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Development of a multi-scene universal multiple wavelet-FFT algorithm (MW-FFTA) for denoising motion artifacts in OCT-angiography in vivo imaging

Yunrui Zhang, Junwei Li, Chunlei Liu, Kaili Zheng, Bei Zhang, Yuying Zhou, Cuixia Dai, Shanhui Fan, Youliang Yao, Rongqiang Zhuang, Dongbei Guo, Zicheng Huang, Jingsong Mao, Junqiang Liang, Hongqin Yang, Liansheng Wang, Gang Liu, Xiaoyuan Chen, Qingliang Zhao

2022Optics Express10 citationsDOIOpen Access PDF

Abstract

Optical coherence tomography angiography (OCTA) images suffer from inevitable micromotion (breathing, heartbeat, and blinking) noise. These image artifacts can severely disturb the visibility of results and reduce accuracy of vessel morphological and functional metrics quantization. Herein, we propose a multiple wavelet-FFT algorithm (MW-FFTA) comprising multiple integrated processes combined with wavelet-FFT and minimum reconstruction that can be used to effectively attenuate motion artifacts and significantly improve the precision of quantitative information. We verified the fidelity of image information and reliability of MW-FFTA by the image quality evaluation. The efficiency and robustness of MW-FFTA was validated by the vessel parameters on multi-scene in vivo OCTA imaging. Compared with previous algorithms, our method provides better visual and quantitative results. Therefore, the MW-FFTA possesses the potential capacity to improve the diagnosis of clinical diseases with OCTA.

Topics & Concepts

Computer scienceHeartbeatFast Fourier transformComputer visionArtificial intelligenceImage qualityWaveletWavelet transformOptical coherence tomographyRobustness (evolution)Noise reductionAlgorithmOpticsImage (mathematics)PhysicsGeneChemistryBiochemistryComputer securityOptical Coherence Tomography ApplicationsPhotoacoustic and Ultrasonic ImagingCoronary Interventions and Diagnostics
Development of a multi-scene universal multiple wavelet-FFT algorithm (MW-FFTA) for denoising motion artifacts in OCT-angiography in vivo imaging | Litcius