Healing Electroceutical Dressing for the Recovery of Open Wounds (HERO)

Overview

The goal of this clinical trial is to determine whether the wireless electroceutical dressing (WED) called PowerHeal™ Bioelectric Bandage, improves care of infected wounds by clearing the infection and helping the wound heal better. The main hypotheses it aims to answer are: 1. WED promotes wound closure, as determined by wound area measurement 2. WED manages wound infection in civilian and military wounds in Ukraine, as determined by clinical assessment of wound infection by measuring the numbers and types of relevant microbes. Researchers will compare to see if PowerHeal™ Bioelectric Bandage the dressing used in the SOC group Participants will get their dressings changed per the protocol, wound image and swab will be taken.

Managing bacterial burden is necessary for effective wound healing. Military wounds are severely complex due to rise in multidrug resistant bacterial infections. A FDA cleared commercially available disposable, wireless electroceutical dressing fabric is able to generate a low electric field in presence of exudate in the wound environment. The electric field, along with the micro-molar amounts of superoxide anion radicals that is generated in the wound microenvironment, initiate a bactericidal and a pro-healing signaling cascade resulting in improved wound healing without the encumbrance of a bulky dressing. There will be five visits over the course of 28 ± 2 days. Participants will be randomized and divided into two groups: one group will receive the standard of care (SOC) dressing and the other will receive the bioelectric bandage. Dressing change intervals will depend on the group the participant randomized to and how exudating the wound is. The investigation doctor will collect demographic data - such as, age, sex, race; general medical history, and targeted wound data -such as cause, size, location, duration and total number of traumatic wounds. Standard of care clinical lab results (complete blood count, liver and kidney functions, presence and level of inflammation) will also be collected to evaluate body functions and health status . No blood will be collected for this study. Vital signs (body temperature, respiratory rate, heart rate, blood pressure, level of oxygen in blood) will be measured. The doctor will also look for signs of wound infection (of the investigation wound) including, redness, warmth, swelling, drainage, discoloration, friable granulation, foul odor, necrosis, and pustule/vesicles/boils. Participants will be asked about their pain experience compared to the moment of the injury. A swab of the investigation wound will be collected per standard study guidelines at each investigation timepoint (unless the wound heals). A member of the study team will clean the wound using sterile sodium chloride solution, then gently rotate a sterile swab over a small area of the wound to collect a sample. All collected wound swabs will be sent to and processed in a central lab within Ukraine to check the infection status of the wound. Microbes detected in the wound will then be further analyzed in a separate central laboratory in the US to look at important factors such as antibiotic resistance. The results of the research wound swabs and analysis data will not be shared with the participant, or their medical care provider. At each investigation timepoint, the investigation wound will also be photographed by the investigator or a member of the investigation team using the camera function on a standard smartphone to see if there is any change before and after receiving the treatment. The investigation wound will also be measured for size by holding a clear, sterile, wound measurement tool on top of the wound.