Evaluation of hazards caused by magnetic field emitted from magnetotherapy applicator to the users of bone conduction hearing prostheses

Evaluation of hazards caused by magnetic field emitted from magnetotherapy applicator to the users of bone conduction hearing prostheses

Background: Low frequency magnetic field, inducing electrical field (Ein) inside conductive structures may directly affect the human body, e.g., by electrostimulation in the nervous system. In addition, the spatial distribution and level of Ein are disturbed in tissues neighbouring the medical impla...

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Main Authors: Patryk Zradziński, Jolanta Karpowicz, Krzysztof Gryz, Wiesław Leszko
Format: Article
Language:English
Published: Nofer Institute of Occupational Medicine 2017-08-01
Series:Medycyna Pracy
Subjects:
numerical simulations
electromagnetic fields
hearing implants
bone conduction
induced electric field
Directive 2013/35/EU
Online Access:http://medpr.imp.lodz.pl/Ocena-zagrozen-nwynikajacych-z-oddzialywania-pola-magnetycznego-nemitowanego-przez-aplikator-magnetoterapeutyczny-ndla-uzytkownikow-protez-sluchu-nwykorzystujacych-przewodnictwo-kostne,65302,0,2.html
id doaj-8b110c45f0d746038ae39332c5cfe56b
record_format Article
spelling doaj-8b110c45f0d746038ae39332c5cfe56b2020-11-24T22:12:41ZengNofer Institute of Occupational MedicineMedycyna Pracy0465-58932353-13392017-08-0168446947710.13075/mp.5893.00399Evaluation of hazards caused by magnetic field emitted from magnetotherapy applicator to the users of bone conduction hearing prosthesesPatryk ZradzińskiJolanta KarpowiczKrzysztof GryzWiesław LeszkoBackground: Low frequency magnetic field, inducing electrical field (Ein) inside conductive structures may directly affect the human body, e.g., by electrostimulation in the nervous system. In addition, the spatial distribution and level of Ein are disturbed in tissues neighbouring the medical implant. Material and Methods: Numerical models of magneto-therapeutic applicator (emitting sinusoidal magnetic field of frequency 100 Hz) and the user of hearing implant (based on bone conduction: Bonebridge type – IS-BB or BAHA (bone anchorde hearing aid) type – IS-BAHA) were worked out. Values of Ein were analyzed in the model of the implant user’s head, e.g., physiotherapist, placed next to the applicator. Results: It was demonstrated that the use of IS-BB or IS-BAHA makes electromagnetic hazards significantly higher (up to 4-fold) compared to the person without implant exposed to magnetic field heterogeneous in space. Hazards for IS-BAHA users are higher than those for IS-BB users. It was found that applying the principles of directive 2013/35/EU, at exposure to magnetic field below exposure limits the direct biophysical effects of exposure in hearing prosthesis users may exceed relevant limits. Whereas applying principles and limits set up by Polish labor law or the International Commission on Non-Ionizing Radiation Protection (ICNIRP) guidelines, the compliance with the exposure limits also ensures the compliance with relevant limits of electric field induced in the body of hearing implant user. Conclusions: It is necessary to assess individually electromagnetic hazard concerning hearing implant users bearing in mind significantly higher hazards to them compared to person without implant or differences between levels of hazards faced by users of implants of various structural or technological solutions. Med Pr 2017;68(4):469–477http://medpr.imp.lodz.pl/Ocena-zagrozen-nwynikajacych-z-oddzialywania-pola-magnetycznego-nemitowanego-przez-aplikator-magnetoterapeutyczny-ndla-uzytkownikow-protez-sluchu-nwykorzystujacych-przewodnictwo-kostne,65302,0,2.htmlnumerical simulationselectromagnetic fieldshearing implantsbone conductioninduced electric fieldDirective 2013/35/EU
collection DOAJ
language English
format Article
sources DOAJ
author Patryk Zradziński
Jolanta Karpowicz
Krzysztof Gryz
Wiesław Leszko
spellingShingle Patryk Zradziński
Jolanta Karpowicz
Krzysztof Gryz
Wiesław Leszko
Evaluation of hazards caused by magnetic field emitted from magnetotherapy applicator to the users of bone conduction hearing prostheses
