MRI-induced pacemaker lead heating depends strongly on implant geometry, with right chest pacemakers showing higher temperature increases (11.9 degrees C) than left chest pacemakers (6.3 degrees C).
Does implant geometry affect MRI-induced pacemaker lead heating in vitro?
MRI-induced pacemaker lead heating is strongly dependent on implant geometry, with longer leads and right-sided implants posing a higher risk of critical heating.
PURPOSE: To evaluate the effect of the geometry of implantable pacemakers (PMs) on lead heating induced by magnetic resonance imaging (MRI). MATERIALS AND METHODS: In vitro experiments were conducted with two different setups, using fluoroptic probes to measure the temperature increase. The first experiment consisted of a rectangular box filled with a gelled saline and a pacemaker with its leads. This box was exposed in an MRI birdcage coil to a sinusoidal 64-MHz field with a calibrated whole-body specific absorption rate (WB-SAR) of 1 W/kg. The highest SAR and temperature increase (3000 W/kg, 12 degrees C) occurred for the implant configuration having the largest area. The second experimental setup consisted of a human-shaped torso filled with gelled saline. In this setup the PM and its lead were exposed to a real MRI scanner, using clinical sequences with WB-SAR up to 2 W/kg. RESULTS: We found that higher heating occurs for configurations with longer exposed lead lengths and that right chest PMs showed the highest temperature and local SAR (11.9 degrees C, 2345 W/kg), whereas the left chest PMs were less heated (6.3 degrees C, 1362 W/kg). Implant geometry, exposed lead length, and lead area must be considered in the wide variation of temperature increases induced by MRI. CONCLUSIONS: The amount of MRI-induced lead tip heating depends strongly on implant geometry, particularly the lead area, exposed lead length, and position of the implant in the phantom. Critical lead tip heating was found for the longer leads. Therefore, to minimize MRI-induced lead tip heating, the PM lead should be as short as possible.
Calcagnini et al. (Fri,) conducted a other in Pacemaker lead heating induced by MRI. MRI exposure of pacemaker leads vs. Different implant geometries (right vs left chest, lead lengths) was evaluated on Temperature increase and local SAR. MRI-induced pacemaker lead heating depends strongly on implant geometry, with right chest pacemakers showing higher temperature increases (11.9 degrees C) than left chest pacemakers (6.3 degrees C).