• [ in press ]
• [ 2023 ]
• [ 2022 ]
• [ 2021 ]
• [ 2020 ]
• [ 2019 ]
• [ 2018 ]
• [ 2016 ]
• [ 2013 ]

• Ulloa, P., Methot, V., Wottschel, V. and Koch, M. A.: Extra-axonal contribution to double diffusion encoding-based pore size estimates in the corticospinal tract, Magnetic Resonance Materials in Physics, Biology and Medicine, in press, DOI: 10.1007/s10334-022-01058-8.
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  @article{QS465-ullo23, abstract = {Purpose: Study the origin of compartment size overestimation in double diffusion encoding MRI (DDE) in vivo experiments in the human corticospinal tract. Here, the extracellular space is hypothesized to be the origin of the DDE signal. By exploiting the DDE sensitivity to pores’ shape, it could be possible to identify the origin of the measured signal. The difference between parallel and perpendicular diffusion gradient orientation can indicate if a compartment is regular or eccentric in shape. As extracellular space can be considered an eccentric compartment, a positive difference would mean a high contribution to the compartment size estimates. Materials and Methods: Computer simulations using MISST and in-vivo experiments in eight healthy volunteers were performed. DDE experiments using a double spin-echo preparation with eight perpendicular directions were measured in vivo. The difference between parallel and perpendicular gradient orientations was analyzed using Wilcoxon signed-rank test and Mann-Whitney-U-test. Results: Simulations and MR experiments showed a statistically significant difference between parallel and perpendicular diffusion gradient orientation ($\alpha=0.05$). Conclusion: The results suggest that the DDE-based size estimate may be considerably influenced by the extra-axonal compartment. However, the experimental results are also consistent with purely intra-axonal contributions in combination with a large fiber orientation dispersion.}, author = {Ulloa, P. and Methot, V. and Wottschel, V. and Koch, M. A.}, journal = {Magnetic Resonance Materials in Physics, Biology and Medicine}, keywords = {WottschelViktor}, title = {Extra-axonal contribution to double diffusion encoding-based pore size estimates in the corticospinal tract}, year = {in press} }

• Hellwege, L., Schaar, M., Buzug, T. M. and Stille, M.: Advanced Empirical Dual-Energy Calibration, 2023.
  • [ BibTeX ]
  @inproceedings{hellwege2023advanced, author = {Hellwege, Laura and Schaar, Moritz and Buzug, Thorsten M. and Stille, Maik}, booktitle = {Proceedings of IEEE MIC 2023}, keywords = {stillemaik}, publisher = {IEEE Xplore}, title = {Advanced Empirical Dual-Energy Calibration}, year = 2023 }
• Aderhold, E., Schumacher, J., Stagge, P., Ahlborg, M., Buzug, T. M. and Graeser, M.: Towards a Fully Integrated Preclinical Field-Free Line MPI Scanner, 2023.
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  @inproceedings{aderhold2023towards, author = {Aderhold, Eric and Schumacher, Jonas and Stagge, Pascal and Ahlborg, Mandy and Buzug, Thorsten M. and Graeser, Matthias}, booktitle = {International Journal on Magnetic Particle Imaging IJMPI}, keywords = {staggepascal}, number = {1 Suppl 1}, title = {Towards a Fully Integrated Preclinical Field-Free Line MPI Scanner}, volume = 9, year = 2023 }
• Niebel, F., Schumacher, J., Mohn, F., Ahlborg, M., Buzug, T. M. and Graeser, M.: A Novel Approach to FFL Trajectory Analysis, International Journal on Magnetic Particle Imaging IJMPI, Vol 9 No 1 Suppl 1 (2023), 2023, DOI: 10.18416/IJMPI.2023.2303074.
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  @article{https://doi.org/10.18416/ijmpi.2023.2303074, author = {Niebel, Frauke and Schumacher, Jonas and Mohn, Fabian and Ahlborg, Mandy and Buzug, Thorsten M. and Graeser, Matthias}, journal = {International Journal on Magnetic Particle Imaging IJMPI}, keywords = {schumacherjonas}, pages = {Vol 9 No 1 Suppl 1 (2023)}, publisher = {International Journal on Magnetic Particle Imaging IJMPI}, title = {A Novel Approach to FFL Trajectory Analysis}, year = 2023 }
• Hackelberg, N., Schumacher, J., Ackers, J., Möddel, M., Förger, F., Graeser, M. and Knopp, T.: MPIMeasurements.jl: An Extensible Julia Framework for Composable Magnetic Particle Imaging Devices, International Journal on Magnetic Particle Imaging IJMPI, Vol 9 No 1 Suppl 1 (2023), 2023, DOI: 10.18416/IJMPI.2023.2303069.
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  @article{https://doi.org/10.18416/ijmpi.2023.2303069, author = {Hackelberg, Niklas and Schumacher, Jonas and Ackers, Justin and Möddel, Martin and Förger, Fynn and Graeser, Matthias and Knopp, Tobias}, journal = {International Journal on Magnetic Particle Imaging IJMPI}, keywords = {schumacherjonas}, pages = {Vol 9 No 1 Suppl 1 (2023)}, publisher = {International Journal on Magnetic Particle Imaging IJMPI}, title = {MPIMeasurements.jl: An Extensible Julia Framework for Composable Magnetic Particle Imaging Devices}, year = 2023 }
• Pommranz, C., Elmoujarkach, E., Cabello, J., Rafecas, M., Mannheim, J., Santangelo, A., la Fougère, C., Pichler, B. and Schmidt, F.: Simulation Studies and Experimental Model Validation of the Biograph Vision Quadra, Nuklearmedizin - NuclearMedicine, 62(02), V8-, 2023, DOI: 10.1055/s-0043-1766212.
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  @article{noauthororeditor2023simulation, author = {Pommranz, Christian and Elmoujarkach, Ezzat and Cabello, Jorge and Rafecas, Magdalena and Mannheim, Julia and Santangelo, Andrea and la Fougère, Christian and Pichler, Bernd and Schmidt, Fabian}, journal = {Nuklearmedizin - NuclearMedicine}, keywords = {myown}, number = {02}, pages = {V8–}, publisher = {Georg Thieme Verlag}, title = {Simulation Studies and Experimental Model Validation of the Biograph Vision Quadra}, volume = 62, year = 2023 }
• Llosá, G. and Rafecas, M.: Hybrid PET/Compton-camera imaging: an imager for the next generation, The European Physical Journal Plus, 138(3), 214, 2023.
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  @article{llosa2023hybrid, author = {Llos{\'a}, Gabriela and Rafecas, Magdalena}, journal = {The European Physical Journal Plus}, keywords = {rafecasmagdalena}, number = 3, pages = 214, publisher = {Springer}, title = {Hybrid PET/Compton-camera imaging: an imager for the next generation}, volume = 138, year = 2023 }
• Elmoujarkach, E., Seeger, S., Schmidt, C., Mannheim, J. G., Schmidt, F. P. and Rafecas, M.: First 3D printed radioactive 89Zr phantoms for Positron Emission Tomography, Transactions on Additive Manufacturing Meets Medicine, Vol. 5 No. S1 (2023): Trans. AMMM Supplement, 2023, DOI: 10.18416/AMMM.2023.2309833.
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  @article{https://doi.org/10.18416/ammm.2023.2309833, author = {Elmoujarkach, Ezzat and Seeger, Steven and Schmidt, Christian and Mannheim, Julia G. and Schmidt, Fabian P. and Rafecas, Magdalena}, journal = {Transactions on Additive Manufacturing Meets Medicine}, keywords = {imt}, pages = {Vol. 5 No. S1 (2023): Trans. AMMM Supplement}, publisher = {Transactions on Additive Manufacturing Meets Medicine}, title = {First 3D printed radioactive 89Zr phantoms for Positron Emission Tomography}, year = 2023 }

• Zvolsky, M. L., Schaar, M., Seeger, S. S., Rakers, S. and Rafecas, M.: Development of a digital zebrafish phantom and its application to dedicated small-fish PET, Physics in Medicine & Biology, 67(17), 175005, 2022, DOI: 10.1088/1361-6560/ac71ee.
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  @article{zvolsky2022development, author = {Zvolsky, Milan Lukas and Schaar, Moritz and Seeger, Steven Sebastian and Rakers, Sebastian and Rafecas, Magdalena}, journal = {Physics in Medicine \& Biology}, keywords = {seegersteven}, number = 17, pages = 175005, title = {Development of a digital zebrafish phantom and its application to dedicated small-fish {PET}}, volume = 67, year = 2022 }
• Ibbeken, A., Zell, F., Hagen, C., Grzyska, U., Steffen, A., Frydrychowicz, A. and Buzug, T. M.: Experimental FSI simulation validation of an anthropomorphic upper airway phantom, Transactions on Additive Manufacturing Meets Medicine, 4(1), 674, 2022, DOI: 10.18416/AMMM.2022.2209674.
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  @article{https://doi.org/10.18416/ammm.2022.2209674, author = {Ibbeken, Alina and Zell, Fenja and Hagen, Christina and Grzyska, Ulrike and Steffen, Armin and Frydrychowicz, Alex and Buzug, Thorsten M.}, journal = {Transactions on Additive Manufacturing Meets Medicine}, keywords = {imt}, number = 1, pages = 674, publisher = {Transactions on Additive Manufacturing Meets Medicine}, title = {Experimental FSI simulation validation of an anthropomorphic upper airway phantom}, volume = 4, year = 2022 }
• Wegner, F., von Gladiss, A., Wei, H., Behrends, A., Grzyska, U., Sieren, M. M., Haegele, J., Graeser, M., Buzug, T. M., Barkhausen, J. and Friedrich, T.: Heating of Large Endovascular Stents and Stent Grafts in Magnetic Particle Imaging-Influence of Measurement Parameters and Isocenter Distance, CardioVascular and Interventional Radiology, 2022, DOI: 10.1007/s00270-022-03324-7.
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  @article{Wegner_2022, author = {Wegner, Franz and von Gladiss, Anselm and Wei, Huimin and Behrends, Andr{\'{e}} and Grzyska, Ulrike and Sieren, Malte M. and Haegele, Julian and Graeser, Matthias and Buzug, Thorsten M. and Barkhausen, Joerg and Friedrich, Thomas}, journal = {{CardioVascular} and Interventional Radiology}, keywords = {mpi}, month = {dec}, publisher = {Springer Science and Business Media {LLC}}, title = {Heating of Large Endovascular Stents and Stent Grafts in Magnetic Particle Imaging-Influence of Measurement Parameters and Isocenter Distance}, year = 2022 }
• Ferrero, V., Werner, J., Aglietta, M., Cerello, P., Fiorina, E., Gorgi, A., Vignati, A., Rafecas, M. and Pennazio, F.: The MERLINO project:characterization of LaBr3:Ce detectors for stopping power monitoring in proton therapy, Journal of Instrumentation, 17(11), C11013, 2022, DOI: 10.1088/1748-0221/17/11/C11013.
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  @article{Ferrero_2022, abstract = {The MERLINO project is developing a multi-detector setup with the goal of evaluating the beam stopping power from Prompt-Gamma-Timing measurements in proton therapy. The detectors are based on the cerium-doped lanthanum bromide crystal, LaBr3:Ce, coupled to photo-multiplier tubes. The system characterization is ongoing and the first calibration measurements with two detectors showed 124 ps σ and σ E/E = 3% for the timing and energy resolution, respectively. The measured experimental parameters were then used to carry out a preliminary estimation of the stopping power. Results from the simulation of a 189 MeV proton beam impinging on an homogeneous phantom are presented for the optimisation of the MERLINO detector setup.}, author = {Ferrero, V. and Werner, J. and Aglietta, M. and Cerello, P. and Fiorina, E. and Gorgi, A. and Vignati, A. and Rafecas, M. and Pennazio, F.}, journal = {Journal of Instrumentation}, keywords = {imt}, month = {nov}, number = 11, pages = {C11013}, publisher = {IOP Publishing}, title = {The MERLINO project:characterization of LaBr3:Ce detectors for stopping power monitoring in proton therapy}, volume = 17, year = 2022 }
• Byl, A., Knaup, M., Rafecas, M., Hoeschen, C. and Kachelrieß, M.: Detruncation of clinical CT scans using a discrete algebraic reconstruction technique prior, 2022, DOI: 10.1117/12.2646885.