Medycyna Pracy
numerical simulations
electromagnetic fields
hearing implants
bone conduction
induced electric field
Directive 2013/35/EU
author_facet Patryk Zradziński
Jolanta Karpowicz
Krzysztof Gryz
Wiesław Leszko
author_sort Patryk Zradziński
title Evaluation of hazards caused by magnetic field emitted from magnetotherapy applicator to the users of bone conduction hearing prostheses
title_short Evaluation of hazards caused by magnetic field emitted from magnetotherapy applicator to the users of bone conduction hearing prostheses
title_full Evaluation of hazards caused by magnetic field emitted from magnetotherapy applicator to the users of bone conduction hearing prostheses
title_fullStr Evaluation of hazards caused by magnetic field emitted from magnetotherapy applicator to the users of bone conduction hearing prostheses
title_full_unstemmed Evaluation of hazards caused by magnetic field emitted from magnetotherapy applicator to the users of bone conduction hearing prostheses
title_sort evaluation of hazards caused by magnetic field emitted from magnetotherapy applicator to the users of bone conduction hearing prostheses
publisher Nofer Institute of Occupational Medicine
series Medycyna Pracy
issn 0465-5893
2353-1339
publishDate 2017-08-01
description Background: Low frequency magnetic field, inducing electrical field (Ein) inside conductive structures may directly affect the human body, e.g., by electrostimulation in the nervous system. In addition, the spatial distribution and level of Ein are disturbed in tissues neighbouring the medical implant. Material and Methods: Numerical models of magneto-therapeutic applicator (emitting sinusoidal magnetic field of frequency 100 Hz) and the user of hearing implant (based on bone conduction: Bonebridge type – IS-BB or BAHA (bone anchorde hearing aid) type – IS-BAHA) were worked out. Values of Ein were analyzed in the model of the implant user’s head, e.g., physiotherapist, placed next to the applicator. Results: It was demonstrated that the use of IS-BB or IS-BAHA makes electromagnetic hazards significantly higher (up to 4-fold) compared to the person without implant exposed to magnetic field heterogeneous in space. Hazards for IS-BAHA users are higher than those for IS-BB users. It was found that applying the principles of directive 2013/35/EU, at exposure to magnetic field below exposure limits the direct biophysical effects of exposure in hearing prosthesis users may exceed relevant limits. Whereas applying principles and limits set up by Polish labor law or the International Commission on Non-Ionizing Radiation Protection (ICNIRP) guidelines, the compliance with the exposure limits also ensures the compliance with relevant limits of electric field induced in the body of hearing implant user. Conclusions: It is necessary to assess individually electromagnetic hazard concerning hearing implant users bearing in mind significantly higher hazards to them compared to person without implant or differences between levels of hazards faced by users of implants of various structural or technological solutions. Med Pr 2017;68(4):469–477
topic numerical simulations
electromagnetic fields
hearing implants
bone conduction
induced electric field
Directive 2013/35/EU
url http://medpr.imp.lodz.pl/Ocena-zagrozen-nwynikajacych-z-oddzialywania-pola-magnetycznego-nemitowanego-przez-aplikator-magnetoterapeutyczny-ndla-uzytkownikow-protez-sluchu-nwykorzystujacych-przewodnictwo-kostne,65302,0,2.html
work_keys_str_mv AT patrykzradzinski evaluationofhazardscausedbymagneticfieldemittedfrommagnetotherapyapplicatortotheusersofboneconductionhearingprostheses
AT jolantakarpowicz evaluationofhazardscausedbymagneticfieldemittedfrommagnetotherapyapplicatortotheusersofboneconductionhearingprostheses
AT krzysztofgryz evaluationofhazardscausedbymagneticfieldemittedfrommagnetotherapyapplicatortotheusersofboneconductionhearingprostheses
AT wiesławleszko evaluationofhazardscausedbymagneticfieldemittedfrommagnetotherapyapplicatortotheusersofboneconductionhearingprostheses
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