Evaluation of the effectiveness of kINPen Med plasma jet and bioactive agent therapy in a rat model of wound healing.

Chronic nonhealing wounds, particularly those complicated by multidrug resistant infections, represent a major health and economic challenge. Plasma treatment promotes wound repair due to its antimicrobial, angiogenic, and cell modulating properties. This study investigated the efficacy of the kINPen Med system in promoting healing and assessed if efficacy was enhanced by adding collagen or hyaluronic acid (HA). Two 6 mm diameter punch biopsy wounds were created on the lumbar spine of Sprague Dawley rats. Based on the results of a pilot study, operating process conditions involving 30 s plasma/day were selected for the pivotal study. In the pivotal study, six groups of rats (n = 28/group) received either control (1), plasma (2), HA (3), plasma and HA (4), collagen (5), or plasma and collagen (6). Wound measurements were obtained on Days 0, 4, 7, and 14. The mean reduction in wound size was significantly higher in all treatment groups compared to controls on Day 4; group 6 performed best. On Day 7, group 6 still performed significantly better compared to groups 1, 2, 3, and 4. Day 14 results were more comparable between groups. Histology (Day 14) revealed epidermal hyperplasia and serocellular crusts. Neutrophilic infiltrates in group 6 were significantly lower compared to group 2. Mononuclear infiltrates were highest in groups 3 and 5, while Langerhans cells were observed in all groups. These results underpin the clinical benefits of the kINPen Med plasma system, particularly when combined with collagen during early inflammatory phases, and support the conduct of future human clinical trials.