A Conditional Flow Variational Autoencoder for Controllable Synthesis of Virtual Populations of Anatomy

Haoran Dou, N. Ravikumar, Alejandro F Frangi
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引用次数: 1

Abstract

The generation of virtual populations (VPs) of anatomy is essential for conducting in silico trials of medical devices. Typically, the generated VP should capture sufficient variability while remaining plausible and should reflect the specific characteristics and demographics of the patients observed in real populations. In several applications, it is desirable to synthesise virtual populations in a \textit{controlled} manner, where relevant covariates are used to conditionally synthesise virtual populations that fit a specific target population/characteristics. We propose to equip a conditional variational autoencoder (cVAE) with normalising flows to boost the flexibility and complexity of the approximate posterior learnt, leading to enhanced flexibility for controllable synthesis of VPs of anatomical structures. We demonstrate the performance of our conditional flow VAE using a data set of cardiac left ventricles acquired from 2360 patients, with associated demographic information and clinical measurements (used as covariates/conditional information). The results obtained indicate the superiority of the proposed method for conditional synthesis of virtual populations of cardiac left ventricles relative to a cVAE. Conditional synthesis performance was evaluated in terms of generalisation and specificity errors and in terms of the ability to preserve clinically relevant biomarkers in synthesised VPs, that is, the left ventricular blood pool and myocardial volume, relative to the real observed population.
一种用于解剖学虚拟种群可控合成的条件流变分自编码器
生成解剖学的虚拟种群(VPs)对于进行医疗设备的计算机试验至关重要。通常,生成的VP应在保持可信的同时捕获足够的变异性,并应反映在实际人群中观察到的患者的具体特征和人口统计学特征。在一些应用中,希望以\textit{受控}的方式合成虚拟种群,其中使用相关协变量有条件地合成适合特定目标种群/特征的虚拟种群。我们建议为条件变分自编码器(cVAE)配备归一化流,以提高近似后验学习的灵活性和复杂性,从而提高解剖结构VPs可控合成的灵活性。我们使用从2360名患者中获得的左心室数据集,以及相关的人口统计信息和临床测量(用作协变量/条件信息)来证明条件血流VAE的性能。所获得的结果表明,相对于cVAE,所提出的方法具有条件合成左心室虚拟种群的优越性。条件合成性能的评估依据是泛化和特异性误差,以及在合成的VPs中保留临床相关生物标志物的能力,即相对于实际观察人群的左室血池和心肌体积。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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