Experimental lung research
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The aim of the study was to extend existing evidence that intratracheal aerosolization of LPS may serve as a very relevant model to study ARDS. The authors investigated the sequence of pathogenic events reflected by changes in levels of tumor necrosis factor alpha (TNF alpha), surfactant-associated protein A (SP-A) in BAL fluid, in addition to cell count, edema formation, and respiratory function. Within 24 h following intratracheal aerosolization of LPS in the rat, ARDS could be diagnosed according to the lung injury score for patients. ⋯ In addition, other typical features of human ARDS appeared to be present in this model: (1) increased microvascular permeability reflected by edema, elevated levels of protein and of LDH, and increased numbers of PMNs in BAL fluid; (2) high levels of TNF alpha in BAL fluid preceding the appearance of PMNs; (3) changes in breathing pattern and a gradual development of respiratory failure with decreased compliance. SP-A levels in BAL fluid doubled within one hour after LPS administration, suggesting that this collectin may play a role in the immediate inflammatory response. Taken together, the findings presented here suggest that intratracheal LPS administration mimics the clinical development of ARDS very closely.