Density-Weighted Concentric Ring Trajectory using simultaneous multi-band acceleration: 3D Metabolite-cycled Magnetic Resonance Spectroscopy Imaging at 3T

Xia P, Chiew M, Zhou X, Thomas A, Dydak U, Emir UE. bioRxiv 2019; :628594 | doi:10.1101/628594

The Set Increment with Limited Views Encoding Ratio (SILVER) Method for Optimizing Radial Sampling of Dynamic MRI

Schauman SS, Okell TW, Chiew M. bioRxiv 2021; :2020.06.25.171017 | doi:10.1101/2020.06.25.171017 | code

Improving robustness of 3D multi-shot EPI by structured low-rank reconstruction of segmented CAIPI sampling for fMRI at 7T

Chen X, Wu W, Chiew M. bioRxiv 2021; :2021.08.19.457024 | doi:10.1101/2021.08.19.457024 | code

Myelin imaging using 3D dual-echo ultra-short echo time MRI with rosette k-space pattern

Shen X, Ozen A, Susnjar A, Ilbey S, Shi R, Chiew M, Emir U. bioRxiv 2021; :2021.09.18.460869 | doi:10.1101/2021.09.18.460869

Model-based dynamic off-resonance correction for improved accelerated fMRI in awake behaving non-human primates

Shahdloo M, Schüffelgen U, Papp D, Miller KL, Chiew M. bioRxiv 2021; :2021.09.23.461491 | doi:10.1101/2021.09.23.461491 | code


Uncertainty in denoising of MRSI using low-rank methods

Clarke WT, Chiew M. Magnetic Resonance in Medicine 2022; 87(2):574–588 | doi:10.1002/mrm.29018 - code

Subspace-constrained approaches to low-rank fMRI acceleration

Mason HT, Graedel NN, Miller KL, Chiew M. NeuroImage 2021; 238:118235 | doi:10.1016/j.neuroimage.2021.118235 - code

Accelerated calibrationless parallel transmit mapping using joint transmit and receive low-rank tensor completion

Hess AT, Dragonu I, Chiew M. Magnetic Resonance in Medicine 2021; 86(5):2454–2467 | doi:10.1002/mrm.28880 - code

Speech Movement Variability in People Who Stutter: A Vocal Tract Magnetic Resonance Imaging Study

Wiltshire CEE, Chiew M, Chesters J, Healy MP, Watkins KE. Journal of Speech, Language, and Hearing Research 2021; 64(7):2438–2452 | doi:10.1044/2021_JSLHR-20-00507

High-resolution metabolic mapping of the cerebellum using 2D zoom magnetic resonance spectroscopic imaging

Emir UE, Sood J, Chiew M, Thomas MA, Lane SP. Magnetic Resonance in Medicine 2021; 85(5):2349–2358 | doi:10.1002/mrm.28614


Methods for quantitative susceptibility and R2* mapping in whole post-mortem brains at 7T applied to amyotrophic lateral sclerosis

Wang C, Foxley S, Ansorge O, Bangerter-Christensen S, Chiew M, Leonte A, Menke RA, Mollink J, Pallebage-Gamarallage M, Turner MR, Miller KL, Tendler BC. NeuroImage 2020; 222:117216 | doi:10.1016/j.neuroimage.2020.117216

Highly accelerated vessel-selective arterial spin labeling angiography using sparsity and smoothness constraints

Schauman SS, Chiew M, Okell TW. Magnetic Resonance in Medicine 2020; 83(3):892–905 | doi:10.1002/mrm.27979 - code


Improved statistical efficiency of simultaneous multi-slice fMRI by reconstruction with spatially adaptive temporal smoothing

Chiew M, Miller KL. NeuroImage 2019; 203:116165 | doi:10.1016/j.neuroimage.2019.116165 - code

Volume-localized measurement of oxygen extraction fraction in the brain using MRI

O’Brien C, Okell TW, Chiew M, Jezzard P. Magnetic Resonance in Medicine 2019; 82(4):1412–1423 | doi:10.1002/mrm.27823


Metabolite-cycled density-weighted concentric rings k-space trajectory (DW-CRT) enables high-resolution 1 H magnetic resonance spectroscopic imaging at 3-Tesla

Steel A, Chiew M, Jezzard P, Voets NL, Plaha P, Thomas MA, Stagg CJ, Emir UE. Scientific Reports 2018; 8(1):7792 | doi:10.1038/s41598-018-26096-y

Recovering task fMRI signals from highly under-sampled data with low-rank and temporal subspace constraints.

