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Playing with Biophysics: How a Symphony of Different Electromagnetic Fields Acts to Reduce the Inflammation in Diabetic Derived Cells

by Trentini, Martina , Picari, Massimo , Tremoli, Elena , Sambataro, Maria , Zavan, Barbara , Zanolla, Ilaria , Tiengo, Elena , Ferroni, Letizia , Zanotti, Federica , Sambado, Luisa , Mantarro, Chiara , Dalla Paola, Luca , Leo, Sara

in Anti-Inflammatory Agents / Biocompatibility / Biophysics / Cytokines / Diabetes / Diabetes Mellitus / Electromagnetic Fields / Enzymes / Extracellular matrix / Fibroblasts / Foot diseases / Gene expression / Genotype & phenotype / Hemoglobin / Humans / Inflammation / Leg ulcers / Magnetic fields / Medical equipment / Reactive oxygen species / Reactive Oxygen Species - metabolism / Wound healing

2023

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Playing with Biophysics: How a Symphony of Different Electromagnetic Fields Acts to Reduce the Inflammation in Diabetic Derived Cells

2023

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Playing with Biophysics: How a Symphony of Different Electromagnetic Fields Acts to Reduce the Inflammation in Diabetic Derived Cells

2023

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Journal Article

Playing with Biophysics: How a Symphony of Different Electromagnetic Fields Acts to Reduce the Inflammation in Diabetic Derived Cells

Trentini, Martina,

Picari, Massimo,

Tremoli, Elena,

Sambataro, Maria,

Zavan, Barbara,

Zanolla, Ilaria,

Tiengo, Elena,

Ferroni, Letizia,

Zanotti, Federica,

Sambado, Luisa,

Mantarro, Chiara,

Dalla Paola, Luca,

Leo, Sara

2023

Overview

Several factors, such as ischemia, infection and skin injury impair the wound healing process. One common pathway in all these processes is related to the reactive oxygen species (ROS), whose production plays a vital role in wound healing. In this view, several strategies have been developed to stimulate the activation of the antioxidative system, thereby reducing the damage related to oxidative stress and improving wound healing. For this purpose, complex magnetic fields (CMFs) are used in this work on fibroblast and monocyte cultures derived from diabetic patients in order to evaluate their influence on the ROS production and related wound healing properties. Biocompatibility, cytotoxicity, mitochondrial ROS production and gene expression have been evaluated. The results confirm the complete biocompatibility of the treatment and the lack of side effects on cell physiology following the ISO standard indication. Moreover, the results confirm that the CMF treatment induced a reduction in the ROS production, an increase in the macrophage M2 anti-inflammatory phenotype through the activation of miRNA 5591, a reduction in inflammatory cytokines, such as interleukin-1 (IL-1) and IL-6, an increase in anti-inflammatory ones, such as IL-10 and IL-12 and an increase in the markers related to improved wound healing such as collagen type I and integrins. In conclusion, our findings encourage the use of CMFs for the treatment of diabetic foot.

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Publisher

MDPI AG,MDPI

Subject

Anti-Inflammatory Agents

/ Electromagnetic Fields