Imaging in Occupational and Environmental Lung Disease

Springer Science and Business Media LLC - Tập 9 - Trang 63-73 - 2020
Pejman Rabiei1, Emma C. Ferguson1, Mina F. Hanna1, Erika G. Odisio1, Rosa M. Estrada-Y-Martin2, Daniel Ocazionez1,3
1Department of Diagnostic and Interventional Imaging, University of Texas Health Science Center at Houston, Houston, USA
2Division of Critical care, Pulmonary, and Sleep Medicine, McGovern Medical School - University of Texas Health Science Center at Houston, Houston, USA
3Department of Diagnostic and Interventional Imaging, Cardiothoracic Section, University of Texas Health Science Center at Houston, Houston, USA

Tóm tắt

This review article aims to highlight the common and uncommon imaging features of work-related and environmental lung disease to help the clinicians suspect diagnosis in patients with occult or known exposures to inhalational potent substances. Occupational and environmental lung disease are the most frequent work-related illness in the USA with a recent resurgence mainly due to inadequate exposure control, prolonged working hours, developing industries, and new antigens. Failure to accurately diagnose and promptly manage these lung disorders can lead to long-term and irreversible health conditions. Several case reports have documented misdiagnosis of these lung disorders which could be due to underestimation of their prevalence. It is critical for radiologist and clinicians to recognize the classic and uncommon imaging features of occupational and environmental lung diseases. Accurate elicitation of occupational history is a key point for differentiation in this patient population.

