Neural-network based high-speed volumetric dynamic optical coherence tomography.

Yusong Liu Ibrahim Abd El-Sadek Rion Morishita Shuichi MakitaTomoko MoriAtsuko FurukawaSatoshi MatsusakaYoshiaki Yasuno

Published in: Biomedical optics express (2024)

We demonstrate deep-learning neural network (NN)-based dynamic optical coherence tomography (DOCT), which generates high-quality logarithmic-intensity-variance (LIV) DOCT images from only four OCT frames. The NN model is trained for tumor spheroid samples using a customized loss function: the weighted mean absolute error. This loss function enables highly accurate LIV image generation. The fidelity of the generated LIV images to the ground truth LIV images generated using 32 OCT frames is examined via subjective image observation and statistical analysis of image-based metrics. Fast volumetric DOCT imaging with an acquisition time of 6.55 s/volume is demonstrated using this NN-based method.

Keyphrases

neural network
deep learning
optical coherence tomography
high speed
convolutional neural network
diabetic retinopathy
high resolution
artificial intelligence
machine learning
optic nerve
atomic force microscopy
magnetic resonance
contrast enhanced
computed tomography
mass spectrometry
body composition