Sıçanlarda tüm vücut PEMF cihaz etkisi için in-silico çalışma.

Pulsed electromagnetic field (PEMF) stimulation is a non-invasive therapeutic modality that has been employed in a variety of applications, including skin wound healing, tissue regeneration, blood vessel regeneration, repair of nonunion bone fractures, and dental treatment. Currently, the potential side effects of electromagnetic fields on tissues have not been comprehensively explored, despite their established therapeutic benefits. In this study, we examined the side effects of PEMF devices on whole-body tissues using simulations. The electromagnetic field simulation software CST Studio Suite was utilized, and an RF coil that could output different frequencies (100 Hz, 100 kHz, and 27 MHz) and magnetic fields (0.25 mT, 0.5, and 1 mT) was designed for the purpose of simulations. A realistic rat model, available from the CST library, was employed. Using the Debye equations according to the relevant frequency value, the electrical and thermal properties of the rat were calculated, and the simulation was carried out in two stages: EM and thermal analysis. The specific absorption rate in the tissues with EM simulation and the temperature distribution in the tissues with thermal analysis were examined. The effects created by the PEMF device at different frequencies and magnetic field intensities were presented comparatively. According to the results, the highest SAR value was observed for three different magnetic field intensities at a frequency of 27 MHz, resulting in a temperature difference of 0.7 °C. This study aims to determine the EM effects on rats in a simulated environment according to different frequencies and magnetic field values, as well as to determine whether the thermal effects created can produce a side response. By doing so, it will be possible to improve noninvasive clinical PEMF devices and provide additional information about the interaction of electromagnetic fields with tissues. [ABSTRACT FROM AUTHOR]