Works matching AU Zaitsev, Maxim
Results: 102
Overcoming the Challenges of Hyperpolarizing Substrates with Parahydrogen‐Induced Polarization in an MRI System.
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- Chemistry - A European Journal, 2025, v. 31, n. 2, p. 1, doi. 10.1002/chem.202402911
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Design multiple-layer gradient coils using least-squares finite element method.
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- Structural & Multidisciplinary Optimization, 2014, v. 49, n. 3, p. 523, doi. 10.1007/s00158-013-0992-8
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- Article
Three-dimensional arbitrary voxel shapes in spectroscopy with submillisecond TEs.
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- NMR in Biomedicine, 2012, v. 25, n. 8, p. 1000, doi. 10.1002/nbm.2764
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Clinical Potential of a New Approach to MRI Acceleration.
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- Scientific Reports, 2019, v. 9, n. 1, p. 1, doi. 10.1038/s41598-018-36802-5
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Initial assessment of PNS safety for interventionalists during image-guided procedures.
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- MAGMA: Magnetic Resonance Materials in Physics, Biology & Medicine, 2025, v. 38, n. 2, p. 239, doi. 10.1007/s10334-025-01228-4
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Optimal bi-planar gradient coil configurations for diamond nitrogen-vacancy based diffusion-weighted NMR experiments.
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- MAGMA: Magnetic Resonance Materials in Physics, Biology & Medicine, 2023, v. 36, n. 6, p. 921, doi. 10.1007/s10334-023-01111-0
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Prediction of motion induced magnetic fields for human brain MRI at 3 T.
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- MAGMA: Magnetic Resonance Materials in Physics, Biology & Medicine, 2023, v. 36, n. 5, p. 797, doi. 10.1007/s10334-023-01076-0
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RF-induced heating of interventional devices at 23.66 MHz.
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- MAGMA: Magnetic Resonance Materials in Physics, Biology & Medicine, 2023, v. 36, n. 3, p. 439, doi. 10.1007/s10334-023-01099-7
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Performance evaluation of matrix gradient coils.
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- MAGMA: Magnetic Resonance Materials in Physics, Biology & Medicine, 2016, v. 29, n. 1, p. 59, doi. 10.1007/s10334-015-0519-y
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Optical tracking with two markers for robust prospective motion correction for brain imaging.
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- MAGMA: Magnetic Resonance Materials in Physics, Biology & Medicine, 2015, v. 28, n. 6, p. 523, doi. 10.1007/s10334-015-0493-4
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Incorporation of image data from a previous examination in 3D serial MR imaging.
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- MAGMA: Magnetic Resonance Materials in Physics, Biology & Medicine, 2015, v. 28, n. 5, p. 413, doi. 10.1007/s10334-014-0478-8
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Monoplanar gradient system for imaging with nonlinear gradients.
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- MAGMA: Magnetic Resonance Materials in Physics, Biology & Medicine, 2015, v. 28, n. 5, p. 447, doi. 10.1007/s10334-015-0481-8
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An L1-norm phase constraint for half-Fourier compressed sensing in 3D MR imaging.
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- MAGMA: Magnetic Resonance Materials in Physics, Biology & Medicine, 2015, v. 28, n. 5, p. 459, doi. 10.1007/s10334-015-0482-7
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Improving the robustness of 3D turbo spin echo imaging to involuntary motion.
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- MAGMA: Magnetic Resonance Materials in Physics, Biology & Medicine, 2015, v. 28, n. 4, p. 329, doi. 10.1007/s10334-014-0471-2
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Iterative separation of transmit and receive phase contributions and B-based estimation of the specific absorption rate for transmit arrays.
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- MAGMA: Magnetic Resonance Materials in Physics, Biology & Medicine, 2013, v. 26, n. 5, p. 463, doi. 10.1007/s10334-013-0367-6
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Practical considerations for in vivo MRI with higher dimensional spatial encoding.
