Add to ORKGSodium imaging at ultrahigh fields encounters signal-to-noise ratio (SNR) limitations which pose new challenges. Six sequences have been implemented on a 9.4T whole-body scanner and phantom images have been acquired. Individual strengths and weaknesses in SNR, PSF and T2* weighting can be observed. Spiral sequences seem to match the requirements for fast sodium imaging at ultrahigh fields best
The motivation to perform magnetic resonance imaging (MRI) at ultra-high field strength (UHF) (B0 ≥ ...
Purpose Investigation of the feasibility to perform high-resolution quantitative sodium imaging at 9...
Purpose Investigation of the feasibility to perform high-resolution quantitative sodium imaging at ...
Sodium imaging at ultrahigh fields encounters signal-to-noise ratio (SNR) limitations which pose new...
Sodium is the second most abundant MR-active nucleus in the human body and is of fundamental importa...
Sodium is the second most abundant MR-active nucleus in the human body and is of fundamental importa...
Sodium is the second most abundant MR-active nucleus in the human body and is of fundamental importa...
Purpose/Introduction: Sodium imaging benefits greatly from the possibility to perform MRI at ultra-h...
Purpose/Introduction: Sodium imaging benefits greatly from the possibility to perform MRI at ultra-h...
Fast imaging sequences are commonly used for proton imaging because of their high acquisition effici...
Fast imaging sequences are commonly used for proton imaging because of their high acquisition effici...
Sodium imaging is challenging due to its inherently low signal-to-noise ratio. However, the sensitiv...
Monitoring the strongly regulated sodium content in vivo is of great interest for a variety of disea...
Monitoring the strongly regulated sodium content in vivo is of great interest for a variety of disea...
The motivation to perform magnetic resonance imaging (MRI) at ultra-high field strength (UHF) (B0 ≥ ...
The motivation to perform magnetic resonance imaging (MRI) at ultra-high field strength (UHF) (B0 ≥ ...
Purpose Investigation of the feasibility to perform high-resolution quantitative sodium imaging at 9...
Purpose Investigation of the feasibility to perform high-resolution quantitative sodium imaging at ...
Sodium imaging at ultrahigh fields encounters signal-to-noise ratio (SNR) limitations which pose new...
Sodium is the second most abundant MR-active nucleus in the human body and is of fundamental importa...
Sodium is the second most abundant MR-active nucleus in the human body and is of fundamental importa...
Sodium is the second most abundant MR-active nucleus in the human body and is of fundamental importa...
Purpose/Introduction: Sodium imaging benefits greatly from the possibility to perform MRI at ultra-h...
Purpose/Introduction: Sodium imaging benefits greatly from the possibility to perform MRI at ultra-h...
Fast imaging sequences are commonly used for proton imaging because of their high acquisition effici...
Fast imaging sequences are commonly used for proton imaging because of their high acquisition effici...
Sodium imaging is challenging due to its inherently low signal-to-noise ratio. However, the sensitiv...
Monitoring the strongly regulated sodium content in vivo is of great interest for a variety of disea...
Monitoring the strongly regulated sodium content in vivo is of great interest for a variety of disea...
The motivation to perform magnetic resonance imaging (MRI) at ultra-high field strength (UHF) (B0 ≥ ...
The motivation to perform magnetic resonance imaging (MRI) at ultra-high field strength (UHF) (B0 ≥ ...
Purpose Investigation of the feasibility to perform high-resolution quantitative sodium imaging at 9...
Purpose Investigation of the feasibility to perform high-resolution quantitative sodium imaging at ...