Feet Segmentation for Regional Analgesia Monitoring Using Convolutional RFF and Layer-Wise Weighted CAM Interpretability

Comput. Pub Date : 2023-06-08 DOI:10.3390/computation11060113

Juan Carlos Aguirre-Arango, A. Álvarez-Meza, G. Castellanos-Domínguez

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Abstract

Regional neuraxial analgesia for pain relief during labor is a universally accepted, safe, and effective procedure involving administering medication into the epidural. Still, an adequate assessment requires continuous patient monitoring after catheter placement. This research introduces a cutting-edge semantic thermal image segmentation method emphasizing superior interpretability for regional neuraxial analgesia monitoring. Namely, we propose a novel Convolutional Random Fourier Features-based approach, termed CRFFg, and custom-designed layer-wise weighted class-activation maps created explicitly for foot segmentation. Our method aims to enhance three well-known semantic segmentation (FCN, UNet, and ResUNet). We have rigorously evaluated our methodology on a challenging dataset of foot thermal images from pregnant women who underwent epidural anesthesia. Its limited size and significant variability distinguish this dataset. Furthermore, our validation results indicate that our proposed methodology not only delivers competitive results in foot segmentation but also significantly improves the explainability of the process.

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使用卷积RFF和分层加权CAM可解释性进行局部镇痛监测的足部分割

局部神经轴镇痛是一种普遍接受的、安全有效的方法，包括将药物注入硬膜外。然而，充分的评估需要在置管后对患者进行持续监测。本研究引入一种前沿的语义热图像分割方法，强调了区域神经轴向镇痛监测的优越可解释性。也就是说，我们提出了一种新颖的基于卷积随机傅立叶特征的方法，称为CRFFg，以及定制设计的分层加权类激活地图，这些地图是明确为脚分割而创建的。我们的方法旨在增强三种著名的语义分割(FCN, UNet和ResUNet)。我们严格评估了我们的方法在一个具有挑战性的数据集足热图像从孕妇接受硬膜外麻醉。其有限的大小和显著的可变性区分了这个数据集。此外，我们的验证结果表明，我们提出的方法不仅在足部分割方面提供了有竞争力的结果，而且显著提高了过程的可解释性。

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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Comput.

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