Tài liệu tham khảo

Champlin J, Edwards R, Pipavath S. Imaging of occupational lung disease. Radiol Clin N Am. 2016;54:1077–96. Seaman DM, Meyer CA, Kanne JP. Occupational and environmental lung disease. Clin Chest Med. 2015;36:249–68. viii–ix. Blackley DJ, Halldin CN, Laney AS. Resurgence of a debilitating and entirely preventable respiratory disease among working coal miners. Am J Respir Crit Care Med. 2014;190:708–9. De Matteis S, Heederik D, Burdorf A, Colosio C, Cullinan P, Henneberger PK, et al. Current and new challenges in occupational lung diseases. Eur Respir Rev. 2017;26:170080. Larici AR, Mereu M, Franchi P. Imaging in occupational and environmental lung disease. Curr Opin Pulm Med. 2014;20:205–11. Smargiassi A, Pasciuto G, Pedicelli I, Lo Greco E, Calvello M, Inchingolo R, et al. Chest ultrasonography in health surveillance of asbestos-related lung diseases. Toxicol Ind Health. 2017;33:537–46. Karkhanis VS, Joshi JM. Pneumoconioses. Indian J Chest Dis Allied Sci. 2013;55:25–34. Kim KI, Kim CW, Lee MK, Lee KS, Park CK, Choi SJ, et al. Imaging of occupational lung disease. Radiographics. 2001;21:1371–91. Huang Y-CT, Ghio AJ, Maier LA. A clinical guide to occupational and environmental lung diseases. 2012 edition. Humana; 2012. Gevenois PA, De Vuyst P. Imaging of occupational and environmental disorders of the chest. 2006 edition. Springer; Softcover reprint of the original 1st ed; 2016. Akira M. Imaging of occupational and environmental lung diseases. Clin Chest Med. 2008;29:117–31. vi. Collins J. CT signs and patterns of lung disease. Radiol Clin N Am. 2001;39:1115–35. Karthikeyan D. High resolution computed tomography of the lungs: a practical guide. 2 edition. Jaypee Brothers Medical Pub; 2013. Boitsios G, Bankier AA, Eisenberg RL. Diffuse pulmonary nodules. AJR Am J Roentgenol. 2010;194:W354–66. Batra K, Aziz MU, Adams TN, Godwin JD. Imaging of occupational lung diseases. Semin Roentgenol. 2019;54:44–58. Rimal B, Greenberg AK, Rom WN. Basic pathogenetic mechanisms in silicosis: current understanding. Curr Opin Pulm Med. 2005;11:169–73. Sirajuddin A, Kanne JP. Occupational lung disease. J Thorac Imaging. 2009;24:310–20. Arakawa H, Honma K, Saito Y, Shida H, Morikubo H, Suganuma N, et al. Pleural disease in silicosis: pleural thickening, effusion, and invagination. Radiology. 2005;236:685–93. Ferreira AS, Moreira VB, Ricardo HMV, Coutinho R, Gabetto JM, Marchiori E. Progressive massive fibrosis in silica-exposed workers. High-resolution computed tomography findings. J Bras Pneumol. 2006;32:523–8. Criado E, Sánchez M, Ramírez J, Arguis P, de Caralt TM, Perea RJ, et al. Pulmonary sarcoidosis: typical and atypical manifestations at high-resolution CT with pathologic correlation. Radiographics. 2010;30:1567–86. Cox CW, Rose CS, Lynch DA. State of the art: imaging of occupational lung disease. Radiology. 2014;270:681–96. Nachiappan AC, Rahbar K, Shi X, Guy ES, Mortani Barbosa EJ, Shroff GS, et al. Pulmonary tuberculosis: role of radiology in diagnosis and management. Radiographics. 2017;37:52–72. Sahin H, Kaproth-Joslin K, Hobbs SK. Hypersensitivity pneumonitis. Semin Roentgenol. 2019;54:37–43. Ozkan M, Ayan A, Arik D, Balkan A, Ongürü O, Gümüş S. FDG PET findings in a case with acute pulmonary silicosis. Ann Nucl Med. 2009;23:883–6. Nakládalová M, Štepánek L, Kolek V, Žurková M, Tichý T. A case of accelerated silicosis. Occup Med (Lond). 2018;68:482–4. Perret JL, Plush B, Lachapelle P, Hinks TSC, Walter C, Clarke P, et al. Coal mine dust lung disease in the modern era. Respirology. 2017;22:662–70. Naeye RL, Dellinger WS. Coal workers’ pneumoconiosis. Correlation of roentgenographic and postmortem findings. JAMA. 1972;220:223–7. Mazurek JM, Wood J, Blackley DJ, Weissman DN. Coal workers’ pneumoconiosis-attributable years of potential life lost to life expectancy and potential life lost before age 65 years - United States, 1999-2016. MMWR Morb Mortal Wkly Rep. 2018;67:819–24. Blackley DJ, Reynolds LE, Short C, Carson R, Storey E, Halldin CN, et al. Progressive massive fibrosis in coal miners from 3 clinics in Virginia. JAMA. 2018;319:500–1. Martínez-Jiménez S, Rosado-de-Christenson ML, Carter BW. Specialty imaging: HRCT of the lung. 2 edition. Elsevier; 2017. Jelic TM, Estalilla OC, Sawyer-Kaplan PR, Plata MJ, Powers JT, Emmett M, et al. Coal mine dust desquamative chronic interstitial pneumonia: a precursor of dust-related diffuse fibrosis and of emphysema. Int J Occup Environ Med. 2017;8:153–65. Williams JL, Moller GA. Solitary mass in the lungs of coal miners. Am J Roentgenol Radium Therapy, Nucl Med. 1973;117:765–70. Norbet C, Joseph A, Rossi SS, Bhalla S, Gutierrez FR. Asbestos-related lung disease: a pictorial review. Curr Probl Diagn Radiol. 2015;44:371–82. Laney AS, Weissman DN. The classic pneumoconioses: new epidemiological and laboratory observations. Clin Chest Med. 2012;33:745–58. Akira M, Yamamoto S, Inoue Y, Sakatani M. High-resolution CT of asbestosis and idiopathic pulmonary fibrosis. AJR Am J Roentgenol. 2003;181:163–9. Arakawa H, Kishimoto T, Ashizawa K, Kato K, Okamoto K, Honma K, et al. Asbestosis and other pulmonary fibrosis in asbestos-exposed workers: high-resolution CT features with pathological correlations. Eur Radiol. 2016;26:1485–92. Roach HD, Davies GJ, Attanoos R, Crane M, Adams H, Phillips S. Asbestos: when the dust settles an imaging review of asbestos-related disease. Radiographics. 2002;22:Spec No:S167–84. Gulati M, Redlich CA. Asbestosis and environmental causes of usual interstitial pneumonia. Curr Opin Pulm Med. 2015;21:193–200. Abeyratne R, Wills P, Dubrey SW. Asbestos-related pleural plaques: significance and associations. BMJ Case Rep [Internet]. 2013 [cited 2020 Feb 29];2013 Available from: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3618841/ Carette M-F. Follow-up of subjects occupationally exposed to asbestos: MRI and PET scans. Rev Mal Respir. 2012;29:529–36. Epler GR, McLoud TC, Gaensler EA. Prevalence and incidence of benign asbestos pleural effusion in a working population. JAMA. 1982;247:617–22. Lacasse Y, Selman M, Costabel U, Dalphin J-C, Morell F, Erkinjuntti-Pekkanen R, et al. Classification of hypersensitivity pneumonitis: a hypothesis. Int Arch Allergy Immunol. 2009;149:161–6. Elicker BM, Jones KD, Henry TS, Collard HR. Multidisciplinary approach to hypersensitivity pneumonitis. J Thorac Imaging. 2016;31:92–103. Marchiori E, Lourenço S, Gasparetto TD, Zanetti G, Mano CM, Nobre LF. Pulmonary talcosis: imaging findings. Lung. 2010;188:165–71. Nguyen VT, Chan ES, Chou S-HS, Godwin JD, Fligner CL, Schmidt RA, Pipavath SNJ Pulmonary effects of i.v. injection of crushed oral tablets: “excipient lung disease.” AJR Am J Roentgenol 2014;203:W506–W515. Chong S, Lee KS, Chung MJ, Han J, Kwon OJ, Kim TS. Pneumoconiosis: comparison of imaging and pathologic findings. Radiographics. 2006;26:59–77. Stern EJ, Frank MS, Schmutz JF, Glenny RW, Schmidt RA, Godwin JD. Panlobular pulmonary emphysema caused by i.v. injection of methylphenidate (Ritalin): findings on chest radiographs and CT scans. AJR Am J Roentgenol. 1994;162:555–60. Mayer AS, Hamzeh N, Maier LA. Sarcoidosis and chronic beryllium disease: similarities and differences. Semin Respir Crit Care Med. 2014;35:316–29. Sharma N, Patel J, Mohammed T-LH. Chronic beryllium disease: computed tomographic findings. J Comput Assist Tomogr. 2010;34:945–8. Mayer A, Hamzeh N. Beryllium and other metal-induced lung disease. Curr Opin Pulm Med. 2015;21:178–84. Newman LS, Buschman DL, Newell JD, Lynch DA. Beryllium disease: assessment with CT. Radiology. 1994;190:835–40.