Goodwill, P.W.,
Scott, G.C.,
Stang, P.P.,
Conolly, S.M.,
Narrowband Magnetic Particle Imaging,
MedImg(28), No. 8, August 2009, pp. 1231-1237.
IEEE DOI
0909
BibRef
Knopp, T.,
Biederer, S.,
Sattel, T.F.,
Erbe, M.,
Buzug, T.M.,
Prediction of the Spatial Resolution of Magnetic Particle Imaging Using
the Modulation Transfer Function of the Imaging Process,
MedImg(30), No. 6, June 2011, pp. 1284-1292.
IEEE DOI
1101
BibRef
Knopp, T.,
Weber, A.,
Sparse Reconstruction of the Magnetic Particle Imaging System Matrix,
MedImg(32), No. 8, 2013, pp. 1473-1480.
IEEE DOI
1308
Compressed sensing
BibRef
Szwargulski, P.,
Möddel, M.,
Gdaniec, N.,
Knopp, T.,
Efficient Joint Image Reconstruction of Multi-Patch Data Reusing a
Single System Matrix in Magnetic Particle Imaging,
MedImg(38), No. 4, April 2019, pp. 932-944.
IEEE DOI
1904
Image reconstruction, Magnetic resonance imaging, Trajectory,
Biomedical imaging, Mathematical model, Coils, Biomedical imaging,
magnetic particle imaging
BibRef
Mohn, F.[Fabian],
Knopp, T.[Tobias],
Boberg, M.[Marija],
Thieben, F.[Florian],
Szwargulski, P.[Patryk],
Graeser, M.[Matthias],
System Matrix Based Reconstruction for Pulsed Sequences in Magnetic
Particle Imaging,
MedImg(41), No. 7, July 2022, pp. 1862-1873.
IEEE DOI
2207
BibRef
And:
Corrections:
MedImg(41), No. 11, November 2022, pp. 3485-3485.
IEEE DOI
2211
Image reconstruction, Imaging, Signal resolution, Sensitivity, Coils,
Phantoms, Particle measurements, Biomedical imaging,
MPI
BibRef
Goodwill, P.W.,
Conolly, S.M.,
The X-Space Formulation of the Magnetic Particle Imaging Process: 1-D
Signal, Resolution, Bandwidth, SNR, SAR, and Magnetostimulation,
MedImg(29), No. 11, November 2010, pp. 1851-1859.
IEEE DOI
1011
BibRef
Goodwill, P.W.,
Conolly, S.M.,
Multidimensional X-Space Magnetic Particle Imaging,
MedImg(30), No. 9, September 2011, pp. 1581-1590.
IEEE DOI
1109
BibRef
Goodwill, P.W.,
Konkle, J.J.,
Zheng, B.,
Saritas, E.U.,
Conolly, S.T.,
Projection X-Space Magnetic Particle Imaging,
MedImg(31), No. 5, May 2012, pp. 1076-1085.
IEEE DOI
1202
BibRef
Lu, K.,
Goodwill, P.W.,
Zheng, B.,
Conolly, S.T.,
Multi-Channel Acquisition for Isotropic Resolution in Magnetic
Particle Imaging,
MedImg(37), No. 9, September 2018, pp. 1989-1998.
IEEE DOI
1809
Image resolution, Tensile stress, Trajectory, Sensitivity,
Magnetization, Isotropic resolution, magnetic particle imaging,
x-space MPI
BibRef
Saritas, E.U.,
Goodwill, P.W.,
Zhang, G.Z.,
Conolly, S.M.,
Magnetostimulation Limits in Magnetic Particle Imaging,
MedImg(32), No. 9, 2013, pp. 1600-1610.
IEEE DOI
1309
Magnetic field
BibRef
Konkle, J.J.,
Goodwill, P.W.,
Carrasco-Zevallos, O.M.,
Conolly, S.M.,
Projection Reconstruction Magnetic Particle Imaging,
MedImg(32), No. 2, February 2013, pp. 338-347.
