Transferability of radiomic signatures from experimental to human interstitial lung disease

Abstract: BackgroundInterstitial lung disease (ILD) defines a group of parenchymal lung disorders, characterized by fibrosis as their common final pathophysiological stage. To improve diagnosis and treatment of ILD, there is a need for repetitive non-invasive characterization of lung tissue by quantitative parameters. In this study, we investigated whether CT image patterns found in mice with bleomycin induced lung fibrosis can be translated as prognostic factors to human patients diagnosed with ILD.MethodsBleomycin was… Show more

“…We previously demonstrated the high transferability of radiomic signatures from experimental models to human ILD 37 . To assess whether our preclinical delta radiomic features could stratify nintedanib-treated patients based on their extent of lung function decline, we retrospectively analyzed delta radiomic feature profiles of 19 patients with PF-ILD that received antifibrotic therapy for a median of 12.2±5.7 months (median±IQR) ( Figure 4A ).…”

Radioproteomics stratifies molecular response to antifibrotic treatment in pulmonary fibrosis

“…We previously demonstrated the high transferability of radiomic signatures from experimental models to human ILD 37 . To assess whether our preclinical delta radiomic features could stratify nintedanib-treated patients based on their extent of lung function decline, we retrospectively analyzed delta radiomic feature profiles of 19 patients with PF-ILD that received antifibrotic therapy for a median of 12.2±5.7 months (median±IQR) ( Figure 4A ).…”

Radioproteomics stratifies molecular response to antifibrotic treatment in pulmonary fibrosis

How to Extract Radiomic Features from Imaging

Radiomics on slice-reduced versus full-chest computed tomography for diagnosis and staging of interstitial lung disease in systemic sclerosis: A comparative analysis