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  @inproceedings{Byl_2022, author = {Byl, Achim and Knaup, Michael and Rafecas, Magdalena and Hoeschen, Christoph and Kachelrie{\ss}, Marc}, booktitle = {7th International Conference on Image Formation in X-Ray Computed Tomography}, editor = {Stayman, Joseph Webster}, keywords = {rafecasmagdalena}, month = {oct}, publisher = {{SPIE}}, title = {Detruncation of clinical {CT} scans using a discrete algebraic reconstruction technique prior}, year = 2022 }
• Dell, A. C., Wagner, G., Own, J. and Geibel, J. P.: 3D Bioprinting Using Hydrogels: Cell Inks and Tissue Engineering Applications, Pharmaceutics, 14(12), 2596, 2022, DOI: 10.3390/pharmaceutics14122596.
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  @article{Dell_2022, author = {Dell, Annika C. and Wagner, Grayson and Own, Jason and Geibel, John P.}, journal = {Pharmaceutics}, keywords = {myown}, month = {nov}, number = 12, pages = 2596, publisher = {{MDPI} {AG}}, title = {3D Bioprinting Using Hydrogels: Cell Inks and Tissue Engineering Applications}, volume = 14, year = 2022 }
• Ferrero, V., Werner, J., Cerello, P., Fiorina, E., Vignati, A., Pennazio, F. and Rafecas, M.: Estimating the stopping power distribution during proton therapy: A proof of concept, Frontiers in Physics, 2022, DOI: 10.3389/fphy.2022.971767.
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  @article{ferrero2022estimating, abstract = {Objective. We introduce a new treatment verification technique to estimate the primary particle's stopping power from prompt gamma timing measurements in proton therapy. Approach. The starting point is the Spatio-temporal Emission Recostruction technique, which provides the time-depth distribution of the emitted prompt photons with a multiple Prompt-Gamma Timing detector setup based on Lanthanum Bromide crystals. A dedicated formalism based on an analytical approximation of the stopping power is developed to obtain the desired information. Its performance is evaluated in a proof of concept configuration via Monte Carlo simulations of monochromatic proton beams impinging on a homogeneous PMMA phantom. Main Results. Results indicate stopping power estimations as good as 3.8% with respect to NIST values, and range estimations within 0.3 cm (standard deviation), when considering 250 ps FWHM timing resolution. Significance. The current study shows, for the first time, the feasibility of evaluating the stopping power of primary beams with a technique that can be performed in-vivo, opening up new possibilities in the field of treatment verification and therapy optimization.}, author = {Ferrero, Veronica and Werner, Julius and Cerello, Piergiorgio and Fiorina, Elisa and Vignati, Anna and Pennazio, Francesco and Rafecas, Magdalena}, editor = {Vasquez Osorio, Eliana Maria}, journal = {Frontiers in Physics}, keywords = {myown}, month = {sep}, publisher = {Frontiers}, title = {Estimating the stopping power distribution during proton therapy: A proof of concept}, type = {article}, year = 2022 }
• Neumann, A., Gräfe, K., von Gladiss, A., Ahlborg, M., Behrends, A., Chen, X., Schumacher, J., Soares, Y. B., Friedrich, T., Wei, H., Malhorta, A., Aderhold, E., Bakenecker, A. C., Lüdtke-Buzug, K. and Buzug, T. M.: 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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  @article{Neumann_2022, author = {Neumann, Alexander and Gräfe, Ksenija and von Gladiss, Anselm and Ahlborg, Mandy and Behrends, Andr{\'{e}} and Chen, Xin and Schumacher, Jonas and Soares, Yvonne Blancke and Friedrich, Thomas and Wei, Humin and Malhorta, Ankit and Aderhold, Eric and Bakenecker, Anna C. and Lüdtke-Buzug, Kerstin and Buzug, Thorsten M.}, journal = {Journal of Magnetism and Magnetic Materials}, keywords = {weihuimin}, month = {may}, pages = 169037, publisher = {Elsevier {BV}}, title = {Recent developments in magnetic particle imaging}, volume = 550, year = 2022 }
• Pennazio, F., Ferrero, V., D’Onghia, G., Garbolino, S., Fiorina, E., Villarreal, O. A. M., Milian, F. M., Monaco, V., Monti, V., Patera, A., Werner, J., Wheadon, R. and Rafecas, M.: Proton therapy monitoring: spatiotemporal emission reconstruction with prompt gamma timing and implementation with PET detectors, Physics in Medicine & Biology, 67(6), 065005, 2022, DOI: 10.1088/1361-6560/ac5765.
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  @article{Pennazio_2022, author = {Pennazio, Francesco and Ferrero, Veronica and D'Onghia, Grazia and Garbolino, Sara and Fiorina, Elisa and Villarreal, Oscar Ariel Marti and Milian, Felix Mas and Monaco, Vincenzo and Monti, Valeria and Patera, Alessandra and Werner, Julius and Wheadon, Richard and Rafecas, Magdalena}, journal = {Physics in Medicine & Biology}, keywords = {myown}, month = {mar}, number = 6, pages = {065005}, publisher = {{IOP} Publishing}, title = {Proton therapy monitoring: spatiotemporal emission reconstruction with prompt gamma timing and implementation with {PET} detectors}, volume = 67, year = 2022 }
• Seeger, S., Zvolský, M., Melikov, S., Frerkes, M. and Rafecas, M.: Dedicated Chamber for Multimodal In Vivo Imaging of Adult Zebrafish, Zebrafish, 2022, DOI: 10.1089/zeb.2021.0066.
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  @article{Seeger_2022, author = {Seeger, Steven and Zvolský, Milan and Melikov, Salim and Frerkes, Maja and Rafecas, Magdalena}, journal = {Zebrafish}, keywords = {imt}, month = {mar}, publisher = {Mary Ann Liebert Inc}, title = {Dedicated Chamber for Multimodal In Vivo Imaging of Adult Zebrafish}, year = 2022 }
• Zell, F., Hagen, C., Ibbeken, A., Grzyska, U., Frydrychowicz, A., Steffen, A. and Buzug, T. M.: Comparison of the fluid-structure interaction of an airway of a sleep apnea patient with and without wearing a protrusion splint, 329–330, 2022.
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  @inproceedings{zell2022comparison, author = {Zell, Fenja and Hagen, Christina and Ibbeken, Alina and Grzyska, Ulrike and Frydrychowicz, Alex and Steffen, Armin and Buzug, Thorsten M.}, booktitle = {12th European Conference on Mathematical and Theoretical Biology ECMTB}, keywords = {imt}, pages = {329-330}, title = {Comparison of the fluid-structure interaction of an airway of a sleep apnea patient with and without wearing a protrusion splint}, year = 2022 }
• Hagen, C., Zell, F., Ibbeken, A., Grzyska, U., Frydrychowicz, A., Steffen, A. and Buzug, T. M.: Reducing computational effort by domain splitting of flow simulations in the upper airway of sleep apnea patients, 563–564, 2022.
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  @inproceedings{hagen2022reducing, author = {Hagen, Christina and Zell, Fenja and Ibbeken, Alina and Grzyska, Ulrike and Frydrychowicz, Alex and Steffen, Armin and Buzug, Thorsten M.}, booktitle = {12th European Conference on Mathematical and Theoretical Biology ECMTB}, keywords = {imt}, pages = {563-564}, title = {Reducing computational effort by domain splitting of flow simulations in the upper airway of sleep apnea patients}, year = 2022 }
• Zell, F., Ibbeken, A., Hagen, C., Steffen, A., Grzyska, U., Frydrychowicz, A. and Buzug, T. M.: Evaluation of the influence of the nasal cavity in flow simulations of the upper airway of a sleep apnea patient, Current Directions in Biomedical Engineering, 8(2), 253–256, 2022, DOI: 10.1515/cdbme-2022-1065.
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  @article{zell2022evaluation, author = {Zell, Fenja and Ibbeken, Alina and Hagen, Christina and Steffen, Armin and Grzyska, Ulrike and Frydrychowicz, Alex and Buzug, Thorsten M}, journal = {Current Directions in Biomedical Engineering}, keywords = {imt}, number = 2, pages = {253-256}, title = {Evaluation of the influence of the nasal cavity in flow simulations of the upper airway of a sleep apnea patient}, volume = 8, year = 2022 }
• Ahlborg, M., Friedrich, T., Göttsche, T., Scheitenberger, V., Linemann, R., Wattenberg, M., Buessen, A. T., Knopp, T., Szwargulski, P., Kaul, M. G., Salamon, J., Buzug, T. M., Barkhausen, J. and Wegner, F.: First Dedicated Balloon Catheter for Magnetic Particle Imaging, IEEE Transactions on Medical Imaging, 9797737, 2022, DOI: 10.1109/TMI.2022.3183948.
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  @article{9797737, abstract = {Vascular interventions are a promising application of Magnetic Particle Imaging enabling a high spatial and temporal resolution without using ionizing radiation. The possibility to visualize the vessels as well as the devices, especially at the same time using multi-contrast approaches, enables a higher accuracy for diagnosis and treatment of vascular diseases. Different techniques to make devices MPI visible have been introduced so far, such as varnish markings or filling of balloons. However, all approaches include challenges for in <i>vivo</i> applications, such as the stability of the varnishing or the visibility of tracer filled balloons in deflated state. In this contribution, we present for the first time a balloon catheter that is molded from a granulate incorporating nanoparticles and can be visualized sufficiently in MPI. Computed tomography is used to show the homogeneous distribution of particles within the material. Safety measurements confirm that the incorporation of nanoparticles has no negative effect on the balloon. A dynamic experiment is performed to show that the inflation as well as deflation of the balloon can be imaged with MPI.}, author = {Ahlborg, Mandy and Friedrich, Thomas and Göttsche, Thorsten and Scheitenberger, Vincent and Linemann, Reinhard and Wattenberg, Maximilian and Buessen, Anne T. and Knopp, Tobias and Szwargulski, Patryk and Kaul, Michael G. and Salamon, Johannes and Buzug, Thorsten M. and Barkhausen, Jörg and Wegner, Franz}, journal = {IEEE Transactions on Medical Imaging}, keywords = {thomasfriedrich}, pages = 9797737, title = {First Dedicated Balloon Catheter for Magnetic Particle Imaging}, year = 2022 }
• Elmoujarkach, E., Seeger, S., Schareck, C., De Graaf, L., Barkhausen, J. and Rafecas, M.: Characterization of Using Infused PLA for 3DPrinted Radiation Shielding, Current Directions in Biomedical Engineering, 8(2), 2022, DOI: https://doi.org/10.1515/cdbme-2022-1147.
