THE EFFECT OF PHOTODYNAMIC THERAPY AND PLATELET-ENRICHED PLASMA ON THE HEALING OF SKIN RADIATION ULCERS INFECTED BY STAPHYLOCOCCUS AUREUS. / VPLYV FOTODYNAMIChNOÏ TERAPIÏ TA ZBAGAChENOÏ TROMBOTsYTAMY PLAZMY NA PROTsESY ZAGOIeNNIa PROMENEVYKh VYRAZOK ShKIRY, INFIKOVANYKh STAPHYLOCOCCUS AUREUS.

OBJECTIVE: To determine in experiment the quality of healing of skin radiation ulcers infected with Staphylococcusaureus (S. aureus) under the photodynamic therapy (PDT) administration and the use of platelet-rich plasma (PRP). MATERIALS AND METHODS: The experiment was performed on 95 male WAG rats of 6 months of age, which were divided into three groups. Group 1 included animals in whom a skin radiation ulcers in the thigh area was simulated, followed by application of a 0.2 ml suspension of reference strain of S. aureus to its surface on the 7th day after irradiation. Group 2 included animals with S. aureus-infected skin radiation ulcers, in whom the PET was administered aday after infection contamination. Group 3 included animals with S. aureus-infected skin radiation ulcers, in whomthe PDT was administered a day after infection in the morning, and the PRP was manifold injected in periwound areain the afternoon. The skin with underlying soft tissues from the area of radiation damage were the material for morphological examination. The hematoxylin and eosin, picrofuxin according to van Gizon, Mallory staining wereapplied to micropreparations. A morphometric study was conducted. RESULTS: In animals with skin radiation ulcers, in whom the PDT was administered upon infection with S. aureus(group 2), compared with animals with simulated infected skin radiation ulcers without treatment (group 1), Theactivation (i.e. accelerating) of the healing occurred for the period from the 14th to the 52nd day of experiment dueto the active processes of wound cleansing from necrotized tissues, less pronounced inflammatory changes in thelesion, and active of appearance and maturation of granulation tissue, less pronounced hemodynamic, ischemic andalternative disorders in the dermis, hypodermis, muscle tissue surrounding the wound cavity, activation of proliferative processes in epithelial layer localized in the marginal parts of the wound. Formation of pathological (hypertrophic or keloid) scar of the skin was the result of healing of skin radiation ulcer infected with S. aureus. In animalswith radiation ulcers infected with S. aureus, in the case of PDT and PRP (group 3) the regenerative process wasdirected not only at accelerating the rate of healing, but also on restoration of original structure of the lost parts ofthe skin compared with only PDT administration (group 2). Acceleration of the healing of the infected skin radiation ulcer in animals of groups 2 and 3 was due to similar processes. CONCLUSIONS: Photodynamic therapy activates and accelerates the healing process of skin radiation ulcers infectedwith S. aureus and leads to formation of a pathological scar (hypertrophic or keloid). Healing of the infected S. aureusradiation ulcers occurs more actively upon the photodynamic therapy administration in combination with multipleperiwound injections of the platelet-enriched plasma, compared with only photodynamic therapy administration,and finishes with an organotypic regeneration and almost complete skin recovery.

TISSUE IMMUNE CELLS AND THEIR ROLE IN THE HEALING PROCESS OF INFECTED RADIATION ULCERS UNDER THE IMPACT OF PHOTODYNAMIC THERAPY (EXPERIMENTAL STUDY). / TKANYNNI IMUNNI KLITYNY TA ÏKh ROL' U PROTsESAKh ZAGOIeNNIa INFIKOVANYKh PROMENEVYKh VYRAZOK PRY VPLYVI FOTODYNAMIChNOÏ TERAPIÏ (EKSPERYMENTAL'NE DOSLIDZhENNIa).

OBJECTIVE: to study the effect of antibacterial photodynamic therapy (PDT) on the dynamics of tissue neutrophilic leukocytes CD18 and tissue macrophages ED1 in the tissues of infected radiation ulcer during the stages of sponta- neous healing and in the treatment of PDTMaterials and methods. Infected radiation ulcer was modeled by local X-ray irradiation of the rat thigh skin at a dose of 85.0 Gy, followed by applying to the surface of the ulcer bacterial suspension of S. аureus. PDT was performed using a «Barva-LED/630¼ photonic apparatus and a methylene blue photosensitizer. The effect of PDT on the state of cellular immunity was determined using an immunohistochemical method based on the quantitative indices of neutrophilic leukocytes CD18 and ED1 macrophages during the stages of healing of an infected radiation ulcer. RESULTS: In the course of spontaneous healing of the ulcer (control I), the dynamics of changes in the relative vo- lume of tissue neutrophil leukocytes CD18 and ED1 macrophages in the lesion zone, a decrease in the CD18 / ED1 index more than 2 times indicated that switching of the neutrophil response to macrophage occurred before 52nd days of observations. When infected with S. аureus X-ray (control II), the switching of the neutrophil response to the macrophage did not occur during the entire observation period. When using PDT in the case of S. аureus infected ulcer (experimental group), the decrease in the CD18 / ED1 index was determined from the 21st day of observation. CONCLUSIONS: The positive effect of the antibacterial PDT method of infected S. аureus radiation ulcers was manifes- ted by complete microbial decontamination of the wound, reduction of phases of the wound process, complete hea- ling of radiation ulcers.The use of PDT has led to the death of bacteria, a decrease in the number of neutrophilic leukocytes and an increase in macrophages in the lesion area, the switching of the neutrophilic response to the reaction of monocyte-macrophage cells in the early stages of healing.