研究基于卷积神经网络的超声引导神经阻滞中神经检测的网络和图像的适当缩放比例

Sensors (Basel, Switzerland) Pub Date : 2024-06-01 DOI:10.3390/s24113696

T. Sugino, Shinya Onogi, Rieko Oishi, Chie Hanayama, Satoki Inoue, Shinjiro Ishida, Yuhang Yao, Nobuhiro Ogasawara, Masahiro Murakawa, Yoshikazu Nakajima

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引用次数: 0

摘要

超声成像是麻醉学中的重要工具，尤其适用于超声引导下的周围神经阻滞（US-PNB）。然而，斑点噪声、声学阴影和神经外观的可变性等挑战使神经组织的准确定位变得复杂。为解决这一问题，本研究引入了深度卷积神经网络（DCNN），特别是 Scaled-YOLOv4，并研究了在超声图像上进行神经检测的适当网络模型和输入图像缩放。我们利用两个数据集（一个公共数据集和一个原始数据集），评估了模型规模和输入图像大小对检测性能的影响。我们的研究结果表明，较小的输入图像和较大的模型规模能显著提高检测准确率。模型大小和输入图像大小的最佳配置不仅实现了较高的检测准确率，而且还展示了实时处理能力。

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Investigation of Appropriate Scaling of Networks and Images for Convolutional Neural Network-Based Nerve Detection in Ultrasound-Guided Nerve Blocks

Ultrasound imaging is an essential tool in anesthesiology, particularly for ultrasound-guided peripheral nerve blocks (US-PNBs). However, challenges such as speckle noise, acoustic shadows, and variability in nerve appearance complicate the accurate localization of nerve tissues. To address this issue, this study introduces a deep convolutional neural network (DCNN), specifically Scaled-YOLOv4, and investigates an appropriate network model and input image scaling for nerve detection on ultrasound images. Utilizing two datasets, a public dataset and an original dataset, we evaluated the effects of model scale and input image size on detection performance. Our findings reveal that smaller input images and larger model scales significantly improve detection accuracy. The optimal configuration of model size and input image size not only achieved high detection accuracy but also demonstrated real-time processing capabilities.

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Sensors (Basel, Switzerland)

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