Keywords: Quantitative Imaging, Quantitative Imaging
Motivation: Eliminate the need for B0 gradients and improve the efficiency of quantitative imaging.
Goal(s): To develop an advanced approach for gradient-free quantitative imaging called Quadratic RF Phase Selective Encoding through Nutation and Fingerprinting (qRF-SENF).
Approach: Design an improved sequence for qRF-SENF that increases sensitivities to off-resonance and relaxation parameters. Validate the advanced approach with a 1D experiment. Evaluate the SNR efficiency of the approach in simulation.
Results: Successfully validated an improved sequence for qRF-SENF with a 1D experiment that differentiates between two materials. Simulations of SNR efficiency show the advanced approach has sufficient SNR for current and future experiments.
Impact: Selective Encoding through Nutation and Fingerprinting (SENF) is a gradient-free quantitative imaging technique that simultaneously encodes spatial and quantitative information with the potential to be implemented on low-cost MRI scanners with flexible magnet design and acquisition strategies.
How to access this content:
For one year after publication, abstracts and videos are only open to registrants of this annual meeting. Registrants should use their existing login information. Non-registrant access can be purchased via the ISMRM E-Library.
After one year, current ISMRM & ISMRT members get free access to both the abstracts and videos. Non-members and non-registrants must purchase access via the ISMRM E-Library.
After two years, the meeting proceedings (abstracts) are opened to the public and require no login information. Videos remain behind password for access by members, registrants and E-Library customers.
Keywords