Difficult-to-heal Wounds Clinical Trial
Official title:
Effect Of Resistive Capactive Electrical Transfer Therapy On Wound Healing And Biomarker Expression In Difficult-to-heal Wounds
Difficult-to-heal wounds present imbalances in cytokine production, increases in MMP expression, high levels of apoptosis, and decreases in the proliferation of cells such as fibroblasts and keratinocytes, which are involved in tissue regeneration. CRET therapy (capacitive resistive electrical transfer therapy) has been shown to generate granulation tissue in in vitro assays. In addition, available clinical case reports and preliminary clinical trial results indicate that CRET can promote the regeneration of acute wounds and DHW (difficult-to-heal wounds).
Difficult-to-heal wounds present imbalances in cytokine production, increases in MMP expression, high levels of apoptosis, and decreases in the proliferation of cells such as fibroblasts and keratinocytes, which are involved in tissue regeneration. CRET therapy has been shown to be able to generate granulation tissue in in vitro assays. In addition, available clinical case reports and preliminary clinical trial results indicate that CRET can promote acute wound regeneration and CDH. The working hypothesis is that CRET treatment promotes the healing of CDH through its action in regulating inflammatory and regenerative processes in skin tissue. This non-invasive, cost-effective treatment, devoid of identified adverse effects, and not studied in depth so far in patients with CDH, can thus be placed in the treatment algorithms of CDH with the correct selection of candidate patients. ;