Effect of Platelet-Riched Plasma on Corneal Epithelium Regeneration during Its Chronic Erosion (Experimental Study)

Relevance. In a number of pathological conditions accompanied by defects of the basal membrane, such as chemical or thermal burn, mechanical trauma, Schegren’s syndrome, herpetic keratitis processes of corneal epithelization are slowed down, and sometimes epithelization does not occur at all. Slow epithelization or its complete absence creates conditions for infection, thinning, and sometimes perforation of the cornea. That is why the problem of chronic corneal erosions is very relevant. The most perspective method of treatment is the use of autologous platelet-riched plasma (PRP). Presence of platelet growth factors, adhesive molecules and cytokines in PRP allows to use it for acceleration of regeneration of corneal defects, and the presence of live platelets allows to refer this procedure to autologous cell transplantations.

Objective: To evaluate the clinical and morphological features of corneal epithelium regeneration in response to the application of PRP in conditions of experimental chronic corneal erosion (ECCE).

Materials and methods. Researches were carried out on 12 rabbits of Chinchilla breed (24 eyes). At first stage the model of ECCE was reproduced for all animals: local ultraviolet (UV) irradiation with the exposure time of 45 min. on the preliminary de-epithelized corneal surface. At the second stage all animals under study were divided into three groups (4 rabbits in each group). I-st main group (MG) was instillated with PRP at a rate of 1 drop / 1 min within 10 minutes (total of 10 drops) once, in the II MG treatment was carried out according to the above method, every day for 5 days. In the control group (CG) PRP treatment was not applied.

Results. 45-min. UV irradiation causes persistent ECCE up to 30 days of the experiment and reverts only after surface vessels are ingrowed in the affected area. Single use of PRP has insufficient therapeutic effect. Instillation within 5 days accelerates the cornea reparative regeneration in ECCE conditions. The absence of epithelial defect, newly formed vessels and corneal clouding was registered on the 9th day. Histologically, on the 30th day a normal multilayer non-squamous epithelium was found, while the stroma had an organized structure with no signs of inflammation.

Conclusions. Therapeutic effect of PRP in ECCE conditions is based on reforming of the normal «adhesion complex» between epithelium, olfactory membrane and multifactor stimulation of reparative regeneration due to growth factors located in it, adhesive molecules and cytokines, as a result of which the typical corneal epithelium is restored.

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