IEEE DOI
1301
BibRef
Lu, K.,
Goodwill, P.W.,
Saritas, E.U.,
Zheng, B.,
Conolly, S.M.,
Linearity and Shift Invariance for Quantitative Magnetic Particle
Imaging,
MedImg(32), No. 9, 2013, pp. 1565-1575.
IEEE DOI
1309
Angiography
BibRef
Croft, L.R.,
Goodwill, P.W.,
Conolly, S.M.,
Relaxation in X-Space Magnetic Particle Imaging,
MedImg(31), No. 12, December 2012, pp. 2335-2342.
IEEE DOI
1212
BibRef
Knopp, T.,
Sattel, T.F.,
Biederer, S.,
Rahmer, J.,
Weizenecker, J.,
Gleich, B.,
Borgert, J.,
Buzug, T.M.[Thorsten M.],
Model-Based Reconstruction for Magnetic Particle Imaging,
MedImg(29), No. 1, January 2010, pp. 12-18.
IEEE DOI
1001
BibRef
Rahmer, J.,
Weizenecker, J.,
Gleich, B.,
Borgert, J.,
Analysis of a 3-D System Function Measured for Magnetic Particle
Imaging,
MedImg(31), No. 6, June 2012, pp. 1289-1299.
IEEE DOI
1206
BibRef
Vogel, P.,
Ruckert, M.A.,
Klauer, P.,
Kullmann, W.H.,
Jakob, P.M.,
Behr, V.C.,
Traveling Wave Magnetic Particle Imaging,
MedImg(33), No. 2, February 2014, pp. 400-407.
IEEE DOI
1403
biomagnetism
BibRef
Kaethner, C.,
Ahlborg, M.,
Bringout, G.,
Weber, M.,
Buzug, T.M.,
Axially Elongated Field-Free Point Data Acquisition in Magnetic
Particle Imaging,
MedImg(34), No. 2, February 2015, pp. 381-387.
IEEE DOI
1502
Data acquisition
magnetic particle imaging (MPI).
BibRef
Bente, K.,
Weber, M.,
Graeser, M.,
Sattel, T.F.,
Erbe, M.,
Buzug, T.M.,
Electronic Field Free Line Rotation and Relaxation Deconvolution in
Magnetic Particle Imaging,
MedImg(34), No. 2, February 2015, pp. 644-651.
IEEE DOI
1502
Biomedical imaging
BibRef
Ferguson, R.M.,
Khandhar, A.P.,
Kemp, S.J.,
Arami, H.,
Saritas, E.U.,
Croft, L.R.,
Konkle, J.,
Goodwill, P.W.,
Halkola, A.,
Rahmer, J.,
Borgert, J.,
Conolly, S.M.,
Krishnan, K.M.,
Magnetic Particle Imaging With Tailored Iron Oxide Nanoparticle
Tracers,
MedImg(34), No. 5, May 2015, pp. 1077-1084.
IEEE DOI
1505
Image reconstruction
BibRef
Kaethner, C.,
Erb, W.,
Ahlborg, M.,
Szwargulski, P.,
Knopp, T.,
Buzug, T.M.,
Non-Equispaced System Matrix Acquisition for Magnetic Particle
Imaging Based on Lissajous Node Points,
MedImg(35), No. 11, November 2016, pp. 2476-2485.
IEEE DOI
1609
biomagnetism
BibRef
Them, K.,
Kaul, M.G.,
Jung, C.,
Hofmann, M.,
Mummert, T.,
Werner, F.,
Knopp, T.,
Sensitivity Enhancement in Magnetic Particle Imaging by Background
Subtraction,
MedImg(35), No. 3, March 2016, pp. 893-900.
IEEE DOI
1603
Biomedical imaging
BibRef
Gräfe, K.,
von Gladiss, A.,
Bringout, G.,
Ahlborg, M.,
Buzug, T.M.,
2D Images Recorded With a Single-Sided Magnetic Particle Imaging
Scanner,
MedImg(35), No. 4, April 2016, pp. 1056-1065.
