Preventing smartphone induction of magnet mode in cardiac implantable electronic devices [Vermeidung der Induktion von Magnetmodus bei kardialen implantierbaren elektrischen Geräten durch Smartphones]

Wegner, FK; Korthals, D; Kreimer, F; Wolfes, J; Ellermann, C; Martinovic, M; Kittl, C; Frommeyer, G; Eckardt, L

Zusammenfassung

Aims: Wireless charging capable smartphones may interact with cardiac implantable electronic devices (CIED). We hypothesized that magnetic shielding with a steel plate placed at the back of a smartphone may prevent interaction. Methods and results: Sixteen CIED (6 pacemakers and 10 implantable cardioverters/defibrillators) from all manufacturers were consecutively implanted in a subcutaneous and submuscular location in an isolated porcine thorax and connected to an interactive heart simulator. Two smartphones (Apple iPhone 14 and Google Pixel 8 Pro) were placed on top of the implantation site, and signs of magnet mode induction were recorded. The Apple iPhone induced magnet mode in seven of 16 (44%) subcutaneously placed CIED. Placed in a magnetic phone case, the Apple iPhone induced magnet mode in six of 16 (38%) devices. Magnet mode induction was successfully prevented in all cases by placing a 1 mm thin steel plate at the back of the smartphone. The Google Pixel did not induce magnet mode in any of the 16 devices, even with a magnetic case. Submuscular CIED placement resulted in no occurrence of magnet mode induction by any smartphone. All devices were still able to be interrogated and responded to a CIED magnet. Conclusion: The Apple iPhone induces magnet mode in close to half of subcutaneously placed CIED due to its MagSafe magnet. Neither a smartphone utilizing the Qi wireless charging standard nor magnetic smartphone cases confer the same risk. Submuscular CIED placement or magnetic shielding with a steel plate prevents magnet mode induction. The future Qi2.0 standard may exacerbate interaction risks.