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Silicosis

Silicosis (also known as Grinder's disease) is a form of pneumoconiosis caused by inhalation of crystalline silica dust, and is marked by inflammation and scarring in forms of nodular lesions in the upper lobes of the lungs. more...

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Silicosis (especially the acute form) is characterized by shortness of breath, fever, and cyanosis (bluish skin). It may often be misdiagnosed as pulmonary edema (fluid in the lungs), pneumonia, or tuberculosis.

This respiratory disease was first recognized in 1705 by Ramazzini who noticed sand-like substances in the lungs of stonecutters. The name silicosis (from the latin silex or flint) was attributed to Visconti in 1870.

Silica

Silica is the second most common mineral on earth. It is found in concrete, masonry, sandstone, rock, paint, and other abrasives. The cutting, breaking, crushing, drilling, grinding, or abrasive blasting of these materials may produce fine silica dust. It can also be in soil, mortar, plaster, and shingles. Silicosis is due to deposition of fine dust (less than 1μm in diameter) containing crystalline alpha-quartz silica or silicon dioxide.

The induction period between initial silica exposure and development of radiographically detectable nodular silicosis is usually 10 years. Shorter induction periods are associated with heavy exposures, and acute silicosis may develop within 6 months to 2 years following massive silica exposure.

Pathology

When the small silica dust particles are breathed into the lungs, they can embed themselves deeply into the tiny alveolar sacs and ducts where oxygen and carbon dioxide gases are exchanged. There, the lungs cannot clear out the dust by mucous or coughing.

When fine particles of silica dust are deposited in the lungs, macrophages that ingest the dust particles will set off an inflammation response by releasing tumor necrosis factor, interleukin-1, leukotriene B4 and other cytokines. In turn, these stimulate fibroblasts to proliferate and produce collagen around the silica particle, thus resulting in fibrosis and the formation of the nodular lesions.

Furthermore, the surface of silicon dust can generate silicon-based radicals that lead to the production of hydroxyl and oxygen radicals, as well as hydrogen peroxide, which can inflict damage to the surrounding cells.

Characteristic lung tissue pathology in nodular silicosis consists of fibrotic nodules with concentric "onion-skinned" arrangement of collagen fibers, central hyalinization, and a cellular peripheral zone, with lightly birefringent particles seen under polarized light. In acute silicosis, microscopic pathology shows a periodic acid-Schiff positive alveolar exudate (alveolar lipoproteinosis) and a cellular infiltrate of the alveolar walls.

Prevalence

Although silicosis has been known for centuries, the industrialization of mining has lead to an increase in silicosis cases. In the United States, a 1930 epidemic of silicosis due to the construction of the Hawk's Nest Tunnel near Gauley Bridge, West Virginia caused the death of more than 400 workers.

Read more at Wikipedia.org


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An unusual complication of pulmonary silicosis
From CHEST, 10/1/05 by Theodossis Zacharis

INTRODUCTION: Silica can trigger autoimmune diseases via production of autoantibodies (1). We describe a case of pulmonary silicosis complicated by microscopic polyangiitis.

CASE PRESENTATION: A 42-year-old Caucasian male was admitted to the hospital with hematuria associated with fevers, night sweats and fifteen pounds weight loss of three months duration. Simultaneously, he had a non-productive cough. Past medical history was only significant for cigarette smoking. He was not on any medications. He worked as a stonecutter, cutting blue sandstone in his backyard for 15 years without using any protective equipment. He was afebrile, normotensive and non-distressed. Oxygen saturation was 96% on room air. Chest auscultation revealed crackles diffusely. Digital clubbing was present. Urinalysis showed red blood cells and red blood cell casts. Serum creatinine was 3.5 mg/dL and hemoglobin was 8.6 g/dL. Erythrocyte sedimentation rate was 146 mm/h and antinuclear antibodies titer was 1:320. Anti double-stranded DNA antibodies, anti-glomerular basement membrane antibodies and antistreptolysin-O antibodies were all negative. Antineutrophil cytoplasmic antibodies against myeloperoxidase (P-ANCA) titer was positive at 1:640. Chest radiograph showed diffuse micronodular infiltrates along with calcified hilar and mediastinal lymphadenopathy (figures 1 and 2). Transbronchial biopsies revealed fibro-inflammatory changes involving the alveolar septae. Examination under polarized light demonstrated refractile material (figure 3). Energy Dispersive X-ray Analysis indicated the presence of silica. A percutaneous kidney biopsy demonstrated necrotizing crescentic glomerulonephritis, a renal form of microscopic polyangiitis (figure 4). Diagnosis: pulmonary silicosis with P-ANCA associated microscopic polyangiitis. The patient was treated with prednisone and cyclophosphamide with resolution of his hematuria and stabilization of his renal function.

[FIGURES 1-4 OMITTED]

DISCUSSIONS: Silicosis is a disease produced by inhalation of crystalline silica, most commonly quartz. Blue sandstone contains 50% quartz (2). Silica containing compounds have an adjuvant effect on immune responses and are potent stimulators of lymphocytes and monocytes or macrophages. Silicosis has been associated with different connective tissue diseases. Branwell in 1914 reported a relation between scleroderma and silica exposure. Caplan in 1953 described an association between rheumatoid arthritis and silicosis. Silica exposure has been associated with a high prevalence of autoantibodies such as antinuclear antibodies, rheumatoid factor and antineutrophil cytoplasmic antibodies (ANCA) (1,3). The antigens targeted by ANCA have been identified as either myeloperoxidase (P-ANCA) or proteinase-3 (C-ANCA). Patients with ANCA-associated vasculitis have 4.4 times greater odds ratio for silica exposure compared with control subjects (4). Six cases of suspected microscopic polyangiitis have been described in patients with pulmonary silicosis before 1990 with unknown ANCA titers (5). Three cases of P-ANCA associated microscopic polyangiitis have been reported in patients with pulmonary silicosis since 1994 (5,6,7).

CONCLUSION: We report a case of pulmonary silicosis with P-ANCA associated microscopic polyangiitis. Our case is unique in that both diagnoses are definitively proven histologically. Exposure to silica should be considered in the history of patients with autoimmune diseases. Furthermore patients with pulmonary silicosis may develop ANCA-associated vasculitis in extrapulmonary sites.

REFERENCES:

(1) Rosenman KD, et al. Connective Tissue Disease and Silicosis. Am J Ind Med 1999;35:375-381

(2) Reginald Hardy Jr, H et al. A study of the physical properties of Pennsylvania bluestone. Department of Mineral Engineering the Pennsylvania State University. RML-IR/72-18.

(3) Wichmann I, et al. Antimyeloperoxidase antibodies in individuals with occupational exposure to silica. Ann Rheum Dis 1996;55:205-207.

(4) Hogan SL, et al. Silica Exposure in Anti-Neutrophil Cytoplasmic Antibody-Associated Glomerulonephritis and Lupus Nephritis. J Am Soc Nephrol 2001;12:134-142.

(5) Tervaert JWC, et al. silicon exposure and vasculitis. Curr Opin Rheumatol 1998;10:12-17.

(6) Baik JJ, et al. Two patients with microscopic polyangiitis and unusual pulmonary manifestation. Respirology 2002;7:73-76.

(7) Mulloy KB, et al. Silica Exposure and Systemic Vasculitis. Environ Health Persp 2003;111:1933-1938.

DISCLOSURE: Theodossis Zacharis, None.

Theodossis Zacharis MD * Scott H. Beegle MD Alida Hayner-Buchan MD Albany Medical College, Albany, NY

COPYRIGHT 2005 American College of Chest Physicians
COPYRIGHT 2005 Gale Group

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