Investigation of the spatial resolution and penetration depth of a single-sided mpi device in three-dimensional imaging

Y. Blancke Soares; K. Gräfe; K. Lüdtke-Buzug; T. M. Buzug

doi:10.18416/IJMPI.2020.2009053

Investigation of the spatial resolution and penetration depth of a single-sided mpi device in three-dimensional imaging

Y. Blancke Soares^*, K. Gräfe, K. Lüdtke-Buzug, T. M. Buzug

^*Corresponding author for this work

Institute of Medical Engineering

2 Citations (Scopus)

Abstract

A one-sided arrangement of the components relevant for magnetic particle imaging leads to improved patient access, as the object size can be unlimited. In this paper, we further investigate the properties of the single-sided MPI system published earlier. A phantom with up to five positions filled with Perimag particles was rotated to evaluate the spatial resolution depending on the orientation of the receive coils. The reconstruction was done with a Kaczmarz algorithm and a Tikhonov regularization with individually calculated regularization parameters for each measurement. The penetration depth and the spatial resolution in the y-, z-plane were evaluated.

Original language	English
Article number	2009053
Journal	International Journal on Magnetic Particle Imaging
Volume	6
Issue number	2
Pages (from-to)	1-3
Number of pages	3
ISSN	2365-9033
DOIs	https://doi.org/10.18416/IJMPI.2020.2009053
Publication status	Published - 2020

Funding

The authors thank the German Federal Ministry of Education and Research (01DL17010A) for financial support.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being
SDG 9 Industry, Innovation, and Infrastructure

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10.18416/IJMPI.2020.2009053

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abstract = "A one-sided arrangement of the components relevant for magnetic particle imaging leads to improved patient access, as the object size can be unlimited. In this paper, we further investigate the properties of the single-sided MPI system published earlier. A phantom with up to five positions filled with Perimag particles was rotated to evaluate the spatial resolution depending on the orientation of the receive coils. The reconstruction was done with a Kaczmarz algorithm and a Tikhonov regularization with individually calculated regularization parameters for each measurement. The penetration depth and the spatial resolution in the y-, z-plane were evaluated.",

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AU - Buzug, T. M.

N1 - Funding Information: The authors thank the German Federal Ministry of Education and Research (01DL17010A) for financial support. Publisher Copyright: © 2020 Blancke Soares et al.; licensee Infinite Science Publishing GmbH. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.

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N2 - A one-sided arrangement of the components relevant for magnetic particle imaging leads to improved patient access, as the object size can be unlimited. In this paper, we further investigate the properties of the single-sided MPI system published earlier. A phantom with up to five positions filled with Perimag particles was rotated to evaluate the spatial resolution depending on the orientation of the receive coils. The reconstruction was done with a Kaczmarz algorithm and a Tikhonov regularization with individually calculated regularization parameters for each measurement. The penetration depth and the spatial resolution in the y-, z-plane were evaluated.

AB - A one-sided arrangement of the components relevant for magnetic particle imaging leads to improved patient access, as the object size can be unlimited. In this paper, we further investigate the properties of the single-sided MPI system published earlier. A phantom with up to five positions filled with Perimag particles was rotated to evaluate the spatial resolution depending on the orientation of the receive coils. The reconstruction was done with a Kaczmarz algorithm and a Tikhonov regularization with individually calculated regularization parameters for each measurement. The penetration depth and the spatial resolution in the y-, z-plane were evaluated.

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M3 - Journal articles

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Investigation of the spatial resolution and penetration depth of a single-sided mpi device in three-dimensional imaging

Abstract

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UN SDGs

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