088 The Effects of an Electric Magnetic Field Stimulation on Skin Keratinocyte Migration

For at least 30 years it has been well known that very small electric currents applied to various kinds of trauma have a beneficial therapeutic result for wounds. The most effective methods so far utilized some form of direct current, by inserting an electric lead on each side of the wound and passing a weak electric current across the wound. The drawback of this method is invasive. In this study, we evaluated the effects of a noninvasive electric magnetic field device, Field Therapy Accelerator or FTA (Advatech Corp.), on cell migration of human skin keratinocytes in an in vitro incitional wound model. Normal human epidermal keratinocytes were maintained in growth media and grow into confluent. At time 0, a cross‐shaped wound gap or cell‐free zone was made among confluent monolayer cells in the center of the culture dish. Cells were treated with FTA for 1 hour immediately after wounding and 1 hour every 24 hours for a total of 4 hours in 4 days. The cell cultures were examined at time 0 and every 24 hours thereafter. A Zeiss Axiovert 200 inverted microscope with a digital camera system was used to capture the images and an AxioVision 3.0 image analysis software was used to measure the gap area. Cell migration was quantified by the time and percentage of the wound gap covered by the cells that migrated in and filled the gap. The results showed that the FTA treatment significantly accelerates skin keratinocyte migration. The wound gaps completely filled 6 days after wounding, 3 days earlier than control (no treatment) group (P < 0.001). Cell migration is a key step leading to the reepithelialization or the restoration of skin structure. This study showed the strong effects of FTA on keratinocyte migration, suggesting one of mechanisms that electric magnetic field works on wound healing.