IEEE DOI
1604
biomedical MRI
BibRef
Rahmer, J.,
Wirtz, D.,
Bontus, C.,
Borgert, J.,
Gleich, B.,
Interactive Magnetic Catheter Steering With 3-D Real-Time Feedback
Using Multi-Color Magnetic Particle Imaging,
MedImg(36), No. 7, July 2017, pp. 1449-1456.
IEEE DOI
1707
Interventional imaging, catheter steering,
image guided treatment, magnetic particle imaging, tracking
BibRef
Haegele, J.,
Panagiotopoulos, N.,
Cremers, S.,
Rahmer, J.,
Franke, J.,
Duschka, R.L.,
Vaalma, S.,
Heidenreich, M.,
Borgert, J.,
Borm, P.,
Barkhausen, J.,
Vogt, F.M.,
Magnetic Particle Imaging: A Resovist Based Marking Technology for
Guide Wires and Catheters for Vascular Interventions,
MedImg(35), No. 10, October 2016, pp. 2312-2318.
IEEE DOI
1610
Catheters
BibRef
Gdaniec, N.,
Schlüter, M.,
Möddel, M.,
Kaul, M.G.,
Krishnan, K.M.,
Schlaefer, A.,
Knopp, T.,
Detection and Compensation of Periodic Motion in Magnetic Particle
Imaging,
MedImg(36), No. 7, July 2017, pp. 1511-1521.
IEEE DOI
1707
Atmospheric measurements, Imaging, Particle measurements,
Signal to noise ratio, Spatial resolution, Trajectory,
Biomedical imaging, Motion artifacts, Motion compensation, Motion, detection
BibRef
Brandt, C.[Christina],
Seppänen, A.[Aku],
Recovery from Errors Due to Domain Truncation in Magnetic Particle
Imaging: Approximation Error Modeling Approach,
JMIV(60), No. 8, October 2018, pp. 1196-1208.
Springer DOI
1810
BibRef
Straub, M.,
Schulz, V.,
Joint Reconstruction of Tracer Distribution and Background in
Magnetic Particle Imaging,
MedImg(37), No. 5, May 2018, pp. 1192-1203.
IEEE DOI
1805
Atmospheric measurements, Image reconstruction,
Magnetic resonance imaging, Magnetic separation,
reconstruction
BibRef
Muslu, Y.,
Utkur, M.,
Demirel, O.B.,
Saritas, E.U.,
Calibration-Free Relaxation-Based Multi-Color Magnetic Particle
Imaging,
MedImg(37), No. 8, August 2018, pp. 1920-1931.
IEEE DOI
1808
Nanoparticles, Imaging, Mirrors, Estimation, Adiabatic,
Image reconstruction, Calibration, Magnetic particle imaging, mirror symmetry
BibRef
Arslan, M.T.[M. Tunç],
Özaslan, A.A.[A. Alper],
Kurt, S.[Semih],
Muslu, Y.[Yavuz],
Saritas, E.U.[Emine Ulku],
Rapid TAURUS for Relaxation-Based Color Magnetic Particle Imaging,
MedImg(41), No. 12, December 2022, pp. 3774-3786.
IEEE DOI
2212
Trajectory, Mirrors, Image color analysis, Distortion, Calibration,
Estimation, Computational modeling, Magnetic particle imaging,
rapid trajectory
BibRef
Herz, S.,
Vogel, P.,
Kampf, T.,
Rückert, M.A.,
Veldhoen, S.,
Behr, V.C.,
Bley, T.A.,
Magnetic Particle Imaging for Quantification of Vascular Stenoses:
A Phantom Study,
MedImg(37), No. 1, January 2018, pp. 61-67.
