Johan Berglund
Associate professor at Department of Surgical Sciences; Molecular imaging and medical physics
- Mobile phone:
- +46 72 201 05 89
- E-mail:
- johan.berglund@uu.se
- Visiting address:
- Magnetkameran
Akademiska sjukhuset ,ing 108
SE-75185 Uppsala
Sweden - Postal address:
- Medicinsk fysik
Akademiska sjukhuset, Ing 100,1 tr
SE-75185 Uppsala
Sweden
- CV:
- Download CV
Short presentation
Johan Berglund is a docent in medical physics, specializing in the physics of magnetic resonance imaging (MRI). He conducts research within method development for medical MRI, with particular focus on motion correction, fat/water separation (Dixon's method), and cardiac MRI. He teaches MR physics to students with both medical and technical backgrounds, as well as healthcare professionals.
Keywords
- mri
- radiology
- cardiac imaging
- medical physics
Publications
Recent publications
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Unwrapping phase contrast MRI by iterative graph cuts
Part of Magnetic Resonance in Medicine, p. 1484-1495, 2024
- DOI for Unwrapping phase contrast MRI by iterative graph cuts
- Download full text (pdf) of Unwrapping phase contrast MRI by iterative graph cuts
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Part of European Radiology Experimental, 2024
- DOI for Effect of MRI acquisition parameters on accuracy and precision of phase-contrast measurements in a small-lumen vessel phantom
- Download full text (pdf) of Effect of MRI acquisition parameters on accuracy and precision of phase-contrast measurements in a small-lumen vessel phantom
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Part of Magnetic Resonance Imaging, p. 35-42, 2024
- DOI for A mathematical model for temporal cerebral blood flow response to acetazolamide evaluated in patients with Moyamoya disease
- Download full text (pdf) of A mathematical model for temporal cerebral blood flow response to acetazolamide evaluated in patients with Moyamoya disease
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NeuroMix-A single-scan brain exam
Part of Magnetic Resonance in Medicine, p. 2178-2193, 2022
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Part of Magnetic Resonance in Medicine, p. 1046-1061, 2022
All publications
Articles in journal
-
Unwrapping phase contrast MRI by iterative graph cuts
Part of Magnetic Resonance in Medicine, p. 1484-1495, 2024
- DOI for Unwrapping phase contrast MRI by iterative graph cuts
- Download full text (pdf) of Unwrapping phase contrast MRI by iterative graph cuts
-
Part of European Radiology Experimental, 2024
- DOI for Effect of MRI acquisition parameters on accuracy and precision of phase-contrast measurements in a small-lumen vessel phantom
- Download full text (pdf) of Effect of MRI acquisition parameters on accuracy and precision of phase-contrast measurements in a small-lumen vessel phantom
-
Part of Magnetic Resonance Imaging, p. 35-42, 2024
- DOI for A mathematical model for temporal cerebral blood flow response to acetazolamide evaluated in patients with Moyamoya disease
- Download full text (pdf) of A mathematical model for temporal cerebral blood flow response to acetazolamide evaluated in patients with Moyamoya disease
-
NeuroMix-A single-scan brain exam
Part of Magnetic Resonance in Medicine, p. 2178-2193, 2022
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Part of Magnetic Resonance in Medicine, p. 1046-1061, 2022
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Part of Magnetic Resonance in Medicine, p. 1427-1440, 2021
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T1 -FLAIR imaging during continuous head motion: Combining PROPELLER with an intelligent marker.
Part of Magnetic Resonance in Medicine, p. 868-882, 2021
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Chemical shift encoding using asymmetric readout waveforms.
Part of Magnetic Resonance in Medicine, p. 1468-1480, 2021
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Motion-insensitive susceptibility weighted imaging.
Part of Magnetic Resonance in Medicine, p. 1970-1982, 2021
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Optimizing 3D EPI for rapid T1 -weighted imaging.
Part of Magnetic Resonance in Medicine, p. 1441-1455, 2020
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Projection-based 3D/2D registration for prospective motion correction.
Part of Magnetic Resonance in Medicine, p. 1534-1542, 2020
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Fat/water separation in k-space with real-valued estimates and its combination with POCS.
Part of Magnetic Resonance in Medicine, p. 653-661, 2020
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RARE two-point Dixon with dual bandwidths.
Part of Magnetic Resonance in Medicine, p. 2456-2468, 2020
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Part of Clinical Radiology, p. 534-538, 2019
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T1 weighted fat/water separated PROPELLER acquired with dual bandwidths.
Part of Magnetic Resonance in Medicine, p. 2501-2513, 2018
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The effect of radiotherapy on fat content and fatty acids in myxoid liposarcomas quantified by MRI.
Part of Magnetic Resonance Imaging, p. 37-41, 2017
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Multi-scale graph-cut algorithm for efficient water-fat separation
Part of Magnetic Resonance in Medicine, p. 941-949, 2017
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Part of American Journal of Neuroradiology, p. 1023-9, 2016
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T2 * relaxation time in Achilles tendinosis and controls and its correlation with clinical score
Part of Journal of Magnetic Resonance Imaging, p. 1417-1422, 2016
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Canine body composition quantification using 3 tesla fat–water MRI
Part of Journal of Magnetic Resonance Imaging, p. 485-491, 2014
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Part of Journal of Medical Imaging, 2014
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Part of Medical physics, 2014
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Part of Obesity, 2013
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Bisphenol A exposure increases liver fat in juvenile fructose-fed Fischer 344 rats
Part of Toxicology, p. 125-132, 2013
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Part of Obesity, p. 765-774, 2013
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Part of American Journal of Clinical Nutrition, p. 1003-1012, 2012
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Part of Magnetic Resonance in Medicine, p. 1684-1693, 2012
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Part of Magnetic Resonance in Medicine, p. 1815-1827, 2012
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Two-point dixon method with flexible echo times
Part of Magnetic Resonance in Medicine, p. 994-1004, 2011
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Three-point Dixon method enables whole-body water and fat imaging of obese subjects
Part of Magnetic Resonance in Medicine, p. 1659-1668, 2010
Comprehensive doctoral thesis
Conference papers
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Signal Modeling and the Cramér-Rao Bound for Absolute Magnetic Resonance Thermometry in Fat Tissue
Part of Proc. 45th Asilomar Conference on Signals, Systems, and Computers, p. 80-84, 2011