Introduction. The ability of activated platelets to induce cellular proliferation is well recognised. In a previous diffusion model, platelets combined with Tri-calcium phosphate (TCP) led to an osteoprogenitor mitogenic response followed by cellular differentiation. This study was designed to look at osteoprogenitor responses when cultured directly onto TCP granules combined with activated platelets. Method. Human osteoprogenitors were loaded onto TCP with activated platelets at a low seeding density and high seeding densities. Cellular proliferation was assessed using the pico-green DNA content analysis. Differentiation towards osteoblastic phenotype was assessed using an alkaline phosphatase assay. RNA extraction, reverse transcription and quantitative real-time polymerase chain reaction was used to assess gene expression for type 1 collagen and osteocalcin. Histological assessment for live/dead staining and alkaline phosphatase was used on cultured granule samples. Results. In the low seeding density, platelets induced an early proliferative response compared with controls. After 14 days of culture the cells had not differentiated to an osteoblastic phenotype. When seeded at high densities, cellular differentiation was induced by the activated platelets. Significant cellular proliferation was not observed after seeding at high density. Conclusions. This study demonstrates that osteoprogenitors respond to the local environment which is modulated by both cell-cell contact factors and inflammatory cytokines from the platelets. This study helps to define the concentration of progenitors and platelets needed for further on-growth studies. It may also help define the optimal conditions for seeding cells and platelets for clinical use of composite bone graft substitutes