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  @article{elmoujarkach2022characterization, author = {Elmoujarkach, Ezzat and Seeger, Steven and Schareck, Constantin and De Graaf, Leoni and Barkhausen, Jörg and Rafecas, Magdalena}, journal = {Current Directions in Biomedical Engineering}, keywords = {seegersteven}, number = 2, title = {Characterization of Using Infused PLA for 3DPrinted Radiation Shielding}, volume = 8, year = 2022 }
• Szwargulski, P., Knopp, T., Boberg, M., Salamon, J., Scheitenberger, V., Göttsche, T., Linemann, R., Wegner, F., Friedrich, T., Barkhausen, J., Buzug, T. M. and Ahlborg, M.: First Complex Trials Using a Dedicated Balloon Catheter for Magnetic Particle Imaging, 2022, DOI: 10.18416/IJMPI.2022.2203004.
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  @inproceedings{https://doi.org/10.18416/ijmpi.2022.2203004, author = {Szwargulski, Patryk and Knopp, Tobias and Boberg, Marija and Salamon, Johannes and Scheitenberger, Vincent and Göttsche, Thorsten and Linemann, Reinhard and Wegner, Franz and Friedrich, Thomas and Barkhausen, Jörg and Buzug, Thorsten M. and Ahlborg, Mandy}, booktitle = {International Workshop on Magnetic Particle Imaging}, keywords = {skampi}, number = {1 Suppl 1}, publisher = {International Journal on Magnetic Particle Imaging}, title = {First Complex Trials Using a Dedicated Balloon Catheter for Magnetic Particle Imaging}, volume = 8, year = 2022 }
• Schumacher, J., Ahlborg, M., Aderhold, E., Stagge, P., Buzug, T. M. and Gräser, M.: Comparison of Reconstruction Methods for Measured FFL Data, 2022, DOI: 10.18416/IJMPI.2022.2203061.
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  @inproceedings{https://doi.org/10.18416/ijmpi.2022.2203061, author = {Schumacher, Jonas and Ahlborg, Mandy and Aderhold, Eric and Stagge, Pascal and Buzug, Thorsten M. and Gräser, Matthias}, booktitle = {International Workshop on Magnetic Particle Imaging}, keywords = {staggepascal}, number = {1 Suppl 1}, publisher = {International Journal on Magnetic Particle Imaging}, title = {Comparison of Reconstruction Methods for Measured FFL Data}, volume = 8, year = 2022 }
• Ahlborg, M., Friedrich, T., Göttsche, T., Scheitenberger, V., Linemann, R., Wattenberg, M., Buessen, A. T., Knopp, T., Szwargulski, P., Kaul, M., Salamon, J., Buzug, T. M., Barkhausen, J. and Wegner, F.: Dedicated Interventional Instruments for Magnetic Particle Imaging, 2022.
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  @inproceedings{ahlborg2022dedicated, author = {Ahlborg, Mandy and Friedrich, Thomas and Göttsche, Thorsten and Scheitenberger, Vincent and Linemann, Reinhard and Wattenberg, Maximilian and Buessen, Anne Tjorven and Knopp, Tobias and Szwargulski, Patryk and Kaul, Michael and Salamon, Johannes and Buzug, Thorsten M. and Barkhausen, Jörg and Wegner, Franz}, booktitle = {International Workshop on Magnetic Particle Imaging}, keywords = {wattenbergmaximilian}, number = {No 1 Suppl 1}, title = {Dedicated Interventional Instruments for Magnetic Particle Imaging}, volume = 8, year = 2022 }
• Gräser, M., Wegner, F., Schumacher, J., Ahlborg, M., Gräfe, K., Aderhold, E., Soares, Y. B., Lüdtke-Buzug, K., Neumann, A., Stagge, P., Wei, H., Ackers, J. and Buzug, T. M.: Magnetic particle imaging, Die Radiologie, 62(6), 496–503, 2022, DOI: 10.1007/s00117-022-01011-9.
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  @article{Gr_ser_2022, author = {Gräser, Matthias and Wegner, Franz and Schumacher, Jonas and Ahlborg, Mandy and Gräfe, Ksenija and Aderhold, Eric and Soares, Yvonne Blancke and Lüdtke-Buzug, Kerstin and Neumann, Alexander and Stagge, Pascal and Wei, Huimin and Ackers, Justin and Buzug, Thorsten M.}, journal = {Die Radiologie}, keywords = {weihuimin}, month = {may}, number = 6, pages = {496–503}, publisher = {Springer Science and Business Media {LLC}}, title = {Magnetic particle imaging}, volume = 62, year = 2022 }
• Wegner, F., Lüdtke-Buzug, K., Cremers, S., Friedrich, T., Sieren, M. M., Haegele, J., Koch, M. A., Saritas, E. U., Borm, P., Buzug, T. M., Barkhausen, J. and Ahlborg, M.: Bimodal Interventional Instrument Markers for Magnetic Particle Imaging and Magnetic Resonance Imaging---A Proof-of-Concept Study, Nanomaterials, 12(10), 1758, 2022, DOI: 10.3390/nano12101758.
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  @article{Wegner_2022, author = {Wegner, Franz and Lüdtke-Buzug, Kerstin and Cremers, Sjef and Friedrich, Thomas and Sieren, Malte M. and Haegele, Julian and Koch, Martin A. and Saritas, Emine U. and Borm, Paul and Buzug, Thorsten M. and Barkhausen, Joerg and Ahlborg, Mandy}, journal = {Nanomaterials}, keywords = {luedtkekerstin}, month = {may}, number = 10, pages = 1758, publisher = {{MDPI}}, title = {Bimodal Interventional Instrument Markers for Magnetic Particle Imaging and Magnetic Resonance Imaging—A Proof-of-Concept Study}, volume = 12, year = 2022 }
• Stelzner, J., Bakenecker, A., Behrends, A., Bringout, G., Chen, X., von Gladiss, A., Gräfe, K., Schumacher, J. and Buzug, T.: 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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  @article{Stelzner_2022, author = {Stelzner, J. and Bakenecker, A.C. and Behrends, A. and Bringout, G. and Chen, X. and von Gladiss, A. and Gräfe, K. and Schumacher, J. and Buzug, T.M.}, journal = {Journal of Magnetism and Magnetic Materials}, keywords = {stelznerjan}, month = {may}, pages = 169509, publisher = {Elsevier {BV}}, title = {Implementation and imaging with a versatile 180 mm magnetic particle imaging field generator}, year = 2022 }
• Wegner, F., Cremers, S., Lüdtke-Buzug, K., Koch, M. A., Friedrich, T., Grzyska, U., Sieren, M. M., Haegele, J., Borm, P., Buzug, T. M., Barkhausen, J. and Ahlborg, M.: Instrument markers for magnetic particle and magnetic resonance imaging, 2022.
  • [ BibTeX ]
  @inproceedings{wegner2022instrument, author = {Wegner, Franz and Cremers, Sjef and Lüdtke-Buzug, Kerstin and Koch, Martin A. and Friedrich, Thomas and Grzyska, Ulrike and Sieren, Malte M. and Haegele, Julian and Borm, Paul and Buzug, Thorsten M. and Barkhausen, Joerg and Ahlborg, Mandy}, booktitle = {International Workshop on Magnetic Particle Imaging}, keywords = {mpi}, number = {1 Suppl 1}, title = {Instrument markers for magnetic particle and magnetic resonance imaging}, volume = 8, year = 2022 }
• Blancke Soares, Y., Gräser, M., Ackers, J., Bakenecker, A., Friedrich, T., Schumacher, J., Lüdtke Buzug, K., Blümler, P. and Buzug, T.: High gradient nested Halbach system for steering magnetic particles, International Journal on Magnetic Particle Imaging, Vol 8 No 1 Suppl 1 (2022), 2022, DOI: 10.18416/IJMPI.2022.2203012.
  • [ BibTeX ]
  • [ URL ]
  @article{https://doi.org/10.18416/ijmpi.2022.2203012, author = {Blancke Soares, Yvonne and Gräser, Matthias and Ackers, Justin and Bakenecker, Anna and Friedrich, Thomas and Schumacher, Jonas and Lüdtke Buzug, Kerstin and Blümler, Peter and Buzug, Thorsten}, journal = {International Journal on Magnetic Particle Imaging}, keywords = {soaresyvonne}, pages = {Vol 8 No 1 Suppl 1 (2022)}, publisher = {International Journal on Magnetic Particle Imaging}, title = {High gradient nested Halbach system for steering magnetic particles}, year = 2022 }
• Hackelberg, N., Schumacher, J., Graeser, M. and Knopp, T.: A Flexible High-Performance Signal Generation and Digitization Plattform based on Low-Cost Hardware, International Journal on Magnetic Particle Imaging, Vol 8 No 1 Suppl 1 (2022), 2022, DOI: 10.18416/IJMPI.2022.2203063.
  • [ BibTeX ]
  • [ URL ]
  @article{https://doi.org/10.18416/ijmpi.2022.2203063, author = {Hackelberg, Niklas and Schumacher, Jonas and Graeser, Matthias and Knopp, Tobias}, journal = {International Journal on Magnetic Particle Imaging}, keywords = {schumacherjonas}, pages = {Vol 8 No 1 Suppl 1 (2022)}, publisher = {International Journal on Magnetic Particle Imaging}, title = {A Flexible High-Performance Signal Generation and Digitization Plattform based on Low-Cost Hardware}, year = 2022 }
• Schumacher, J., Neumann, A., Malhotra, A., Behrends, A. and Buzug, T.: Verfahren zur Erfassung der magnetischen Antwort einer Verteilung magnetisierbarer Partikel auf ein magnetisches Anregungsfeld, 2022, DE 10 2020 118 102 B4.
  • [ BibTeX ]
  @patent{schumacher2022verfahren, annote = {DE 10 2020 118 102 B4}, author = {Schumacher, Jonas and Neumann, Alexander and Malhotra, Ankit and Behrends, André and Buzug, Thorsten}, keywords = {schumacherjonas}, title = {Verfahren zur Erfassung der magnetischen Antwort einer Verteilung magnetisierbarer Partikel auf ein magnetisches Anregungsfeld}, year = 2022 }
• Volkens, H., Blancke Soares, Y., Buzug, T. M. and Gräfe, K.: An Algorithm for computing optimal SNR-thresholds of a single-sided FFP MPI device, Vol 8 No 1 Suppl 1 (2022), 2022, DOI: 10.18416/IJMPI.2022.2203043.
  • [ BibTeX ]
  • [ URL ]
  @inproceedings{https://doi.org/10.18416/ijmpi.2022.2203043, author = {Volkens, Henrik and Blancke Soares, Yvonne and Buzug, Thorsten M. and Gräfe, Ksenija}, journal = {International Journal on Magnetic Particle Imaging}, keywords = {mpi}, pages = {Vol 8 No 1 Suppl 1 (2022)}, publisher = {International Journal on Magnetic Particle Imaging}, title = {An Algorithm for computing optimal SNR-thresholds of a single-sided FFP MPI device}, year = 2022 }

• Bente, K., Bakenecker, A. C., von Gladiss, A., Bachmann, F., Ce̅bers A., Buzug, T. M. and Faivre, D.: Selective Actuation and Tomographic Imaging of Swarming Magnetite Nanoparticles, ACS Applied Nano Materials, 2021, DOI: 10.1021/acsanm.1c00768.
  • [ BibTeX ]
  • [ URL ]
  @article{Bente2021, author = {Bente, Klaas and Bakenecker, Anna C. and von Gladiss, Anselm and Bachmann, Felix and Ce̅bers, Andrejs and Buzug, Thorsten M. and Faivre, Damien}, journal = {{ACS} Applied Nano Materials}, keywords = {mpi}, publisher = {American Chemical Society ({ACS})}, title = {Selective Actuation and Tomographic Imaging of Swarming Magnetite Nanoparticles}, year = 2021 }
• Schumacher, J., Aderhold, E., Malhotra, A. and Buzug, T. M.: Highly Symmetric Receive Chain for Magnetic Particle Imaging, 2021.
