of epithelioid cells with giant cells [103] . If asymptomatic, mostly it will resolve spontaneously in up to 36 months. However, if symptomatic, for acute relief, a therapeutic thoracentesis could be done. If no need for acute treatment, then start with NSAIDs. After that, if failed, moderate dose of oral glucocorticoids (10-20 mg prednisolone daily), intrapleural corticosteroids, fibrinolytics, or immunosuppressive could be given. In refractory cases, pleurodesis (mechanical or chemical) is an option. The following complications may develop if pleural effusion is not treated. First of all, pleural fibrosis and lung entrapment, which could be treated by decortications. Moreover, bronchopleural fistula could develop, which intervention with video-assisted thoracoscopy (VATS) did not show effectiveness in RA. An open approach with thoracotomy and direct closure may be helpful. Lastly, empyema which can be treated with antibiotics (Usually it's polymicrobial infection) and drainage through chest tube. Worth mentioning, that bronchopleural fistula has been reported in the vast majority of the empyema cases in RA. It has lower prevalence than in other CTDs [104] . For presentation, diagnosis and treatment (see PAH in SSc). The cricoarytenoid joint function is to abduct and adduct the vocal cord when a person speaks. Good history taking could reveal upper airway symptoms in around two thirds of RA patients. The prevalence ranges between 26% and 55% with female predominance. Furthermore, joint abnormalities such as prominence, erosions, abnormal positioning of the vocal cord, and subluxation may occur [109] . Patients usually presents with hoarseness of the voice (reaching 30%), dyspnea, sore throat, fullness sensation in the throat, shocking, stridor, dysphagia, and odynophagia. PFT shows fixed or variable upper airway obstruction. CT scan shows the abnormalities such as prominence, erosions, abnormal positioning of the vocal cord, and subluxation. Laryngoscopy may show vocal cord dysfunction. When patients presented with chronic symptoms, clinicians should start with medical treatment such as systemic or intra-articular steroid, which both have shown benefit. However, surgical options (e.g., tracheostomy, arytenoidectomy, arytenoidopexy) should be considered only if medical treatment failed [110] . On the other hand, patients may present with acute manifestations such as severe stridor and should get emergent tracheostomy [111] . Excellent results occur with aggressive therapy [112] . Could mimic squamous cell carcinoma [111] . Prevalence ranges between 30% and 58% when elected by HRCT. However, only 1-5% of RA patients are symptomatic. Bronchiectasis usually is a late manifestation of RA, but it can precede the articular involvement. Furthermore, presentation and management is like any other bronchiectasis without rheumatoid arthritis. It occurs in about 60% of RA patients when documented by spirometry. Recurrent airway infections and smoking could precipitate airway disease in RA. Patients usually present with wheeze and productive cough. Furthermore, PFT may shows obstructive pattern. However, HRCT is more sensitive than PFT in detecting the obstruction. It shows air trapping, attenuation in lung heterogeneity, and bronchiectasis. The treatments are mainly inhaled corticosteroids and bronchodilators. It's a clinically progressive small airway disease, which is characterized by narrowing, ulceration, and scarring of the respiratory and terminal bronchioles. The prevalence varies between 8% and 65%. Also, risk factors are female gender, long-standing RA, D-penicillamine, gold salt, and methotrexate use [113, 114] . Progressive dyspnea and dry cough are the most common presentations, while physical examination reveals inspiratory crackles and squeaks. PFT shows progressive irreversible airflow obstruction. However, HRCT is more sensitive than PFT in detecting the disease. It may show air trapping (mosaic pattern of regions of low attenuation which get accentuated on expiratory images). BAL is done to rule out infections if suspected, while biopsy shows airway narrowing, ulceration, scarring, and lymphoplasmacytic infiltrate. Up to 32% of rheumatoid nodule occurs in the lungs. Also, because the most common site in the respiratory system is subpleural or interlobular, it could present by many different ways such as pneumothorax, cavities, pleural effusion, empyema, and bronchopleural fistula. Furthermore, it could be solitary or multiple nodules. On the other hand, radiologically, it could mimic nonsmall cell lung cancer. So, physicians should be meticulous when approaching such patients specially when there is history of smoking. Also, histologically, it has a great overlap with granulomatous diseases. For that, biopsy should be interpreted very carefully [120] . Risk factors for rheumatoid nodule are with male gender, positive rheumatoid factor (RF), long-standing disease (but may precede the diagnosis of RA), and smoking. Mostly asymptomatic. However, if symptomatic, it depends