Influencing Wound Healing Through the Application of Hyaluronic Acid With Perfluorodecalin and Physalis Angulata Extract After Split Skin Removal From the Thigh - A Study in "Split Wound Design"

In oral and maxillofacial surgery, split skin is regularly removed to cover secondary defects. These defects occur, for example, in tumor patients after the removal of microsurgical radialis or fibular grafts for defect coverage or reconstruction, since the skin cannot be primarily closed there.

Split skin is defined as a free skin graft made of epidermis and the upper parts of the dermis. The average thickness of the grafts is 0.2-0.8 mm. The thickness of the split skin determines the pigmentation structure and the quality of the graft. The thinner the split skin, the better the healing tendency and the less scar remains at the donor site. However, a disadvantage of thin split skin grafts is the stronger secondary shrinkage in the recipient region. Moderately thick grafts are hardly subject to scar shrinkage, but occasionally leave hypertrophic scars or keloids at the donor site. Split skin grafts with a thickness of 0.6-0.8 mm provide the best esthetic results, but have a poorer healing rate.

The split skin can be removed with a dermatome. The ventrolateral proximal thighs and the inside and outside of the upper arms are particularly suitable as donor regions.

In oral and maxillofacial surgery, a 0.4 mm thick split skin is usually removed from the ventrolateral thigh to cover the defect in the forearm or lower leg.

The requirement at the split skin removal site is rapid healing with complete re-epithelialization. To achieve this, wound management is currently left to the clinic itself, as there is no evidence-based standard care. The technical literature only recommends moist wound management and rare dressing changes.

A new product that promises faster healing and reduced scarring of these wounds is Ready Medical Post Treatment. This is an established preparation consisting of hyaluronic acid, perfluorodecalin and Physalis angulata extract. Studies have shown that both hyaluronic acid and perfluorodecalin can significantly improve the epithelialisation rate of wounds. The study will use a split wound design to investigate whether secondary wound healing can be accelerated and improved by the application of hyaluronic acid combined with perfluorodecalin and Physalis angulata extract.