Your search keyword '"Versluis, Maarten J."' showing total 9 results

1. Time‐encoded golden angle radial arterial spin labeling: Simultaneous acquisition of angiography and perfusion data

Author

Plas, Merlijn C. E., primary, Schmid, Sophie, additional, Versluis, Maarten J., additional, Okell, Thomas W., additional, and Osch, Matthias J. P., additional

Published

2021

2. Diffusion-prepared stimulated-echo turbo spin echo (DPsti-TSE): An eddy current-insensitive sequence for three-dimensional high-resolution and undistorted diffusion-weighted imaging

Author

Zhang, Qinwei, primary, Coolen, Bram F., additional, Versluis, Maarten J., additional, Strijkers, Gustav J., additional, and Nederveen, Aart J., additional

Published

2017

3. Time-efficient interleaved human23Na and1H data acquisition at 7 T

Author

de Bruin, Paul W., primary, Koken, Peter, additional, Versluis, Maarten J., additional, Aussenhofer, Sebastian A., additional, Meulenbelt, Ingrid, additional, Börnert, Peter, additional, and Webb, Andrew G., additional

Published

2015

4. Cortical phase changes measured using 7‐T MRI in subjects with subjective cognitive impairment, and their association with cognitive function

Author

van Rooden, Sanneke, primary, Buijs, Mathijs, additional, van Vliet, Marjolein E., additional, Versluis, Maarten J., additional, Webb, Andrew G., additional, Oleksik, Ania M., additional, van de Wiel, Lotte, additional, Middelkoop, Huub A. M., additional, Blauw, Gerard Jan, additional, Weverling‐Rynsburger, Annelies W. E., additional, Goos, Jeroen D. C., additional, van der Flier, Wiesje M., additional, Koene, Ted, additional, Scheltens, Philip, additional, Barkhof, Frederik, additional, van de Rest, Ondine, additional, Slagboom, P. Eline, additional, van Buchem, Mark A., additional, and van der Grond, Jeroen, additional

Published

2014

5. Cortical phase changes measured using 7-T MRI in subjects with subjective cognitive impairment, and their association with cognitive function.

Author

Rooden, Sanneke, Buijs, Mathijs, Vliet, Marjolein E., Versluis, Maarten J., Webb, Andrew G., Oleksik, Ania M., Wiel, Lotte, Middelkoop, Huub A. M., Blauw, Gerard Jan, Weverling‐Rynsburger, Annelies W. E., Goos, Jeroen D. C., Flier, Wiesje M., Koene, Ted, Scheltens, Philip, Barkhof, Frederik, Rest, Ondine, Slagboom, P. Eline, Buchem, Mark A., and Grond, Jeroen

Abstract

Studies have suggested that, in subjects with subjective cognitive impairment (SCI), Alzheimer's disease (AD)-like changes may occur in the brain. Recently, an in vivo study has indicated the potential of ultra-high-field MRI to visualize amyloid-beta (Aβ)-associated changes in the cortex in patients with AD, manifested by a phase shift on T2*-weighted MRI scans. The main aim of this study was to investigate whether cortical phase shifts on T2*-weighted images at 7 T in subjects with SCI can be detected, possibly implicating the deposition of Aβ plaques and associated iron. Cognitive tests and T2*-weighted scans using a 7-T MRI system were performed in 28 patients with AD, 18 subjects with SCI and 27 healthy controls (HCs). Cortical phase shifts were measured. Univariate general linear modeling and linear regression analysis were used to assess the association between diagnosis and cortical phase shift, and between cortical phase shift and the different neuropsychological tests, adjusted for age and gender. The phase shift (mean, 1.19; range, 1.00-1.35) of the entire cortex in AD was higher than in both SCI (mean, 0.85; range, 0.73-0.99; p < 0.001) and HC (mean, 0.94; range, 0.79-1.10; p < 0.001). No AD-like changes, e.g. increased cortical phase shifts, were found in subjects with SCI compared with HCs. In SCI, a significant association was found between memory function (Wechsler Memory Scale, WMS) and cortical phase shift ( β = -0.544, p = 0.007). The major finding of this study is that, in subjects with SCI, an increased cortical phase shift measured at high field is associated with a poorer memory performance, although, as a group, subjects with SCI do not show an increased phase shift compared with HCs. This increased cortical phase shift related to memory performance may contribute to the understanding of SCI as it is still unclear whether SCI is a sign of pre-clinical AD. Copyright © 2014 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2016

6. Time-efficient interleaved human 23Na and 1H data acquisition at 7 T.

Author

Bruin, Paul W., Koken, Peter, Versluis, Maarten J., Aussenhofer, Sebastian A., Meulenbelt, Ingrid, Börnert, Peter, and Webb, Andrew G.

