Balancing speed and accuracy in cardiac magnetic resonance function post-processing: Comparing 2 levels of automation in 3 vendors to manual assessment
Publication date
2021-09-24
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Abstract
Automating cardiac function assessment on cardiac magnetic resonance short-axis cines is faster and more reproducible than manual contour-tracing; however, accurately tracing basal contours remains challenging. Three automated post-processing software packages (Level 1) were compared to manual assessment. Subsequently, automated basal tracings were manually adjusted using a standardized protocol combined with software package-specific relative-to-manual standard error correction (Level 2). All post-processing was performed in 65 healthy subjects. Manual contour-tracing was performed separately from Level 1 and 2 automated analysis. Automated measurements were considered accurate when the difference was equal or less than the maximum manual inter-observer disagreement percentage. Level 1 (2.1 ± 1.0 min) and Level 2 automated (5.2 ± 1.3 min) were faster and more reproducible than manual (21.1 ± 2.9 min) post-processing, the maximum inter-observer disagreement was 6%. Compared to manual, Level 1 automation had wide limits of agreement. The most reliable software package obtained more accurate measurements in Level 2 compared to Level 1 automation: left ventricular end-diastolic volume, 98% and 53%; ejection fraction, 98% and 60%; mass, 70% and 3%; right ventricular end-diastolic volume, 98% and 28%; ejection fraction, 80% and 40%, respectively. Level 1 automated cardiac function post-processing is fast and highly reproducible with varying accuracy. Level 2 automation balances speed and accuracy.
Keywords
Automation, Cardiac function, Cardiac magnetic resonance, Reproducibility, Standardization, Tracing protocol, automation, reproducibility, standardization, cardiac function, cardiac magnetic resonance, tracing protocol, Clinical Biochemistry, Journal Article
Citation
Snel, G J H, Poort, S, Velthuis, B K, van Deursen, V M, Nguyen, C T, Sosnovik, D, Dierckx, R A J O, Slart, R H J A, Borra, R J H & Prakken, N H J 2021, 'Balancing speed and accuracy in cardiac magnetic resonance function post-processing : Comparing 2 levels of automation in 3 vendors to manual assessment', Diagnostics, vol. 11, no. 10, 1758. https://doi.org/10.3390/diagnostics11101758