English

4D-image reconstruction directly from limited-angular-range data in continuous-wave electron paramagnetic resonance imaging

Medical Physics 2023-04-26 v1

Abstract

Objective: We investigate and develop optimization-based algorithms for accurate reconstruction of four-dimensional (4D)-spectral-spatial (SS) images directly from data collected over limited angular ranges (LARs) in continuous-wave (CW) electron paramagnetic resonance imaging (EPRI). Methods: Basing on a discrete-to-discrete data model devised in CW EPRI employing the Zeeman-modulation (ZM) scheme for data acquisition, we first formulate the image reconstruction problem as a convex, constrained optimization program that includes a data fidelity term and also constraints on the individual directional total variations (DTVs) of the 4D-SS image. Subsequently, we develop a primal-dual-based DTV algorithm, simply referred to as the DTV algorithm, to solve the constrained optimization program for achieving image reconstruction from data collected in LAR scans in CW-ZM EPRI. Results: We evaluate the DTV algorithm in simulated- and real-data studies for a variety of LAR scans of interest in CW-ZM EPRI, and visual and quantitative results of the studies reveal that 4D-SS images can be reconstructed directly from LAR data, which are visually and quantitatively comparable to those obtained from data acquired in the standard, full-angular-range (FAR) scan in CW-ZM EPRI. Conclusion: An optimization-based DTV algorithm is developed for accurately reconstructing 4D-SS images directly from LAR data in CW-ZM EPRI. Future work includes the development and application of the optimization-based DTV algorithm for reconstructions of 4D-SS images from FAR and LAR data acquired in CW EPRI employing schemes other than the ZM scheme. Significance: The DTV algorithm developed may be exploited potentially for enabling and optimizing CW EPRI with minimized imaging time and artifacts by acquiring data in LAR scans.

Keywords

Cite

@article{arxiv.2304.00209,
  title  = {4D-image reconstruction directly from limited-angular-range data in continuous-wave electron paramagnetic resonance imaging},
  author = {Zheng Zhang and Boris Epel and Buxin Chen and Dan Xia and Emil Y. Sidky and Zhiwei Qiao and Howard Halpern and Xiaochuan Pan},
  journal= {arXiv preprint arXiv:2304.00209},
  year   = {2023}
}

Comments

Submitted to Journal of Magnetic Resonance

R2 v1 2026-06-28T09:44:19.057Z