Inflammatory Activity in Atelectatic and Normally Aerated Regions During Early Acute Lung Injury

Rationale and Objectives: Pulmonary atelectasis presumably promotes and facilitates lung injury. However, data are limited on its direct and remote relation to inflammation. We aimed to assess regional 2-deoxy-2-[F-18]-fluoro-D-glucose (F-18-FDG) kinetics representative of inflammation in atelectatic and normally aerated regions in models of early lung injury.Materials and Methods: We studied supine sheep in four groups: Permissive Atelectasis (n = 6)-16 hours protective tidal volume (VT) and zero positive end-expiratory pressure; Mild (n = 5) and Moderate Endotoxemia (n = 6)- 20-24 hours protective ventilation and intravenous lipopolysaccharide (Mild = 2.5 and Moderate = 10.0 ng/kg/min), and Surfactant Depletion (n = 6)-saline lung lavage and 4 hours high V-T. Measurements performed immediately after anesthesia induction served as controls (n = 8). Atelectasis was defined as regions of gas fraction <0.1 in transmission or computed tomography scans. F-18-FDG kinetics measured with positron emission tomography were analyzed with a three-compartment model.Results: F-18-FDG net uptake rate in atelectatic tissue was larger during Moderate Endotoxemia (0.0092 +/- 0.0019/min) than controls (0.0051 +/- 0.0014/min, p = 0.01). F-18-FDG phosphorylation rate in atelectatic tissue was larger in both endotoxemia groups (0.0287 +/- 0.0075/min) than controls (0.0198 +/- 0.0039/min, p = 0.05) while the F-18-FDG volume of distribution was not significantly different among groups. Additionally, normally aerated regions showed larger F-18-FDG uptake during Permissive Atelectasis (0.0031 +/- 0.0005/min, p < 0.01), Mild 0.0028 +/- 0.0006/min, p = 0.04), and Moderate Endotoxemia (0.0039 +/- 0.0005/min, p < 0.01) than controls (0.0020 +/- 0.0003/min).Conclusion: Atelectatic regions present increased metabolic activation during moderate endotoxemia mostly due to increased F-18-FDG phosphorylation, indicative of increased cellular metabolic activation. Increased F-18-FDG uptake in normally aerated regions during permissive atelectasis suggests an injurious remote effect of atelectasis even with protective tidal volumes.