Background: Platelet-Rich Plasma (PRP) is a blood component used for the biological treatment in many fields of regenerative medicine. The term PRP is currently applied to numerous blood components with different cellular and protein compositions. The optimal platelet concentration and the best technique for preparing PRP have not yet been defined and it is, therefore, important to understand the specific biological roles of the individual components. The aqueous part of PRP is plasma, which is an acellular component with containing proteins that are important for tissue regeneration. Objective: This preclinical study evaluated the biological characteristics and effects on proliferation (in an in vitro model) of a blood component Protein-Enriched Filtered PRP (PEFPRP) obtained through the ultrafiltration of low-concentration PRP and compared these effects with those of a standard PRP and other blood components preparation. Method: PEFPRP is a plasma enriched obtained by ultrafiltration of a plasma with low concentration platelets and its effects have been compared with those of a standard PRP and other blood components preparation. Result and Conclusion: PEFPRP provides a high concentration of proteins which have an important accessory function in in-vitro proliferation and could be highly significant in-vivo, accelerating tissue regeneration.

Protein-enriched Platelet-Rich Plasma (PEF-PRP) a New Products for Tissue Regeneration Developed Through the Ultrafiltration of PRP - Preclinical Study

Laura Mazzucco;Simona Martinotti;Elia Ranzato;Mauro Patrone;Marcello Manfredi;Roberto Guaschino
2021-01-01

Abstract

Background: Platelet-Rich Plasma (PRP) is a blood component used for the biological treatment in many fields of regenerative medicine. The term PRP is currently applied to numerous blood components with different cellular and protein compositions. The optimal platelet concentration and the best technique for preparing PRP have not yet been defined and it is, therefore, important to understand the specific biological roles of the individual components. The aqueous part of PRP is plasma, which is an acellular component with containing proteins that are important for tissue regeneration. Objective: This preclinical study evaluated the biological characteristics and effects on proliferation (in an in vitro model) of a blood component Protein-Enriched Filtered PRP (PEFPRP) obtained through the ultrafiltration of low-concentration PRP and compared these effects with those of a standard PRP and other blood components preparation. Method: PEFPRP is a plasma enriched obtained by ultrafiltration of a plasma with low concentration platelets and its effects have been compared with those of a standard PRP and other blood components preparation. Result and Conclusion: PEFPRP provides a high concentration of proteins which have an important accessory function in in-vitro proliferation and could be highly significant in-vivo, accelerating tissue regeneration.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11579/121374
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