Persistent and progressive pulmonary fibrotic changes in a model of fat embolism

Persistent and progressive pulmonary fibrotic changes in a model of fat embolism

Fat embolism (FE) after trauma and some orthopedic procedures is known to cause acute lung injury, including acute respiratory distress syndrome. However, its potential long-term effects on the lung are unknown. A previous study using a rat model of FE found significant histopathologic changes in th...

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Bibliographic Details
Published in:The journal of trauma and acute care surgery Vol. 72; no. 4; pp. 992 - 998
Main Authors: Poisner, Alan M, Adler, Federico, Uhal, Bruce, McIff, Terence E, Schroeppel, John P, Mehrer, Aaron, Herndon, Betty L, Lankachandra, Kamani M, Molteni, Agostino
Format: Journal Article
Language:English
Published: United States 01-04-2012
Subjects:
Angiotensins - metabolism
Animals
Collagen - metabolism
Disease Models, Animal
Disease Progression
Embolism, Fat - complications
Fats - analysis
Lung - chemistry
Lung - pathology
Male
Pulmonary Fibrosis - etiology
Pulmonary Fibrosis - pathology
Rats
Rats, Sprague-Dawley
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Summary:Fat embolism (FE) after trauma and some orthopedic procedures is known to cause acute lung injury, including acute respiratory distress syndrome. However, its potential long-term effects on the lung are unknown. A previous study using a rat model of FE found significant histopathologic changes in the lungs after intravenous injection of triolein for up to 11 days. This study detailed the persistence of the lung damage and investigated the input of the renin-angiotensin system in its pathology. Unanesthetized rats were injected via the tail vein with 0.2 mL saline or triolein. After euthanasia, at 3 weeks or 6 weeks, lung sections were stained to highlight cellular structure, presence of collagen and fat, or immunolabeled for smooth muscle actin or angiotensin peptides. At 3 weeks or 6 weeks after triolein injection, there was no dilatation of the heart or inferior vena cava, no congestion of the liver or spleen, no adventitial edema, nor was fluid present in alveoli or pleural cavity as reported in animals at earlier time points. Persisting pathology included reduced lumen patency, thickening of the media of small arteries and arterioles, and vascular and septal inflammation. Although the fat content of the lung decreased from week 3 to week 6, there was a progressive increase in collagen, smooth muscle actin, and angiotensin peptides. This model extends the effect of FE on pulmonary pathology to 6 weeks, revealing persistent vasculitis, septal inflammation, and progressive fibrotic changes which are associated with increased presence of angiotensin peptides.
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ISSN:2163-0763
DOI:10.1097/TA.0b013e31823c96b0