In many low-to-middle income (LMIC) countries, ultrasound is used for assessment of pleural effusion. Typically, the extent of the effusion is manually measured by a sonographer, leading to significant intra-/inter-observer variability. In this work, we investigate the use of deep learning (DL) to automate the process of pleural effusion segmentation from ultrasound images. On two datasets acquired in a LMIC setting, we achieve median Dice Similarity Coefficients (DSCs) of 0.82 and 0.74 respectively using the nnU-net DL model. We also investigate the use of coordinate convolutions in the DL model and find that this results in a statistically significant improvement in the median DSC on the first dataset to 0.85, with no significant change on the second dataset. This work showcases, for the first time, the potential of DL in automating the process of effusion assessment from ultrasound in LMIC settings where there is often a lack of experienced radiologists to perform such tasks.
翻译:在许多中低收入国家,超声波用于评估胸膜分解。一般情况下,稀释的程度是由一位声学家人工测量的,导致观测器内部/间差异很大。在这项工作中,我们调查了利用深层次学习(DL)使超声波图像中的胸膜分解过程自动化的情况。在从超声波环境中获得的两个数据集中,我们利用内核分解模型分别实现了0.82和0.74的中位Dice类似节能(DSCs)和0.74的中位。我们还调查了DL模型中坐标变异的使用情况,发现这导致第一个数据集中位DSC在统计上显著改进到0.85,而第二个数据集没有重大变化。这项工作首次展示了DLL在超声波环境中进行抽解评估过程自动化的潜力,在那里往往缺乏有经验的放射学家来完成这种任务。
相关内容
微信扫码咨询专知VIP会员