on the complication, e.g., cavities present with hemoptysis, pneumothorax presents with dyspnea and chest pain, pleural effusion presents with dyspnea, empyema presents with dyspnea and fever, and bronchopleural fistula presents with productive cough, dyspnea, and fever occasionally. Chest radiograph may show nodule but always should compare with previous chest radiographs to notice any changes in size or shape. Also, HRCT will give better details and physician should look for size, shape, lymph nodes, and effusions. It could be solid or as a cavity. If no complications, spontaneous resolution is the usual natural history. Moreover, rituximab has shown effectiveness in its resolution. However, if complicated, treat accordingly (e.g., if secondary pneumothorax happened, it's better to perform surgical intervention to prevent recurrence). It occurs in RA patients who get exposed to coal, silica, asbestos, and ceramics industry and roof tiles products. Furthermore, it characterized by rapid-onset lung nodules and could mimic TB or neoplasm. It occurs more commonly in Europe than in the United States. Also, it's more common in positive RF patients and in male. Most of the time patients are asymptomatic unless complicated by pneumothorax, pleural effusion, or progressive massive fibrosis, which is uncommon; they would present with dyspnea and/or chest pain. Also, rarely, patients may present with hemoptysis or Aspergillus colonization. Chest radiograph shows well-defined nodules starting from 0.5 cm in diameter and larger. Also, it could cavitate or calcify. Usually present in lung periphery [121] . HRCT may have a role in following up and detection of changes. Biopsy, since it could mimic TB or neoplasm, it is often done specially when there is high index of suspicion. There is no specific treatment, although some studies showed improvement when using corticosteroids when the lesions are compressive or rap-idly progressive [122] . However, if complicated, treat accordingly. It takes few weeks or months until nodules reach the final size. Usually, they remain at the final size for many years or may heal but leave behind an asteroid scar. Only 10% of the cavitations and the calcifications emerge. It's clear that lung infections is increased in RA patients since pneumonia is twice more common than in general population. However, it's very difficult to make sure if the risk of infection is due to RA itself or the immunosuppressive agents used to treat RA. Immunosuppressive agents and risk of infection: • Corticosteroids: It increases the risk of pneumonia by dose-depending mechanism. For most of patients, a dose of more than 10 mg/ day is sufficient to cause it [123] [124] [125] [126] . • MTX: With or without corticosteroids, it makes patients at risk of developing opportunistic infections, e.g., PCP and disseminated histoplasmosis [124, 127] . Usually occurs in the first 2 years of initiation the MTX [124] . • Anti-tumor necrosis factor-alpha (TNF-a): Exposes patients to risk of many opportunistic infections, most importantly Mycobacterium tuberculosis (TB). Others like coccidioidomycosis, histoplasmosis, listeria, aspergillus, and norcodia have been reported [128] . Before initiating the treatment with any of the following biologic agents (adalimumab, [129] . Of note, if patient is already on glucocorticoids, induration of 5 mm is considered positive [90] . For further reading, please see Infectious Disease Chap. 11. RA patients are at increased risk for developing lung cancer and lymphoma. The reason is not clear. But, a proposed theory could be due to RA itself, smoking, immunosuppressive therapy, or because RA is a middle age disease, which equals to the age at which cancers usually detected. Once mediastinal lymph node is detected, biopsy has to be undertaken as soon as possible. Usually happens due to medication toxicity, rheumatoid vasculitis, and rheumatoid myositis. Physicians should suspect it when patients have progressive dyspnea with unclear cause and no improvement with treatment. Risk factors are the use of D-penicillamine and hydroxychloroquine. Blood tests show creatine-kinase (CK) within the normal limits. PFT show restrictive pattern. Also, FVC and VC in supine position is reduced by more than 10% than in upright. Furthermore, maximal inspiratory pressure (MIP) and maximal expiratory pressure (MEP) are reduced. DLCO is normal unless another pathology present. Biopsy may be needed to confirm the diagnosis. It's a rare complication of rheumatoid arthritis and usually occurs in the apical part of the lung. It could be a complication of a rheumatoid nodule even in the absence of a radiological evidence. Secondary amyloidosis, which involves lungs, has been reported. It could present as nodules, ILD, or tracheobronchomalacia. It's an autoimmune disease characterized by involvement of exocrine glands through infiltration of lymphocytes. A clinically significant pulmonary manifestation occurs in around 9-24% of SS patients. Also, pulmonary involvements in asymptomatic