Litcius/Paper detail

Photoacoustic Tomography Image Restoration With Measured Spatially Variant Point Spread Functions

Qi Li, Jian Wu, Xipan Li, Shuangyang Zhang, Shixian Huang, Qianjin Feng, Wufan Chen

2021IEEE Transactions on Medical Imaging43 citationsDOI

Abstract

The spatial resolution of photoacoustic tomography (PAT) can be characterized by the point spread function (PSF) of the imaging system. Due to the tomographic detection geometry, the PAT image degradation model could be generally described by using spatially variant PSFs. Deconvolution of the PAT image with these PSFs could restore image resolution and recover object details. Previous PAT image restoration algorithms assume that the degraded images can be restored by either a single uniform PSF, or some blind estimation of the spatially variant PSFs. In this work, we propose a PAT image restoration method to improve image quality and resolution based on experimentally measured spatially variant PSFs. Using photoacoustic absorbing microspheres, we design a rigorous PSF measurement procedure, and successfully acquire a dense set of spatially variant PSFs for a commercial cross-sectional PAT system. A pixel-wise PSF map is further obtained by employing a multi-Gaussian-based fitting and interpolation algorithm. To perform image restoration, an optimization-based iterative restoration model with two kinds of regularizations is proposed. We perform phantom and in vivo mice imaging experiments to verify the proposed method, and the results show significant image quality and resolution improvement.

Topics & Concepts

Point spread functionImage restorationDeconvolutionArtificial intelligenceComputer visionInterpolation (computer graphics)Image resolutionIterative reconstructionImaging phantomComputer scienceImage qualityPixelOptical transfer functionTomographyImage (mathematics)Image processingOpticsAlgorithmPhysicsPhotoacoustic and Ultrasonic ImagingOptical Imaging and Spectroscopy TechniquesNanoplatforms for cancer theranostics