  • [ BibTeX ]
  @inproceedings{schumacher2021highly, author = {Schumacher, Jonas and Aderhold, Eric and Malhotra, Ankit and Buzug, Thorsten M.}, booktitle = {55th Annual Conference of the German Society for Biomedical Engineering}, keywords = {schumacherjonas}, title = {Highly Symmetric Receive Chain for Magnetic Particle Imaging}, year = 2021 }
• Thrun, S., Pedrosa, D., Schulze, M., Buzug, T. M. and Stille, M.: Creation of a 3D printed human head phantom, Transactions on Additive Manufacturing Meets Medicine, 3(1), 608, 2021, DOI: 10.18416/AMMM.2021.2109608.
  • [ BibTeX ]
  • [ URL ]
  @article{thrun2021creation, author = {Thrun, Solveig and Pedrosa, David and Schulze, Maximilian and Buzug, Thorsten M. and Stille, Maik}, journal = {Transactions on Additive Manufacturing Meets Medicine}, keywords = {stillemaik}, number = 1, pages = 608, publisher = {Transactions on Additive Manufacturing Meets Medicine}, title = {Creation of a 3D printed human head phantom}, volume = 3, year = 2021 }
• Ibbeken, A., Hagen, C., Zell, F., Steffen, A., Grzyska, U., Frydrychowicz, A. and Buzug, T. M.: Design and construction of a flexible pharyngeal phantom, Transactions on Additive Manufacturing Meets Medicine, 3(1), 499, 2021, DOI: 10.18416/AMMM.2021.2109499.
  • [ BibTeX ]
  • [ URL ]
  @article{https://doi.org/10.18416/ammm.2021.2109499, author = {Ibbeken, Alina and Hagen, Christina and Zell, Fenja and Steffen, Armin and Grzyska, Ulrike and Frydrychowicz, Alex and Buzug, Thorsten M.}, journal = {Transactions on Additive Manufacturing Meets Medicine}, keywords = {imt}, number = 1, pages = 499, publisher = {Transactions on Additive Manufacturing Meets Medicine}, title = {Design and construction of a flexible pharyngeal phantom}, volume = 3, year = 2021 }
• Ibbeken, A., Zell, F., Hagen, C., Seele, S., Grzyska, U., Frydrychowicz, A., Steffen, A. and Buzug, T. M.: Deformation measurements with a flexible pharyngeal phantom, S435, 2021, DOI: 10.1515/bmt-2021-60.
  • [ BibTeX ]
  @inproceedings{ibbeken2021deformation, author = {Ibbeken, Alina and Zell, Fenja and Hagen, Christina and Seele, Sven and Grzyska, Ulrike and Frydrychowicz, Alex and Steffen, Armin and Buzug, Thorsten M.}, booktitle = {Biomedical Engineering / Biomedizinische Technik}, keywords = {imt}, number = {s1}, pages = {S435}, title = {Deformation measurements with a flexible pharyngeal phantom}, volume = 66, year = 2021 }
• Hellwege, L., Blum, N., Buzug, T. M. and Stille, M.: Partial Convolution Network for Metal Artifact Reduction in CT Preprocessing: Preliminary Results, 2021.
  • [ BibTeX ]
  • [ URL ]
  @inproceedings{Hellwege2021PartialCN, author = {Hellwege, Laura and Blum, Nele and Buzug, Thorsten M. and Stille, Maik}, booktitle = {Medical Imaging and Deep Learning 2021}, keywords = {stillemaik}, month = {jul}, title = {Partial Convolution Network for Metal Artifact Reduction in CT Preprocessing: Preliminary Results}, year = 2021 }
• Rodriguez, A. F., dos Santos, C. C., Lüdtke-Buzug, K., Bakenecker, A. C., Chaves, Y. O., Mariúba, L. A., Brandt, J. V., Amantea, B. E., de Santana, R. C., Marques, R. F., Jafelicci, M. and Morales, M. A.: Evaluation of antiplasmodial activity and cytotoxicity assays of amino acids functionalized magnetite nanoparticles: Hyperthermia and flow cytometry applications, Materials Science and Engineering: C, 125, 112097, 2021, DOI: 10.1016/j.msec.2021.112097.
  • [ BibTeX ]
  • [ URL ]
  @article{Rodriguez_2021, author = {Rodriguez, Anselmo F.R. and dos Santos, Caio C. and Lüdtke-Buzug, K. and Bakenecker, Anna C. and Chaves, Yury O. and Mari{\'{u}}ba, Luis A.M. and Brandt, Jo{\ {a}}o V. and Amantea, Bruno E. and de Santana, Ricardo C. and Marques, Rodrigo F.C. and Jafelicci, Miguel and Morales, Marco A.}, journal = {Materials Science and Engineering: C}, keywords = {mpi}, month = {jun}, pages = 112097, publisher = {Elsevier {BV}}, title = {Evaluation of antiplasmodial activity and cytotoxicity assays of amino acids functionalized magnetite nanoparticles: Hyperthermia and flow cytometry applications}, volume = 125, year = 2021 }
• Rusiecka, K., Hetzel, R., Kasper, J., Kozani, M. K., Kohlhase, N., Kolodziej, M., Lalik, R., Magiera, A., Migdal, W., Rafecas, M., Stahl, A., Urbanevych, V., Wong, M. and Wrońska, A.: A systematic study of LYSO:Ce, LuAG:Ce and GAGG:Ce scintillating fibers properties, Journal of Instrumentation, 16(11), P11006, 2021, DOI: 10.1088/1748-0221/16/11/p11006.
  • [ BibTeX ]
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  @article{2021, author = {Rusiecka, K. and Hetzel, R. and Kasper, J. and Kozani, M. Kazemi and Kohlhase, N. and Ko{\l}odziej, M. and Lalik, R. and Magiera, A. and Migda{\l}, W. and Rafecas, M. and Stahl, A. and Urbanevych, V. and Wong, M.L. and Wro{\'{n}}ska, A.}, journal = {Journal of Instrumentation}, keywords = {myown}, month = {nov}, number = 11, pages = {P11006}, publisher = {{IOP} Publishing}, title = {A systematic study of {LYSO}:Ce, {LuAG}:Ce and {GAGG}:Ce scintillating fibers properties}, volume = 16, year = 2021 }
• Wegner, F., von Gladiss, A., Haegele, J., Grzyska, U., Sieren, M. M., Stahlberg, E., Oechtering, T. H., Lüdtke-Buzug, K., Barkhausen, J., Buzug, T. M. and Friedrich, T.: Magnetic Particle Imaging: In vitro Signal Analysis and Lumen Quantification of 21 Endovascular Stents, International Journal of Nanomedicine, 16, 213–221, 2021, DOI: 10.2147/IJN.S284694.
  • [ BibTeX ]
  • [ URL ]
  @article{wegnerltpgtmagnetic, author = {Wegner, Franz and von Gladiss, Anselm and Haegele, Julian and Grzyska, Ulrike and Sieren, Malte Maria and Stahlberg, Erik and Oechtering, Thekla Helene and Lüdtke-Buzug, Kerstin and Barkhausen, Joerg and Buzug, Thorsten M and Friedrich, Thomas}, journal = {International Journal of Nanomedicine}, keywords = {skampi}, pages = {213-221}, publisher = {Dove Press}, title = {Magnetic Particle Imaging: In vitro Signal Analysis and Lumen Quantification of 21 Endovascular Stents}, type = {website}, volume = 16, year = 2021 }
• Banoqitah, E., Elmoujarkach, E., Alnadwi, F., Alhawsawi, A. M. and Alawi, M.: A Simulation Analysis for Thermal Neutron Applications of ABS 3D Printing Filament Doped with Nanoparticles, Arabian Journal for Science and Engineering, 2021, DOI: 10.1007/s13369-021-05482-1.
  • [ BibTeX ]
  • [ URL ]
  @article{Banoqitah_2021, author = {Banoqitah, Essam and Elmoujarkach, Ezzat and Alnadwi, Fuad and Alhawsawi, Abdulsalam M. and Alawi, Mohammed}, journal = {Arabian Journal for Science and Engineering}, keywords = {imt}, month = {mar}, publisher = {Springer Science and Business Media {LLC}}, title = {A Simulation Analysis for Thermal Neutron Applications of {ABS} 3D Printing Filament Doped with Nanoparticles}, year = 2021 }
• Grzyska, U., Friedrich, T., Sieren, M. M., Stahlberg, E., Oechtering, T. H., Ahlborg, M., Buzug, T. M., Frydrychowicz, A., Barkhausen, J., Haegele, J. and Wegner, F.: Heating of an Aortic Stent for Coarctation Treatment During Magnetic Particle Imaging and Magnetic Resonance Imaging---A Comparative In Vitro Study, CardioVascular and Interventional Radiology, 2021, DOI: 10.1007/s00270-021-02795-4.
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  • [ URL ]
  @article{Grzyska2021, abstract = {To evaluate heating of a redilatable stent for the treatment of aortic coarctation in neonates and small children in the new imaging modality magnetic particle imaging and established magnetic resonance imaging.}, author = {Grzyska, Ulrike and Friedrich, Thomas and Sieren, Malte M. and Stahlberg, Erik and Oechtering, Thekla H. and Ahlborg, Mandy and Buzug, Thorsten M. and Frydrychowicz, Alex and Barkhausen, Joerg and Haegele, Julian and Wegner, Franz}, journal = {CardioVascular and Interventional Radiology}, keywords = {skampi}, month = {mar}, title = {Heating of an Aortic Stent for Coarctation Treatment During Magnetic Particle Imaging and Magnetic Resonance Imaging—A Comparative In Vitro Study}, year = 2021 }
• Behrends, A., Bakenecker, A., Ahlborg, M., Gräfe, K., Schumacher, J., Stelzner, J., Wegner, F., Neumann, A., Blancke Soares, Y., Lüdtke-Buzug, K., Chen, X., Wei, H., Malhotra, A., Friedrich, T. and Buzug, T. M.: 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.
  • [ BibTeX ]
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  @incollection{10.1088/978-0-7503-3747-2ch12, abstract = {This chapter aims to give an overview on the topic of magnetic particle imaging and its possibilities in diagnostics and therapy. An elementary discussion on particle properties and physical principles is proceeded by the concepts of signal generation, particle detection and spatial encoding used in magnetic particle imaging. A general description of the hardware setups and the reconstruction methods will give an impression of common challenges and their solutions. Furthermore, the medical relevance, especially the possibility to combine diagnostics and therapy is discussed. The chapter will be completed by a debate on strengths and limitations as well as future directions of the magnetic particle imaging modality.}, author = {Behrends, André and Bakenecker, Anna and Ahlborg, Mandy and Gräfe, Ksenija and Schumacher, Jonas and Stelzner, Jan and Wegner, Franz and Neumann, Alexander and Blancke Soares, Yvonne and Lüdtke-Buzug, Kerstin and Chen, Xin and Wei, Huimin and Malhotra, Ankit and Friedrich, Thomas and Buzug, Thorsten M.}, booktitle = {Imaging Modalities for Biological and Preclinical Research: A Compendium}, keywords = {weihuimin}, month = {may}, pages = {II.8-1 to II.8-10}, publisher = {IOP Publishing}, series = {2053-2563}, title = {Magnetic particle imaging}, type = {Book Chapter}, volume = 2, year = 2021 }
• Sarrut, D., Bala, M., Bardiès, M., Bert, J., Chauvin, M., Chatzipapas, K., Dupont, M., Etxebeste, A., Fanchon, L. M., Jan, S., Kayal, G., Kirov, A. S., Kowalski, P., Krzemien, W., Labour, J., Lenz, M., Loudos, G., Mehadji, B., Ménard, L., Morel, C., Papadimitroulas, P., Rafecas, M., Salvadori, J., Seiter, D., Stockhoff, M., Testa, E., Trigila, C., Pietrzyk, U., Vandenberghe, S., Verdier, M.-A., Visvikis, D., Ziemons, K., Zvolsk’y}}}, M. and Roncali, E.: Advanced Monte Carlo simulations of emission tomography imaging systems with GATE, Physics in Medicine & Biology, 66(10), 10TR03, 2021, DOI: 10.1088/1361-6560/abf276.
