Wound Repair and Extremely Low Frequency-Electromagnetic Field: Insight from In Vitro Study and Potential Clinical Application

Wound healing is a complex, staged process. It involves extensive communication between the different cellular constituents of various compartments of the skin and its extracellular matrix (ECM). Different signaling pathways are determined by a mutual influence on each other, resulting in a dynamic...

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Bibliographic Details
Published in:International journal of molecular sciences 2021-05, Vol.22 (9), p.5037
Main Authors: Gualdi, Giulio, Costantini, Erica, Reale, Marcella, Amerio, Paolo
Format: Article
Language:English
Subjects:
Angiogenesis
Biofilms
Blood platelets
Cell adhesion & migration
Cell cycle
Cell proliferation
Charged particles
Chronic infection
Crosstalk
Cytokines
Deregulation
DNA damage
Electric fields
Electromagnetic fields
Electromagnetism
ELF-EMF
Extracellular matrix
Fibroblasts
Free radicals
Gene expression
Gene loci
Growth factors
healing
Hemostasis
Hemostatics
Homeostasis
keratinocytes
Kinases
Neutrophils
Nitric oxide
non-healing wounds
Phases
Physiology
Proteins
Repair
Review
Senescence
Stem cells
Tumor necrosis factor-TNF
Waveforms
wound
Wound healing
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Summary:Wound healing is a complex, staged process. It involves extensive communication between the different cellular constituents of various compartments of the skin and its extracellular matrix (ECM). Different signaling pathways are determined by a mutual influence on each other, resulting in a dynamic and complex crosstalk. It consists of various dynamic processes including a series of overlapping phases: hemostasis, inflammation response, new tissue formation, and tissue remodeling. Interruption or deregulation of one or more of these phases may lead to non-healing (chronic) wounds. The most important factor among local and systemic exogenous factors leading to a chronic wound is infection with a biofilm presence. In the last few years, an increasing number of reports have evaluated the effects of extremely low frequency (ELF) electromagnetic fields (EMFs) on tissue repair. Each experimental result comes from a single element of this complex process. An interaction between ELF-EMFs and healing has shown to effectively modulate inflammation, protease matrix rearrangement, neo-angiogenesis, senescence, stem-cell proliferation, and epithelialization. These effects are strictly related to the time of exposure, waveform, frequency, and amplitude. In this review, we focus on the effect of ELF-EMFs on different wound healing phases.
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms22095037