Adaptive noise reduction for power Doppler imaging using SVD filtering in the channel domain and coherence weighting of pixels - Archive ouverte HAL
Article Dans Une Revue Physics in Medicine and Biology Année : 2023

Adaptive noise reduction for power Doppler imaging using SVD filtering in the channel domain and coherence weighting of pixels

Résumé

Abstract Objective . Ultrafast power Doppler (UPD) is an ultrasound method that can image blood flow at several thousands of frames per second. In particular, the high number of data provided by UPD enables the use of singular value decomposition (SVD) as a clutter filter for suppressing tissue signal. Notably, is has been demonstrated in various applications that SVD filtering increases significantly the sensitivity of UPD to microvascular flows. However, UPD is subjected to significant depth-dependent electronic noise and an optimal denoising approach is still being sought. Approach . In this study, we propose a new denoising method for UPD imaging: the Coherence Factor Mask (CFM). This filter is first based on filtering the ultrasound time-delayed data using SVD in the channel domain to remove clutter signal. Then, a spatiotemporal coherence mask that exploits coherence information between channels for identifying noisy pixels is computed. The mask is finally applied to beamformed images to decrease electronic noise before forming the power Doppler image. We describe theoretically how to filter channel data using a single SVD. Then, we evaluate the efficiency of the CFM filter for denoising in vitro and in vivo images and compare its performances with standard UPD and with three existing denoising approaches. Main results . The CFM filter gives gains in signal-to-noise ratio and contrast-to-noise ratio of up to 22 dB and 20 dB, respectively, compared to standard UPD and globally outperforms existing methods for reducing electronic noise. Furthermore, the CFM filter has the advantage over existing approaches of being adaptive and highly efficient while not requiring a cut-off for discriminating noise and blood signals nor for determining an optimal coherence lag. Significance . The CFM filter has the potential to help establish UPD as a powerful modality for imaging microvascular flows.
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Dates et versions

hal-04021155 , version 1 (08-02-2024)

Identifiants

Citer

Baptiste Pialot, Célestine Lachambre, Antonio Lorente Mur, Lionel Augeul, Lorena Petrusca, et al.. Adaptive noise reduction for power Doppler imaging using SVD filtering in the channel domain and coherence weighting of pixels. Physics in Medicine and Biology, 2023, 68 (2), pp.025001. ⟨10.1088/1361-6560/acac5d⟩. ⟨hal-04021155⟩
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