Litcius/Paper detail

Design, Characterisation and Performance of an Improved Portable and Sustainable Low-Field MRI System

Bart de Vos, Javad Parsa, Zaynab Abdulrazaq, Wouter M. Teeuwisse, C.D.E. Van Speybroeck, Danny H. de Gans, Rob Remis, Thomas O’Reilly, Andrew Webb

2021Frontiers in Physics27 citationsDOIOpen Access PDF

Abstract

Low-field permanent magnet-based MRI systems are finding increasing use in portable, sustainable and point-of-care applications. In order to maximize performance while minimizing cost many components of such a system should ideally be designed specifically for low frequency operation. In this paper we describe recent developments in constructing and characterising a low-field portable MRI system for in vivo imaging at 50 mT. These developments include the design of i) high-linearity gradient coils using a modified volume-based target field approach, ii) phased-array receive coils, and iii) a battery-operated three-axis gradient amplifier for improved portability and sustainability. In addition, we report performance characterisation of the RF amplifier, the gradient amplifier, eddy currents from the gradient coils, and describe a quality control protocol for the overall system.

Topics & Concepts

Software portabilityAmplifierMagnetComputer scienceEddy currentField (mathematics)Operational transconductance amplifierPhased arrayElectronic engineeringElectrical engineeringEngineeringOperational amplifierProgramming languagePure mathematicsAntenna (radio)CMOSMathematicsAdvanced MRI Techniques and ApplicationsAtomic and Subatomic Physics ResearchAdvanced NMR Techniques and Applications
Design, Characterisation and Performance of an Improved Portable and Sustainable Low-Field MRI System | Litcius