An industrial design solution for integrating NMR magnetic field sensors into an MRI scanner

摘要

Purpose Neuroimaging research relies on the skills of increasingly multidisciplinary individuals and often requires the installation and use of additional home‐built or third‐party equipment. The purpose of the present work was the safe, ergonomic, durable, and aesthetically pleasing installation of magnetic field monitoring equipment into a scanner, while keeping the setup compatible with standard operating procedures. Methods An extensive set of steps was required to design a 3D printed solution to install a magnetic field camera into the eight‐channel head coil of a 3T MRI scanner. First, the outer surface of the plastic coil housing was recreated into a 3D model, and the installation of the magnetic field sensors around this 3D model was performed in a virtual environment. The 3D printed solution was then assembled and tested for safety, reproducible performance, and image quality. Results The 3D printed solution holds the probes in stable positions and guides the necessary cables in an organized fashion and away from the volunteer. Assembly is easy and the solution is ergonomic, durable, and safe. We did not find excessive heating in the 3D printed parts, nor in the electronics, that they help to incorporate. The material used interferes minimally with transmit B 1 + field. Conclusion The design met all of the boundary conditions for a durable, safe, cost‐effective, attractive, and functional installation. This work will provide the basis for installing the magnetic field sensors into other available head coils, and for designing the experimental setup for projects with varying experimental requirements. Magn Reson Med 80:833–839, 2018. ? 2017 International Society for Magnetic Resonance in Medicine.