[HTML][HTML] Recent technical developments and clinical research applications of sodium (23Na) MRI
Sodium is an essential ion that plays a central role in many physiological processes
including the transmembrane electrochemical gradient and the maintenance of the body's …
including the transmembrane electrochemical gradient and the maintenance of the body's …
Systematic review of reconstruction techniques for accelerated quantitative MRI
Purpose To systematically review the techniques that address undersampling artifacts in
accelerated quantitative magnetic resonance imaging (qMRI). Methods A literature search …
accelerated quantitative magnetic resonance imaging (qMRI). Methods A literature search …
[HTML][HTML] MRI of potassium and sodium enables comprehensive analysis of ion perturbations in skeletal muscle tissue after eccentric exercise
Objectives The aims were to investigate if potassium (39 K) magnetic resonance imaging
(MRI) can be used to analyze changes in the apparent tissue potassium concentration …
(MRI) can be used to analyze changes in the apparent tissue potassium concentration …
Repeatability assessment of sodium (23Na) MRI at 7.0 T in healthy human calf muscle and preliminary results on tissue sodium concentrations in subjects with …
O Zaric, H Beiglböck, V Janacova… - BMC Musculoskeletal …, 2022 - Springer
Objectives To determine the relaxation times of the sodium nucleus, and to investigate the
repeatability of quantitative, in viv o TSC measurements using sodium magnetic resonance …
repeatability of quantitative, in viv o TSC measurements using sodium magnetic resonance …
Assessing muscle‐specific potassium concentrations in human lower leg using potassium magnetic resonance imaging
Noninvasively assessing tissue potassium concentrations (TPCs) using potassium magnetic
resonance imaging (39K MRI) could give valuable information on physiological processes …
resonance imaging (39K MRI) could give valuable information on physiological processes …
2D sodium MRI of the human calf using half‐sinc excitation pulses and compressed sensing
RR Baker, V Muthurangu, M Rega… - Magnetic …, 2024 - Wiley Online Library
Purpose Sodium MRI can be used to quantify tissue sodium concentration (TSC) in vivo;
however, UTE sequences are required to capture the rapidly decaying signal. 2D MRI …
however, UTE sequences are required to capture the rapidly decaying signal. 2D MRI …
Compressed sensing in sodium magnetic resonance imaging: techniques, applications, and future prospects
Q Chen, NJ Shah, WA Worthoff - Journal of magnetic …, 2022 - Wiley Online Library
Sodium (23Na) yields the second strongest nuclear magnetic resonance (NMR) signal in
biological tissues and plays a vital role in cell physiology. Sodium magnetic resonance …
biological tissues and plays a vital role in cell physiology. Sodium magnetic resonance …
[HTML][HTML] Accelerated multiple-quantum-filtered sodium magnetic resonance imaging using compressed sensing at 7 T
Q Chen, WA Worthoff, NJ Shah - Magnetic Resonance Imaging, 2024 - Elsevier
Purpose Multiple-quantum-filtered (MQF) sodium magnetic resonance imaging (MRI), such
as enhanced single-quantum and triple-quantum-filtered imaging of 23 Na (eSISTINA) …
as enhanced single-quantum and triple-quantum-filtered imaging of 23 Na (eSISTINA) …
Multi pilot: Feasible learned multiple acquisition trajectories for dynamic mri
T Shor, T Weiss, D Noti, AM Bronstein - Medical Imaging with Deep …, 2023 - openreview.net
Dynamic Magnetic Resonance Imaging (MRI) is known to be a powerful and reliable
technique for the dynamic imaging of internal organs and tissues, making it a leading …
technique for the dynamic imaging of internal organs and tissues, making it a leading …
TEAM PILOT--Learned Feasible Extendable Set of Dynamic MRI Acquisition Trajectories
Dynamic Magnetic Resonance Imaging (MRI) is a crucial non-invasive method used to
capture the movement of internal organs and tissues, making it a key tool for medical …
capture the movement of internal organs and tissues, making it a key tool for medical …