Abstract

The aim of this study was to implement and evaluate a flexible and time-efficient interleaved imaging approach for the acquisition of proton and sodium images of the human knee at 7 T within a clinically relevant timescale. A flexible software framework was established which allowed the interleaving of multiple, different, fully specific absorption ratio (SAR)-validated scans. The system was able to switch between these different scans at flexible time points. The practical example presented consists of interleaved proton (Dixon imaging and T2* mapping) and sodium (mapping the sodium content and fluid-suppressed component separately) sequences with the key idea to perform proton MRI whilst the sodium nuclei relax towards thermal equilibrium, and vice versa. Comparisons were made between these four scans being acquired sequentially in the normal mode of scanner operation and those acquired in an interleaved fashion. Images acquired in the interleaved mode were very similar to those acquired in sequential scans with no image artifacts produced by the slight intra-sequence variation in steady-state magnetization. A reduction in scanning time of almost a factor of two was established using the interleaved scans, allowing such a protocol to be completed within 30 min. Phantom experiments and in vivo scans performed in healthy volunteers and in one patient proved the basic feasibility of this approach. This approach for the interleaving of multiple proton and sodium scans, each with different contrasts, is an efficient method for the design of new practical clinical protocols for sodium MRI. Copyright © 2015 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2015

7. Time-encoded golden angle radial arterial spin labeling: Simultaneous acquisition of angiography and perfusion data.

Author

van der Plas MCE, Schmid S, Versluis MJ, Okell TW, and van Osch MJP

Subjects

Adult, Computer Simulation, Databases as Topic, Female, Humans, Male, Signal Processing, Computer-Assisted, Signal-To-Noise Ratio, Time Factors, Young Adult, Angiography, Perfusion, Spin Labels

Abstract

The objective of the current study was to combine a time-encoded pseudocontinuous arterial spin labeling (te-pCASL) scheme with a golden angle radial readout for simultaneous acquisition of angiography and perfusion images from one single dataset, both in a highly flexible single-slice approach as well as within a multislice setting. A te-pCASL preparation and the golden angle radial readout were both used as a temporal resolution tool to retrospectively choose the temporal window for the reconstruction of both angiography and perfusion images from a single-slice dataset. The temporal window could be chosen retrospectively and adjusted to the hemodynamics of the volunteer on the scanner for the single-slice dataset. Angiographic images were reconstructed at a minimum temporal resolution of 69 ms. For the perfusion phase, only the densely sampled center of k-space was included in the reconstruction. For a multislice acquisition, the golden angle radial readout allowed reconstruction of images with different spatial resolutions to provide angiographic and perfusion information over 10 slices. The te-pCASL preparation was used as the only source for dynamic information. The multislice acquisition shows the ability of the golden angle radial readout to display the inflow of the labeled blood into the arteries as well as the perfusion in the tissue with full brain coverage. By combining a te-pCASL preparation with a golden angle radial readout, single-slice high temporal resolution angiography and good quality perfusion images were reconstructed in a flexible manner from a single dataset. Optimizing the golden angle radial readout for reconstructions at multiple spatial resolutions allows for multislice acquisition., (© 2021 The Authors. NMR in Biomedicine published by John Wiley & Sons Ltd.)

Published

2021

8. Cortical phase changes measured using 7-T MRI in subjects with subjective cognitive impairment, and their association with cognitive function.