IEEE DOI
1801
biomedical imaging, cardiovascular system, magnetic particles,
nanomagnetics, nanomedicine, nanoparticles, phantoms,
vascular stenosis
BibRef
Tay, Z.W.,
Hensley, D.,
Ma, J.,
Chandrasekharan, P.,
Zheng, B.,
Goodwill, P.,
Conolly, S.,
Pulsed Excitation in Magnetic Particle Imaging,
MedImg(38), No. 10, October 2019, pp. 2389-2399.
IEEE DOI
1910
Magnetic resonance imaging, Steady-state, Magnetic cores,
Image resolution, Magnetic domains, Signal resolution,
image reconstruction
BibRef
Boberg, M.,
Knopp, T.,
Szwargulski, P.,
Möddel, M.,
Generalized MPI Multi-Patch Reconstruction Using Clusters of Similar
System Matrices,
MedImg(39), No. 5, May 2020, pp. 1347-1358.
IEEE DOI
2005
Image reconstruction, Calibration, Magnetic resonance imaging,
Reconstruction algorithms, Atmospheric measurements,
magnetic particle imaging
BibRef
Tay, Z.W.,
Hensley, D.W.,
Chandrasekharan, P.,
Zheng, B.,
Conolly, S.M.,
Optimization of Drive Parameters for Resolution, Sensitivity and
Safety in Magnetic Particle Imaging,
MedImg(39), No. 5, May 2020, pp. 1724-1734.
IEEE DOI
2005
Sensitivity, Spatial resolution, Safety, Signal to noise ratio,
Magnetic resonance imaging, Nanoparticles,
spatial resolution
BibRef
Vogel, P.,
Rückert, M.A.,
Kampf, T.,
Herz, S.,
Stang, A.,
Wöckel, L.,
Bley, T.A.,
Dutz, S.,
Behr, V.C.,
Superspeed Bolus Visualization for Vascular Magnetic Particle Imaging,
MedImg(39), No. 6, June 2020, pp. 2133-2139.
IEEE DOI
2006
Bolus visualization, magnetic particle imaging (MPI), real-time, reconstruction
BibRef
Gdaniec, N.,
Boberg, M.,
Möddel, M.,
Szwargulski, P.,
Knopp, T.,
Suppression of Motion Artifacts Caused by Temporally Recurring Tracer
Distributions in Multi-Patch Magnetic Particle Imaging,
MedImg(39), No. 11, November 2020, pp. 3548-3558.
IEEE DOI
2011
Image reconstruction, Motion artifacts, Dynamics, Phantoms,
Spatial resolution, Biomedical imaging,
motion detection
BibRef
Kurt, S.,
Muslu, Y.,
Saritas, E.U.,
Partial FOV Center Imaging (PCI): A Robust X-Space Image
Reconstruction for Magnetic Particle Imaging,
MedImg(39), No. 11, November 2020, pp. 3441-3450.
IEEE DOI
2011
Image reconstruction, Harmonic analysis, Imaging, Robustness,
Interference, Nanoparticles, Standards, Magnetic particle imaging,
deconvolution
BibRef
Top, C.B.,
Güngör, A.,
Tomographic Field Free Line Magnetic Particle Imaging With an
Open-Sided Scanner Configuration,
MedImg(39), No. 12, December 2020, pp. 4164-4173.
IEEE DOI
2012
Coils, Magnetic resonance imaging, Tomography, Imaging phantoms,
magnetic nanoparticles
BibRef
Knopp, T.[Tobias],
Grosser, M.[Mirco],
Graeser, M.[Matthias],
Gerkmann, T.[Timo],
Möddel, M.[Martin],
Efficient Joint Estimation of Tracer Distribution and Background
Signals in Magnetic Particle Imaging Using a Dictionary Approach,
MedImg(40), No. 12, December 2021, pp. 3568-3579.
