Design and initial testing of a thermally insulated phantom system for MR thermometry based coil validation

Motivation: MR thermometry (MRT) based RF coil safety validation requires precise measurements with high sensitivity. Goal(s): To maximise MRT coil validation sensitivity by designing a bespoke phantom and phantom holder Approach: A phantom with embedded temperature probes and oil references for proton resonance frequency shift thermometry was designed, combined with a 3D printed holder that fills the space between the phantom and the coil. This both positions the phantom securely and thermally isolates it, maximizing sensitivity of MRT. Results: A high degree of thermal isolation was observed, with MRT experiments able to detect significant RF induced temperature changes. Impact: The thermally insulating 3D printed phantom holder is beneficial for MRT-based RF coil validation studies, enabling stable geometry and minimising environmental temperature loss for SAR estimation. The design can easily be adapted for other coil dimensions and probe positions.