Add to ORKGIn this study we use relaxometry and susceptibility mapping to obtain enhanced contrast in the midbrain, in particular in the superior colliculus (SC). High resolution GRE images were obtained in 11 subjects at 9.4T. We calculated CNR values for each contrast for three midbrain regions (superior colliculus,red nucleus and aqueductal gray). were were obtained across 11 subjects in individual and MNI space. These measurement were validated with ex-vivo measurements in the 9.4T, 14.1T and PLI imaging
Magnetic resonance imaging (MRI) is now an essential tool in the field of neuroscience involving non...
Effective functional imaging of the human Superior Colliculus (SC) has often been regarded as diffic...
Research on rodents and non-human primates has established the involvement of the superior colliculu...
In this study we use relaxometry and susceptibility mapping to obtain enhanced contrast in the midbr...
We explored anatomical details of the superior colliculus (SC) by in vivo magnetic resonance imaging...
Purpose/Introduction: The Superior Colliculus is a paired layered structure that regulates eye and h...
The superior colliculus (SC) is a layered structure located in the midbrain. We exploited the improv...
* mapping of the lower midbrain.* maps were also acquired. The regions of interest (substantia nigra...
We investigated the possibility to observe the anatomical details of the superior colliculus (SC), a...
Layer specific MR properties have previously been observed in the superior colliculus in vivo at 9.4...
Purpose/Introduction: The superior colliculus (SC) consists of 7 layers. The most superficial layers...
The SC is composed of 7 layers where the most superficial layers process visual information. The int...
This article provides an overview of in vivo magnetic resonance (MR) imaging contrasts obtained for ...
The human brainstem, which comprises a multitude of axonal nerve fibers and nuclei, plays an importa...
Localising activity in the human midbrain with conventional functional MRI (fMRI) is challenging bec...
Magnetic resonance imaging (MRI) is now an essential tool in the field of neuroscience involving non...
Effective functional imaging of the human Superior Colliculus (SC) has often been regarded as diffic...
Research on rodents and non-human primates has established the involvement of the superior colliculu...
In this study we use relaxometry and susceptibility mapping to obtain enhanced contrast in the midbr...
We explored anatomical details of the superior colliculus (SC) by in vivo magnetic resonance imaging...
Purpose/Introduction: The Superior Colliculus is a paired layered structure that regulates eye and h...
The superior colliculus (SC) is a layered structure located in the midbrain. We exploited the improv...
* mapping of the lower midbrain.* maps were also acquired. The regions of interest (substantia nigra...
We investigated the possibility to observe the anatomical details of the superior colliculus (SC), a...
Layer specific MR properties have previously been observed in the superior colliculus in vivo at 9.4...
Purpose/Introduction: The superior colliculus (SC) consists of 7 layers. The most superficial layers...
The SC is composed of 7 layers where the most superficial layers process visual information. The int...
This article provides an overview of in vivo magnetic resonance (MR) imaging contrasts obtained for ...
The human brainstem, which comprises a multitude of axonal nerve fibers and nuclei, plays an importa...
Localising activity in the human midbrain with conventional functional MRI (fMRI) is challenging bec...
Magnetic resonance imaging (MRI) is now an essential tool in the field of neuroscience involving non...
Effective functional imaging of the human Superior Colliculus (SC) has often been regarded as diffic...
Research on rodents and non-human primates has established the involvement of the superior colliculu...