Quantitative endoscopic photoacoustic tomography using a convolutional neural network

计算机科学 卷积神经网络 衰减系数 随机梯度下降算法 人工智能 人工神经网络 迭代重建 梯度下降 生物医学工程 光学 材料科学 计算机视觉 模式识别(心理学) 物理 医学
作者
Sun Zheng,Qi Meng,Xinyu Wang
出处
期刊:Applied Optics [Optica Publishing Group]
卷期号:61 (10): 2574-2574 被引量:2
标识
DOI:10.1364/ao.441250
摘要

Endoscopic photoacoustic tomography (EPAT) is a catheter-based hybrid imaging modality capable of providing structural and functional information of biological luminal structures, such as coronary arterial vessels and the digestive tract. The recovery of the optical properties of the imaged tissue from acoustic measurements achieved by optical inversion is essential for implementing quantitative EPAT (qEPAT). In this paper, a convolutional neural network (CNN) based on deep gradient descent is developed for qEPAT. The network enables the reconstruction of images representing the spatially varying absorption coefficient in cross-sections of the tubular structures from limited measurement data. The forward operator reflecting the mapping from the absorption coefficient to the optical deposition due to pulsed irradiation is embedded into the network training. The network parameters are optimized layer by layer through the deep gradient descent mechanism using the numerically simulated data. The operation processes of the forward operator and its adjoint operator are separated from the network training. The trained network outputs an image representing the distribution of absorption coefficients by inputting an image that represents the optical deposition. The method has been tested with computer-generated phantoms mimicking coronary arterial vessels containing various tissue types. Results suggest that the structural similarity of the images reconstructed by our method is increased by about 10% in comparison with the non-learning method based on error minimization in the case of the same measuring view.
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