IEEE DOI
2112
Imaging, Estimation, Dictionaries, Image reconstruction,
Biomedical measurement, Time measurement, Particle measurements,
dictionary approach
BibRef
della Maggiora, G.[Gabriel],
Castillo-Passi, C.[Carlos],
Qiu, W.Q.[Wen-Qi],
Liu, S.[Shuang],
Milovic, C.[Carlos],
Sekino, M.[Masaki],
Tejos, C.[Cristian],
Uribe, S.[Sergio],
Irarrazaval, P.[Pablo],
DeepSPIO: Super Paramagnetic Iron Oxide Particle Quantification Using
Deep Learning in Magnetic Resonance Imaging,
PAMI(44), No. 1, January 2022, pp. 143-153.
IEEE DOI
2112
Magnetic resonance imaging, Decoding, Distortion, Machine learning,
Magnetic susceptibility, Convolution, Image reconstruction,
SPIO
BibRef
Shen, Y.S.[Yu-Song],
Hu, C.[Chaoen],
Zhang, P.[Peng],
Tian, J.[Jie],
Hui, H.[Hui],
A novel software framework for magnetic particle imaging
reconstruction,
IJIST(32), No. 4, 2022, pp. 1119-1132.
DOI Link
2207
magnetic particle imaging, Python toolkit, reconstruction,
scan simulation, software framework
BibRef
Ahlborg, M.[Mandy],
Friedrich, T.[Thomas],
Göttsche, T.[Thorsten],
Scheitenberger, V.[Vincent],
Linemann, R.[Reinhard],
Wattenberg, M.[Maximilian],
Buessen, A.T.[Anne T.],
Knopp, T.[Tobias],
Szwargulski, P.[Patryk],
Kaul, M.G.[Michael G.],
Salamon, J.[Johannes],
Buzug, T.M.[Thorsten M.],
Barkhausen, J.[Jörg],
Wegner, F.[Franz],
First Dedicated Balloon Catheter for Magnetic Particle Imaging,
MedImg(41), No. 11, November 2022, pp. 3301-3308.
IEEE DOI
2211
Catheters, Imaging, Polymers, Instruments, Visualization,
Medical diagnostic imaging, Heating systems,
interventional instruments
BibRef
Güngör, A.[Alper],
Askin, B.[Baris],
Soydan, D.A.[Damla Alptekin],
Saritas, E.U.[Emine Ulku],
Top, C.B.[Can Baris],
Çukur, T.[Tolga],
TranSMS: Transformers for Super-Resolution Calibration in Magnetic
Particle Imaging,
MedImg(41), No. 12, December 2022, pp. 3562-3574.
IEEE DOI
2212
Calibration, Transformers, Image reconstruction,
Signal to noise ratio, Imaging, Convolution, Superresolution, deep learning
BibRef
Jia, G.[Guang],
Huang, L.[Liyu],
Wang, Z.[Ze],
Liang, X.F.[Xiao-Feng],
Zhang, Y.[Yu],
Zhang, Y.F.[Yi-Fei],
Miao, Q.G.[Qi-Guang],
Hu, K.[Kai],
Li, T.P.[Tan-Ping],
Wang, Y.[Ying],
Xi, L.[Li],
Feng, X.[Xin],
Hui, H.[Hui],
Tian, J.[Jie],
Gradient-Based Pulsed Excitation and Relaxation Encoding in Magnetic
Particle Imaging,
MedImg(41), No. 12, December 2022, pp. 3725-3733.
IEEE DOI
2212
Magnetic resonance imaging, Image reconstruction,
Saturation magnetization, Phantoms, Nonhomogeneous media,
singular value decomposition
BibRef
Scheffler, K.[Konrad],
Boberg, M.[Marija],
Knopp, T.[Tobias],
Extrapolation of System Matrices in Magnetic Particle Imaging,
MedImg(42), No. 4, April 2023, pp. 1121-1132.
IEEE DOI
2304
Calibration, Convolution, Kernel, Image reconstruction,
Particle measurements, Atmospheric measurements,
system-matrix extrapolation
BibRef
Shi, G.[Gen],
Yin, L.[Lin],
An, Y.[Yu],
Li, G.H.[Guang-Hui],
Zhang, L.W.[Li-Wen],
Bian, Z.[Zhongwei],
Chen, Z.W.[Zi-Wei],
Zhang, H.R.[Hao-Ran],
Hui, H.[Hui],
Tian, J.[Jie],
Progressive Pretraining Network for 3D System Matrix Calibration in
Magnetic Particle Imaging,
MedImg(42), No. 12, December 2023, pp. 3639-3650.
