Quantitative assessment of global longitudinal strain using a standardized software algorithm showed strong correlation (r=0.86) between echocardiography and cardiac magnetic resonance imaging.
Cross-Sectional (n=70)
No
Does a standardized software algorithm provide consistent measurements of global longitudinal and circumferential strain across echocardiography and CMR?
A standardized software algorithm allows reliable, modality-independent assessment of global longitudinal strain across echocardiography and CMR, supporting its use in clinical routine.
Effect estimate: r=0.86
Absolute Event Rate: -16.2% vs -17.3%
Mean GLS values were -16.2±5.3% and -17.3±5.3% for echocardiography and CMR, respectively. GLS did not differ significantly between the two imaging modalities, which showed strong correlation (r=0.86), a small bias (-1.1%) and narrow 95% limits of agreement (LOA, ±5.4%). Mean GCS values were -17.9±6.3% and -24.4 ±7.8% for echocardiography and CMR, respectively. GCS was significantly underestimated by echocardiography (p<0.001). A weaker correlation (r=0.73), a higher bias (-6.5%) and wider LOA (±10.5%) were observed for GCS. GLS showed a strong correlation (r=0.92) when image quality was good, while correlation dropped to r=0.82 with poor acoustic windows in echocardiography. GCS assessment revealed only a strong correlation (r=0.87) when echocardiographic image quality was good. No significant differences for GLS between two different echocardiographic vendors could be detected. Conclusions Quantitative assessment of GLS using a standardized software algorithm allows the direct comparison of values acquired irrespective of the imaging modality. GLS may therefore serve as a reliable parameter for the assessment of global left ventricular function in clinical routine besides standard evaluation of the ejection fraction.
Riffel et al. (Sun,) reported a cross-sectional. Echocardiography with standardized feature tracking algorithm vs. Cardiac magnetic resonance imaging (CMR) with standardized feature tracking algorithm was evaluated on Global longitudinal strain (GLS) (r=0.86). Quantitative assessment of global longitudinal strain using a standardized software algorithm showed strong correlation (r=0.86) between echocardiography and cardiac magnetic resonance imaging.