Litcius/Paper detail

Dynamic inverse SNR-decorrelation OCT angiography with GPU acceleration

Xiaofeng Deng, Kaiyuan Liu, Tiepei Zhu, Dayou Guo, Xiaoting Yin, Lin Yao, Zhihua Ding, Juan Ye, Peng Li

2022Biomedical Optics Express17 citationsDOIOpen Access PDF

Abstract

Dynamic OCT angiography (OCTA) is an attractive approach for monitoring stimulus-evoked hemodynamics; however, a 4D (3D space and time) dataset requires a long acquisition time and has a large data size, thereby posing a great challenge to data processing. This study proposed a GPU-based real-time data processing pipeline for dynamic inverse SNR-decorrelation OCTA (ID-OCTA), offering a measured line-process rate of 133 kHz for displaying OCT and OCTA cross-sections in real time. Real-time processing enabled automatic optimization of angiogram quality, which improved the vessel SNR, contrast-to-noise ratio, and connectivity by 14.37, 14.08, and 9.76%, respectively. Furthermore, motion-contrast 4D angiographic imaging of stimulus-evoked hemodynamics was achieved within a single trail in the mouse retina. Consequently, a flicker light stimulus evoked an apparent dilation of the retinal arterioles and venules and an elevation of the decorrelation value in the retinal plexuses. Therefore, GPU ID-OCTA enables real-time and high-quality angiographic imaging and is particularly suitable for hemodynamic studies.

Topics & Concepts

DecorrelationComputer scienceImage qualityComputer visionArtificial intelligenceImage (mathematics)Optical Coherence Tomography ApplicationsRetinal Diseases and TreatmentsRetinal Imaging and Analysis