Background: 19F MRI of inhaled gas tracers has developed into a promising tool for pulmonary diagnostics. Prior to clinical use, the intersession repeatability of acquired ventilation parameters must be quantified and maximized. Purpose: To evaluate repeatability of static and dynamic 19F ventilation parameters and correlation with predicted forced expiratory volume in 1 second (FEV1%pred) with and without inspiratory volume control. Study Type: Prospective. Population: A total of 30 healthy subjects and 26 patients with chronic obstructive pulmonary disease (COPD). Field Strength/Sequence: Three-dimensional (3D) gradient echo pulse sequence with golden-angle stack-of-stars k-space encoding at 1.5 T. Assessment: All study participants underwent 19F ventilation MRI over eight breaths with inspiratory volume control (w VC) and without inspiratory volume control (w/o VC), which was repeated within 1 week. Ventilated volume percentage (VVP), fractional ventilation (FV), and wash-in time (WI) were computed. Lung function testing was conducted on the first visit. Statistical Tests: Correlation between imaging and FEV1%pred was measured using Pearson correlation coefficient (r). Differences in imaging parameters between first and second visit were analyzed using paired t-test. Repeatability was quantified using intraclass correlation coefficient (ICC) and coefficient of variation (CoV). Minimum detectable effect size (MDES) was calculated with a power analysis for study size n = 30 and a power of 0.8. All hypotheses were tested with a significance level of 5% two sided. Results: Strong and moderate linear correlations with FEV1%pred for COPD patients were found in almost all imaging parameters. The ICC w VC exceeds the ICC w/o VC for all imaging parameters. CoV was significantly lower w VC for initial VVP in COPD patients, FV, CoV FV, WI and standard deviation (SD) of WI. MDES of all imaging parameters were smaller w VC. Data Conclusion: 19F gas wash-in MRI with inspiratory volume control increases the correlation and repeatability of imaging parameters with lung function testing. Evidence Level: 2. Technical Efficacy: Stage 2.
CITATION STYLE
Obert, A. J., Kern, A. L., Gutberlet, M., Voskrebenzev, A., Kaireit, T. F., Crisosto, C., … Vogel-Claussen, J. (2023). Volume-Controlled 19F MR Ventilation Imaging of Fluorinated Gas. Journal of Magnetic Resonance Imaging, 57(4), 1114–1128. https://doi.org/10.1002/jmri.28385
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