Abstract
Clinical application of strain in neonates requires an understanding of which image acquisition and processing parameters affect strain values. Previous studies have examined frame rate, transmitting frequency, and vendor heterogeneity. However, there is a lack of human studies on how user-regulated spatial and temporal smoothing affect strain values in 36 neonates. This study examined nine different combinations of spatial and temporal smoothing on peak systolic left ventricular longitudinal strain in 36 healthy neonates. Strain values were acquired from four-chamber echocardiographic images in the software-defined epicardial, midwall, and endocardial layers in the six standard segments and average four-chamber stain. Strain values were compared using repeated measure ANOVAs. Overall, spatial smoothing had a larger impact than temporal smoothing, and segmental strain values were more sensitive to smoothing settings than average four-chamber strain. Apicoseptal strain decreased by approximately 4% with increasing spatial smoothing, corresponding to a 13–19% proportional change (depending on wall layer). Therefore, we recommend clinicians be mindful of smoothing settings when assessing segmental strain values.
Highlights
Left ventricular strain is a measure of left ventricular deformation [1]
Tables are provided in the electronic supplementary material that numerically present the strain values for every smoothing setting as well as the statistically significant mean differences in strain with changing smoothing settings
Statistically significant effects for smoothing settings were seen for the 4ch average strain values, the maximal difference observed was in the range of 0.4% across smoothing settings, corresponding to 2% proportional change
Summary
Left ventricular strain is a measure of left ventricular deformation [1]. When assessing left ventricular function in neonates, strain is regarded as a more sensitive measure of ventricular function than conventional echocardiographic measures such as shortening fraction (SF) and ejection fraction (EF) [2, 3], and is gaining traction within neonatal cardiology. There are primarily two echocardiographic modalities for measuring strain, namely speckle-tracking
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