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Posterior Estimation for Dynamic PET imaging using Conditional Variational Inference

Medical Physics 2023-10-25 v1 Artificial Intelligence Signal Processing

Abstract

This work aims efficiently estimating the posterior distribution of kinetic parameters for dynamic positron emission tomography (PET) imaging given a measurement of time of activity curve. Considering the inherent information loss from parametric imaging to measurement space with the forward kinetic model, the inverse mapping is ambiguous. The conventional (but expensive) solution can be the Markov Chain Monte Carlo (MCMC) sampling, which is known to produce unbiased asymptotical estimation. We propose a deep-learning-based framework for efficient posterior estimation. Specifically, we counteract the information loss in the forward process by introducing latent variables. Then, we use a conditional variational autoencoder (CVAE) and optimize its evidence lower bound. The well-trained decoder is able to infer the posterior with a given measurement and the sampled latent variables following a simple multivariate Gaussian distribution. We validate our CVAE-based method using unbiased MCMC as the reference for low-dimensional data (a single brain region) with the simplified reference tissue model.

Keywords

Cite

@article{arxiv.2310.15850,
  title  = {Posterior Estimation for Dynamic PET imaging using Conditional Variational Inference},
  author = {Xiaofeng Liu and Thibault Marin and Tiss Amal and Jonghye Woo and Georges El Fakhri and Jinsong Ouyang},
  journal= {arXiv preprint arXiv:2310.15850},
  year   = {2023}
}

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Published on IEEE NSS&MIC

R2 v1 2026-06-28T13:00:18.841Z