Background: After human epidermis wounding, transepithelial potential (TEP) present in nonlesional epidermis decreases and induces an endogenous direct current epithelial electric field (EEF) that could be implicated in the wound re-epithelialization. Some studies suggest that exogenous electric stimulation of wounds can stimulate healing, although the mechanisms remain to be determined.
The Problem: Little is known concerning the exact action of the EEF during healing. The mechanism responsible for TEP and EEF is unknown due to the lack of an model to study this phenomenon.
Basic Science Advances: We carried out studies by using a wound created in a human tissue-engineered skin and determined that TEP undergoes ascending and decreasing phases during the epithelium formation. The TEP measurements over time in the wound were corroborated with histological changes and with TEP variations during porcine skin wound healing. The expression of a crucial element implicated in Na transport, Na/K ATPase pumps, was also evaluated at the same time points during the re-epithelialization process. The ascending and decreasing TEP values were correlated with changes in the expression of these pumps. The distribution of Na/K ATPase pumps also varied according to epidermal differentiation. Further, inhibition of the pump activity induced a significant decrease of the TEP and of the re-epithelization rate.
Clinical Care Relevance: A better comprehension of the role of EEF could have important future medical applications regarding the treatment of chronic wound healing.
Conclusion: This study brings a new perspective to understand the formation and restoration of TEP during the cutaneous wound healing process.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3839018 | PMC |
| http://dx.doi.org/10.1089/wound.2011.0318 | DOI Listing |
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