Add to ORKGIn the tendency towards high-field imaging, three-dimensional (3D) acquisition has potential advantages over its two-dimensional counterpart for functional MRI (fMRI). However, multi-slice 2D-EPI methods remain the conventional sequence in fMRI. Although various advanced 3D schemes have alternatively been applied, they come with individual limitations and are not widely available. The 3D-EPI sequence similarly presents temporal constraints, but holds the potential to be feasible by using the increased signal- and contrast-to-noise ratio of ultrahigh magnetic fields combined with the higher parallel imaging performance feasible at ultra-high fields. A hybrid 3D-EPI then offers the possibility for high 2D acceleration. This potential is explo...
Functional MRI studies on humans with BOLD contrast are increasingly performed at high static magnet...
Due to the availability of ultra-high field scanners and novel imaging methods, high resolution, who...
State-of-the-art simultaneous-multi-slice (SMS-)EPI and 3D-EPI share several properties that benefit...
In the tendency towards high-field imaging, three-dimensional (3D) acquisition has potential advanta...
Introduction: Fast, three-dimensional acquisition is advantageous for fMRI1. While advanced 3D metho...
Functional MRI (fMRI) most commonly employs 2D echo-planar imaging (EPI). The advantages for fMRI br...
Functional MRI (fMRI) most commonly employs 2D echo-planar imaging (EPI). The advantages for fMRI br...
Increasing acquisition speed is beneficial in fMRI since it increases statistical power and allows t...
Functional magnetic resonance imaging (fMRI) has provided neuroscientists with a powerful tool to no...
The spatio-temporal noise properties fundamentally influence the functional result in fMRI. Although...
The choice of a pulse sequence at ultra-high field can be influenced by a number of considerations a...
Three-dimensional segmented echo planar imaging (3D-EPI) is a promising approach for high-resolution...
The simultaneous multi-slice EPI (SMS-EPI, a.k.a. MB-EPI) sequence has met immense popularity recent...
Three-dimensional (3D) encoding methods are increasingly being explored as alternatives to two-dimen...
Functional MRI studies on humans with BOLD contrast are increasingly performed at high static magnet...
Due to the availability of ultra-high field scanners and novel imaging methods, high resolution, who...
State-of-the-art simultaneous-multi-slice (SMS-)EPI and 3D-EPI share several properties that benefit...
In the tendency towards high-field imaging, three-dimensional (3D) acquisition has potential advanta...
Introduction: Fast, three-dimensional acquisition is advantageous for fMRI1. While advanced 3D metho...
Functional MRI (fMRI) most commonly employs 2D echo-planar imaging (EPI). The advantages for fMRI br...
Functional MRI (fMRI) most commonly employs 2D echo-planar imaging (EPI). The advantages for fMRI br...
Increasing acquisition speed is beneficial in fMRI since it increases statistical power and allows t...
Functional magnetic resonance imaging (fMRI) has provided neuroscientists with a powerful tool to no...
The spatio-temporal noise properties fundamentally influence the functional result in fMRI. Although...
The choice of a pulse sequence at ultra-high field can be influenced by a number of considerations a...
Three-dimensional segmented echo planar imaging (3D-EPI) is a promising approach for high-resolution...
The simultaneous multi-slice EPI (SMS-EPI, a.k.a. MB-EPI) sequence has met immense popularity recent...
Three-dimensional (3D) encoding methods are increasingly being explored as alternatives to two-dimen...
Functional MRI studies on humans with BOLD contrast are increasingly performed at high static magnet...
Due to the availability of ultra-high field scanners and novel imaging methods, high resolution, who...
State-of-the-art simultaneous-multi-slice (SMS-)EPI and 3D-EPI share several properties that benefit...