Mingchuan Zhou, Xiangyu Guo, Matthias Grimm, Elias Lochner, Zhongliang Jiang, Abouzar Eslami, Juan Ye, Nassir Navab, Alois Knoll, Mohammad Ali Nasseri
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引用次数: 0
Abstract
Subretinal injection is a complicated task for retinal surgeons to operate manually. In this paper we demonstrate a robust framework for needle detection and localisation in robot-assisted subretinal injection using microscope-integrated Optical Coherence Tomography with deep learning. Five convolutional neural networks with different architectures were evaluated. The main differences between the architectures are the amount of information they receive at the input layer. When evaluated on ex-vivo pig eyes, the top performing network successfully detected all needles in the dataset and localised them with an Intersection over Union value of 0.55. The algorithm was evaluated by comparing the depth of the top and bottom edge of the predicted bounding box to the ground truth. This analysis showed that the top edge can be used to predict the depth of the needle with a maximum error of 8.5 μm.
视网膜下注射是视网膜外科医生手工操作的一项复杂任务。在本文中,我们展示了一个强大的框架,用于机器人辅助视网膜下注射的针头检测和定位,该框架使用显微镜集成光学相干断层扫描和深度学习。对五种不同结构的卷积神经网络进行了评价。这两种体系结构之间的主要区别在于它们在输入层接收的信息量不同。当在离体猪眼上进行评估时,表现最好的网络成功地检测到数据集中的所有针头,并以0.55的Intersection over Union值对它们进行定位。通过将预测的边界盒上下边缘的深度与地面真实值进行比较,对算法进行评价。分析结果表明,利用顶缘可以预测针的深度,最大误差为8.5 μm。
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CAAI Transactions on Intelligence Technology is a leading venue for original research on the theoretical and experimental aspects of artificial intelligence technology. We are a fully open access journal co-published by the Institution of Engineering and Technology (IET) and the Chinese Association for Artificial Intelligence (CAAI) providing research which is openly accessible to read and share worldwide.
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