Lungs of Patients with Acute Respiratory Distress Syndrome Show Diffuse Inflammation in Normally Aerated Regions: a [18F]-fluoro-2-deoxy-D-glucose PET/CT Study

Overview

Journal Crit Care Med

Specialties Critical Care
Emergency Medicine

Date 2009 Jun 3

PMID 19487931

Citations 72

Authors

Giacomo Bellani

Cristina Messa

Luca Guerra

Ester Spagnolli

Giuseppe Foti

Nicolo Patroniti

Roberto Fumagalli

Guido Musch

Ferruccio Fazio

Antonio Pesenti

Affiliations

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Abstract

Objective: Neutrophilic inflammation plays a key role in the pathogenesis of acute respiratory distress syndrome (ARDS) and acute lung injury (ALI). Positron emission tomography (PET) with [F]-fluoro-2-deoxy-D-glucose (FDG) can be used to image cellular metabolism that, during lung inflammatory processes, likely reflects neutrophils activity. The aim of this study was to assess the magnitude and regional distribution of inflammatory metabolic activity in the lungs of patients with ALI/ARDS by PET with FDG.

Design: Prospective clinical investigation.

Patients: Ten patients with ALI/ARDS; four spontaneously breathing and two mechanically ventilated subjects, without known lung disease, served as controls.

Interventions: In each individual we performed an FDG PET/computed tomography of the thorax.

Measurements And Main Results: FDG cellular influx rate constant (Ki) was computed for the imaged lung field and for regions of interest, grouping voxels with similar density. In all patients with ALI/ARDS, Ki was higher than in controls, also after accounting for the increased lung density. Ki values differed greatly among patients, but in all patients Ki of the normally aerated regions was much higher (2- to 24-fold) than in controls. Whereas in some patients the highest Ki values corresponded to regions with the lowest aeration, in others these regions had lower Ki than normally and mildly hypoaerated regions.

Conclusion: In patients with ALI/ARDS, undergoing mechanical ventilation since days, the metabolic activity of the lungs is markedly increased across the entire lung density spectrum. The intensity of this activation and its regional distribution, however, vary widely within and between patients.

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