Contact information
+44 (0) 18656 11294
Research groups
Colleges
Wenchuan Wu
DPhil
Associate Professor
- Royal Academy of Engineering Research Fellow
- Junior Fellow, Wolfson College
My research focuses on the development of new magnetic resonance imaging (MRI) acquisition and reconstruction methods, with the goal of helping better understand the brain structure and function.
My current research program has several key themes:
- Novel strategies for acquiring in vivo diffusion MRI at submillimeter resolution
- Rapid mapping of brain connectivity and microstructure with joint k-q diffusion acceleration and reconstruction
- Computational methods to reduce image artefacts in diffusion and functional MRI
- Ultra-high field brain imaging
- Post-mortem MRI of unfixed human brain
Key publications
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High-resolution diffusion MRI at 7T using a three-dimensional multi-slab acquisition.
Wu W. et al, (2016), Neuroimage, 143, 1 - 14
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Reducing slab boundary artifacts in three-dimensional multislab diffusion MRI using nonlinear inversion for slab profile encoding (NPEN).
Wu W. et al, (2016), Magn Reson Med, 76, 1183 - 1195
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Sampling strategies and integrated reconstruction for reducing distortion and boundary slice aliasing in high‐resolution 3D diffusion MRI
Li Z. et al, (2023), Magnetic Resonance in Medicine
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Diffusion Acceleration with Gaussian process Estimated Reconstruction (DAGER).
Wu W. et al, (2019), Magn Reson Med, 82, 107 - 125
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A temperature-controlled cooling system for accurate quantitative post-mortem MRI.
Rieger SW. et al, (2023), Magn Reson Med, 90, 2643 - 2652
Recent publications
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Motion correction with subspace-based self-navigation for combined angiography, perfusion and structural imaging
Shen Q. et al, (2024)
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Ultra-high temporal resolution 4D angiography using arterial spin labeling with subspace reconstruction
Shen Q. et al, (2024)
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Efficient 3D cone trajectory design for improved combined angiographic and perfusion imaging using arterial spin labeling
Shen Q. et al, (2024)
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Accelerated multi-shell diffusion MRI with Gaussian process estimated reconstruction of multi-band imaging
Ye X. et al, (2024)
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A temperature-controlled cooling system for accurate quantitative post-mortem MRI.
Rieger SW. et al, (2023), Magn Reson Med, 90, 2643 - 2652
-
Sampling strategies and integrated reconstruction for reducing distortion and boundary slice aliasing in high‐resolution 3D diffusion MRI
Li Z. et al, (2023), Magnetic Resonance in Medicine