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Your search keyword '"Foerger, Fynn"' showing total 13 results
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13 results on '"Foerger, Fynn"'

1. Resonant Inductive Coupling Network for Human-Sized Magnetic Particle Imaging

Author

Mohn, Fabian, Förger, Fynn, Thieben, Florian, Möddel, Martin, Schmale, Ingo, Knopp, Tobias, and Graeser, Matthias

Subjects
Electrical Engineering and Systems Science - Signal Processing, Electrical Engineering and Systems Science - Systems and Control, Physics - Medical Physics
Abstract

In Magnetic Particle Imaging, a field-free region is maneuvered throughout the field of view using a time-varying magnetic field known as the drive-field. Human-sized systems operate the drive-field in the kHz range and generate it by utilizing strong currents that can rise to the kA range within a coil called the drive field generator. Matching and tuning between a power amplifier, a band-pass filter and the drive-field generator is required. Here, for reasons of safety in future human scanners, a symmetrical topology and a transformer, called inductive coupling network is used. Our primary objectives are to achieve floating potentials to ensure patient safety, attaining high linearity and high gain for the resonant transformer. We present a novel systematic approach to the design of a loss-optimized resonant toroid with a D-shaped cross section, employing segmentation to adjust the inductance-to-resistance ratio while maintaining a constant quality factor. Simultaneously, we derive a specific matching condition of a symmetric transmit-receive circuit for magnetic particle imaging. The chosen setup filters the fundamental frequency and allows simultaneous signal transmission and reception. In addition, the decoupling of multiple drive field channels is discussed and the primary side of the transformer is evaluated for maximum coupling and minimum stray field. Two prototypes were constructed, measured, decoupled, and compared to the derived theory and to method-of-moment based simulations.

Published
2023
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2. System Characterization of a Human-Sized 3D Real-Time Magnetic Particle Imaging Scanner for Cerebral Applications

Author

Thieben, Florian, Foerger, Fynn, Mohn, Fabian, Hackelberg, Niklas, Boberg, Marija, Scheel, Jan-Philipp, Möddel, Martin, Graeser, Matthias, and Knopp, Tobias

Subjects
Physics - Medical Physics
Abstract

Since the initial patent in 2001, the Magnetic Particle Imaging (MPI) community has been striving to develop an MPI scanner suitable for human applications. Numerous contributions from different research fields, regarding tracer development, reconstruction methods, hardware engineering, and sequence design have been employed in pursuit of this objective. In this work, we introduce and thoroughly characterize an improved head-sized MPI scanner with an emphasis on human safety. The scanner is operated by open-source software that enables scanning, monitoring, analysis, and reconstruction, designed to be handled by end users. Our primary focus is to present all technical components of the scanner, with the ultimate objective to investigate brain perfusion imaging in phantom experiments. We have successfully achieved full 3D single- and multi-contrast imaging capabilities at a frame rate of 4 Hz with sufficient sensitivity and resolution for brain applications. To assess system characterization, we devised sensitivity, resolution, perfusion, and multi-contrast experiments, as well as field measurements and sequence analysis. The acquired images were captured using a clinically approved tracer and suitable magnetic field strengths, while adhering to the established human peripheral nerve stimulation thresholds. This advanced scanner holds potential as a tomographic imager for diagnosing conditions such as ischemic stroke or intracranial hemorrhage in environments lacking electromagnetic shielding. Furthermore, due to its low power consumption it may have the potential to facilitate long-term monitoring within intensive care units for various applications., Comment: 22 pages, 9 figures

Published
2023
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5. Design of a Head Coil for High Resolution Mouse Brain Perfusion Imaging using Magnetic Particle Imaging

Author

Graeser, Matthias, Ludewig, Peter, Szwargulski, Patryk, Foerger, Fynn, Liebing, Tom, Forkert, Nils D., Thieben, Florian, Magnus, Tim, and Knopp, Tobias

Subjects
Physics - Medical Physics, Electrical Engineering and Systems Science - Signal Processing
Abstract

Magnetic Particle Imaging (MPI) is a novel and versatile imaging modality developing towards human application. When up-scaling to human size, the sensitivity of the systems naturally drops as the coil sensitivity depends on the bore diameter. Thus, new methods to push the sensitivity limit further have to be investigated to cope for this loss. In this paper a dedicated surface coil for mice is developed, improving the sensitivity in cerebral imaging applications. Similar to MRI the developed surface coil improves the sensitivity due to the closer vicinity to the region of interest. With the developed surface coil presented in this work, it is possible to image tracer samples containing only 896 pg Fe and detect even small vessels and anatomical structures within a wild type mouse model. As current sensitivity measures require a tracer system a new method for determining a sensitivity measure without this requirement is presented and verified to enable comparison between MPI receiver systems., Comment: 15 pages 7 figures original article, Revision 1. Small changes

Published
2020
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6. Ellipsoidal harmonic expansions for efficient approximation of magnetic fields in medical imaging

Author

Scheffler, Konrad, Meyn, Lara, Foerger, Fynn, Boberg, Marija, Möddel, Martin, Knopp, Tobias, Scheffler, Konrad, Meyn, Lara, Foerger, Fynn, Boberg, Marija, Möddel, Martin, and Knopp, Tobias

Abstract

Exact knowledge on the magnetic fields used in tomographic imaging systems is important for accurate sequence planning and model-based image reconstruction in existing devices. It is common to measure the magnetic fields on a small subset of points and use spherical harmonics to approximate the fields inside a spherical region. However, most scanner bores could be better filled using a cylindrical or ellipsoidal region. In this work, we present the application of ellipsoidal harmonics for efficient approximation of a typical magnetic field in magnetic particle imaging.