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- MAGMA: Magnetic Resonance Materials in Physics, Biology & Medicine, 2012, v. 25, n. 6, p. 419, doi. 10.1007/s10334-012-0314-y
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An embedded optical tracking system for motion-corrected magnetic resonance imaging at 7T.
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- MAGMA: Magnetic Resonance Materials in Physics, Biology & Medicine, 2012, v. 25, n. 6, p. 443, doi. 10.1007/s10334-012-0320-0
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An improved PSF mapping method for EPI distortion correction in human brain at ultra high field (7T).
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- MAGMA: Magnetic Resonance Materials in Physics, Biology & Medicine, 2011, v. 24, n. 3, p. 179, doi. 10.1007/s10334-011-0251-1
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Combining prospective motion correction and distortion correction for EPI: towards a comprehensive correction of motion and susceptibility-induced artifacts.
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- MAGMA: Magnetic Resonance Materials in Physics, Biology & Medicine, 2010, v. 23, n. 4, p. 263, doi. 10.1007/s10334-010-0225-8
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Optimized EPI for fMRI using a slice-dependent template-based gradient compensation method to recover local susceptibility-induced signal loss.
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- MAGMA: Magnetic Resonance Materials in Physics, Biology & Medicine, 2010, v. 23, n. 3, p. 165, doi. 10.1007/s10334-010-0215-x
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Parallel imaging in non-bijective, curvilinear magnetic field gradients: a concept study.
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- MAGMA: Magnetic Resonance Materials in Physics, Biology & Medicine, 2008, v. 21, n. 1/2, p. 5, doi. 10.1007/s10334-008-0105-7
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Implementation and Application of PSF-Based EPI Distortion Correction to High Field Animal Imaging.
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- International Journal of Biomedical Imaging, 2009, p. 1, doi. 10.1155/2009/946271
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Time‐division multiplexing (TDM) sequence removes bias in T<sub>2</sub> estimation and relaxation‐diffusion measurements.
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- Magnetic Resonance in Medicine, 2024, v. 92, n. 6, p. 2506, doi. 10.1002/mrm.30246
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Reduced cross‐scanner variability using vendor‐agnostic sequences for single‐shell diffusion MRI.
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- Magnetic Resonance in Medicine, 2024, v. 92, n. 1, p. 246, doi. 10.1002/mrm.30062
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Predicting dynamic, motion‐related changes in B<sub>0</sub> field in the brain at a 7T MRI using a subject‐specific fine‐trained U‐net.
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- Magnetic Resonance in Medicine, 2024, v. 91, n. 5, p. 2044, doi. 10.1002/mrm.29980
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Open‐source MR imaging and reconstruction workflow.
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- Magnetic Resonance in Medicine, 2022, v. 88, n. 6, p. 2395, doi. 10.1002/mrm.29384
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CoilGen: Open‐source MR coil layout generator.
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- Magnetic Resonance in Medicine, 2022, v. 88, n. 3, p. 1465, doi. 10.1002/mrm.29294
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Single shot spiral TSE with annulated segmentation.
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- Magnetic Resonance in Medicine, 2022, v. 88, n. 2, p. 651, doi. 10.1002/mrm.29224
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3D localized lactate detection in muscle tissue using double‐quantum filtered <sup>1</sup>H MRS with adiabatic refocusing pulses at 7 T.
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- Magnetic Resonance in Medicine, 2022, v. 87, n. 3, p. 1174, doi. 10.1002/mrm.29061
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Pulseq‐CEST: Towards multi‐site multi‐vendor compatibility and reproducibility of CEST experiments using an open‐source sequence standard.
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- Magnetic Resonance in Medicine, 2021, v. 86, n. 4, p. 1845, doi. 10.1002/mrm.28825
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Combining prospective and retrospective motion correction based on a model for fast continuous motion.
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- Magnetic Resonance in Medicine, 2021, v. 86, n. 3, p. 1284, doi. 10.1002/mrm.28783
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Strategies to improve intratrain prospective motion correction for turbo spin‐echo sequences with constant flip angles.
