IBI: Artifact Reduction

Artifact Reduction for MPI

High-quality images are essential for any imaging modality to make a reliable diagnosis, and although MPI is highly sensitive, artifacts are common. This issue poses significant challenges for applications that operate in environments with extremely low levels of iron, such as cell tracking. As a result, our objective is to reduce the amount of image artifacts in MPI by implementing different methods in the reconstruction process that allow for these applications. Key components for artifact reduction are:

Background subtraction in order to remove disturbing signals (e.g. joint estimation of particle distribution and background)
Joint reconstruction of multi-patch data to avoid artifacts at patch boundaries
Multi-level reconstruction methods to enhance contrast (e.g. increased dynamic range)
Raw data post-processing methods to reduce motion artifacts (e.g. multi-patch rotation)
Bias-reduction methods for regularization (e.g. bias reduction for sparsity promoting regularization)

Extrapolating the system matrix beyond the drive-field field of view reduces artifacts at the patch boundaries in multi-patch imaging scenarios.

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Publications

K. Scheffler, M. Boberg, and T. Knopp (2023). Extrapolation of System Matrices in Magnetic Particle Imaging. IEEE Transactions on Medical Imaging. 42. (4), 1121 - 1132 [Abstract] [pdf] [doi]
M. Boberg, T. Knopp, and M. Möddel (2023). Reducing displacement artifacts in multi-patch magnetic particle imaging. 10th International Congress on Industrial and Applied Mathematics (ICIAM 2023). 05026 [Abstract] [www]
K. Scheffler, M. Boberg, and T. Knopp (2022). Boundary artifact reduction by extrapolating system matrices outside the field-of-view in joint multi-patch MPI. International Journal on Magnetic Particle Imaging. 8. (1), 1-3 [Abstract] [doi] [www]
L. Zdun, M. Boberg, and C. Brandt (2022). Fast and artifact reducing joint multi-patch MPI reconstruction. International Journal on Magnetic Particle Imaging. 8. (1), 1-4 [Abstract] [doi] [www]
L. Zdun, M. Boberg, and C. Brandt (2022). Joint multi-patch reconstruction: fast and improved results by stochastic optimization. International Journal on Magnetic Particle Imaging. 8. (2), 1-8 [Abstract] [doi] [www]
M. Boberg and T. Knopp (2022). Two-Step Reconstruction of Widely Differing Particle Concentrations in Magnetic Particle Imaging. 4th Workshop Women in Optimization. [www]
M. Boberg and T. Knopp (2022). Two-Step Reconstruction with Spatially Adaptive Regularization for Increasing the Dynamic Range in MPI. International Journal on Magnetic Particle Imaging. 8. (1), 1-4 [Abstract] [doi] [www]
M. Boberg, N. Gdaniec, M. Möddel, P. Szwargulski, and T. Knopp (2022). Suppression of Motion Artifacts in Multi-Patch Magnetic Particle Imaging of a Phantom with Periodic Motion. SIAM Conference on Imaging Science (IS22). [Abstract]
L. Nawwas, C. Brandt, P. Szwargulski, T. Knopp, and M. Möddel (2021). Reduction of bias for sparsity promoting regularization in MPI. International Journal on Magnetic Particle Imaging. 7. (2), 1-13 [Abstract] [doi] [www]
M. Boberg, N. Gdaniec, P. Szwargulski, F. Werner, M. Möddel, and T. Knopp (2021). Simultaneous imaging of widely differing particle concentrations in MPI: problem statement and algorithmic proposal for improvement. Physics in Medicine & Biology. 66. (9), 095004 [Abstract] [doi] [www]
L. Nawwas, M. Möddel, T. Knopp, and C. Brandt (2020). Bias-reduction for sparsity promoting regularization in Magnetic Particle Imaging. International Journal on Magnetic Particle Imaging. 6. (2), 1-2 [Abstract] [doi] [www]
M. Boberg, T. Knopp, and M. Möddel (2020). Reducing displacement artifacts by warping system matrices in efficient joint multi-patch magnetic particle imaging. International Journal on Magnetic Particle Imaging. 6. (2), 1-3 [Abstract] [doi] [www]
M. Boberg, T. Knopp, P. Szwargulski, and M. Möddel (2020). Generalized MPI Multi-Patch Reconstruction using Clusters of similar System Matrices. IEEE Transactions on Medical Imaging. 39. (5), 1347-1358 [Abstract] [doi] [www]
N. Gdaniec, M. Boberg, M. Möddel, P. Szwargulski, and T. Knopp (2020). Suppression of Motion Artifacts Caused by Temporally Recurring Tracer Distributions in Multi-Patch Magnetic Particle Imaging. IEEE Transactions on Medical Imaging. 39. (11), 3548-3558 [Abstract] [doi] [www]
M. Boberg, M. Möddel, and T. Knopp (2019). Magnetic field based system matrix corrections for multi-patch MPI reconstructions. 9th International Congress on Industrial and Applied Mathematics (ICIAM 2019). 333 [Abstract] [www]
N. Gdaniec, P. Szwargulski, M. Möddel, M. Boberg, and T. Knopp (2019). Multi-Patch Magnetic Particle Imaging of a Phantom with Periodic Motion. 27-28 [Abstract]
N. Gdaniec, M. Schlüter, M. Hofmann, M. Kaul, K. Krishnan, A. Schlafer and T. Knopp (2017). Detection and Compensation of Periodic Motion in Magnetic Particle Imaging. IEEE Transactions on Medical Imaging. [doi]
A. Weber, F. Werner, J. Weizenecker, T. M. Buzug, T. Knopp (2016). Artifact free reconstruction with the system matrix approach by overscanning the field-free-point trajectory in magnetic particle imaging. Phys. Med. Biol.. 61. (2), 475-487 [doi]
K. Them, J. Salamon, P. Szwargulski, S. Sequeira, M. Kaul, C. Lange, H. Ittrich and T. Knopp (2016). Increasing the sensitivity for stem cell monitoring in system-function based magnetic particle imaging. Phys. Med. Biol.. 61. (9), 13
K. Them, M. G. Kaul, C. Jung, M. Hofmann, T. Mummert, F. Werner and T. Knopp (2016). Sensitivity enhancement in Magnetic Particle Imaging by Background Subtraction. IEEE Trans Med Imaging. 35. (3), 893-900 [doi]
N. Gdaniec, M. Hofmann, and T. Knopp (2016). Limitations of Magnetic Particle Imaging Resolving Large Contrasts. 81
K. Them, M. G. Kaul, C. Jung, M. Hofmann, T. Mummert, F. Werner and T. Knopp (2015). Sensitivity enhancement in Magnetic Particle Imaging by Background Subtraction. IEEE NSS/MIC.
T. Knopp, K. Them, M. Kaul and N. Gdaniec (2015). Joint reconstruction of non-overlapping magnetic particle imaging focus-field data. Phys. Med. Biol.. 60. L15 [doi]

Artifact Reduction for MPI

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