BACKGROUND: Topical application of serum eye drops has been reported to accelerate healing of persistent ocular surface defects. It is supposed that growth factors in serum support the wound healing process. Platelets (PLTs) are rich in growth factors and easily available as PLT concentrates (PCs) from blood banks. Therefore, growth factor preparations from PCs may serve as a new and superior therapeutic agent for such defects. STUDY DESIGN AND METHODS: After thrombin stimulation for growth factor release, the cell-free supernatant (PLT releasate) of washed PCs (n = 8) was analyzed for epitheliotrophic factors and its wound healing capacity in comparison to serum (n = 8). Human corneal epithelial cells were used as a model to investigate cell growth, migration, and differentiation in response to both blood products. RESULTS: PLT releasate contains more epithelial growth factor, PLT-derived growth factor, and transforming growth factor-beta, but less hepatocyte growth factor, fibronectin, and vitamins. Cell growth was significantly better in response to PLT releasate. Migration and differentiation were slightly better supported by serum. CONCLUSION: Possibly owing to its high content of growth factors, PLT releasate has a distinct superior effect on cell growth. Stimulation of migration and differentiation was slightly inferior but still acceptable. PLT releasate could therefore be a novel treatment option for ocular surface defects.
BACKGROUND: Topical application of serum eye drops has been reported to accelerate healing of persistent ocular surface defects. It is supposed that growth factors in serum support the wound healing process. Platelets (PLTs) are rich in growth factors and easily available as PLT concentrates (PCs) from blood banks. Therefore, growth factor preparations from PCs may serve as a new and superior therapeutic agent for such defects. STUDY DESIGN AND METHODS: After thrombin stimulation for growth factor release, the cell-free supernatant (PLT releasate) of washed PCs (n = 8) was analyzed for epitheliotrophic factors and its wound healing capacity in comparison to serum (n = 8). Human corneal epithelial cells were used as a model to investigate cell growth, migration, and differentiation in response to both blood products. RESULTS: PLT releasate contains more epithelial growth factor, PLT-derived growth factor, and transforming growth factor-beta, but less hepatocyte growth factor, fibronectin, and vitamins. Cell growth was significantly better in response to PLT releasate. Migration and differentiation were slightly better supported by serum. CONCLUSION: Possibly owing to its high content of growth factors, PLT releasate has a distinct superior effect on cell growth. Stimulation of migration and differentiation was slightly inferior but still acceptable. PLT releasate could therefore be a novel treatment option for ocular surface defects.
Authors: Miguel Rechichi; Marco Ferrise; Francesco Romano; Luca Gallelli; Vincenzo Toschi; Andrea Dominijanni; Alessandro Meduri Journal: Am J Ophthalmol Case Rep Date: 2020-08-21
Authors: Jie Zhang; Daryl Crimmins; James M Faed; Peter Flanagan; Charles N J McGhee; Dipika V Patel Journal: Transl Vis Sci Technol Date: 2020-03-24 Impact factor: 3.283