Personalising left-ventricular biophysical models of the heart using parametric physics-informed neural networks

Buoso Stefano; Joyce Thomas; Kozerke Sebastian

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Personalising left-ventricular biophysical models of the heart using parametric physics-informed neural networks

机译：使用参数化物理信息的神经网络来个性化左心室生物物理模型

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We present a parametric physics-informed neural network for the simulation of personalised left ventricular biomechanics. The neural network is constrained to the biophysical problem in two ways: (i) the network output is restricted to a subspace built from radial basis functions capturing characteristic deformations of left ventricles and (ii) the cost function used for training is the energy potential functional specifically tailored for hyperelastic, anisotropic, nearly-incompressible active materials. The radial bases are generated from the results of a nonlinear Finite Element model coupled with an anatomical shape model derived from high-resolution cardiac images. We show that, by coupling the neural network with a simplified circulation model, we can efficiently generate computationally inexpensive estimations of cardiac mechanics. Our model is 30 times faster than the reference Finite Element model used, including training time, while yielding satisfactory average errors in the predictions of ejection fraction (-3%), peak systolic pressure (7%), stroke work (4%) and myocardial strains (14%). This physics-informed neural network is well suited to efficiently augment cardiac images with functional data and to generate large sets of synthetic cases for training deep network classifiers while it provides efficient personalization to the specific patient of interest with a high level of detail

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《Medical image analysis》 |2021年第1期|共11页
作者
Buoso Stefano; Joyce Thomas; Kozerke Sebastian;
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作者单位

Swiss Fed Inst Technol Inst Biomed Engn Zurich Switzerland;

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原文格式 PDF
正文语种 eng
中图分类影像诊断学;
关键词
Finite elements; Machine learning; Physics informed neural networks; Personalised cardiac mechanics; Reduced-order models; Shape model;

机译：有限元;机器学习;物理知识神经网络;个性化的心脏力学;减少阶模型;形状模型;

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Personalising left-ventricular biophysical models of the heart using parametric physics-informed neural networks

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