Abstract
Purpose: In recent years, there has been increased clinical interest in the right ventricle (RV) of the heart. RV dysfunction is an important prognostic marker for several cardiac diseases. Accurate modeling of the RV shape is important for estimating the performance. We have created computationally effective models that allow for accurate estimation of the RV shape. Approach: Previous approaches to cardiac shape modeling, including modeling the RV geometry, has used Doo-Sabin surfaces. Doo-Sabin surfaces allow effective computation and adapt to smooth, organic surfaces. However, they struggle with modeling sharp corners or ridges without many control nodes. We modified the Doo-Sabin surface to allow for sharpness using weighting of vertices and edges instead. This was done in two different ways. For validation, we compared the standard Doo-Sabin versus the sharp Doo-Sabin models in modeling the RV shape of 16 cardiac ultrasound images, against a ground truth manually drawn by a cardiologist. A Kalman filter fitted the models to the ultrasound images, and the difference between the volume of the model and the ground truth was measured. Results: The two modified Doo-Sabin models both outperformed the standard Doo-Sabin model in modeling the RV. On average, the regular Doo-Sabin had an 8-ml error in volume, whereas the sharp models had 7- and 6-ml error, respectively. Conclusions: Compared with the standard Doo-Sabin, the modified Doo-Sabin models can adapt to a larger variety of surfaces while still being compact models. They were more accurate on modeling the RV shape and could have uses elsewhere.
Highlights
The clinical importance of the right ventricle (RV) of the heart has become increasingly understood in recent years.[1]
Compared with the standard Doo–Sabin, the modified Doo–Sabin models can adapt to a larger variety of surfaces while still being compact models
They were more accurate on modeling the RV shape and could have uses elsewhere
Summary
The clinical importance of the right ventricle (RV) of the heart has become increasingly understood in recent years.[1] While most attention has traditionally been given to the left ventricle (LV),[2] RV performance has been shown to have prognostic and therapeutic consequences in a variety of heart diseases, from arrhythmogenic cardiomyopathy to pulmonary hypertension and left ventricular failure.[3,4] With this increasing clinical interest, there has been an increased interest in accurate modeling of the RV shape. Accurate assessment of the shape is needed for accurate estimateion of the RV volume and RV ejection fraction, the latter being a predictor of moderate heart failure.[5,6] RV ejection fraction is a predictor of survival of the Journal of Medical Imaging. Subnormal RV ejection fraction at rest is correlated with decreased exercise tolerance, complex arrhythmias, and mortality.[4]
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