Positive contrast visualization of nitinol devices using susceptibility gradient mapping

Evert Jan P.A. Vonken; Michael Schär; Matthias Stuber

doi:10.1002/mrm.21688

Positive contrast visualization of nitinol devices using susceptibility gradient mapping

Evert Jan P.A. Vonken, Michael Schär, Matthias Stuber

School of Medicine

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

MRI visualization of devices is traditionally based on signal loss due to T₂* effects originating from local susceptibility differences. To visualize nitinol devices with positive contrast, a recently introduced postprocessing method is adapted to map the induced susceptibility gradients. This method operates on regular gradient-echo MR images and maps the shift in k-space in a (small) neighborhood of every voxel by Fourier analysis followed by a center-of-mass calculation. The quantitative map of the local shifts generates the positive contrast image of the devices, while areas without susceptibility gradients render a background with noise only. The positive signal response of this method depends only on the choice of the voxel neighborhood size. The properties of the method are explained and the visualizations of a nitinol wire and two stents are shown for illustration.

Original language	English (US)
Pages (from-to)	588-594
Number of pages	7
Journal	Magnetic resonance in medicine
Volume	60
Issue number	3
DOIs	https://doi.org/10.1002/mrm.21688
State	Published - Sep 2008

Keywords

Device
Positive contrast
Post-processing
Susceptibility
Visualization

ASJC Scopus subject areas

Radiology Nuclear Medicine and imaging

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10.1002/mrm.21688

Cite this

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title = "Positive contrast visualization of nitinol devices using susceptibility gradient mapping",

abstract = "MRI visualization of devices is traditionally based on signal loss due to T2* effects originating from local susceptibility differences. To visualize nitinol devices with positive contrast, a recently introduced postprocessing method is adapted to map the induced susceptibility gradients. This method operates on regular gradient-echo MR images and maps the shift in k-space in a (small) neighborhood of every voxel by Fourier analysis followed by a center-of-mass calculation. The quantitative map of the local shifts generates the positive contrast image of the devices, while areas without susceptibility gradients render a background with noise only. The positive signal response of this method depends only on the choice of the voxel neighborhood size. The properties of the method are explained and the visualizations of a nitinol wire and two stents are shown for illustration.",

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T1 - Positive contrast visualization of nitinol devices using susceptibility gradient mapping

AU - Vonken, Evert Jan P.A.

AU - Schär, Michael

AU - Stuber, Matthias

PY - 2008/9

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N2 - MRI visualization of devices is traditionally based on signal loss due to T2* effects originating from local susceptibility differences. To visualize nitinol devices with positive contrast, a recently introduced postprocessing method is adapted to map the induced susceptibility gradients. This method operates on regular gradient-echo MR images and maps the shift in k-space in a (small) neighborhood of every voxel by Fourier analysis followed by a center-of-mass calculation. The quantitative map of the local shifts generates the positive contrast image of the devices, while areas without susceptibility gradients render a background with noise only. The positive signal response of this method depends only on the choice of the voxel neighborhood size. The properties of the method are explained and the visualizations of a nitinol wire and two stents are shown for illustration.

AB - MRI visualization of devices is traditionally based on signal loss due to T2* effects originating from local susceptibility differences. To visualize nitinol devices with positive contrast, a recently introduced postprocessing method is adapted to map the induced susceptibility gradients. This method operates on regular gradient-echo MR images and maps the shift in k-space in a (small) neighborhood of every voxel by Fourier analysis followed by a center-of-mass calculation. The quantitative map of the local shifts generates the positive contrast image of the devices, while areas without susceptibility gradients render a background with noise only. The positive signal response of this method depends only on the choice of the voxel neighborhood size. The properties of the method are explained and the visualizations of a nitinol wire and two stents are shown for illustration.

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KW - Positive contrast

KW - Post-processing

KW - Susceptibility

KW - Visualization

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Positive contrast visualization of nitinol devices using susceptibility gradient mapping

Abstract

Keywords

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