Artifacts in field free line magnetic particle imaging in the presence of inhomogeneous and nonlinear magnetic fields

Abstract: Introduction: Magnetic Particle Imaging (MPI) is an emerging medical imaging modality that detects super-paramagnetic particles exploiting their nonlinear magnetization response. Spatial encoding can be realized using a Field Free Line (FFL), which is generated, rotated and translated through the Field of View (FOV) using a combination of magnetic gradient fields and homogeneous excitation fields. When scaling up systems and/or enlarging the FOV in comparison to the scanner bore, ensuring homogeneity and linea… Show more

“…In this paper we present the first proof of principal simulation studies of 2D image reconstruction for a single-sided FFL scanner with non-uniform fields. Previously, such fields were shown to cause imaging artifacts [ 23 ]. Here, we show simulation studies by means of filtered backprojection (FBP) image reconstruction technique [ 24 ], which is specifically tailored for the prototype of single-sided MPI scanner that uses an FFL for spatial encoding [ 21 ] and characterize its imaging performance.…”

2D projection image reconstruction for field free line single-sided magnetic particle imaging scanner: simulation studies

“…In this paper we present the first proof of principal simulation studies of 2D image reconstruction for a single-sided FFL scanner with non-uniform fields. Previously, such fields were shown to cause imaging artifacts [ 23 ]. Here, we show simulation studies by means of filtered backprojection (FBP) image reconstruction technique [ 24 ], which is specifically tailored for the prototype of single-sided MPI scanner that uses an FFL for spatial encoding [ 21 ] and characterize its imaging performance.…”

2D projection image reconstruction for field free line single-sided magnetic particle imaging scanner: simulation studies