"Usefulness of Magnetic Particle Imaging for Predicting the Therapeutic Effect of Magnetic Hyperthermia"
written by Kenya Murase, Marina Aoki, Natsuo Banura, Kohei Nishimoto, Atsushi Mimura, Tomomi Kuboyabu, Isamu Yabata,
published by Open Journal of Medical Imaging, Vol.5 No.2, 2015
has been cited by the following article(s):
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[1] Combining magnetic particle imaging and magnetic fluid hyperthermia in a theranostic platform
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[2] Effect of Signal Filtering on Image Quality of Projection-Based Magnetic Particle Imaging
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[3] Effects of duty cycle on magnetostimulation thresholds in mpi
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[4] A theranostic platform for localized magnetic fluid hyperthermia and magnetic particle imaging
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[5] Relaxation-based viscosity mapping for magnetic particle imaging
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[6] The relaxation wall: experimental limits to improving MPI spatial resolution by increasing nanoparticle core size
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[7] Quantitative evaluation of tumor early response to magnetic hyperthermia combined with vascular disrupting therapy using magnetic particle imaging
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[8] Development of magnetic nanocarriers based on thermosensitive liposomes and their visualization using magnetic particle imaging
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[9] Magnetic Particle Imaging for Magnetic Hyperthermia Treatment: Visualization and Quantification of the Intratumoral Distribution and Temporal Change of Magnetic Nanoparticles in Vivo
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[10] Theoretical predictions for spatially-focused heating of magnetic nanoparticles guided by magnetic particle imaging field gradients
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[11] Heat Transfer Simulation for Optimization and Treatment Planning of Magnetic Hyperthermia Using Magnetic Particle Imaging
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[12] High-performance iron oxide nanoparticles for magnetic particle imaging–guided hyperthermia (hMPI)
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[13] Determining iron oxide nanoparticle heating efficiency and elucidating local nanoparticle temperature for application in agarose gel-based tumor model
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[14] Usefulness of Magnetic Particle Imaging for Monitoring the Effect of Magnetic Targeting
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[15] Simultaneous magnetic particle imaging (MPI) and temperature mapping using multi-color MPI
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[16] A High-Throughput, Arbitrary-Waveform, MPI Spectrometer and Relaxometer for Comprehensive Magnetic Particle Optimization and Characterization
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[17] Methods for Estimating Specific Loss Power in Magnetic Hyperthermia Revisited
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[18] A Simulation Study on the Specific Loss Power in Magnetic Hyperthermia in the Presence of a Static Magnetic Field
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[19] Structural effects on the magnetic hyperthermia properties of iron oxide nanoparticles
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