Assessment of Severity of Ovine Smoke Inhalation Injury by Analysis of Computed Tomographic Scans
Abstract
Background: Our goal was to evaluate computed tomographic (CT) scans of the chest as a means of stratifying smoke inhalation injury (SII) severity. Methods: Twenty anesthetized sheep underwent graded SII: group I, no smoke; group II, 5 smoke units; group III, 10 units; and group IV, 16 units. CT scans were obtained at 6, 12, and 24 hours after injury. Each quadrant of each slice was scored subjectively: 0 normal, 1 interstitial markings, 2 ground-glass appearance, and 3 consolidation. The sum of all scores was the radiologist's score (RADS) for that scan. Computerized analysis of three-dimensional reconstructed scans was also performed, based on Hounsfield unit ranges: hyperinflated, 1,000 to 900; normal, 899 to 500; poorly aerated, 499 to 100; and nonaerated, 99 to 100. The fraction of abnormal lung tissue (FALT) was computed from poorly aerated, nonaerated, and total volumes. Mean gray-scale density (DENS) was also computed. Results: SII resulted in severity- and time-related changes in oxygenation (alve-olar-arterial gradient), ventilation (respiratory rate-pressure product), DENS, FALT, and RADS. Ordinal logistic regression generated a predictive model for severity of injury (r2 = 0.623, p = 0.001), retaining RADS at 24 hours and rejecting the other variables. Conclusion: At 24 hours, CT scanning enabled SII severity stratification; qualitative evaluation (RADS) outperformed current semiautomated methods (DENS, FALT).
Document Details
- Document Type
- Technical Report
- Publication Date
- Sep 01, 2003
- Accession Number
- ADA628301
Entities
People
- Andriy I Batchinsky
- Bryan S. Jordan
- Cleon W. Goodwin
- Leopoldo C. Cancio
- Michael A. Dubick
- Michael J. Mccarthy
- Myung S. Park
- William W. Brinkley
Organizations
- United States Army Institute of Surgical Research