Keywords:
biomarkers; bronchiectasis; cystic fibrosis; imaging
Abstract:
OBJECTIVE: To evaluate lung disease progression using airway and artery (AA) dimensions on chest CT over 2-year interval in young CF patients longitudinally and compare to disease controls cross-sectionally. METHODS: Retrospective analysis of pressure controlled end-inspiratory CTs, 12 routine baseline (CT1 ) and follow up (CT2 ) from AREST CF cohort; 12 disease controls with normal CT. All visible AA-pairs were measured perpendicular to the airway axis. Inner and outer airway diameters and wall (outer-inner radius) thickness were divided by adjacent arteries to compute Ain A-, Aout A-, and AWT A-ratios, respectively. Differences between CF and control data were assessed using mixed effects models predicting AA-ratios per segmental generation (SG). Power calculations were performed with 80% power and a = 0.05. RESULTS: CF, median age CT1 2 years; CT2 3.9 years, 5 males. Controls, median age 2.9 years, 10 males. Total of 4798 AA-pairs measured. Cross-sectionally: Ain A-ratio showed no difference between controls and CF CT1 or CT2 . Aout A-ratio was significantly higher in CF CT1 (SG 2-4) and CT2 (SG 2-5) compared to controls. AWT A-ratio was increased for CF CT1 (SG 1-5) and CT2 (SG 2-6) compared to controls. CF longitudinally: Ain A-ratio was significantly higher at CT2 compared to CT1 . Increase in Aout A-ratio at CT2 compared to CT1 was visible in SG >/=4. Sample sizes of 21 and 58 would be necessary for 50% and 30% Aout A-ratio reductions, respectively, between CF CT2 and controls. CONCLUSION: AA-ratio differences were present in young CF patients relative to disease controls. Aout A-ratio as an objective parameter for bronchiectasis could reduce sample sizes for clinical trials.