Add to ORKGMonitoring the strongly regulated sodium content in vivo is of great interest for a variety of diseases. Imaging this nucleus is difficult due to its low concentration and fast relaxation. Using an ultra-high field scanner at 9.4 Tesla, a dedicated RF coils and the efficient Twisted Projection Imaging sequence, 2mm nominal isotropic sodium images of the human brain were acquired. Comparison with an MP-RAGE image shows the fine anatomical details, while a 4T comparison shows the great SNR improvement
Sodium imaging at ultrahigh fields encounters signal-to-noise ratio (SNR) limitations which pose new...
Sodium-based MRI plays a vital role in the study of metabolism and can unveil valuable information a...
Sodium imaging at ultrahigh fields encounters signal-to-noise ratio (SNR) limitations which pose new...
Monitoring the strongly regulated sodium content in vivo is of great interest for a variety of disea...
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 ...
Purpose Investigation of the feasibility to perform high-resolution quantitative sodium imaging at ...
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...
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 ≥ ...
Sodium imaging is challenging due to its inherently low signal-to-noise ratio. However, the sensitiv...
Sodium imaging at ultrahigh fields encounters signal-to-noise ratio (SNR) limitations which pose new...
Sodium-based MRI plays a vital role in the study of metabolism and can unveil valuable information a...
Sodium imaging at ultrahigh fields encounters signal-to-noise ratio (SNR) limitations which pose new...
Monitoring the strongly regulated sodium content in vivo is of great interest for a variety of disea...
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 ...
Purpose Investigation of the feasibility to perform high-resolution quantitative sodium imaging at ...
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...
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 ≥ ...
Sodium imaging is challenging due to its inherently low signal-to-noise ratio. However, the sensitiv...
Sodium imaging at ultrahigh fields encounters signal-to-noise ratio (SNR) limitations which pose new...
Sodium-based MRI plays a vital role in the study of metabolism and can unveil valuable information a...
Sodium imaging at ultrahigh fields encounters signal-to-noise ratio (SNR) limitations which pose new...