Changes in S100 Proteins Identified in Healthy Skin following Electrical Stimulation: Relevance for Wound Healing.

Chloe Lallyett Ching-Yan Chloé Yeung Rie Harboe Nielson Leo A H Zeef David Chapman-Jones Michael Kjaer Karl E Kadler

Adv Skin Wound Care

Chloe Lallyett, PhD, is a Science Teacher, Parrs Wood High School, Manchester, United Kingdom; Ching-Yan Chloé Yeung, PhD, is a Postdoctorate Fellow, Institute of Sports Medicine Copenhagen, Denmark; Rie Harboe Nielson, MD, PhD, is a Physician, Department of Rheumatology, Aarhus University Hospital, Denmark; Leo A. H. Zeef, PhD, is Experimental Officer, University of Manchester, United Kingdom; David Chapman-Jones, LLM(Med), PhD, is Professor of Healthcare and Director, Institute of Healthcare Policy and Practice, University of the West of Scotland, United Kingdom; Michael Kjaer, MD, PhD, is Professor of Sports Medicine, University of Copenhagen, Denmark; and Karl E. Kadler, PhD, is Professor of Biochemistry, University of Manchester, United Kingdom.

Published: July 2018

The study aimed to understand how targeted electrical stimulation (ES) affects gene expression in healthy skin, as previous research suggested it can enhance wound healing.* -
Researchers used a noninvasive ES device on healthy volunteers for 48 hours and found changes in the expression of 105 genes, most of which were down-regulated.* -
The findings indicate some genes modified by ES are similar to those activated in actual skin wounds, opening up new research opportunities for improving healing in patients with chronic wounds.*

Objective: Targeted electrical energy applied to wounds has been shown to improve wound-healing rates. However, the mechanisms are poorly understood. The aim of this study was to identify genes that are responsive to electrical stimulation (ES) in healthy subjects with undamaged skin.

Methods: To achieve this objective, study authors used a small, noninvasive ES medical device to deliver a continuous, specific, set sequence of electrical energy impulses over a 48-hour period to the skin of healthy volunteers and compared resultant gene expression by microarray analysis.

Main Results: Application of this specific ES resulted in differential expression of 105 genes, the majority of which were down-regulated. Postmicroarray analyses revealed there was commonality with a small number of genes that have previously been shown to be up-regulated in skin wounds, including venous leg ulcers.

Conclusions: The specific sequence of ES applied continuously for 48 hours to the skin of healthy patients has the effect of modifying expression in a number of identified genes. The identification of the differential expression in this subset of genes in healthy subjects provides new potential lines of scientific inquiry for identifying similar responses in subjects with slow or poorly healing wounds.

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http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7613302	PMC
http://dx.doi.org/10.1097/01.ASW.0000533722.06780.03	DOI Listing

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