IEEE DOI
2312
BibRef
Güngör, A.[Alper],
Askin, B.[Baris],
Soydan, D.A.[Damla Alptekin],
Top, C.B.[Can Baris],
Saritas, E.U.[Emine Ulku],
Çukur, T.[Tolga],
DEQ-MPI: A Deep Equilibrium Reconstruction With Learned Consistency
for Magnetic Particle Imaging,
MedImg(43), No. 1, January 2024, pp. 321-334.
IEEE DOI
2401
BibRef
Tay, Z.W.[Zhi-Wei],
Kim, H.J.[Han-Joon],
Ho, J.S.[John S.],
Olivo, M.[Malini],
A Magnetic Particle Imaging Approach for Minimally Invasive Imaging
and Sensing With Implantable Bioelectronic Circuits,
MedImg(43), No. 5, May 2024, pp. 1740-1752.
IEEE DOI
2405
Imaging, Magnetic resonance imaging, Biomedical imaging, Probes,
Implants, RLC circuits, X-ray imaging, Magnetic particle imaging,
reconstruction
BibRef
Zhu, T.[Tao],
Yin, L.[Lin],
He, J.[Jie],
Wei, Z.C.[Ze-Chen],
Yang, X.[Xin],
Tian, J.[Jie],
Hui, H.[Hui],
Accurate Concentration Recovery for Quantitative Magnetic Particle
Imaging Reconstruction via Nonconvex Regularization,
MedImg(43), No. 8, August 2024, pp. 2949-2959.
IEEE DOI
2408
Image reconstruction, TV,
Superparamagnetic iron oxide nanoparticles, Noise,
quantitative reconstruction
BibRef
He, J.[Jie],
Zhang, H.R.[Hao-Ran],
Li, Y.M.[Yi-Meng],
Li, G.H.[Guang-Hui],
Lei, S.[Siao],
Qian, Z.[Zhumei],
Xiong, F.[Fei],
Feng, Y.[Yuan],
Zhu, T.[Tao],
An, Y.[Yu],
Tian, J.[Jie],
Sequential Scan-Based Single-Dimension Multi-Voxel System Matrix
Calibration for Open-Sided Magnetic Particle Imaging,
MedImg(43), No. 11, November 2024, pp. 3856-3868.
IEEE DOI
2411
Calibration, Image reconstruction, Coils,
Magnetic field measurement, Transmission line matrix methods,
field-free line
BibRef
Le, T.A.[Tuan-Anh],
Bui, M.P.[Minh Phu],
Hadadian, Y.[Yaser],
Gadelmowla, K.M.[Khaled Mohamed],
Oh, S.J.[Seung-Jun],
Im, C.[Chaemin],
Hahn, S.Y.[Seung-Yong],
Yoon, J.[Jungwon],
Toward Human-Scale Magnetic Particle Imaging: Development of the
First System With Superconductor- Based Selection Coils,
MedImg(43), No. 12, December 2024, pp. 4266-4280.
IEEE DOI
2412
Coils, Magnetic fields, Superconductivity, Imaging,
Spatial resolution, Magnetic resonance imaging,
magnetic field gradient superconductor
BibRef
Brandt, C.[Christina],
Kluth, T.[Tobias],
Knopp, T.[Tobias],
Westen, L.[Lena],
Dynamic Image Reconstruction with Motion Priors in Application to
Three Dimensional Magnetic Particle Imaging,
SIIMS(17), No. 3, 2024, pp. 1539-1586.
DOI Link
2501
BibRef
Chapter on Medical Applications, CAT, MRI, Ultrasound, Heart Models, Brain Models continues in
Segmentation, Features, Models from Magnetic Resonance Data, MRI .