Add to ORKGPURPOSE: Quantitative MRI applications, such as mapping the T1 time of tissue, puts high demands on the accuracy and precision of transmit field ( B 1 + ) estimation. A candidate approach to satisfy these requirements exploits the difference in phase induced by the Bloch-Siegert frequency shift (BSS) of 2 acquisitions with opposite off-resonance frequency radiofrequency pulses. Interleaving these radiofrequency pulses ensures robustness to motion and scanner drifts; however, here we demonstrate that doing so also introduces a bias in the B 1 + estimates. THEORY AND METHODS: It is shown here by means of simulation and experiments that the amplitude of the error depends on MR pulse sequence parameters, such as repetition time and radiofrequen...
In designing pulses and algorithms for magnetic resonance imaging, several simplifications to the Bl...
Cataloged from PDF version of article.PurposeIn this study, a new simple Fourier domain-based analyt...
Quantitative mapping of the longitudinal relaxation rate (R1=1/T1) in the human brain enables the in...
Purpose: To address the systematic bias in whole-brain dual flip angle (DFA) T1-mapping at 7T by opt...
MRI techniques such as quantitative imaging and parallel transmit require precise knowledge of the r...
Knowledge of the transmission field (B-1(+)) of radio-frequency coils is crucial for high field (B-0...
In magnetic resonance imaging, precise measurements of longitudinal relaxation time (T1) is crucial ...
In magnetic resonance imaging, precise measurements of longitudinal relaxation time (T1) is crucial ...
Knowledge of the transmission field (B1(+)) of radio-frequency coils is crucial for high field (B0 ...
A challenge in MR imaging is that RF transmit coils produce non-uniform field strengths, so an excit...
In Susceptibility Mapping (SM) using multi-echo gradient-echo phase data, unwrapping and/or backgrou...
International audienceInterest in quantitative MRI and relaxometry imaging is rapidly increasing to ...
In magnetic resonance imaging, precise measurements of longitudinal relaxation time (T1) is crucial ...
Magnetic resonance images acquired at the highest strength of the main magnetic field B0 are of inte...
Purpose: In this study, a newsimple Fourier domain-based analytical expression for the Bloch-Siegert...
In designing pulses and algorithms for magnetic resonance imaging, several simplifications to the Bl...
Cataloged from PDF version of article.PurposeIn this study, a new simple Fourier domain-based analyt...
Quantitative mapping of the longitudinal relaxation rate (R1=1/T1) in the human brain enables the in...
Purpose: To address the systematic bias in whole-brain dual flip angle (DFA) T1-mapping at 7T by opt...
MRI techniques such as quantitative imaging and parallel transmit require precise knowledge of the r...
Knowledge of the transmission field (B-1(+)) of radio-frequency coils is crucial for high field (B-0...
In magnetic resonance imaging, precise measurements of longitudinal relaxation time (T1) is crucial ...
In magnetic resonance imaging, precise measurements of longitudinal relaxation time (T1) is crucial ...
Knowledge of the transmission field (B1(+)) of radio-frequency coils is crucial for high field (B0 ...
A challenge in MR imaging is that RF transmit coils produce non-uniform field strengths, so an excit...
In Susceptibility Mapping (SM) using multi-echo gradient-echo phase data, unwrapping and/or backgrou...
International audienceInterest in quantitative MRI and relaxometry imaging is rapidly increasing to ...
In magnetic resonance imaging, precise measurements of longitudinal relaxation time (T1) is crucial ...
Magnetic resonance images acquired at the highest strength of the main magnetic field B0 are of inte...
Purpose: In this study, a newsimple Fourier domain-based analytical expression for the Bloch-Siegert...
In designing pulses and algorithms for magnetic resonance imaging, several simplifications to the Bl...
Cataloged from PDF version of article.PurposeIn this study, a new simple Fourier domain-based analyt...
Quantitative mapping of the longitudinal relaxation rate (R1=1/T1) in the human brain enables the in...