SS patients who were detected by PFT, CT scan, or BAL reach 75% of patients. Also, pulmonary manifestations usually occur late in the disease course. Furthermore, if they were clinically significant, it could increase the risk of mortality by fourfold [130] . Risk factors for pulmonary involvement are positive rheumatoid factor, hypergammaglobulinemia, positive anti-Ro and anti-La, and decreased FVC and FVC1, smoking, elderly patients, and male sex. Overall, rituximab is a promising drug to treat SS and its extra-glandular manifestations (because it targets B lymphocytes), unlike anti-TNF drugs. • Pulmonary manifestations. • Airway involvement. • Upper airway. • Nasal crusting. Around 18.5% of SS patients complain of nasal crusting. It is found in 50% during physical exam. The treatment usually consists of the use of room humidifiers and saline nasal spray as needed. It occurs in around 31.8% of patients with SS. The treatment is the same as for any patient with epistaxis. This occurs in about 1/3 of SS patients. The diagnosis is done by laryngoscopy, which shows most commonly dryness or thick mucus covering the vocal cords. However, rarely, the presence of Bamboo node, which is a transverse yellow or white submucosal lesion, occurs in the vocal folds. Also, granulomatous and nongranulomatous nodules have been reported. Usually developed due to structural of functional disability of the mucociliary cells to clear the thickened secretions. It occurs in around 17% of SS patients. Those usually presents almost always with dry cough. Chest radiograph, HRCT, and PFT are normal. On the other hand, recurrent bronchitis, bronchopneumonia, atelectasis, and peribronchial and peribronchiolar scarring and narrowing might occur as complications. It's a benign lymphoproliferative disorder, characterized by hyperplasic lymphoid follicles distributed along the bronchioles and the peribronchiolar interstituim unlike the LIP, which involves the whole parenchyma. It is a histopathological diagnosis; however, it could be suspected by history, CT scan, and PFT results. It's a common manifestation of SS. Usually, patients present with cough, dyspnea, and sometimes fever. CT scan shows bilateral peribronchial and centrilobular nodules with size range between 1 and 3 mm but could reach up to 12 mm. Other findings are reticular opacities, GGO, and intrathoracic lymphadenopathy. Furthermore, PFT usually shows restrictive pattern but also could be obstructive pattern or both. Biopsy shows hyperplasic lymphoid follicles distributed along the bronchioles and the peribronchiolar interstitium. Primary treatment of SS could be enough. However, systemic corticosteroid is shown to be effective [131] . Has good prognosis when treated with corticosteroid. It is found to be more prevalent in SS patients through their disease course, especially smokers, who have 5 times higher chance compared to non-smokers to develop COPD [132] . It's the most common pulmonary manifestations of SS. Furthermore, the most common subtype are NSIP followed by lymphcytic interstitial pneumonia (LIP) then UIP and lastly OP. It is more common when patients have anti-Ro antibodies. It occurs in about 28-61%. Presentation is usually chronic dyspnea. Chest radiograph may show bilateral interstitial infiltrates. PFT shows restrictive pattern with decreased DLCO. HRCT shows GGO (with subpleural and basilar predominance). Furthermore, reticular abnormalities with or without traction bronchiectasis could be found. Honeycombing happened with advanced disease. BAL is done to rule out infection when suspected. Biopsy shows uniform or homogenous pattern of cellular inflammation and/or fibrosis of the alveolar walls. Moreover, no need for treatment if patients are asymptomatic. However, if symptomatic with worsening symptoms, physician could give steroids (prednisone 1 mg/kg/day) [133] . Also, if refractory, immunosuppressive therapy (commonly AZA. Rarely CYC or cyclosporines) could be used [134] [135] [136] [137] . The prognosis depends on the extent of fibrosis. The less fibrosis, the better prognosis [132] . It's one of the most common pulmonary manifestations of SS. It has potentials to progress into lymphoma. Thus, biopsy should always be considered if there is no response to standard therapy. The prevalence is 17% among SS patients who develop ILD [133] with female predominance [138] . Patients usually present with dyspnea and cough and, also, less commonly fever, weight loss and night sweat. Blood tests show polyclonal hypergammaglobulinemia (80% of cases). Chest radiograph may show bilateral reticular or reticulonodular opacities, more commonly in the lower zones. HRCT shows diffuse GGO and walled cysts (in 50% of cases). Also, interlobular septal thickening, centrilobular nodules, and bronchovascular bundle could be seen. PFT show restrictive pattern with low DLCO. BAL is done to rule out infection if suspected. Again, since it could progress to lymphoma, biopsy should always be considered if there is no response to standard