  • [ BibTeX ]
  • [ URL ]
  @article{Sarrut_2021, author = {Sarrut, David and Ba{\l}a, Mateusz and Bardi{\`{e}}s, Manuel and Bert, Julien and Chauvin, Maxime and Chatzipapas, Konstantinos and Dupont, Mathieu and Etxebeste, Ane and Fanchon, Louise M and Jan, S{\'{e}}bastien and Kayal, Gunjan and Kirov, Assen S and Kowalski, Pawe{\l} and Krzemien, Wojciech and Labour, Joey and Lenz, Mirjam and Loudos, George and Mehadji, Brahim and M{\'{e}}nard, Laurent and Morel, Christian and Papadimitroulas, Panagiotis and Rafecas, Magdalena and Salvadori, Julien and Seiter, Daniel and Stockhoff, Mariele and Testa, Etienne and Trigila, Carlotta and Pietrzyk, Uwe and Vandenberghe, Stefaan and Verdier, Marc-Antoine and Visvikis, Dimitris and Ziemons, Karl and Zvolsk{\'{y}}, Milan and Roncali, Emilie}, journal = {Physics in Medicine {\&} Biology}, keywords = {imt}, month = {may}, number = 10, pages = {10TR03}, publisher = {{IOP} Publishing}, title = {Advanced Monte Carlo simulations of emission tomography imaging systems with {GATE}}, volume = 66, year = 2021 }
• Peñate Medina, T., Kolb, J. P., Hüttmann, G., Huber, R., Peñate Medina, O., Ha, L., Ulloa, P., Larsen, N., Ferrari, A., Rafecas, M., Ellrichmann, M., Pravdivtseva, M. S., Anikeeva, M., Humbert, J., Both, M., Hundt, J. E. and Hövener, J.-B.: Imaging Inflammation --- From Whole Body Imaging to Cellular Resolution, Frontiers in Immunology, 12, 692222, 2021, DOI: 10.3389/fimmu.2021.692222.
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  @article{Pe_ate_Medina_2021, author = {Pe{ñ}ate Medina, Tuula and Kolb, Jan Philip and Hüttmann, Gereon and Huber, Robert and Pe{ñ}ate Medina, Oula and Ha, Linh and Ulloa, Patricia and Larsen, Naomi and Ferrari, Arianna and Rafecas, Magdalena and Ellrichmann, Mark and Pravdivtseva, Mariya S. and Anikeeva, Mariia and Humbert, Jana and Both, Marcus and Hundt, Jennifer E. and Hövener, Jan-Bernd}, editor = {Distler, Oliver}, journal = {Frontiers in Immunology}, keywords = {inflammation}, month = {jun}, pages = 692222, publisher = {Frontiers Media {SA}}, title = {Imaging Inflammation — From Whole Body Imaging to Cellular Resolution}, volume = 12, year = 2021 }
• Bakenecker, A. C., von Gladiss, A., Schwenke, H., Behrends, A., Friedrich, T., Lüdtke-Buzug, K., Neumann, A., Barkhausen, J., Wegner, F. and Buzug, T. M.: 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.
  • [ BibTeX ]
  • [ URL ]
  @article{bakenecker2021micro-robot, author = {Bakenecker, Anna C. and von Gladiss, Anselm and Schwenke, Hannes and Behrends, André and Friedrich, Thomas and Lüdtke-Buzug, Kerstin and Neumann, Alexander and Barkhausen, Joerg and Wegner, Franz and Buzug, Thorsten M.}, journal = {Scientific Reports}, keywords = {neumannalexander}, number = 1, title = {Navigation of a magnetic micro-robot through a cerebral aneurysm phantom with magnetic particle imaging}, volume = 11, year = 2021 }
• Blancke Soares, Y., Lüdtke-Buzug, K., Von Gladiss, A., Debbeler, C., Buzug, T. M. and Gräfe, K.: Further system characterization of the Single-Sided MPI Scanner with two- and three-dimensional measurements, International Journal on Magnetic Particle Imaging, Vol 7 No 2 (2021), 2021, DOI: 10.18416/IJMPI.2021.2109001.
  • [ BibTeX ]
  • [ URL ]
  @article{https://doi.org/10.18416/ijmpi.2021.2109001, author = {Blancke Soares, Yvonne and Lüdtke-Buzug, Kerstin and Von Gladiss, Anselm and Debbeler, Christina and Buzug, Thorsten M. and Gräfe, Ksenija}, journal = {International Journal on Magnetic Particle Imaging}, keywords = {soaresyvonne}, pages = {Vol 7 No 2 (2021)}, publisher = {International Journal on Magnetic Particle Imaging}, title = {Further system characterization of the Single-Sided MPI Scanner with two- and three-dimensional measurements}, year = 2021 }
• Dell, A., Wegner, F., Aderhold, E., Buzug, T. M. and Friedrich, T.: Stenosis simulation of femoral arteries using an adaptive 3D-printed actuator, Transactions on Additive Manufacturing Meets Medicine, 3(1), 2021, DOI: 10.18416/AMMM.2021.2109576.
  • [ BibTeX ]
  • [ URL ]
  @article{https://doi.org/10.18416/ammm.2021.2109576, author = {Dell, Annika and Wegner, Franz and Aderhold, Eric and Buzug, Thorsten M. and Friedrich, Thomas}, journal = {Transactions on Additive Manufacturing Meets Medicine}, keywords = {myown}, number = 1, publisher = {Transactions on Additive Manufacturing Meets Medicine}, title = {Stenosis simulation of femoral arteries using an adaptive 3D-printed actuator}, volume = 3, year = 2021 }

• Szwargulski, P., Wilmes, M., Javidi, E., Thieben, F., Graeser, M., Koch, M., Grüttner, C., Adam, G., Gerloff, C., Magnus, T., Knopp, T. and Ludewig, P.: Monitoring Intracranial Cerebral Hemorrhage Using Multi-Contrast Real-Time Magnetic Particle Imaging, ACS Nano, 14(10), 13913–13923, 2020, DOI: 10.1021/acsnano.0c06326.
  • [ BibTeX ]
  • [ URL ]
  @article{MP014-szwa20, author = {Szwargulski, Patryk and Wilmes, Maximilian and Javidi, Ehsan and Thieben, Florian and Graeser, Matthias and Koch, Martin and Grüttner, Cordula and Adam, Gerhard and Gerloff, Christian and Magnus, Tim and Knopp, Tobias and Ludewig, Peter}, journal = {ACS Nano}, keywords = {MR}, number = 10, pages = {13913–13923}, title = {Monitoring Intracranial Cerebral Hemorrhage Using Multi-Contrast Real-Time Magnetic Particle Imaging}, volume = 14, year = 2020 }
• Blancke Soares, Y., Gräfe, K., Lüdtke-Buzug, K. and Buzug, T. M.: Investigation of the spatial resolution and penetration depth of a single-sided MPI device in three-dimensional imaging, International Journal on Magnetic Particle Imaging, Vol 6 No 2 Suppl. 1 (2020), 2020, DOI: https://doi.org/10.18416/IJMPI.2020.2009053.
  • [ BibTeX ]
  • [ URL ]
  @article{noauthororeditor, author = {Blancke Soares, Yvonne and Gräfe, Ksenija and Lüdtke-Buzug, Kerstin and Buzug, Thorsten M.}, journal = {International Journal on Magnetic Particle Imaging}, keywords = {soaresyvonne}, pages = {Vol 6 No 2 Suppl. 1 (2020)}, title = {Investigation of the spatial resolution and penetration depth of a single-sided MPI device in three-dimensional imaging}, year = 2020 }
• Grzyska, U., Ibbeken, A., Zell, F., Hagen, C., Steffen, A., Abrams, N., Kooijman, H., Buzug, T., Barkhausen, J. and Frydrychowicz, A.: Analyse der isotropen, Compressed SENSE-beschleunigten 3D T1 TSE zur Atemwegsanalyse bei Patienten mit obstruktivem Schlafapnoesyndrom, RöFo-Fortschritte auf dem Gebiet der Röntgenstrahlen und der bildgebenden Verfahren, 192(S 01), WISS-5, 2020, DOI: 10.1055/s-0040-1703358.
  • [ BibTeX ]
  @article{grzyska2020analyse, author = {Grzyska, U and Ibbeken, A and Zell, F and Hagen, C and Steffen, A and Abrams, N and Kooijman, H and Buzug, T and Barkhausen, J and Frydrychowicz, A}, journal = {RöFo-Fortschritte auf dem Gebiet der Röntgenstrahlen und der bildgebenden Verfahren}, keywords = {imt}, number = {S 01}, pages = {WISS-5}, title = {Analyse der isotropen, Compressed SENSE-beschleunigten 3D T1 TSE zur Atemwegsanalyse bei Patienten mit obstruktivem Schlafapnoesyndrom}, volume = 192, year = 2020 }
• Abrams, N., Steffen, A., Grzyska, U., Frydrychowicz, A., Barkhausen, J., Hagen, C., Ibbeken, A., Zell, F. and Buzug, T. M.: Die intraindividuelle Nacht-zu-Nacht-Variabilität in der peripher-arteriellen Tonometrie – Wie verändert sich der Rückenlage- und REM-Anteil?, Laryngorhinootologie, 99(S 02), 2020, DOI: 10.1055/s-0040-1711979.
  • [ BibTeX ]
  @article{abrams2020intraindividuelle, author = {Abrams, N and Steffen, A and Grzyska, U and Frydrychowicz, A and Barkhausen, Jörg and Hagen, C and Ibbeken, A and Zell, F and Buzug, Thorsten M.}, journal = {Laryngorhinootologie}, keywords = {imt}, number = {S 02}, title = {Die intraindividuelle Nacht-zu-Nacht-Variabilität in der peripher-arteriellen Tonometrie – Wie verändert sich der Rückenlage- und REM-Anteil?}, volume = 99, year = 2020 }
• Wei, H., Behrends, A., Friedrich, T. and Buzug, T.: Using 3D printing to implement a hyperthermia insert for a preclinical MPI scanner, 2020, DOI: doi{10.18416/AMMM.2020.2009032}.
  • [ BibTeX ]
  • [ URL ]
  @inproceedings{https://doi.org/10.18416/ammm.2020.2009032, abstract = {Magnetic particle imaging (MPI) is a rapidly developing imaging modality, which determines the spatial distribution of magnetic nanoparticles. Magnetic fluid hyperthermia (MFH) is a promising therapeutic approach where magnetic nanoparticles are used to transform electromagnetic energy into heat. The similarities of MPI and MFH give rise to the potential of integration of MFH and MPI. 3D printing is used for the manufacture of an oil-cooled MFH insert. The design and the implementation of a MFH insert for a preclinical MPI scanner is presented in this paper.}, author = {Wei, Huimin and Behrends, Andre and Friedrich, Thomas and Buzug, Thorsten}, journal = {Transactions on Additive Manufacturing Meets Medicine}, keywords = {weihuimin}, number = 1, publisher = {Transactions on Additive Manufacturing Meets Medicine}, title = {Using 3D printing to implement a hyperthermia insert for a preclinical MPI scanner}, volume = 2, year = 2020 }
• Bolke, A., Zvolsky, M., Kohlhase, N., Seeger, S., Schaar, M. and Rafecas, M.: Modelling of a Bi-Modal PET / Compton-Camera System for Non-Pure Positron Emitters, 1–3, 2020, DOI: 10.1109/NSS/MIC42677.2020.9507915.
