A three-dimensional cell-loading system using autologous plasma loaded into a porous β-tricalcium-phosphate block promotes bone formation at extraskeletal sites in rats

The effects of platelet-rich plasma (PRP) and platelet-poor plasma (PPP) on bone marrow stromal cells (MSCs) with respect to proliferation, osteogenic differentiation, and bone formation capability were investigated.MSCs derived from rats were cultured in medium containing mixtures of PRP and PPP. Fibrinogen was eliminated prior to the experiment. The DNA content and alkaline phosphatase (ALP) activity were measured. PRP stimulated cell proliferation and inhibited osteoblastic differentiation. To examine the effects of fibrin in plasma, MSCs were cultured in PRP or PPP fibrin gels formed both on a cell culture insert installed in a culture well and on the bottom surface of the same culture well. The ALP activities of the MSCs in both of the gels were higher than those on the surface of the culture wells. The MSCs cultured on the PPP gel showed the highest ALP activity. The effects of PRP and PPP used as scaffolds for bone formation were also investigated. MSCs were suspended in PRP or PPP, introduced into porous β-tricalcium phosphate blocks, and then implanted into subcutaneous sites. Subsequently, bone formation was quantified. Further in vivo studies found that implants prepared using PPP had a greater osteoinductive capability than implants prepared with PRP.