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KMID : 0357520220450020151
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Journal of Radiological Science and Technology
2022 Volume.45 No. 2 p.151 ~ p.158
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Evaluating Usefulness of Deep Learning Based Left Ventricle Segmentation in Cardiac Gated Blood Pool Scan
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Oh Joo-Young
Jeong Eui-Hwan
Lee Joo-Young
Park Hoon-Hee
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Abstract
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The Cardiac Gated Blood Pool (GBP) scintigram, a nuclear medicine imaging, calculates the left ventricular Ejection Fraction (EF) by segmenting the left ventricle from the heart. However, in order to accurately segment the substructure of the heart, specialized knowledge of cardiac anatomy is required, and depending on the expert's processing, there may be a problem in which the left ventricular EF is calculated differently. In this study, using the DeepLabV3 architecture, GBP images were trained on 93 training data with a ResNet-50 backbone. Afterwards, the trained model was applied to 23 separate test sets of GBP to evaluate the reproducibility of the region of interest and left ventricular EF.
Pixel accuracy, dice coefficient, and IoU for the region of interest were 99.32¡¾0.20, 94.65¡¾1.45, 89.89¡¾2.62(%) at the diastolic phase, and 99.26¡¾0.34, 90.16¡¾4.19, and 82.33¡¾6.69(%) at the systolic phase, respectively. Left ventricular EF was calculated to be an average of 60.37¡¾7.32% in the ROI set by humans and 58.68¡¾7.22% in the ROI set by the deep learning segmentation model. (p<0.05) The automated segmentation method using deep learning presented in this study similarly predicts the average human-set ROI and left ventricular EF when a random GBP image is an input. If the automatic segmentation method is developed and applied to the functional examination method that needs to set ROI in the field of cardiac scintigram in nuclear medicine in the future, it is expected to greatly contribute to improving the efficiency and accuracy of processing and analysis by nuclear medicine specialists.
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KEYWORD
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Gated blood pool scan, Ejection Fraction, Deep learning, ROI, Semantic segmentation
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