DOI: 10.2459/jcm.0000000000001905 ISSN: 1558-2027

Advances in stress echocardiography: myocardial work for myocardial ischemia detection

Maurizio Cusmà-Piccione, Roberto Licordari, Roberta Manganaro, Giampiero Vizzari, Francesca Lofrumento, Francesca Parisi, Olimpia Trio, Cesare De Gregorio, Quirino Ciampi, Scipione Carerj, Renuka Jain, Gianluca Di Bella, Antonio Micari, Concetta Zito

Aims

This study explores the usefulness of myocardial work (MW) analysis for coronary artery disease (CAD) detection in patients undergoing dipyridamole stress echocardiography (Dip-SE).

Methods

We included 50 patients subjected to Dip-SE followed by coronary computed tomography angiography (CCTA) and/or invasive coronary angiography (ICA). Patients were subdivided into two groups, according to the results of CCTA/ICA: group 1 with CAD and group 2 without CAD. Subsequently, global longitudinal strain (GLS) and MW parameters were evaluated retrospectively at base, low and high dose in the entire population.

Results

GLS showed a nonsignificant increase from baseline to low dose and significantly decreased from low to high dose ( P  = 0.015) in group 1. In contrast, GLS in group 2 increased throughout the test, with the largest increase from baseline to low dose ( P  < 0.001). Global constructive work (GCW) and global wasted work (GWW) showed opposite behaviors in both groups: GCW decreased in group 1 ( P  = 0.009) and remained substantially unchanged in group 2; conversely, GWW increased from low to high dose in group 1 ( P  = 0.003), whereas it decreased in group 2 ( P  = 0.047). The latter result was confirmed by global work efficiency (GWE), which decreased from low to high dose in group 1 ( P  = 0.025) and increased in group 2 ( P  = 0.001). Receiver-operating characteristics analysis revealed that GWE is the best parameter for identifying CAD (area under the curve = 0.845). A decrease in GWE of 1.5% (from low to high dose) provided better sensitivity (73%) and specificity (84%).

Conclusions

GWE analysis may be useful in improving CAD detection during Dip-SE.

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