Abstracts

Objective: Platelet-rich plasma (PRP) is typically isolated and applied immediately after preparation, making it both a time- and labor-intensive addition to the operative procedure. Thus, it would be convenient if PRP could be preserved. We evaluated the efficacy of freeze-dried PRP (FD-PRP), as compared with freshly isolated PRP (f-PRP) for bone engineering. Design: FD-PRP was prepared by lyophilization of f-PRP and was subsequently preserved at 20 C for one month. It was then rehydrated with an equal or 1/3 amount of distilled water (1FD-PRP, 3FD-PRP, respectively), and we assessed its gelation properties and the release of growth factors (PDGF-BB, TGF-1, and VEGF). We also examined the bone forming ability with onlay-grafting on mice calvaria using -TCP granules as a scaffold. Results: FD-PRP showed comparable gelation as f-PRP. In terms of growth factor release, 1FD-PRP released identical concentrations of PDGF-BB and TGF-1 to f-PRP, while 3FD-PRP released approximately 3-fold concentrations when compared with f-PRP. In vivo, 1FD-PRP promoted identical levels of the bone formation as f-PRP, and 3FD-PRP induced more abundant bone formation. Conclusions: These results suggest that f-PRP can be stored without functional loss by freeze-drying and the concentration of PRP may improve its efficacy in bone engineering.