Published
2024

7. Trade-off between power consumption and receive signal strength for inductively coupled transmit-receive circuits in MPI

Author

Mohn, Fabian, Foerger, Fynn, Thieben, Florian, Möddel, Martin, Knopp, Tobias, Graeser, Matthias, Mohn, Fabian, Foerger, Fynn, Thieben, Florian, Möddel, Martin, Knopp, Tobias, and Graeser, Matthias

Abstract

The signal chain of a Magnetic Particle Imaging system can be designed to include a dedicated receive-only coil or to combine transmit and receive coils. More common are circuits with separate transmit and receive chains, using dedicated receive coil(s) that cancel the excitation feedthrough. However, combined transmit-receive systems may prove to have several benefits, such as reducing the system complexity, providing a lower resistive noise contribution due to larger copper cross-section, facilitating a transition from 1D to multidimensional signal generation and acquisition, and implementing an embedded band-stop filter. In this theoretical work, a matching condition that governs inductors for resonant combined transmit-receive systems is investigated. To tap the signal, a compromise between the obtained signal strength and power consumption is considered, caused by the chosen circuit topology, that balances both signal loss and power consumption at a −3 dB benchmark.

Published
2024

8. Experimental parameter calibration of the scanner model for model-based MPI

Author

Thieben, Florian, Albers, Hannes, Mohn, Fabian, Foerger, Fynn, Boberg, Marija, Scheffler, Konrad, Möddel, Martin, Kluth, Tobias, Knopp, Tobias, Thieben, Florian, Albers, Hannes, Mohn, Fabian, Foerger, Fynn, Boberg, Marija, Scheffler, Konrad, Möddel, Martin, Kluth, Tobias, and Knopp, Tobias

Abstract

Model-based reconstruction is still one of the key challenges in magnetic particle imaging (MPI) when using multidimensional Lissajous-type excitation. Besides an appropriate particle model, the model of the MPI system for signal generation and reception has a major impact on the modeled system matrix. We outline the influence of the MPI scanner parameters on the system matrix pattern and review methods to calibrate each parameter.

Published
2024

10. Algorithmic channel decoupling for misaligned receive coils in magnetic particle imaging

Author

Thieben, Florian, Foerger, Fynn, Boberg , Marija, Liebing , Tom, Gräser, Matthias, Möddel, Martin, Knopp, Tobias, and Publica

Subjects
Quantitative Biology::Biomolecules, Medizin [610], Physics::Medical Physics, ddc:610, ddc:004, Informatik [004], Computer Science::Information Theory
Abstract

Magnetic particle imaging (MPI) uses orthogonal receive coils aligned with the drive-field coil directions for signal detection. In case of misaligned receive coils, the particle magnetization couples differently into the receive coils such that a re-calibration involving the measurement of a new system function would be necessary. In this work, we propose a method for decoupling the channels algorithmically into the drive-field coil directions using an MPI transfer function matrix. In that way, system functions for different receive coil units can be reused., International Journal on Magnetic Particle Imaging, Vol 8 No 1 Suppl 1 (2022)

Published
2022

11. Heat it up: Thermal stabilization by active heating to reduce impedance drifts in capacitive matched networks

Author

Thieben, Florian, Foerger, Fynn, Mohn, Fabian, Sevecke, Florian, Knopp, Tobias, Graeser, Matthias, and Publica

Subjects
Medizin [610], ddc:610, ddc:004, Informatik [004]
Abstract

The achievable sensitivity in Magnetic Particle Imaging is not only limited by noise, but also depends on the stability of the system. Thermal dependencies of the current carrying components lead to drive-field distortions in amplitude and phase causing drifting background signals. In this work, an active capacitor heating system is developed that allows for thermal stabilization and trimming a resonance circuit to the desired frequency., International Journal on Magnetic Particle Imaging, Vol 8 No 1 Suppl 1 (2022)

Published
2022

12. Multi-Channel Current Control System for Coupled Multi-Coil Arrays

Author

Foerger, Fynn, Scheel, Jan-Philipp, Thieben, Florian, Mohn, Fabian, Knopp, Tobias, Graeser, Matthias, and Publica

Subjects
Medizin [610], ddc:610, ddc:004, Informatik [004]
Abstract

For imaging and force experiments in Magnetic Particle Imaging several field generating coils are required to produce sufficiently high and flexible magnetic fields. To minimize power consumption, coils with iron cores are the best choice for low and medium frequency ranges. Such coils have comparatively high reactance and often are inductively coupled. The trivial approach to ensure target currents is to provide each coil with a current controlled source resulting in high system complexity and high costs. This paper presents a circuit design to distribute bipolar target currents from a single unipolar source with high accuracy, reducing unwanted coil coupling by a feedback controller. Thus, the number of current sources can be significantly reduced. With a regenerative concept, reactive power is stored and can be reused, allowing efficient and fast current switching., International Journal on Magnetic Particle Imaging, Vol 8 No 1 Suppl 1 (2022)

Published
2022

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