Chiew M, Graedel NN, Miller KL. NeuroImage 2018; 174:97–110 | doi:10.1016/j.neuroimage.2018.02.062 - code

Density-weighted concentric rings k-space trajectory for 1H magnetic resonance spectroscopic imaging at 7T.

Chiew M, Jiang W, Burns B, Larson P, Steel A, Jezzard P, Albert Thomas M, Emir UE. NMR in biomedicine 2018; 31(1):e3838 | doi:10.1002/nbm.3838


PEAR: PEriodic And fixed Rank separation for fast fMRI.

Weizman L, Miller KL, Eldar YC, Chiew M. Medical physics 2017; 44(12):6166–6182 | doi:10.1002/mp.12599

Non-water-suppressed short-echo-time magnetic resonance spectroscopic imaging using a concentric ring k-space trajectory

Emir UE, Burns B, Chiew M, Jezzard P, Thomas MA. NMR in Biomedicine 2017; 30(7):e3714 | doi:10.1002/nbm.3714

Motion correction for functional MRI with three-dimensional hybrid radial-Cartesian EPI.

Graedel NN, Mcnab JA, Chiew M, Miller KL. Magnetic resonance in medicine 2017; 78(2):527–540 | doi:10.1002/mrm.26390


Accelerating functional MRI using fixed-rank approximations and radial-cartesian sampling.

Chiew M, Graedel NN, Mcnab JA, Smith SM, Miller KL. Magnetic resonance in medicine 2016; 76(6):1825–1836 | doi:10.1002/mrm.26079 - code


K-t FASTER: Acceleration of functional MRI data acquisition using low rank constraints.

Chiew M, Smith SM, Koopmans PJ, Graedel NN, Blumensath T, Miller KL. Magnetic resonance in medicine 2015; 74(2):353–364 | doi:10.1002/mrm.25395 - code


The relationship between delay period eye movements and visuospatial memory

Olsen RK, Chiew M, Buchsbaum BR, Ryan JD. Journal of Vision 2014; 14(1):1–11 | doi:10.1167/14.1.8


Constrained source space imaging: Application to fast, region-based functional MRI.

Chiew M, Graham SJ. Magnetic resonance in medicine 2013; 70(4):1058–1069 | doi:10.1002/mrm.24557

Real-time correction by optical tracking with integrated geometric distortion correction for reducing motion artifacts in functional MRI

Rotenberg D, Chiew M, Ranieri S, Tam F, Chopra R, Graham SJ. Magnetic Resonance in Medicine 2013; 69(3):734–748 | doi:10.1002/mrm.24309


Investigation of fMRI neurofeedback of differential primary motor cortex activity using kinesthetic motor imagery

Chiew M, LaConte SM, Graham SJ. NeuroImage 2012; 61(1):21–31 | doi:10.1016/j.neuroimage.2012.02.053


BOLD Contrast and Noise Characteristics of Densely Sampled Multi-Echo fMRI Data.

Chiew M, Graham SJ. IEEE transactions on medical imaging 2011; 30(9):1691–1703 | doi:10.1109/TMI.2011.2143424

Spin-history artifact during functional MRI: Potential for adaptive correction.

Yancey SE, Rotenberg DJ, Tam F, Chiew M, Ranieri S, Biswas L, Anderson KJT, Baker SN, Wright GA, Graham SJ. Medical physics 2011; 38(8):4634–4646 | doi:10.1118/1.3583814

Multiecho coarse voxel acquisition for neurofeedback fMRI.

Kuo AY-C, Chiew M, Tam F, Cunningham C, Graham SJ. Magnetic resonance in medicine 2011; 65(3):715–724 | doi:10.1002/mrm.22674