Gradient coil and radiofrequency induced heating of orthopaedic implants in MRI: influencing factors

Autor: Mario Chiampi, Valeria Clementi, Oriano Bottauscio, Umberto Zanovello, Luca Zilberti, Alessandro Arduino, J. Wooldridge
Rok vydání: 2021
Předmět:
Zdroj: Physics in Medicine & Biology. 66:245024
ISSN: 1361-6560
0031-9155
DOI: 10.1088/1361-6560/ac3eab
Popis: Patients with implanted orthopaedic devices represent a growing number of subjects undergoing magnetic resonance imaging (MRI) scans each year. MRI safety labelling is required for all implants under the EU Medical Device Regulations to ensure regulatory compliance, with each device assessed through standardised testing procedures. In this paper, we employ parametric studies to assess a range of clinically relevant factors that cause tissue heating, performing simulations with both radiofrequency (RF) and gradient coil (GC) switching fields, the latter of which is often overlooked in the literature. A series of ‘worst-case’ scenarios for both types of excitation field is discussed. In the case of GC fields, large volume implants and large plate areas with the field orientated perpendicular to the plane cause the highest heating levels, along with sequences with high rates of field switching. Implant heating from RF fields is driven primarily from the ‘antenna effect’, with thin, linear implants of resonant length resulting in the highest temperature rises. In this work, we show that simplifications may be made to the field sequence and in some cases the device geometry without significantly compromising the accuracy of the simulation results, enabling the possibility for generic estimates of the implant heating for orthopaedic device manufacturers and opportunities to simplify the safety compliance process.
Databáze: OpenAIRE
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