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  @inproceedings{Bolke2020, abstract = {In this work, we investigate the combination of two imaging modalities, positron emission tomography (PET) and Compton-camera (CC) imaging. A prototype for simultaneous PET/CC acquisition was simulated. The design is based on the combination of two existing prototypes and allows for a first investigation of the bi-modal acquisition of the radionuclides ⁸⁹Z<inf>r</inf> and ¹²⁴I. Since the simulation framework GATE is not able to properly output coincidences of such a bi-modal system, a post-processing tool was developed. This includes custom coincidence sorting and classification of PET and CC data. Here we present our postprocessing pipeline as well as our first results, and discuss the implications of the coincidence logic and the fraction of randoms on the data. The availability of such data is the prerequisite for developing novel image reconstruction approaches.}, author = {Bolke, A. and Zvolsky, M. and Kohlhase, N. and Seeger, S. and Schaar, M. and Rafecas, M.}, booktitle = {2020 {IEEE} Nuclear Science Symposium and Medical Imaging Conference ({NSS}/{MIC})}, keywords = {ZvolskyMilan}, month = {oct}, pages = {1-3}, title = {Modelling of a Bi-Modal PET / Compton-Camera System for Non-Pure Positron Emitters}, year = 2020 }
• Wei, H., Behrends, A., Friedrich, T. and Buzug, T.: A heating coil insert for a preclinical MPI scanner, International Journal on Magnetic Particle Imaging, , Suppl. 1, 2020, DOI: doi{10.18416/IJMPI.2020.2009056}.
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  @proceedings{https://doi.org/10.18416/ijmpi.2020.2009056, abstract = {Magnetic particle imaging (MPI) is a rapidly developing imaging modality, which determines the spatial distribution of magnetic nanoparticles. Magnetic fluid hyperthermia (MFH) is a promising therapeutic approach where magnetic nanoparticles are used to transform electromagnetic energy into heat. The similarities of MPI and MFH give rise to the potential of integration of MFH and MPI. In our previous work, a heating coil insert for the preclinical MPI scanner is designed, which can be utilized to generate a high frequency magnetic field suitable for MFH. The current development of the heating coil insert is presented in this paper.}, author = {Wei, Huimin and Behrends, Andre and Friedrich, Thomas and Buzug, Thorsten}, journal = {International Journal on Magnetic Particle Imaging}, keywords = {weihuimin}, number = 3, pages = {Suppl. 1}, publisher = {International Journal on Magnetic Particle Imaging}, title = {A heating coil insert for a preclinical MPI scanner}, volume = 6, year = 2020 }
• Medina, O. P., Tower, R. J., Medina, T. P., Ashkenani, F., Appold, L., Bötcher, M., Huber, L., Will, O., Ling, Q., Hauser, C., Rohwedder, A., Heneweer, C., Peschke, E., Hövener, J.-B., Lüdtke-Buzug, K., Boretius, S., Mentlein, R., Kairemo, K., Glüer, C. C., Sebens, S. and Kalthoff, H.: Multimodal Targeted Nanoparticle-Based Delivery System for Pancreatic Tumor Imaging in Cellular and Animal Models, Current Pharmaceutical Design, 26, 2020, DOI: 10.2174/1381612826666200717084846.
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  @article{Medina_2020, author = {Medina, Oula Penate and Tower, Robert J. and Medina, Tuula Penate and Ashkenani, Fatma and Appold, Lia and Bötcher, Marcus and Huber, Lukas and Will, Olga and Ling, Qi and Hauser, Charlotte and Rohwedder, Arndt and Heneweer, Carola and Peschke, Eva and Hövener, Jan-Bernd and Lüdtke-Buzug, Kerstin and Boretius, Susann and Mentlein, Rolf and Kairemo, Kalevi and Glüer, Claus C. and Sebens, Susanne and Kalthoff, Holger}, journal = {Current Pharmaceutical Design}, keywords = {mpi}, month = {jul}, publisher = {Bentham Science Publishers Ltd.}, title = {Multimodal Targeted Nanoparticle-Based Delivery System for Pancreatic Tumor Imaging in Cellular and Animal Models}, volume = 26, year = 2020 }
• Klemme, T., Buzug, T. M. and Neumann, A.: Exploring Parameters of Magnetic Particles in 1D Field Excitation, International Journal on Magnetic Particle Imaging, 6(2), 2004001, 2020, DOI: 10.18416/IJMPI.2020.2004001.
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  @article{klemme2020, abstract = {This work explores how different parameters, e.g. magnetic anisotropy and core radius, influence the signal/spectrum of magnetic particles in a one-dimensional excitation field. Simulations are performed using a model considering both the mechanical and magnetization dynamics of the particle. The performed simulations show an increase of amplitude at higher harmonics for anisotropy constants within a certain range. This increase is also observed for different magnetic radii. The obtained knowledge can help to improve the performance of magnetic particles in magnetic particle imaging.}, author = {Klemme, Tobias and Buzug, Thorsten M. and Neumann, Alexander}, journal = {International Journal on Magnetic Particle Imaging}, keywords = {samba}, number = 2, pages = 2004001, title = {Exploring Parameters of Magnetic Particles in 1D Field Excitation}, volume = 6, year = 2020 }
• Neumann, A. and Buzug, T. M.: Simulations of magnetic particles with arbitrary anisotropies, International Journal on Magnetic Particle Imaging, 6(2), Suppl. 1, 2009032, 2020, DOI: 10.18416/IJMPI.2020.2009032.
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  @article{neumann2020simulations, abstract = {To simulate the behavior of realistic magnetic particles in magnetic particle imaging it is not enough to perform simulations assuming only a uniaxial magnetic anisotropy energy due to the complex coupling between the magnetic and the mechanic degrees of freedom of the particle in multidimensional excitation fields. Most particles can only be approximated of having uniaxial magnetic anisotropy energy. As such, this work will discuss the shortcoming of currently used models focusing on only uniaxial anisotropy and show how a theoretical model must be defined to allow for arbitrary anisotropy energies. First simulation results showing the differences between different anisotropy energies will be presented at the workshop.}, author = {Neumann, Alexander and Buzug, Thorsten M.}, journal = {International Journal on Magnetic Particle Imaging}, keywords = {samba}, number = 2, pages = {Suppl. 1, 2009032}, title = {Simulations of magnetic particles with arbitrary anisotropies}, volume = 6, year = 2020 }
• Bakenecker, A. C., Wegner, F., Schwenke, H., Lüdtke-Buzug, K., Friedrich, T., Barkhausen, J. and Buzug, T. M.: A magnetic micro-robot for aneurysm coiling with magnetic particle imaging, 2020.
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  @inproceedings{ECR2020, author = {Bakenecker, Anna C. and Wegner, F. and Schwenke, H. and L\"udtke-Buzug, K. and Friedrich, T. and Barkhausen, J. and Buzug, T. M.}, booktitle = {European Congress of Radiology (ECR)}, keywords = {mpi}, title = {A magnetic micro-robot for aneurysm coiling with magnetic particle imaging}, year = 2020 }
• Kohlhase, N., Stille, M., Bolke, A., Zvolský, M. and Rafecas, M.: Compton Camera Image Reconstruction with A-Priori Information from a Beam Tagging Hodoscope, 1–4, 2020, DOI: 10.1109/NSS/MIC42677.2020.9507820.
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  @inproceedings{9507820, abstract = {Compton cameras (CC) have been proposed for range monitoring in proton therapy. The goal is to detected the prompt-gamma (PG) radiation which emerges from the patient, and estimate the underlying activation distribution by using tomographic reconstruction algorithms. The reconstructed CC images are often affected by high levels of statistical noise and other artefacts. With the aim of improving the reconstructed images, here we study various approaches able to exploit a-priori information from a beam-tagging hodoscope. The latter provides an estimation about the beam spread and its direction, so that this information can be used before or during the reconstruction in different ways, e.g. to restrict the volume-of-response assigned to each event, or to design a novel penalty function for regularized image reconstruction. We have implemented several approaches using Monte Carlo simulated data. In particular, our penalized reconstruction led to a significant improvement of the image quality. The estimated distal edge was well resolved for all tested scenarios.}, author = {Kohlhase, Nadja and Stille, Maik and Bolke, Andreas and Zvolský, Milan and Rafecas, Magdalena}, booktitle = {2020 {IEEE} Nuclear Science Symposium and Medical Imaging Conference ({NSS}/{MIC})}, keywords = {ZvolskyMilan}, month = {oct}, pages = {1-4}, title = {Compton Camera Image Reconstruction with A-Priori Information from a Beam Tagging Hodoscope}, year = 2020 }
• Bakenecker, A. C., Chinchilla, C. and Buzug, T. M.: Actuation of a magnetically coated swimmer in viscous media with a magnetic particle imaging scanner, Current Directions in Biomedical Engineering, 6(3), 2020, DOI: 10.1515/cdbme-2020-3090.
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  @article{CurrentDirections, author = {Bakenecker, Anna C. and Chinchilla, Carlos and Buzug, Thorsten M.}, journal = {Current Directions in Biomedical Engineering}, keywords = {mpi}, number = 3, title = {Actuation of a magnetically coated swimmer in viscous media with a magnetic particle imaging scanner}, volume = 6, year = 2020 }
• von Gladiss, A., Graeser, M., Behrends, A., Chen, X. and Buzug, T. M.: 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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  @article{VonGladiss2020a, author = {von Gladiss, Anselm and Graeser, Matthias and Behrends, Andr{\'{e}} and Chen, Xin and Buzug, Thorsten M.}, journal = {Scientific Reports}, keywords = {mps}, month = {oct}, number = 1, publisher = {Springer Science and Business Media {LLC}}, title = {Efficient hybrid 3D system calibration for magnetic particle imaging systems using a dedicated device}, volume = 10, year = 2020 }
• Bakenecker, A. C., Schumacher, J., Blümler, P., Gräfe, K., Ahlborg, M. and Buzug, T. M.: A concept for an MPI scanner with Halbach arrays, International Journal on Magnetic Particle Imaging, Vol 6 No 2 Suppl. 1 (2020), 2020, DOI: 10.18416/IJMPI.2020.2009008.
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  @article{bakenecker2020IWMPI2, author = {Bakenecker, Anna C. and Schumacher, Jonas and Blümler, Peter and Gräfe, Ksenija and Ahlborg, Mandy and Buzug, Thorsten M.}, journal = {International Journal on Magnetic Particle Imaging}, keywords = {mpi}, pages = {Vol 6 No 2 Suppl. 1 (2020)}, publisher = {International Journal on Magnetic Particle Imaging}, title = {A concept for an MPI scanner with Halbach arrays}, year = 2020 }
• Ackers, J., Gleich, B., Rahmer, J., Schmale, I. and Buzug, T. M.: Model-based evaluation of magneto-mechanical oscillator signals for wireless sensing and localization, 339–342, 2020.
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  @inproceedings{ackers2020a, author = {Ackers, Justin and Gleich, Bernhard and Rahmer, Jürgen and Schmale, Ingo and Buzug, Thorsten M.}, booktitle = {Student Conference Proceedings}, keywords = {IMT}, pages = {339-342}, title = {Model-based evaluation of magneto-mechanical oscillator signals for wireless sensing and localization}, year = 2020 }
• Gräfe, K. and Buzug, T. M.: Simulation study to minimize the single-sided FFP MPI scanner, International Journal on Magnetic Particle Imaging, Vol 6 No 2 Suppl. 1 (2020), 2020, DOI: https://doi.org/10.18416/IJMPI.2020.2009047.
