The contour and topographic watershed segmentation approaches were compared for estimating stroke and regurgitation fractions in 3 patients, with error rates varying by patient condition.
Observational (n=3)
Does topographic watershed segmentation improve the estimation of left ventricular ejection fraction and regurgitation rate compared to active contour segmentation in cardiac MRI?
Topographic watershed segmentation provides an alternative computational approach for extracting left ventricular measurements from 5D cardiac MRI sequences.
A comparative study has been depicted between the contour and topographic watershed segmentation approach for short-axis 5D cardiac sequences with MRI for medical decision. The fifth dimension has been defined as the excitation of pixels based on the gray scale around the myocardium without consideration of the morphological structure of the heart in 3D and fourth dimension (time). Three patients were performed the first is healthy, the second has a genetic disease, and the third had a heart failure syndrome for a dimension ROI = 150mm, average age is 54 years old, and mean of weight = 86 kg. A contouring and watershed segmentation algorithm for a sample of 63 Cine Fiesta MRI sequences for short-axis cuts with Matlab and its in-box toolbox complements was implemented.For a healthy patient 13.4% tolerance rate for the estimation of the stroke fraction, 6.4% for a patient with genetic disease, 8.7% error rate for a patient with heart failure symptom. The results show that the regurgitation fraction by the contour approach for a patient case with symptom of the presence of a genetic disease is 0.0335% for an aortic valve, 0.248% for a mitral valve, an error rate 0.16% for estimating this parameter for the aortic orifice with the watershed segmentation approach. In return, for a patient with suspected heart failure (stenosis or regurgitation) the regurgitation fraction is estimated by 0% for aortic valve, 1.49 e + 03% for a mitral valve, an error rate 11.76% compared to the watershed segmentation approach. The results are validated clinically. The Optimization of the topographic watershed approach with mutual information was simulated for the extraction of measurements (ejection fraction, regurgitation rate) within the left ventricle for three patient types (healthy, genetic pathology and heart failure). The results are considered interesting compared to the clinical assessment.
Sakly et al. (Sun,) conducted a observational in Healthy, genetic disease, and heart failure (n=3). Contour segmentation approach vs. Topographic watershed segmentation approach was evaluated on Estimation of stroke fraction and regurgitation fraction. The contour and topographic watershed segmentation approaches were compared for estimating stroke and regurgitation fractions in 3 patients, with error rates varying by patient condition.
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