RATIONALE: Multiple causes for air trapping as identified by expiratory computed tomography (CT) have been reported, but a unified evaluation schema has never been proposed. OBJECTIVES: It was our purpose to identify imaging features that would help distinguish etiologies of mosaic air trapping. METHODS: Cases with the term "air trapping" in the radiology report in 2010 were identified by searching the Radiology Information System of an academic tertiary care center and associated community hospital. Medical records and CT examinations were reviewed for the causes of air trapping. MEASUREMENTS AND MAIN RESULTS: Causes for moderate to severe air trapping could be identified in 201 of 230 (87.4%) cases and could be subdivided into those associated with bronchiectasis (76 of 201, 38%), those associated with interstitial lung disease (62 of 201, 31%), those associated with tree-in-bud opacities (5 of 201, 2%), and those with air trapping alone (58 of 201, 29%). When found with bronchiectasis, nontuberculous mycobacteria, cystic fibrosis, idiopathic bronchiectasis, and transplant-related bronchiolitis obliterans were the most common causes of air trapping. When found with interstitial lung disease, sarcoidosis, hypersensitivity pneumonitis, or unspecified interstitial lung disease were the most common cause of air trapping. When found in isolation, chronic bronchitis, asthma, bronchiolitis obliterans, and unspecified small airways disease were the most common causes of air trapping. Unusual conditions causing isolated air trapping included vasculitis and diffuse idiopathic neuroendocrine cell hyperplasia. CONCLUSION: A variety of conditions can cause air trapping. Associated imaging findings can narrow the differential diagnosis.
RATIONALE: Multiple causes for air trapping as identified by expiratory computed tomography (CT) have been reported, but a unified evaluation schema has never been proposed. OBJECTIVES: It was our purpose to identify imaging features that would help distinguish etiologies of mosaic air trapping. METHODS: Cases with the term "air trapping" in the radiology report in 2010 were identified by searching the Radiology Information System of an academic tertiary care center and associated community hospital. Medical records and CT examinations were reviewed for the causes of air trapping. MEASUREMENTS AND MAIN RESULTS: Causes for moderate to severe air trapping could be identified in 201 of 230 (87.4%) cases and could be subdivided into those associated with bronchiectasis (76 of 201, 38%), those associated with interstitial lung disease (62 of 201, 31%), those associated with tree-in-bud opacities (5 of 201, 2%), and those with air trapping alone (58 of 201, 29%). When found with bronchiectasis, nontuberculous mycobacteria, cystic fibrosis, idiopathic bronchiectasis, and transplant-related bronchiolitis obliterans were the most common causes of air trapping. When found with interstitial lung disease, sarcoidosis, hypersensitivitypneumonitis, or unspecifiedinterstitial lung disease were the most common cause of air trapping. When found in isolation, chronic bronchitis, asthma, bronchiolitis obliterans, and unspecified small airways disease were the most common causes of air trapping. Unusual conditions causing isolated air trapping included vasculitis and diffuse idiopathic neuroendocrine cell hyperplasia. CONCLUSION: A variety of conditions can cause air trapping. Associated imaging findings can narrow the differential diagnosis.
Entities:
Keywords:
air trapping; asthma; bronchiolitis obliterans; chronic bronchitis; computed tomography
Authors: Tara A Retson; Kyle A Hasenstab; Seth J Kligerman; Kathleen E Jacobs; Andrew C Yen; Sharon S Brouha; Lewis D Hahn; Albert Hsiao Journal: Radiol Artif Intell Date: 2021-11-10
Authors: Elizabeth Jauhar Cardoso Bessa; Felipe de Miranda Carbonieri Ribeiro; Geraldo da Rocha Castelar Pinheiro; Agnaldo José Lopes Journal: BMC Res Notes Date: 2019-11-07
Authors: Ganesh Raghu; Martine Remy-Jardin; Christopher J Ryerson; Jeffrey L Myers; Michael Kreuter; Martina Vasakova; Elena Bargagli; Jonathan H Chung; Bridget F Collins; Elisabeth Bendstrup; Hassan A Chami; Abigail T Chua; Tamera J Corte; Jean-Charles Dalphin; Sonye K Danoff; Javier Diaz-Mendoza; Abhijit Duggal; Ryoko Egashira; Thomas Ewing; Mridu Gulati; Yoshikazu Inoue; Alex R Jenkins; Kerri A Johannson; Takeshi Johkoh; Maximiliano Tamae-Kakazu; Masanori Kitaichi; Shandra L Knight; Dirk Koschel; David J Lederer; Yolanda Mageto; Lisa A Maier; Carlos Matiz; Ferran Morell; Andrew G Nicholson; Setu Patolia; Carlos A Pereira; Elisabetta A Renzoni; Margaret L Salisbury; Moises Selman; Simon L F Walsh; Wim A Wuyts; Kevin C Wilson Journal: Am J Respir Crit Care Med Date: 2020-08-01 Impact factor: 30.528