Publication: Coregistration and Spatial Compounding of Optoacoustic Cardiac Images via Fourier Analysis of Four-Dimensional Data
Coregistration and Spatial Compounding of Optoacoustic Cardiac Images via Fourier Analysis of Four-Dimensional Data
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Li, H., Ivankovic, I., Li, J., Razansky, D., & Deán-Ben, X. L. (2020). Coregistration and Spatial Compounding of Optoacoustic Cardiac Images via Fourier Analysis of Four-Dimensional Data. Applied Sciences, 10(18), 6254. https://doi.org/10.3390/app10186254
Abstract
Abstract
Abstract
Volumetric optoacoustic tomography has been shown to provide unprecedented capabilities for ultrafast imaging of cardiovascular dynamics in mice. Three-dimensional imaging rates in the order of 100 Hz have been achieved, which enabled the visualization of transient cardiac events such as arrhythmias or contrast agent perfusion without the need for retrospective gating. The fast murine heart rates (400–600 beats per minute) yet impose limitations when it comes to compounding of multiple frames or accurate registration of multi-spectral
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Creators (Authors)
- Li, Hongtong
- Ivankovic, Ivana
- Li, Jiao
- Deán-Ben, Xosé Luís
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Citations
Li, H., Ivankovic, I., Li, J., Razansky, D., & Deán-Ben, X. L. (2020). Coregistration and Spatial Compounding of Optoacoustic Cardiac Images via Fourier Analysis of Four-Dimensional Data. Applied Sciences, 10(18), 6254. https://doi.org/10.3390/app10186254
