2017
DOI: 10.1109/temc.2017.2678201
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RF Safety Evaluation of a Breast Tissue Expander Device for MRI: Numerical Simulation and Experiment

Abstract: This study describes the MRI-related radio frequency (RF) safety evaluation of breast tissue expander devices to establish safety criteria. Numerical simulations and experimental measurements were performed at 64 MHz with a gel phantom containing a breast expander. Additionally, computational modeling was performed (64 and 128 MHz) with an adult female model, containing a virtually implanted breast tissue expander device for four imaging landmark positions. The presence of the breast tissue expander device led… Show more

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Cited by 6 publications
(13 citation statements)
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“…MRI uses a strong static magnetic field, time-varying magnetic fields, and radiofrequency (RF) fields, each of which may adversely impact certain implants resulting potential patient injuries or fatalities [2,13,14]. With specific reference to MRI-related heating (i.e., the sensation experienced by one patient found in our literature review), RF pulses deposit energy in the patient as a result of the coupling of the electric field and the induction of eddy currents [2,8,13]. When a metallic implant is present, the induced currents can generate temperature rises in the surrounding tissues [2,8,13].…”
Section: Discussionmentioning
confidence: 99%
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“…MRI uses a strong static magnetic field, time-varying magnetic fields, and radiofrequency (RF) fields, each of which may adversely impact certain implants resulting potential patient injuries or fatalities [2,13,14]. With specific reference to MRI-related heating (i.e., the sensation experienced by one patient found in our literature review), RF pulses deposit energy in the patient as a result of the coupling of the electric field and the induction of eddy currents [2,8,13]. When a metallic implant is present, the induced currents can generate temperature rises in the surrounding tissues [2,8,13].…”
Section: Discussionmentioning
confidence: 99%
“…With specific reference to MRI-related heating (i.e., the sensation experienced by one patient found in our literature review), RF pulses deposit energy in the patient as a result of the coupling of the electric field and the induction of eddy currents [2,8,13]. When a metallic implant is present, the induced currents can generate temperature rises in the surrounding tissues [2,8,13]. This type of heating has been investigated for more than three decades.…”
Section: Discussionmentioning
confidence: 99%
See 2 more Smart Citations
“…Computational models of anatomy or physiology include improved drug delivery in the cornea with ultrasound energy ( 24 ); physiological models of heart cells ( 25 ), renal circulation ( 26 ), hemodynamic responses to blood volume perturbations ( 27 ), left bundle branch block ( 28 ), gas dynamics in the retina ( 29 ), coupled electrical and mechanical activity in the heart ( 30 ); energy absorption in patients with deep-brain stimulators ( 31 34 ), breast tissue expanders ( 35 ), in pregnant women and fetus during MRI exams ( 36 ); subthalamic nucleus ( 37 ), the breast ( 38 ), cancellous bone ( 39 ), the head ( 40 ) and whole body models ( 41 , 42 ).…”
Section: Computational Modeling Researchmentioning
confidence: 99%