Diagnostic radiologists need artificial intelligence (AI) for medical imaging, but access to medical images required for training in AI has become increasingly restrictive. To release and use medical images, we need an algorithm that can simultaneously protect privacy and preserve pathologies in medical images. To develop such an algorithm, here, we propose DP-GLOW, a hybrid of a local differential privacy (LDP) algorithm and one of the flow-based deep generative models (GLOW). By applying a GLOW model, we disentangle the pixelwise correlation of images, which makes it difficult to protect privacy with straightforward LDP algorithms for images. Specifically, we map images onto the latent vector of the GLOW model, each element of which follows an independent normal distribution, and we apply the Laplace mechanism to the latent vector. Moreover, we applied DP-GLOW to chest X-ray images to generate LDP images while preserving pathologies.
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从出生到死亡,由于老化,我们都经历了令人惊讶的无处不在的变化。如果我们可以预测数字领域的衰老,即人体的数字双胞胎,我们将能够在很早的阶段检测病变,从而提高生活质量并延长寿命。我们观察到,没有一个先前开发的成年人体数字双胞胎在具有深层生成模型的体积医学图像之间明确训练的纵向转换规则,可能导致例如心室体积的预测性能不佳。在这里,我们建立了一个新的成人人体的数字双胞胎,该数字双胞胎采用纵向获得的头部计算机断层扫描(CT)图像进行训练,从而从一个当前的体积头CT图像中预测了未来的体积头CT图像。我们首次采用了三维基于流动的深层生成模型之一,以实现这种顺序的三维数字双胞胎。我们表明,我们的数字双胞胎在相对较短的程度上优于预测心室体积的最新方法。
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