Validation of a novel automated border-detection algorithm for rapid and accurate quantitation of left ventricular volumes based on three-dimensional echocardiography

Abstract

Aims: To assess the accuracy and reproducibility of a novel automated software for left ventricular (LV) volumes and ejection fraction (EF) measurements using real-time three-dimensional echocardiography (3DE). Methods and results: A total of 103 patients with a wide range of LV volumes were analyzed with both 4D AutoLVQ™ and 4D TomTec™ software. In 23 patients, a side-by-side comparison of LV volume and EF measurements was done between 3DE, 2DE, and cardiac magnetic resonance (CMR). Excellent correlation was found between 4D AutoLVQ and 4D TomTec [r = 0.98 for end-diastolic volume (EDV), 0.99 for end-systolic volume (ESV), and 0.97 for EF, P < 0.0001], with small biases and narrow limits of agreement: EDV 5.2 mL (-14 to 25 mL), ESV 2.9 mL (-10 to 16 mL), EF -0.2 (-7 to 6). Time of analysis was halved using 4D AutoLVQ with manual correction (1 min 52 s± 30 s) in comparison with 4D TomTec software (3 min 46 s ± 1 min 24 s). Both softwares showed similar accuracy in comparison with CMR (4D AutoLVQ biases -11.0 mL, -9.1 mL, and 2.9; 4D TomTec biases -8.3 mL, -7.4 mL, and 2.8 for EDV, ESV, and EF, respectively, P = NS for all) and good reproducibility. Conclusion: Novel 4D AutoLVQ software showed very good agreement with more time-consuming 4D TomTec software, having similar accuracy against CMR. © The Author 2009.