therapy. Histopathology reveals infiltration of the interstitial septa and, sometimes, filling of the alveolar space by lymphocyte (B&T cells), plasma cells, and histiocytes. Patients usually treated with corticosteroids (start with prednisone 0.75-1.0 mg/ kg/day then taper slowly for the following 3-6 months) [139] [140] [141] . Furthermore, initially, it responds well to corticosteroids. However, up to 1/3 of patients die due to progression of disease or due to the infectious complications resulted from the intensive immunosuppression therapy [142] . Rarely it could resolve spontaneously. to lymphoma [145] . This benign lymphocytic infiltration is characterized by polyclonal B and T lymphocytes proliferation. Moreover, the most common type of lymphoma in SS patients is non-Hodgkin's lymphoma with a subtype of mucosaassociated lymphoid tissue (MALT) [145] , while the most common pulmonary lymphoma is the low-grade extranodal marginal B-cell lymphoma of MALT type [145] . Risk factors are hypocomplementemia, cryoglobulinemia, vasculitis (palpable purpura), and severe exocrine involvement at time of diagnosis of SS [145] . 80% are asymptomatic at time of lymphoma diagnosis due to the incidental finding in radiological studies. If symptomatic: dyspnea, cough, weight loss, fatigue and sweat. Chest CT scan manifests as nodules (solitary or multiple), bilateral diffuse infiltrate, interstitial infiltration with slight lower zone predominance, mediastinal lymphadenopathy, and pleural effusion (usually do not occur alone rather happen with the parenchymal involvement). Furthermore, biopsy shows most commonly a non-Hodgkin's low-grade extranodal marginal B-cell lymphoma of MALT type [145] . Also, it has good prognosis with 5-year survival of more than 80% [146] . Of note, progression to high-grade lymphoma occasionally happens [145] . It's a rare and benign entity, also called pulmonary nodular lymphoid hyperplasia or bronchusassociated lymphoid tissue (BALT). It is characterized by infiltration of polyclonal lymphocyte and plasma cells. Usually it's asymptomatic but could present with dyspnea and cough. CT scan typically shows solitary nodule. However, less frequently, multiple nodules, which involve blood vessels, consolidation, mediastinal lymph node and/or pleural effusion, could be seen. Biopsy usually reveals bronchusassociated lymphoid tissue (BALT). Furthermore, corticosteroids or immunosuppressive therapy could be given [147] . It has good prognosis when treated [147] . However, rarely transforms into lymphoma. Its prevalence is around 0.6%, and patients' presentation depends on the location such as larynx, trachea, bronchi, interstitium, and/or mediastinum. CT scan shows micronodular lesions (could be calcified or cavitary) predominantly in the subpleural area and in the lower lobes, while biopsy shows positive amyloid staining. The prognosis is usually good [148, 149] . Mixed Connective Tissue Disease (MCTD) It was first described in 1972 and defined as a combination of SSc, SLE, and polymyositis/dermatomyositis (PM/DM) with positive antiribonucleoprotein (Anti-RNP It occurs in around 50-65% of MCTD patients [150] . Also, esophageal dilatation is a risk factor for developing ILD [151] . Please see ILD in SSc. In early stages, PFT shows reduction in DLCO only. Then, in late stages, it shows restrictive pat-tern with low DLCO. HRCT shows septal thickening, GGO, and non-septal linear opacities with predominance in the periphery or within the lower lobe. Also, in fact, no study encountered pathological findings, but thought to be NSIP and UIP. Physician should start corticosteroid (methylprednisolone 2 mg/kg/day) for 4-6 weeks then assess, if no improvement add CYC oral or IV to complete 6 months [152] . Good prognosis (in terms of preventing further progression of the disease) if treated during the acute inflammatory phase (GGO). Once signs of fibrosis on HRCT present, the response will be poor. It's an uncommon manifestation. Also, for presentation, diagnosis, and treatment refer to SLEassociated DAH. Prevalence ranges between 3.4% and 27%. Furthermore, for presentation, diagnosis, screening and treatment, see SSc-PAH. It's the most common pulmonary complication, which reaches up to 65% when screened by CXR, HRCT, or PFT. Furthermore, it can present as an acute, chronic, or asymptomatic with radiological findings only. When it is symptomatic, more than 60% of patients present with cough and dyspnea and normal radiograph, HRCT, or PFT. Also, it is more common in DM than in PM. However, recently, a new subtype of DM has been reported, the clinically amyopathic dermatomyositis (CADM), which is DM without muscle involvement. This subset, when associated with anti-CADM-140 antibodies, associated with higher prevalence of rapidly progressive ILD. Risk factors are positive antihistidyl tRNA synthetase antibody (anti-Jo-1), Krebs Von den Lungen-6 (KL-6), serum surfactant protein D, serum cytokeratin 19 fragment (CK- 19) , and anti-CADM-140 antibody (which associated with rapidly progressive