Author

van Rooden S, Buijs M, van Vliet ME, Versluis MJ, Webb AG, Oleksik AM, van de Wiel L, Middelkoop HA, Blauw GJ, Weverling-Rynsburger AW, Goos JD, van der Flier WM, Koene T, Scheltens P, Barkhof F, van de Rest O, Slagboom PE, van Buchem MA, and van der Grond J

Subjects

Aged, Aged, 80 and over, Alzheimer Disease diagnostic imaging, Cognitive Dysfunction diagnostic imaging, Female, Humans, Image Enhancement methods, Image Interpretation, Computer-Assisted methods, Male, Middle Aged, Neuropsychological Tests, Reproducibility of Results, Sensitivity and Specificity, Alzheimer Disease pathology, Alzheimer Disease physiopathology, Cognition, Cognitive Dysfunction pathology, Cognitive Dysfunction physiopathology, Magnetic Resonance Imaging methods

Abstract

Studies have suggested that, in subjects with subjective cognitive impairment (SCI), Alzheimer's disease (AD)-like changes may occur in the brain. Recently, an in vivo study has indicated the potential of ultra-high-field MRI to visualize amyloid-beta (Aβ)-associated changes in the cortex in patients with AD, manifested by a phase shift on T2 *-weighted MRI scans. The main aim of this study was to investigate whether cortical phase shifts on T2 *-weighted images at 7 T in subjects with SCI can be detected, possibly implicating the deposition of Aβ plaques and associated iron. Cognitive tests and T2 *-weighted scans using a 7-T MRI system were performed in 28 patients with AD, 18 subjects with SCI and 27 healthy controls (HCs). Cortical phase shifts were measured. Univariate general linear modeling and linear regression analysis were used to assess the association between diagnosis and cortical phase shift, and between cortical phase shift and the different neuropsychological tests, adjusted for age and gender. The phase shift (mean, 1.19; range, 1.00-1.35) of the entire cortex in AD was higher than in both SCI (mean, 0.85; range, 0.73-0.99; p < 0.001) and HC (mean, 0.94; range, 0.79-1.10; p < 0.001). No AD-like changes, e.g. increased cortical phase shifts, were found in subjects with SCI compared with HCs. In SCI, a significant association was found between memory function (Wechsler Memory Scale, WMS) and cortical phase shift (β = -0.544, p = 0.007). The major finding of this study is that, in subjects with SCI, an increased cortical phase shift measured at high field is associated with a poorer memory performance, although, as a group, subjects with SCI do not show an increased phase shift compared with HCs. This increased cortical phase shift related to memory performance may contribute to the understanding of SCI as it is still unclear whether SCI is a sign of pre-clinical AD. Copyright © 2014 John Wiley & Sons, Ltd., (Copyright © 2014 John Wiley & Sons, Ltd.)

Published

2016

9. Time-efficient interleaved human (23)Na and (1)H data acquisition at 7 T.

Author

de Bruin PW, Koken P, Versluis MJ, Aussenhofer SA, Meulenbelt I, Börnert P, and Webb AG

Subjects

Feasibility Studies, Female, Humans, Male, Osteoarthritis metabolism, Osteoarthritis pathology, Phantoms, Imaging, Proton Magnetic Resonance Spectroscopy instrumentation, Protons, Sodium Isotopes, Software, Time Factors, Image Enhancement methods, Knee anatomy & histology, Proton Magnetic Resonance Spectroscopy methods

Abstract

The aim of this study was to implement and evaluate a flexible and time-efficient interleaved imaging approach for the acquisition of proton and sodium images of the human knee at 7 T within a clinically relevant timescale. A flexible software framework was established which allowed the interleaving of multiple, different, fully specific absorption ratio (SAR)-validated scans. The system was able to switch between these different scans at flexible time points. The practical example presented consists of interleaved proton (Dixon imaging and T2* mapping) and sodium (mapping the sodium content and fluid-suppressed component separately) sequences with the key idea to perform proton MRI whilst the sodium nuclei relax towards thermal equilibrium, and vice versa. Comparisons were made between these four scans being acquired sequentially in the normal mode of scanner operation and those acquired in an interleaved fashion. Images acquired in the interleaved mode were very similar to those acquired in sequential scans with no image artifacts produced by the slight intra-sequence variation in steady-state magnetization. A reduction in scanning time of almost a factor of two was established using the interleaved scans, allowing such a protocol to be completed within 30 min. Phantom experiments and in vivo scans performed in healthy volunteers and in one patient proved the basic feasibility of this approach. This approach for the interleaving of multiple proton and sodium scans, each with different contrasts, is an efficient method for the design of new practical clinical protocols for sodium MRI., (Copyright © 2015 John Wiley & Sons, Ltd.)

Published

2015