A new method to improve RF safety of implantable medical devices using inductive coupling at 3.0 T MRI.

IF 2 4区 医学 Q3 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Magnetic Resonance Materials in Physics, Biology and Medicine Pub Date : 2023-12-01 Epub Date: 2023-08-11 DOI:10.1007/s10334-023-01109-8
Bu S Park, Joshua W Guag, Hongbae Jeong, Sunder S Rajan, Brent McCright
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引用次数: 0

Abstract

Objective: To enhance RF safety when implantable medical devices are located within the body coil but outside the imaging region by using a secondary resonator (SR) to reduce electric fields, the corresponding specific absorption rate (SAR), and temperature change during MRI.

Materials and methods: This study was conducted using numerical simulations with an American Society for Testing and Materials (ASTM) phantom and adult human models of Ella and Duke from Virtual Family Models, along with corresponding experimental results of temperature change obtained using the ASTM phantom. The circular SR was designed with an inner diameter of 150 mm and a width of 6 mm. Experimental measurements were carried out using a 3 T Medical Implant Test System (MITS) body coil, electromagnetic (EM) field mapping probes, and an ASTM phantom.

Results: The magnitudes of B1+ (|B1+|) and SAR1g were reduced by 15.2% and 5.85% within the volume of interest (VoI) of an ASTM phantom, when a SR that generates opposing electromagnetic fields was utilized. Likewise, the Δ|B1+| and ΔSAR1g were reduced by up to 56.7% and 57.5% within the VoI of an Ella model containing a copper rod when an opposing SR was used.

Conclusion: A novel method employing the designed SR, which generates opposing magnetic fields to partially shield a sample, has been proposed to mitigate the risk of induced-RF heating at the VoI through numerical simulations and corresponding experiments under various conditions at 3.0 T.

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一种利用3.0 T MRI感应耦合提高植入式医疗器械射频安全性的新方法。
目的:利用二次谐振器(SR)减小磁场、相应的比吸收率(SAR)和MRI过程中的温度变化,提高植入式医疗器械位于人体线圈内而非成像区域时的射频安全性。材料与方法:本研究采用美国材料试验学会(ASTM)模型和虚拟家庭模型中Ella和Duke的成人模型进行数值模拟,并使用ASTM模型获得相应的温度变化实验结果。设计了内径为150mm,宽度为6mm的圆形SR。实验测量使用3t医疗植入物测试系统(MITS)体线圈、电磁(EM)场测绘探头和ASTM模体进行。结果:当使用产生相反电磁场的SR时,B1+ (|B1+|)和SAR1g在ASTM模体感兴趣体积(VoI)内的大小分别降低了15.2%和5.85%。同样,当使用相反的SR时,含有铜棒的Ella模型的VoI内Δ|B1+|和ΔSAR1g减少了56.7%和57.5%。结论:通过数值模拟和相关实验,提出了一种利用所设计的SR产生相反磁场来部分屏蔽样品的新方法,以减轻在3.0 T下各种条件下VoI处的感应射频加热风险。
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来源期刊
CiteScore
4.60
自引率
0.00%
发文量
58
审稿时长
>12 weeks
期刊介绍: MAGMA is a multidisciplinary international journal devoted to the publication of articles on all aspects of magnetic resonance techniques and their applications in medicine and biology. MAGMA currently publishes research papers, reviews, letters to the editor, and commentaries, six times a year. The subject areas covered by MAGMA include: advances in materials, hardware and software in magnetic resonance technology, new developments and results in research and practical applications of magnetic resonance imaging and spectroscopy related to biology and medicine, study of animal models and intact cells using magnetic resonance, reports of clinical trials on humans and clinical validation of magnetic resonance protocols.
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