M.Sc. André Behrends
Fraunhofer-Einrichtung für Individualisierte und Zellbasierte Medizintechnik IMTE
Mönkhofer Weg 239a
23562 Lübeck
Email: | andre.behrends(at)imte.fraunhofer.de |
Phone: | +49 451 384448 199 |
Roles
Research Assistant
Member of the Lübecker IngenieurInnen Labor (LILa)
Research
Research Interests
- Magnetic Particle Imaging
- Physics of Magnetic Nanoparticles
- Electrical Engineering
- Signal Processing
Involved Projects
Curriculum Vitae
ANDRÉ BEHRENDS was born in Halle/Saale, Germany in 1987. He received his Master of Science in Medical Engineering Science in 2015 from the Universität zu Lübeck, Germany. During his study he was mainly interested in medical imaging and medical image processing. In 2014 he wrote his master thesis at the Institute of Medical Engineering, at the Universität zu Lübeck, about a frequency-tunable magnetic particle spectrometer, to detect the transition of brownian rotation to néel rotation. He is a Research Assistant at the Institute of Medical Engineering since 02/2015. In 2020, he joined the Fraunhofer Research Institution for Individualized and Cell-Based Medical Engineering IMTE.
Additionally, he is part of the Lübecker IngenieurInnen Labor (LILa), which aims at raising interest of high school students for the field of science and technology, especially medical engineering.
Publications
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Implementation and imaging with a versatile 180 mm magnetic particle imaging field generator, Journal of Magnetism and Magnetic Materials, 169509, 2022, DOI: 10.1016/j.jmmm.2022.169509.
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Recent developments in magnetic particle imaging, Journal of Magnetism and Magnetic Materials, 550, 169037, 2022, DOI: 10.1016/j.jmmm.2022.169037.
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Verfahren zur Erfassung der magnetischen Antwort einer Verteilung magnetisierbarer Partikel auf ein magnetisches Anregungsfeld, 2022, DE 10 2020 118 102 B4.
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Magnetic particle imaging, In: Imaging Modalities for Biological and Preclinical Research: A Compendium, IOP Publishing, , II.8–1 to II.8, 2021, DOI: 10.1088/978-0-7503-3747-2ch12.
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Navigation of a magnetic micro-robot through a cerebral aneurysm phantom with magnetic particle imaging, Scientific Reports, 11(1), 2021, DOI: 10.1038/s41598-021-93323-4.
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A standard procedure for implementation and automatic correction of LCC matching networks, International Journal on Magnetic Particle Imaging, Vol 6 No 2 Suppl. 1 (2020), 2020, DOI: 10.18416/IJMPI.2020.2009036.
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Investigating Spatial Resolution, Field Sequences and Image Reconstruction Strategies using Hybrid Phantoms in MPI, International Journal on Magnetic Particle Imaging, 6(1), 2020, DOI: 10.18416/IJMPI.2020.2003004.
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Temperature-dependent spectrum measurement using a magnetic particle spectrometer, International Journal on Magnetic Particle Imaging, 6(2), Suppl 1, 2020, DOI: https://doi.org/10.18416/IJMPI.2020.2009034.
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Efficient hybrid 3D system calibration for magnetic particle imaging systems using a dedicated device, Scientific Reports, 10(1), 2020, DOI: 10.1038/s41598-020-75122-5.
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A self-compensating coil setup for combined magnetic particle imaging and magnetic fluid hyperthermia, 2019.
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Dynamic 2D Imaging with an MPI Scanner Featuring a Mechanically Rotated FFL, 5, 2019.
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Sample Temperature Control in a Three-Dimensional Magnetic Particle Spectrometer, 211, 2019.
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Tracking the Growth of Superparamagnetic Nanoparticles with an In-Situ Magnetic Particle Spectrometer (INSPECT), Scientific Reports, 9(10538), 2019, DOI: https://doi.org/10.1038/s41598-019-46882-6.
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Combined Active and Passive Cancellation of Receive Chain Direct Feedthrough, 49, 2019.
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First Measurement and SNR Results of a 3D Magnetic Particle Spectrometer, International Journal on Magnetic Particle Imaging, 4(1), 2018, DOI: 10.18416/IJMPI.2018.1810001.
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Design of a Switched-Capacitor Array for High-Power Applications with Dense Coverage of Medium Frequency-Range, 171–172, 2018.
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First measured result of the 3D Magnetic Particle Spectrometer, 123, 2017.
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Optimizing the Coil Setup for a Three-Dimensional Magnetic Particle Spectrometer, 59, 2016.
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Magnetic Particle Spectrometer for the Analysis of Magnetic Particle Heating Applications, 47, 2016.
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Introducing a frequency-tunable magnetic particle spectrometer, 249–253, 2015, DOI: 10.1515/cdbme-2015-0062.
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Concept of a Rabbit-Sized FFL-Scanner, 49, 2015.
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A Device for Measureing the Trajectorey Dependent Magnetic Particle Performance for MPI, 2015, DOI: 10.1109/IWMPI.2015.7107078.
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Signal Chain Optimization in Magnetic Particle Imaging, 526–529, 2014, DOI: 10.1515/bmt-2014-5008.