ILD). All of them aren't present in every center as a routine test. Patients usually present with dyspnea and cough. PFT shows restrictive pattern with low DLCO. While HRCT could shows NSIP, UIP, OP, or DAD pattern. BAL to rule out infection or drug-induced pneumonitis. Biopsy is rarely needed because the HRCT findings correlate well with histopathology. Although transbronchial lung biopsy is inferior to open lung biopsy, it is a good choice if opportunistic infection or neoplasms are suspected because open lung biopsy associated with high mortality rate. Most commonly, corticosteroids with (CYC, AZA, cyclosporines) are given [154] [155] [156] [157] [158] [159] [160] [161] . However, IVIG alone or with corticosteroids has shown good results in progressive disease [162, 163] . Also, tacrolimus and rituximab, individually, are promising drugs [164] [165] [166] . Anti-tumor necrosis factor-alpha (Anti-TNF-a) and MTX are less likely to be effective. In fact, they may induce irreversible lung fibrosis [167] . Prognosis ILD in PM/DM increases mortality. A 5-year survival ranges between 60% and 86% [168, 169] . Also, worse prognosis is expected with DM compared to PM. Furthermore, when corticosteroids combined with other immunosuppressive therapy, approximately 1/3 of the patients will improve, 1/3 will remain the same, and 1/3 will deteriorate [154] . Moreover, rapidly progressive ILD has fatal outcome with 3-year survival of around 24% [170] . It occurs in around 17% [171] of PM/DM patients and is related to the dysfunction happens to the pharynx and esophagus muscles which lead to abnormal swallowing and frequent regurgitation. Risk factors are severe muscle disease [172] . Furthermore, investigations and treatment are like any other case of aspiration pneumonia. Occasionally happens. For, presentation, diagnosis, and treatment, see SSc-PAH. and Pneumomediastinum and Subcutaneous Emphysema They occur in two different clinical scenarios. The first one is vasculopathy with or without mild ILD (vasculopathy such as skin ulcers or bronchial wall necrosis). The second one is severe ILD with or without vasculopathy. Whenever one of these complications (PNX, pneumomediastinum, or subcutaneous emphysema) happens, one should suspect pulmonary vasculitis. Diagnosis is made by chest radiograph and chest CT scan. Moreover, physicians should start corticosteroid and immunosuppressive therapy together at the beginning then taper the steroid gradually [173] . This happens due to severe respiratory muscle weakness with prevalence around 21.8% [171] . PFT shows restrictive pattern. Furthermore, FVC and VC in supine position are reduced by more than 10% than in upright. Also, maximal inspiratory pressure (MIP) and maximal expiratory pressure (MEP) are reduced. DLCO is normal unless another pathology is present. Chest radiograph may show decreased lung volumes, elevated diaphragms, and basal atelectasis. Atelectasis and recurrent pneumonia may develop due to mucus plugging because of reduced cough reflex secondary to respiratory muscle weakness. Physicians should start immunosuppressive therapy. However, if failed, home mechanical ventilation could be used which could saves life and improves the quality of life. There may be an association between lung cancer and myositis, especially DM. 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A life-table study of 124 patients A case of dermatomyositis complicated with pneumomediastinum Acknowledgments The Authors would like to thank Amr A. Telmesani, MD, for his contributions to this chapter in the previous edition. It's a very rare manifestation of SS. Therefore, when present, one should think of a secondary cause (i.e., in the setting of secondary SS), e.g., RA or SLE. Usually occurs bilaterally, but a unilateral presentation could happen. Pleural fluid analysis should be done for diagnosis (Table 7 .4). It's a rare complication and usually occurs due to pulmonary artery vasculitis. Also, occasionally, it co-exists with Raynaud's phenomenon. Risk factors are Raynaud's phenomenon, ILD, skin vasculitis, hypergammaglobulinemia, positive anti-Ro, positive RF, and positive antiribonucleoprotein (anti-RNP) antibodies. Moreover, for presentation and diagnosis (see PAH in SSc). The mainstay of treatment is the use of PAH specific treatment (endothelin receptor antagonists, phosphodiesterase type 5 inhibitors, or prostanoids) with/without immunosuppressive therapy [143] . The risk of SS patients to develop lymphoma in general, not only pulmonary lymphoma, is 44 times compared with healthy population [144] , while pulmonary lymphoma prevalence is 1-2% among SS patients [145] . Furthermore, SS patients could develop benign lymphocytic infiltration, like in LIP, and this in turn could progress It's a common manifestation of MCTD with prevalence about 50% [153] . Pleural fluid analysis is usually exudative and with lymphocytic predominance. Moreover, it usually resolves spontaneously. However, if it persists, then a trial of corticosteroid could be effective.