Abstract
Recent advances in technology have enabled the combination of positron emission tomography (PET) with magnetic resonance imaging (MRI). These PET-MRI scanners simultaneously acquire functional PET and anatomical or functional MRI data. As function and anatomy are not independent of one another the images to be reconstructed are likely to have shared structures. We aim to exploit this inherent structural similarity by reconstructing from both modalities in a joint reconstruction framework. The structural similarity between two modalities can be modelled in two different ways: edges are more likely to be at similar positions and/or to have similar orientations. We analyse the diffusion process generated by minimizing priors that encapsulate these different models. It turns out that the class of parallel level set priors always corresponds to anisotropic diffusion which is sometimes forward and sometimes backward diffusion. We perform numerical experiments where we jointly reconstruct from blurred Radon data with Poisson noise (PET) and under-sampled Fourier data with Gaussian noise (MRI). Our results show that both modalities benefit from each other in areas of shared edge information. The joint reconstructions have less artefacts and sharper edges compared to separate reconstructions and the ℓ2-error can be reduced in all of the considered cases of under-sampling.
Highlights
IntroductionFor many decades single modality scanners to image either anatomy or function have been available and widely used in clinical practice
In recent years the landscape of medical imaging has changed
The latter means early stopping for positron emission tomography (PET) or minimal energy reconstruction for magnetic resonance imaging (MRI)
Summary
For many decades single modality scanners to image either anatomy or function have been available and widely used in clinical practice. Anatomy can be imaged for instance by magnetic resonance imaging (MRI) and computer assisted tomography (CT). Often functionality is measured by radioactive labelled markers using positron emission tomography (PET) or single photon emission computed tomography. Based on these single modality scanners, multi-modality scanners were developed to combine the strength of both regimes and image both structure and function. While PET-CT scanners acquire the data for the two modalities sequentially some recently developed PET-MRI scanners are able to perform both scans simultaneously [1,2,3]
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