The role of physiological elements in future therapies of rheumatoid arthritis. III. The role of the electromagnetic field in regulation of redox potential and life cycle of inflammatory cells*

The role of physiological elements in future therapies of rheumatoid arthritis. III. The role of the electromagnetic field in regulation of redox potential and life cycle of inflammatory cells*

Each material consisting of charged particles can be influenced by a magnetic field. Polarized particles play an essential role in almost all physiological processes. Locally generated electromagnetic fields several physiological processes within the human body, for example: stimulation of nerves, m...

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Main Authors: Michał Gajewski, Przemysław Rzodkiewicz, Sławomir Maśliński, Elżbieta Wojtecka-Łukasik
Format: Article
Language:English
Published: Termedia Publishing House 2015-09-01
Series:Rheumatology
Subjects:
electromagnetic field
reactive oxygen intermediates
redox
Online Access:http://www.termedia.pl/The-role-of-physiological-elements-in-future-therapies-of-rheumatoid-arthritis-III-The-role-of-the-electromagnetic-field-in-regulation-of-redox-potential-and-life-cycle-of-inflammatory-cells-,18,25692,1,1.html
id doaj-b1131e051ed54603a48a0cd6174773ea
record_format Article
spelling doaj-b1131e051ed54603a48a0cd6174773ea2020-11-24T23:11:38ZengTermedia Publishing HouseRheumatology0034-62332084-98342015-09-0153421922410.5114/reum.2015.5400025692The role of physiological elements in future therapies of rheumatoid arthritis. III. The role of the electromagnetic field in regulation of redox potential and life cycle of inflammatory cells*Michał GajewskiPrzemysław RzodkiewiczSławomir MaślińskiElżbieta Wojtecka-ŁukasikEach material consisting of charged particles can be influenced by a magnetic field. Polarized particles play an essential role in almost all physiological processes. Locally generated electromagnetic fields several physiological processes within the human body, for example: stimulation of nerves, muscles, and cardiac electrical activity. This phenomenon is used today in many medical applications. In this article, we discuss ways in which electromagnetic field affects the physiological and pathological processes in cells and tissues. This knowledge will help to better understand the electrophysiological phenomenon in connective tissue diseases and can bring new therapeutic strategies (in the form of “invisible drugs”) for the treatment of rheumatic diseases?http://www.termedia.pl/The-role-of-physiological-elements-in-future-therapies-of-rheumatoid-arthritis-III-The-role-of-the-electromagnetic-field-in-regulation-of-redox-potential-and-life-cycle-of-inflammatory-cells-,18,25692,1,1.htmlelectromagnetic field reactive oxygen intermediates redox
collection DOAJ
language English
format Article
sources DOAJ
author Michał Gajewski
Przemysław Rzodkiewicz
Sławomir Maśliński
Elżbieta Wojtecka-Łukasik
spellingShingle Michał Gajewski
Przemysław Rzodkiewicz
Sławomir Maśliński
Elżbieta Wojtecka-Łukasik
The role of physiological elements in future therapies of rheumatoid arthritis. III. The role of the electromagnetic field in regulation of redox potential and life cycle of inflammatory cells*
Rheumatology
electromagnetic field
reactive oxygen intermediates
redox
author_facet Michał Gajewski
Przemysław Rzodkiewicz
Sławomir Maśliński
Elżbieta Wojtecka-Łukasik
author_sort Michał Gajewski
title The role of physiological elements in future therapies of rheumatoid arthritis. III. The role of the electromagnetic field in regulation of redox potential and life cycle of inflammatory cells*
title_short The role of physiological elements in future therapies of rheumatoid arthritis. III. The role of the electromagnetic field in regulation of redox potential and life cycle of inflammatory cells*
title_full The role of physiological elements in future therapies of rheumatoid arthritis. III. The role of the electromagnetic field in regulation of redox potential and life cycle of inflammatory cells*
title_fullStr The role of physiological elements in future therapies of rheumatoid arthritis. III. The role of the electromagnetic field in regulation of redox potential and life cycle of inflammatory cells*
title_full_unstemmed The role of physiological elements in future therapies of rheumatoid arthritis. III. The role of the electromagnetic field in regulation of redox potential and life cycle of inflammatory cells*
title_sort role of physiological elements in future therapies of rheumatoid arthritis. iii. the role of the electromagnetic field in regulation of redox potential and life cycle of inflammatory cells*
publisher Termedia Publishing House
series Rheumatology
issn 0034-6233
2084-9834
publishDate 2015-09-01
description Each material consisting of charged particles can be influenced by a magnetic field. Polarized particles play an essential role in almost all physiological processes. Locally generated electromagnetic fields several physiological processes within the human body, for example: stimulation of nerves, muscles, and cardiac electrical activity. This phenomenon is used today in many medical applications. In this article, we discuss ways in which electromagnetic field affects the physiological and pathological processes in cells and tissues. This knowledge will help to better understand the electrophysiological phenomenon in connective tissue diseases and can bring new therapeutic strategies (in the form of “invisible drugs”) for the treatment of rheumatic diseases?
topic electromagnetic field
reactive oxygen intermediates
redox
url http://www.termedia.pl/The-role-of-physiological-elements-in-future-therapies-of-rheumatoid-arthritis-III-The-role-of-the-electromagnetic-field-in-regulation-of-redox-potential-and-life-cycle-of-inflammatory-cells-,18,25692,1,1.html
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