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  @article{noauthororeditor, author = {Gräfe, Ksenija and Buzug, Thorsten M.}, journal = {International Journal on Magnetic Particle Imaging}, keywords = {singlesided}, pages = {Vol 6 No 2 Suppl. 1 (2020)}, title = {Simulation study to minimize the single-sided FFP MPI scanner}, year = 2020 }
• Stelzner, J., Gräfe, K. and Buzug, T. M.: First images obtained with a rabbit-sized Magnetic Particle Imaging scanner, International Journal on Magnetic Particle Imaging, Vol 6 No 2 Suppl. 1 (2020), 2020, DOI: https://doi.org/10.18416/IJMPI.2020.2009033.
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  @article{noauthororeditor, author = {Stelzner, Jan and Gräfe, Ksenija and Buzug, Thorsten M.}, journal = {International Journal on Magnetic Particle Imaging}, keywords = {stelznerjan}, pages = {Vol 6 No 2 Suppl. 1 (2020)}, title = {First images obtained with a rabbit-sized Magnetic Particle Imaging scanner}, year = 2020 }
• Wegner, F., Friedrich, T., von Gladiss, A., Grzyska, U., Sieren, M. M., Lüdtke-Buzug, K., Frydrychowicz, A., Buzug, T. M., Barkhausen, J. and Haegele, J.: Magnetic Particle Imaging: Artifact-Free Metallic Stent Lumen Imaging in a Phantom Study, CardioVascular and Interventional Radiology, 43(2), 331–338, 2020, DOI: 10.1007/s00270-019-02347-x.
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  @article{Wegner2020, abstract = {To illustrate the potential of magnetic particle imaging (MPI) for stent lumen imaging in comparison with clinical computed tomography (CT) and magnetic resonance imaging (MRI).}, author = {Wegner, Franz and Friedrich, Thomas and von Gladiss, Anselm and Grzyska, Ulrike and Sieren, Malte M. and L{\"u}dtke-Buzug, Kerstin and Frydrychowicz, Alex and Buzug, Thorsten M. and Barkhausen, J{\"o}rg and Haegele, Julian}, journal = {CardioVascular and Interventional Radiology}, keywords = {luedtkekerstin}, month = {feb}, number = 2, pages = {331–338}, title = {Magnetic Particle Imaging: Artifact-Free Metallic Stent Lumen Imaging in a Phantom Study}, volume = 43, year = 2020 }
• Bakenecker, A. C., von Gladiss, A., Friedrich, T. and Buzug, T. M.: 3D-Printing with Incorporated Iron Particles for Magnetic Actuation and MPI, International Journal on Magnetic Particle Imaging, 6(1), 2020, DOI: 10.18416/ijmpi.2020.2003001.
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  @article{bakenecker2020IJMPI, author = {Bakenecker, Anna C. and von Gladiss, Anselm and Friedrich, Thomas and Buzug, Thorsten M.}, journal = {International Journal on Magnetic Particle Imaging}, keywords = {mpi}, number = 1, title = {3D-Printing with Incorporated Iron Particles for Magnetic Actuation and MPI}, volume = 6, year = 2020 }
• Chinchilla, C. J., Bakenecker, A. C. and Buzug, T. M.: Velocity simulations of a magnetically steered swimmer, 2020.
  • [ BibTeX ]
  @inproceedings{chinchilla2020BMT, author = {Chinchilla, Carlos J. and Bakenecker, Anna C. and Buzug, Thorsten M.}, booktitle = {Jahrestagung der Deutschen Gesellschaft für Biomedizinische Technik}, keywords = {mpi}, title = {Velocity simulations of a magnetically steered swimmer}, year = 2020 }
• Bakenecker, A. C., Chinchilla, C. J. and Buzug, T. M.: Actuation of a magnetically coated swimmer in viscous media with a magnetic particle imaging scanner, 2020.
  • [ BibTeX ]
  @inproceedings{bakenecker2020BMT, author = {Bakenecker, Anna C. and Chinchilla, Carlos J. and Buzug, Thorsten M.}, booktitle = {Jahrestagung der Deutschen Gesellschaft für Biomedizinische Technik}, keywords = {mpi}, title = {Actuation of a magnetically coated swimmer in viscous media with a magnetic particle imaging scanner}, year = 2020 }
• Bakenecker, A. C., Bente, K., Bachmann, F., von Gladiss, A., Faivre, D. and Buzug, T. M.: Selective actuation and MPI of magnetic beads, 2020.
  • [ BibTeX ]
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  @inproceedings{bakenecker2020IWMPI, author = {Bakenecker, Anna C. and Bente, Klaas and Bachmann, Felix and von Gladiss, Anselm and Faivre, Damien and Buzug, Thorsten M.}, booktitle = {International Workshop on Magnetic Particle Imaging}, keywords = {mpi}, title = {Selective actuation and MPI of magnetic beads}, year = 2020 }
• Chen, X., Behrends, A., Malhotra, A., Neumann, A. and Buzug, T. M.: 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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  @article{chen2020temperaturedependent, author = {Chen, Xin and Behrends, André and Malhotra, Ankit and Neumann, Alexander and Buzug, Thorsten M.}, journal = {International Journal on Magnetic Particle Imaging}, keywords = {samba}, number = 2, pages = {Suppl 1}, title = {Temperature-dependent spectrum measurement using a magnetic particle spectrometer}, volume = 6, year = 2020 }
• Bakenecker, A. C., Schumacher, J., Blümler, P., Gräfe, K., Ahlborg, M. and Buzug, T. M.: A concept for a magnetic particle imaging scanner with Halbach arrays, Physics in Medicine and Biology, 65(19), 2020, DOI: 10.1088/1361-6560/ab7e7e.
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  • [ URL ]
  @article{bakenecker2020PMB, author = {Bakenecker, Anna C. and Schumacher, Jonas and Blümler, Peter and Gräfe, Ksenija and Ahlborg, Mandy and Buzug, Thorsten M.}, journal = {Physics in Medicine and Biology}, keywords = {schumacherjonas}, number = 19, title = {A concept for a magnetic particle imaging scanner with Halbach arrays}, volume = 65, year = 2020 }
• Von Gladiss, A., Graeser, M., Cordes, A., Bakenecker, A. C., Behrends, A., Chen, X. and Buzug, T. M.: 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.
  • [ BibTeX ]
  • [ URL ]
  @article{vonGladiss2020IJMPI, author = {Von Gladiss, Anselm and Graeser, Matthias and Cordes, Aileen and Bakenecker, Anna C. and Behrends, André and Chen, Xin and Buzug, Thorsten M.}, journal = {International Journal on Magnetic Particle Imaging}, keywords = {mpi}, number = 1, publisher = {International Journal on Magnetic Particle Imaging}, title = {Investigating Spatial Resolution, Field Sequences and Image Reconstruction Strategies using Hybrid Phantoms in MPI}, volume = 6, year = 2020 }
• Ibbeken, A., Hagen, C., Zell, F., Steffen, A., Grzyska, U., Frydrychowicz, A. and Buzug, T. M.: Determination of the critical closing pressure for a 3D printed collapsible model of an idealized upper airway geometry, Transactions on Additive Manufacturing Meets Medicine, 2(1), 2020, DOI: 10.18416/AMMM.2020.2009025.
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  @article{https://doi.org/10.18416/ammm.2020.2009025, author = {Ibbeken, Alina and Hagen, Christina and Zell, Fenja and Steffen, Armin and Grzyska, Ulrike and Frydrychowicz, Alex and Buzug, Thorsten M.}, journal = {Transactions on Additive Manufacturing Meets Medicine}, keywords = {imt}, number = 1, publisher = {Transactions on Additive Manufacturing Meets Medicine}, title = {Determination of the critical closing pressure for a 3D printed collapsible model of an idealized upper airway geometry}, volume = 2, year = 2020 }

• Klemme, T., Buzug, T. M. and Neumann, A.: Exploring parameters of magnetic particles in 1D field excitation, 189, 2019.
  • [ BibTeX ]
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  @inproceedings{klemme2019exploring, author = {Klemme, Tobias and Buzug, Thorsten M. and Neumann, Alexander}, booktitle = {International Workshop on Magnetic Particle Imaging}, keywords = {samba}, pages = 189, title = {Exploring parameters of magnetic particles in 1D field excitation}, year = 2019 }
• Friedrich, T., Ahlborg, M., von Gladiss, A., Bohsung, D., Moers, C., Göttsche, T., Weiß, C., Wegner, F. and Buzug, T. M.: Interventional Devices Tailored for MPI, 155–156, 2019.
  • [ BibTeX ]
  @inproceedings{friedrich2019interventional, author = {Friedrich, Thomas and Ahlborg, Mandy and von Gladiss, Anseln and Bohsung, Daniela and Moers, Christian and Göttsche, Thorsten and Weiß, Christine and Wegner, Franz and Buzug, Thorsten M.}, booktitle = {9th International Workshop on Magnetic Particle Imaging}, keywords = {skampi}, pages = {155-156}, publisher = {Infinite Science Publishing}, title = {Interventional Devices Tailored for MPI}, year = 2019 }
• Zvolsky, M., Seeger, S., Schaar, M., Schmidt, C. and Rafecas, M.: MERMAID - A PET Prototype for Small Aquatic Animal Imaging, 2019, DOI: 10.1109/nss/mic42101.2019.9059687.
  • [ BibTeX ]
  @inproceedings{Zvolsky2019a, author = {Zvolsky, M. and Seeger, S. and Schaar, M. and Schmidt, C. and Rafecas, M.}, booktitle = {2019 {IEEE} Nuclear Science Symposium and Medical Imaging Conference ({NSS}/{MIC})}, keywords = {ZvolskyMilan}, month = {oct}, publisher = {{IEEE}}, title = {{MERMAID - A PET Prototype for Small Aquatic Animal Imaging}}, year = 2019 }
• Zvolsky, M., Schreiner, N., Seeger, S., Schaar, M., Rakers, S. and Rafecas, M.: Digital Zebrafish Phantom based on Micro-CT Data for Imaging Research, 2019, DOI: 10.1109/nss/mic42101.2019.9059702.
  • [ BibTeX ]
  @inproceedings{Zvolsky2019, author = {Zvolsky, M. and Schreiner, N. and Seeger, S. and Schaar, M. and Rakers, S. and Rafecas, M.}, booktitle = {2019 {IEEE} Nuclear Science Symposium and Medical Imaging Conference ({NSS}/{MIC})}, keywords = {ZvolskyMilan}, month = {oct}, publisher = {{IEEE}}, title = {{Digital Zebrafish Phantom based on Micro-CT Data for Imaging Research}}, year = 2019 }
• Neumann, A., Draack, S., Ludwig, F. and Buzug, T. M.: Parameter estimations of magnetic particles: A comparison between measurements and simulations, 79, 2019.
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  • [ URL ]
  @inproceedings{neumann2019parameter, author = {Neumann, Alexander and Draack, S. and Ludwig, F. and Buzug, Thorsten M.}, booktitle = {International Workshop on Magnetic Particle Imaging}, keywords = {samba}, pages = 79, title = {Parameter estimations of magnetic particles: A comparison between measurements and simulations}, year = 2019 }
• Schaar, M. and Rafecas, M.: Modelling of Scatter in the System Matrix for 3D PET Image Reconstruction: a Comparative Study, 2019, DOI: 10.1109/nss/mic42101.2019.9059797.
