Quantification of Lung Damage in an Elastase-Induced Mouse Model of Emphysema

Objective. To define the sensitivity of microcomputed tomography- (micro-CT-) derived descriptors for the quantification of lung damage caused by elastase instillation. Materials and Methods. The lungs of 30 elastase treated and 30 control A/J mice were analyzed 1, 6, 12, and 24 hours and 7 and 17 days after elastase instillation using (i) breath-hold-gated micro-CT, (ii) pulmonary function tests (PFTs), (iii) RT-PCR for RNA cytokine expression, and (iv) histomorphometry. For the latter, an automatic, parallel software toolset was implemented that computes the airspace enlargement descriptors: mean linear intercept (L (m)) and weighted means of airspace diameters (D (0), D (1), and D (2)). A Support Vector Classifier was trained and tested based on three nonhistological descriptors using D (2) as ground truth. Results. D (2) detected statistically significant differences (P < 0.01) between the groups at all time points. Furthermore, D (2) at 1 hour (24 hours) was significantly lower (P < 0.01) than D (2) at 24 hours (7 days). The classifier trained on the micro-CT-derived descriptors achieves an area under the curve (AUC) of 0.95 well above the others (PFTS AUC = 0.71; cytokine AUC = 0.88). Conclusion. Micro-CT-derived descriptors are more sensitive than the other methods compared, to detect in vivo early signs of the disease.