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Journal of Medical Implants & Surgery
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  • Review Article   
  • J Med Imp Surg 2023, Vol 8(2): 160
  • DOI: 10.4172/jmis.1000160

Low or Medium Frequency Magnetic Fields Simplified by Modeling of Implanted Medical Devices

Nitika Goel*
Department of Anaesthesia, Institute of Medical Education and Research Chandigarh, India
*Corresponding Author : Nitika Goel, Department of Anaesthesia, Institute of Medical Education and Research Chandigarh, India, Email: Goelnikita@gmail.com

Received Date: Mar 01, 2023 / Accepted Date: Mar 23, 2023 / Published Date: Mar 29, 2023

Abstract

When exposed to time-varying magnetic fields, such as those generated during certain diagnostic and therapeutic biomedical treatments, implanted medical devices with metallic filamentary closed loops (such as fixation grids, stents) produce electric currents. For low or medium frequency fields, a simplified method for efficiently computing these currents, estimating the altered electromagnetic field distribution in biological tissues, and evaluating the resulting biological effects is proposed. Decoupling the handling of the filamentary wire from the anatomical body is the foundation of the proposed method. In order to accomplish this, a circuital solution is used to investigate the metallic filamentary implant and is inserted into an electromagnetic field solution that involves biological tissues. The implant’s calculated Joule losses are then utilized as a forcing term for the bioheat Pennes’ equation-defined thermal problem. A reference solution to a model problem is used to validate the methodology. In realistic exposure scenarios, the proposed simplified methodology is found to be sufficiently accurate and simple to apply to closed loop wires in the low to intermediate frequency range. Analyzing a wide range of exposure scenarios for various types of small implants, including orthopedic grids and coronary and biliary stents, is made possible by this modeling tool.

Citation: Goel N (2023) Low or Medium Frequency Magnetic Fields Simplified byModeling of Implanted Medical Devices. J Med Imp Surg 8: 160. Doi: 10.4172/jmis.1000160

Copyright: © 2023 Goel N. This is an open-access article distributed under theterms of the Creative Commons Attribution License, which permits unrestricteduse, distribution, and reproduction in any medium, provided the original author andsource are credited.

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