AbstractThe aim of the work is to increase the visual information in magnetic resonance imaging based susceptibility weighted images. Our approach is to amplify spatial frequency information of the phase mask used to increase susceptibility weighting using a modified version of the human contrast sensitivity function. Thereby, we propose a modified version of the human contrast sensitivity function for use in phase mask creation. Comparison with conventional susceptibility-weighted imaging was undertaken on a qualitative basis and quantitatively with a number of established image quality metrics on ex vivo mouse brain magnetic resonance images obtained at 16.4 T at various echo times. Four experts also compared the quality of in vivo 1.5 an...
Susceptibility weighted magnetic resonance imaging (SWI) seems to be a very promising method usable ...
Lien vers l'éditeur :http://online.medphys.org/mphya6/v37/i2 © 2010, American Association of Physici...
Phase images of the human brain acquired using gradient echo based Magnetic Resonance Imaging techni...
The aim of the work is to increase the visual information in magnetic resonance imaging based suscep...
AbstractThe aim of the work is to increase the visual information in magnetic resonance imaging base...
Purpose: To develop improved tissue masks for QSM. Methods: Masks including voxels at the brain surf...
Purpose: To significantly reduce the background phase effects, especially at the air–tissue interfac...
Susceptibility weighted imaging (SWI) provides a new means to enhance contrast in magnetic resonance...
Susceptibility weighted imaging benefits from ultra-high field in terms of increased contrast-to-noi...
Introduction: The phase of the MR-signal contains useful information about the local and temporal va...
The MRI signal, in terms of amplitude and phase, was simulated for susceptibility-based brain venogr...
Background Susceptibility-weighted imaging (SWI) is a relatively new magnetic resonance (MR) techni...
© 2013 Dr. Amanda Ching Lih NgFrom its beginnings in the 1970s, the medical imaging field of magneti...
To enhance susceptibility-related contrast of magnetic resonance images, the phase of susceptibility...
SUMMARY: Susceptibility-weighted imaging (SWI) is a new neuroimaging technique, which uses tissue ma...
Susceptibility weighted magnetic resonance imaging (SWI) seems to be a very promising method usable ...
Lien vers l'éditeur :http://online.medphys.org/mphya6/v37/i2 © 2010, American Association of Physici...
Phase images of the human brain acquired using gradient echo based Magnetic Resonance Imaging techni...
The aim of the work is to increase the visual information in magnetic resonance imaging based suscep...
AbstractThe aim of the work is to increase the visual information in magnetic resonance imaging base...
Purpose: To develop improved tissue masks for QSM. Methods: Masks including voxels at the brain surf...
Purpose: To significantly reduce the background phase effects, especially at the air–tissue interfac...
Susceptibility weighted imaging (SWI) provides a new means to enhance contrast in magnetic resonance...
Susceptibility weighted imaging benefits from ultra-high field in terms of increased contrast-to-noi...
Introduction: The phase of the MR-signal contains useful information about the local and temporal va...
The MRI signal, in terms of amplitude and phase, was simulated for susceptibility-based brain venogr...
Background Susceptibility-weighted imaging (SWI) is a relatively new magnetic resonance (MR) techni...
© 2013 Dr. Amanda Ching Lih NgFrom its beginnings in the 1970s, the medical imaging field of magneti...
To enhance susceptibility-related contrast of magnetic resonance images, the phase of susceptibility...
SUMMARY: Susceptibility-weighted imaging (SWI) is a new neuroimaging technique, which uses tissue ma...
Susceptibility weighted magnetic resonance imaging (SWI) seems to be a very promising method usable ...
Lien vers l'éditeur :http://online.medphys.org/mphya6/v37/i2 © 2010, American Association of Physici...
Phase images of the human brain acquired using gradient echo based Magnetic Resonance Imaging techni...