RESUMO
INTRODUCTION: Wounds of the skin induced by irradiation involve a disruption of skin homeostasis and an increase in inflammation. Physiological renormalization treatment strategies using the molecules released from stem cells that restore proteostasis and regulate the immune system and reduce inflammation may be effective in treating skin conditions. Previous studies of severe radiation dermatitis found a significant reduction in symptoms using a combination product of the secretome from adipose mesenchymal stem cells and dermal fibroblasts, but mild radiation dermatitis has yet to be studied using this product. CASE PRESENTATION: This is a case report of radiation dermatitis in a patient with an uncommon cutaneous basosquamous cell carcinoma with perineural invasion that warranted radiation therapy. In this study we used S2RM technology, a proprietary combination of stem cell-released molecules from multiple types of skin stem cells, to renormalize homeostasis of the skin, including a renormalization of proteostasis to treat a mild form of radiation dermatitis induced by Intensity Modulated Radiation Therapy. Dramatic reductions in pain, redness, and inflammation, more rapid and complete wound healing, and an overall enhancement of the appearance of the skin were achieved in this patient. DISCUSSION: The current study demonstrates that as part of the palliative care strategies for cancer patients, the simple topical application of S2RM technology is a powerful means to renormalize homeostasis of the skin and remediate mild radiation dermatitis. The reduction of inflammation in the skin is important to reducing systemic inflammation and related comorbidities.