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- Magnetic Resonance in Medicine, 2021, v. 86, n. 2, p. 852, doi. 10.1002/mrm.28763
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Three-dimensional spatially resolved phase graph framework.
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- Magnetic Resonance in Medicine, 2021, v. 86, n. 1, p. 551, doi. 10.1002/mrm.28732
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Frequency‐adjustable magnetic field probes.
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- Magnetic Resonance in Medicine, 2021, v. 85, n. 2, p. 1123, doi. 10.1002/mrm.28444
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Design of a shim coil array matched to the human brain anatomy.
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- Magnetic Resonance in Medicine, 2020, v. 83, n. 4, p. 1442, doi. 10.1002/mrm.28016
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A 32‐channel multi‐coil setup optimized for human brain shimming at 9.4T.
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- Magnetic Resonance in Medicine, 2020, v. 83, n. 2, p. 749, doi. 10.1002/mrm.27929
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Development and implementation of an 84-channel matrix gradient coil.
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- Magnetic Resonance in Medicine, 2018, v. 79, n. 2, p. 1181, doi. 10.1002/mrm.26700
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High resolution CBV assessment with PEAK-EPI: k-t-undersampling and reconstruction in echo planar imaging.
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- Magnetic Resonance in Medicine, 2017, v. 77, n. 6, p. 2153, doi. 10.1002/mrm.26298
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Pulseq: A rapid and hardware-independent pulse sequence prototyping framework.
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- Magnetic Resonance in Medicine, 2017, v. 77, n. 4, p. 1544, doi. 10.1002/mrm.26235
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Trajectory optimization based on the signal-to-noise ratio for spatial encoding with nonlinear encoding fields.
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- Magnetic Resonance in Medicine, 2016, v. 76, n. 1, p. 104, doi. 10.1002/mrm.25859
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Quantitative framework for prospective motion correction evaluation.
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- Magnetic Resonance in Medicine, 2016, v. 75, n. 2, p. 810, doi. 10.1002/mrm.25580
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Prospective Motion Correction of Segmented Diffusion Weighted EPI.
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- Magnetic Resonance in Medicine, 2015, v. 74, n. 6, p. 1675, doi. 10.1002/mrm.25547
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Comparison of optical and MR-based tracking.
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- Magnetic Resonance in Medicine, 2015, v. 74, n. 3, p. 894, doi. 10.1002/mrm.25472
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A g-factor metric for k-t-GRAPPA- and PEAK-GRAPPA-based parallel imaging.
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- Magnetic Resonance in Medicine, 2015, v. 74, n. 1, p. 125, doi. 10.1002/mrm.25386
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Parallel imaging with phase scrambling.
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- Magnetic Resonance in Medicine, 2015, v. 73, n. 4, p. 1407, doi. 10.1002/mrm.25252
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Single-shot imaging with higher-dimensional encoding using magnetic field monitoring and concomitant field correction.
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- Magnetic Resonance in Medicine, 2015, v. 73, n. 3, p. 1340, doi. 10.1002/mrm.25235
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Image reconstruction in k-space from MR data encoded with ambiguous gradient fields.
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- Magnetic Resonance in Medicine, 2015, v. 73, n. 2, p. 857, doi. 10.1002/mrm.25152
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MR image reconstruction from generalized projections.
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- Magnetic Resonance in Medicine, 2014, v. 72, n. 2, p. 546, doi. 10.1002/mrm.24928
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Local shape adaptation for curved slice selection.
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- Magnetic Resonance in Medicine, 2014, v. 72, n. 1, p. 112, doi. 10.1002/mrm.24906
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Prevention of motion-induced signal loss in diffusion-weighted echo-planar imaging by dynamic restoration of gradient moments.
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- Magnetic Resonance in Medicine, 2014, v. 71, n. 6, p. 2006, doi. 10.1002/mrm.24857
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