Despite recent advances in acquisition techniques and reconstruction algorithms, magnetic resonance imaging (MRI) remains challenging in the presence of motion. To mitigate this, ultra-fast two-dimensional (2D) MRI sequences are often used in clinical practice to acquire thick, low-resolution (LR) 2D slices to reduce in-plane motion. The resulting stacks of thick 2D slices typically provide high-quality visualizations when viewed in the in-plane direction. However, the low spatial resolution in the through-plane direction in combination with motion commonly occurring between individual slice acquisitions gives rise to stacks with overall limited geometric integrity. In further consequence, an accurate and reliable diagnosis may be compromis...
© 2015 IEEE.In this paper several novel methods to account for fetal movements during fetal Magnetic...
Fetal magnetic resonance imaging is a complementary imaging method to antenatal ultrasound. It provi...
Diffusion magnetic resonance imaging (MRI) has been increasingly used in neuroscience studies, parti...
Capturing an enclosing volume of moving subjects and organs using fast individual image slice acquis...
Hospitals often hold historical MR image data printed on films without being able to make it accessi...
International audienceImaging moving subjects in early brain development studies remains an open iss...
Capturing an enclosing volume of moving subjects and organs using fast individual image slice acquis...
We propose a method for the reconstruction of volumetric fetal MRI from 2D slices, comprising super-...
We propose a method for the reconstruction of volumetric fetal MRI from 2D slices, comprising super-...
This paper aims to solve a fundamental problem in intensity- based 2D/3D registration, which concern...
This tool implements a novel method for the correction of motion artifacts as acquired in fetal Magn...
Limited capture range and the requirement to provide high quality initializations for optimization-b...
AbstractAn approach for obtaining both a high-resolution and high-contrast 3D MRI image volume, desi...
MR image acquisition of moving organs remains challenging despite the advances in ultra-fast 2D MRI ...
PURPOSE: To develop a rapid and motion-robust technique for volumetric MRI, which is based on cross-...
© 2015 IEEE.In this paper several novel methods to account for fetal movements during fetal Magnetic...
Fetal magnetic resonance imaging is a complementary imaging method to antenatal ultrasound. It provi...
Diffusion magnetic resonance imaging (MRI) has been increasingly used in neuroscience studies, parti...
Capturing an enclosing volume of moving subjects and organs using fast individual image slice acquis...
Hospitals often hold historical MR image data printed on films without being able to make it accessi...
International audienceImaging moving subjects in early brain development studies remains an open iss...
Capturing an enclosing volume of moving subjects and organs using fast individual image slice acquis...
We propose a method for the reconstruction of volumetric fetal MRI from 2D slices, comprising super-...
We propose a method for the reconstruction of volumetric fetal MRI from 2D slices, comprising super-...
This paper aims to solve a fundamental problem in intensity- based 2D/3D registration, which concern...
This tool implements a novel method for the correction of motion artifacts as acquired in fetal Magn...
Limited capture range and the requirement to provide high quality initializations for optimization-b...
AbstractAn approach for obtaining both a high-resolution and high-contrast 3D MRI image volume, desi...
MR image acquisition of moving organs remains challenging despite the advances in ultra-fast 2D MRI ...
PURPOSE: To develop a rapid and motion-robust technique for volumetric MRI, which is based on cross-...
© 2015 IEEE.In this paper several novel methods to account for fetal movements during fetal Magnetic...
Fetal magnetic resonance imaging is a complementary imaging method to antenatal ultrasound. It provi...
Diffusion magnetic resonance imaging (MRI) has been increasingly used in neuroscience studies, parti...