Journal
MAGNETIC RESONANCE IN MEDICINE
Volume 87, Issue 5, Pages 2512-2520Publisher
WILEY
DOI: 10.1002/mrm.29118
Keywords
gradient switching fields; magnetic fields; magnetophosphenes; peripheral nerve stimulation; ultra-strong gradient system
Funding
- Nederlandse Organisatie voor Wetenschappelijk Onderzoek [17331]
- Engineering and Physical Sciences Research Council [EP/M029778/1]
- Wellcome Trust [096646/Z/11/Z, 104943/Z/14/Z, 215944/Z/19/Z]
- Wellcome Trust [215944/Z/19/Z] Funding Source: Wellcome Trust
- EPSRC [EP/M029778/1] Funding Source: UKRI
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The study investigates the occurrence of magnetophosphenes and peripheral nerve stimulation during scanning participants on a high-gradient (300 mT/m) MRI system, finding that these effects are strongly dependent on participant position in the scanner and the gradient axis. It provides empirical guidance for the use of high-performance gradient systems for whole-body human MRI imaging.
Purpose The use of high-performance gradient systems (i.e., high gradient strength and/or high slew rate) for human MRI is limited by physiological effects (including the elicitation of magnetophosphenes and peripheral nerve stimulation (PNS)). These effects, in turn, depend on the interaction between time-varying magnetic fields and the body, and thus on the participant's position with respect to the scanner's isocenter. This study investigated the occurrence of magnetophosphenes and PNS when scanning participants on a high-gradient (300 mT/m) system, for different gradient amplitudes, ramp times, and participant positions. Methods Using a whole-body 300 mT/m gradient MRI system, a cohort of participants was scanned with the head, heart, and prostate at magnet isocenter and a train of trapezoidal bipolar gradient pulses, with ramp times from 0.88 to 4.20 ms and gradient amplitudes from 60 to 300 mT/m. Reports of magnetophosphenes and incidental reports of PNS were obtained. A questionnaire was used to record any additional subjective effects. Results Magnetophosphenes were strongly dependent on participant position in the scanner. 87% of participants reported the effect with the heart at isocenter, 33% with the head at isocenter, and only 7% with the prostate at isocenter. PNS was most widely reported by participants for the vertical gradient axis (67% of participants), and was the dominant physiological effect for ramp times below 2 ms. Conclusion This study evaluates the probability of eliciting magnetophosphenes during whole-body imaging using an ultra-strong gradient MRI system. It provides empirical guidance on the use of high-performance gradient systems for whole-body human MRI.
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