Abstract
RationaleThe relationship between leukocyte gene expression and recovery of respiratory function after injury may provide information on the etiology of multiple organ dysfunction.ObjectivesTo find a list of genes for which expression after injury predicts respiratory recovery, and to identify which networks and pathways characterize these genes.MethodsBlood was sampled at 12 hours and at 1, 4, 7, 21 and 28 days from 147 patients who had been admitted to the hospital after blunt trauma. Leukocyte gene expression was measured using Affymetrix oligonucleotide arrays. A linear model, fit to each probe-set expression value, was used to impute the gene expression trajectory over the entire follow-up period. The proportional hazards model score test was used to calculate the statistical significance of each probe-set trajectory in predicting respiratory recovery. A list of genes was determined such that the expected proportion of false positive results was less than 10%. These genes were compared to the Gene Ontology for ‘response to stimulus’ and, using Ingenuity software, were mapped into networks and pathways.Measurements and Main ResultsThe median time to respiratory recovery was 6 days. There were 170 probe-sets representing 135 genes that were found to be related to respiratory recovery. These genes could be mapped to nine networks. Two known pathways that were activated were antigen processing and presentation and JAK- signaling.ConclusionsThe examination of the relationship of gene expression over time with a patient's clinical course can provide information which may be useful in determining the mechanism of recovery or lack of recovery after severe injury.
Highlights
There has been improvement in the outcome for acute lung injury (ALI) [1] but ALI and its sequelae multiple organ dysfunction syndrome (MODS) remain the leading cause of mortality after the first 24 hours post-injury [2]
Among 147 subjects, 11 did not experience respiratory recovery, including six patients who died during the study follow-up; for these 11 patients, time to recovery was censored
4,010 probe-sets were evaluated for an association with the time to respiratory recovery
Summary
There has been improvement in the outcome for acute lung injury (ALI) [1] but ALI and its sequelae multiple organ dysfunction syndrome (MODS) remain the leading cause of mortality after the first 24 hours post-injury [2]. These complications of trauma represent an enormous health care expenditure. In a previous paper we showed that baseline gene expression could predict future MODS and other clinical events [5]. The predictor was a combination of thousands of gene expression values and could not provide insight into specific mechanisms
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