Two distinctive BMP-carriers induce zonal chondrogenesis and membranous ossification, respectively; geometrical factors of matrices for cell-differentiation.

A partially purified BMP preparation was combined with a fibrous glass membrane (FGM) or porous particles of hydroxyapatite (PPHAP), and then implanted subcutaneously into the backs of rats. As a control of these new carriers, a conventional carrier of insoluble bone matrix (IBM) was also used. These new geometrically different solid-state carriers induced tissues in quite different manners. FGM/BMP implants induced cartilage formation within the entire inner area of the membrane accompanied by a small amount of bone formation on the surface of the membrane. In contrast, PPHAP/BMP implants induced only bone within the pores of PPHAP without any detectable cartilage formation. Enzyme-linked immunosorbent assay revealed that the type II collagen content in FGM/BMP was six times higher than that in IBM/BMP, while there was no detectable type II collagen in PPHAP/BMP. The results were explained by the geometric properties of the two distinctive carriers.