  • [ BibTeX ]
  @inproceedings{Schaar2019, author = {Schaar, M. and Rafecas, M.}, booktitle = {2019 {IEEE} Nuclear Science Symposium and Medical Imaging Conference ({NSS}/{MIC})}, keywords = {scatter}, month = {oct}, publisher = {{IEEE}}, title = {Modelling of Scatter in the System Matrix for 3D PET Image Reconstruction: a Comparative Study}, year = 2019 }
• Rehberg, I., Richter, R., Hartung, S., Lucht, N., Hankiewicz, B. and Friedrich, T.: Measuring magnetic moments of polydisperse ferrofluids utilizing the inverse Langevin function, Physical Review B, 100(13), 134425, 2019, DOI: 10.1103/PhysRevB.100.134425.
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  @article{PhysRevB.100.134425, abstract = {The dipole strength of magnetic particles in a suspension is obtained by a graphical rectification of the magnetization curves based on the inverse Langevin function. The method yields the arithmetic and the harmonic mean of the particle distribution. It has an advantage compared to the fitting of magnetization curves to some appropriate mathematical model: It does not rely on assuming a particular distribution function of the particles.}, author = {Rehberg, Ingo and Richter, Reinhard and Hartung, Stefan and Lucht, Niklas and Hankiewicz, Birgit and Friedrich, Thomas}, journal = {Physical Review B}, keywords = {myown}, month = {oct}, number = 13, pages = 134425, publisher = {American Physical Society}, title = {Measuring magnetic moments of polydisperse ferrofluids utilizing the inverse Langevin function}, volume = 100, year = 2019 }
• Bakenecker, A. C., Topolniak, I., Lüdtke-Buzug, K., Pauw, B. R. and Buzug, T. M.: Additive manufacturing of superparamagnetic micro-devices for magnetic actuation, 153–154, 2019, DOI: 10.18416/AMMM.2019.1909S09T06.
  • [ BibTeX ]
  @inproceedings{bakenecker2019additive, author = {Bakenecker, Anna C. and Topolniak, Ievgeniia and Lüdtke-Buzug, Kerstin and Pauw, Brian R. and Buzug, Thorsten M.}, booktitle = {Additive Manufacturing Meets Medicine}, keywords = {mpi}, pages = {153-154}, title = {Additive manufacturing of superparamagnetic micro-devices for magnetic actuation}, year = 2019 }
• Chen, X., Behrends, A., Neumann, A. and Buzug, T. M.: Sample Temperature Control in a Three-Dimensional Magnetic Particle Spectrometer, 211, 2019.
  • [ BibTeX ]
  @inproceedings{chen2019sample, author = {Chen, Xin and Behrends, André and Neumann, Alexander and Buzug, Thorsten. M}, booktitle = {International Workshop on Magnetic Particle Imaging}, keywords = {mps}, pages = 211, title = {Sample Temperature Control in a Three-Dimensional Magnetic Particle Spectrometer}, year = 2019 }
• Wattenberg, M., Klein, P., Stille, M. and Buzug, T. M.: 3D tomogram-less reconstruction for industrial computed tomography using a clustering approach, 2019.
  • [ BibTeX ]
  @conference{wattenberg19tomogram, author = {Wattenberg, Maximilian and Klein, Phlipp and Stille, Maik and Buzug, Thorsten M.}, booktitle = {Book of Abstracts Digital Industrial Radiology and Computed Tomography}, keywords = {wattenbergmaximilian}, title = {3{D} tomogram-less reconstruction for industrial computed tomography using a clustering approach}, year = 2019 }
• Wattenberg, M., Klein, P., Stille, M. and Buzug, T. M.: Measuring the distance between sphere centers in industrial computed tomography from sparse data, 2019.
  • [ BibTeX ]
  @conference{wattenberg2019measuring, author = {Wattenberg, Maximilian and Klein, Philipp and Stille, Maik and Buzug, Thorsten M.}, booktitle = {Book of Abstracts International Conference on Tomography of Materials \& Structures}, keywords = {wattenbergmaximilian}, title = {Measuring the distance between sphere centers in industrial computed tomography from sparse data}, year = 2019 }
• Zell, F., Mannheim, J., Grehn, M. and Rafecas, M.: 3D-printed standardized phantoms for small animal PET and MRI: a comparison study, Transactions on Additive Manufacturing Meets Medicine, Vol 1 (2019): Trans. AMMM, 2019, DOI: 10.18416/AMMM.2019.1909S03P07.
  • [ BibTeX ]
  • [ URL ]
  @article{https://doi.org/10.18416/ammm.2019.1909s03p07, author = {Zell, Fenja and Mannheim, Julia and Grehn, Melanie and Rafecas, Magdalena}, journal = {Transactions on Additive Manufacturing Meets Medicine}, keywords = {imt}, pages = {Vol 1 (2019): Trans. AMMM}, publisher = {Transactions on Additive Manufacturing Meets Medicine}, title = {3D-printed standardized phantoms for small animal PET and MRI: a comparison study}, year = 2019 }
• Bakenecker, A. C., von Gladiss, A., Friedrich, T., Heinen, U., Lehr, H., Lüdtke-Buzug, K. and Buzug, T. M.: Actuation and visualization of a SPION-coated swimmer with magnetic particle imaging, 14, 2019.
  • [ BibTeX ]
  @inproceedings{bakenecker2019actuation, author = {Bakenecker, Anna C. and von Gladiss, Anselm and Friedrich, Thomas and Heinen, Ulrich and Lehr, Heinrich and Lüdtke-Buzug, Kerstin and Buzug, Thorsten M.}, booktitle = {3ed Ilmenau Symposium on Medical Application of Magnetic Nanoparticles and Ferrofluids}, keywords = {mpi}, pages = 14, title = {Actuation and visualization of a SPION-coated swimmer with magnetic particle imaging}, year = 2019 }
• Stelzner, J., Gerant, V., Schonebeck, S., Stender, M. and Buzug, T. M.: Design and evaluation of 3D printed objects regarding form stability, 93, 2019.
  • [ BibTeX ]
  @inproceedings{buzug2019design, author = {Stelzner, Jan and Gerant, Victoria and Schonebeck, Sara and Stender, Mareike and Buzug, Thorsten M.}, booktitle = {Additive Manufacturing Meets Medicine}, editor = {Buzug, Thorsten M. and Seitz, Hermann}, keywords = {IMT}, month = {sep}, pages = 93, publisher = {Infinite Science Publishing}, title = {Design and evaluation of 3D printed objects regarding form stability}, volume = 1, year = 2019 }
• Friedrich, T., Wattenberg, M., Tüshaus, L., Wünsch, L. and Buzug, T. M.: Presurgical practice of supracondylar domosteotomie of cubitus varus deformity on 3D printed humerus, Transactions on Additive Manufacturing Meets Medicine, 1(2), Vol 1 (2019): Trans. AMMM-, 2019, DOI: 10.18416/AMMM.2019.1909S01T06.
  • [ BibTeX ]
  • [ URL ]
  @article{https://doi.org/10.18416/ammm.2019.1909s01t06, abstract = {Complicated fractures of bones can be difficult to treat, and there is a high probability that further operative corrections need to be carried out. In the present work, we present a case study, where a model of the humerus of a six-year-old male patient was 3D-printed from a segmented CT-dataset for a preoperative optimization of the geometric parameters of a supracondylar domosteotomy. The experimental simulation of the treatment has proven very useful to the physician, and the patient has been treated successfully.}, author = {Friedrich, Thomas and Wattenberg, Maximilian and Tüshaus, Ludger and Wünsch, Lutz and Buzug, Thorsten M.}, journal = {Transactions on Additive Manufacturing Meets Medicine}, keywords = {wattenbergmaximilian}, number = 2, pages = {Vol 1 (2019): Trans. AMMM-}, publisher = {Infinite Science Publishing}, title = {Presurgical practice of supracondylar domosteotomie of cubitus varus deformity on 3D printed humerus}, volume = 1, year = 2019 }

• Kranemann, T. C., Ersepke, T., Franke, J., Friedrich, T., Neumann, A., Buzug, T. M. and Schmitz, G.: An MPI-Compatible HIFU Transducer: Experimental Evaluation of Interferences, 197, 2018.
  • [ BibTeX ]
  @inproceedings{kranemann2018mpicompatible, author = {Kranemann, Tim C. and Ersepke, T. and Franke, J. and Friedrich, Thomas and Neumann, Alexander and Buzug, Thorsten M. and Schmitz, G.}, booktitle = {International Workshop on Magnetic Particle Imaging}, keywords = {samba}, pages = 197, title = {An MPI-Compatible HIFU Transducer: Experimental Evaluation of Interferences}, year = 2018 }
• Stelzner, J., Beuke, J., Wei, H. and Buzug, T. M.: A Customized Highly Linear Power Resistor For Distortion Measurements in a Magnetic Particle Imaging Signal Chain, 2018.
  • [ BibTeX ]
  @inproceedings{stelzner2018customized, author = {Stelzner, Jan and Beuke, Jonas and Wei, Huimin and Buzug, Thorsten M.}, booktitle = {52th Annual Conference of the German Society for Biomedical Engineering}, keywords = {WeiHuimin}, month = {sep}, title = {A Customized Highly Linear Power Resistor For Distortion Measurements in a Magnetic Particle Imaging Signal Chain}, year = 2018 }
• Neumann, A. and Buzug, T. M.: Stochastic simulations of magnetic particles: Comparison of different methods, 213, 2018.
  • [ BibTeX ]
  • [ URL ]
  @conference{neumann2018stochastic, author = {Neumann, Alexander and Buzug, Thorsten M.}, booktitle = {International Workshop on Magnetic Particle Imaging}, keywords = {samba}, pages = 213, title = {Stochastic simulations of magnetic particles: Comparison of different methods}, year = 2018 }

• Wattenberg, M.: Direct extraction of a k0 navigator from golden angle stack-of-stars profiles – a model-based filtering approach, 2016.
  • [ BibTeX ]
  @mastersthesis{wattenberg16direct, author = {Wattenberg, Maximilian}, keywords = {wattenbergmaximilian}, school = {University of L{\"u}beck, Institute of Medical Engineering, Philips GmbH Innovative Technologies, Research Laboratories, in Hamburg}, title = {Direct extraction of a k0 navigator from golden angle stack-of-stars profiles – a model-based filtering approach}, year = 2016 }

• Kaethner, C., Bringout, G., Grüttner, M., Weber, M. and Buzug, T. M.: Method for magnetic particle imaging having unlimited axial field of view, International Patent, 2013, EP13802304.9.
  • [ BibTeX ]
  @patent{kaethner2013method, annote = {EP13802304.9}, author = {Kaethner, Christian and Bringout, Gael and Grüttner, Mandy and Weber, Matthias and Buzug, Thorsten M.}, keywords = {mpi}, note = {International}, title = {Method for magnetic particle imaging having unlimited axial field of view}, year = 2013 }
• Finas, D., Baumann, K., Sydow, L., Heinrich, K., Gräfe, K., Rody, A., Lüdtke-Buzug, K. and Buzug, T.: Lymphatic Tissue and Superparamagnetic Nanoparticles - Magnetic Particle Imaging for Detection and Distribution in a Breast Cancer Model, 2013, DOI: 10.1515/bmt-2013-4262.
  • [ BibTeX ]
  • [ URL ]
  @inproceedings{Finas_2013, author = {Finas, D and Baumann, K and Sydow, L and Heinrich, K and Gräfe, K and Rody, A and Lüdtke-Buzug, K and Buzug, T}, journal = {Biomedical Engineering / Biomedizinische Technik}, keywords = {luedtkekerstin}, month = {jan}, publisher = {Walter de Gruyter {GmbH}}, title = {Lymphatic Tissue and Superparamagnetic Nanoparticles - Magnetic Particle Imaging for Detection and Distribution in a Breast Cancer Model}, year = 2013 }