Analyzing the sensitivity of quantitative 3D MRI of longitudinal relaxation at very low field in Gd-doped phantoms

Abstract: Purpose Recently, new MRI systems working at magnetic field below 10 mT (Very and Ultra Low Field regime) have been developed, showing improved T1-contrast in projected 2D maps (i.e. images without slice selection). Moving from projected 2D to 3D maps is not trivial due to the low SNR of such devices. This work aimed to demonstrate the ability and the sensitivity of a VLF-MRI scanner operating at 8.9 mT in quantitatively obtaining 3D longitudinal relaxation rate (R1) maps and distinguishing between voxels inte… Show more

“…It is also noteworthy that there is growing interest in the MRI field in evaluating longitudinal relaxation times (and the effects of T1 agents) at low magnetic fields, which are below those used by conventional MRI scanners. [36,37] Investigating MRI signals at these lower magnetic fields can provide additional insights into water dynamics and interactions with macromolecules, marking it as a significant area of research. [38][39][40][41] In this study, we have developed and tested innovative magnetic particles as MRI contrast agents that effectively interact with bulk water in T1 and T2 modalities.…”

Magnetite Nanodiscs as Vortex-Enhanced MRI Contrast Agents: A Novel Approach in Medical Imaging

“…It is also noteworthy that there is growing interest in the MRI field in evaluating longitudinal relaxation times (and the effects of T1 agents) at low magnetic fields, which are below those used by conventional MRI scanners. [36,37] Investigating MRI signals at these lower magnetic fields can provide additional insights into water dynamics and interactions with macromolecules, marking it as a significant area of research. [38][39][40][41] In this study, we have developed and tested innovative magnetic particles as MRI contrast agents that effectively interact with bulk water in T1 and T2 modalities.…”

Magnetite Nanodiscs as Vortex-Enhanced MRI Contrast Agents: A Novel Approach in Medical Imaging