The use of mesenchymal stem cells (MSCs) loaded on osteoconductive scaffolds has emerged as a potential new treatment of large bone defects but has generated marginally successful results in terms of new bone formation. It is supposed that MSC massive death post implantation is a major obstacle for the exhibition of their osteogenic potential. Yet, the very few studies conducted using primary human MSCs derived from bone marrow (hMSCs), a clinically pertinent cell source, did not demonstrate that cell survival is required for new bone formation. In order to elucidate whether cell survival is needed for hMSC to express their osteogenic potential, the present study examined in an ectopic mouse model the relationship between cell survival and osteogenic potential of hMSCs loaded onto osteoconductive scaffold. hMSCs (106) were seeded on 40-mg calcium carbonate (Biocoral) particles (size: 610–1000 µm), wrapped in fibrin gel (Baxter), and implanted subcutaneously into immunodeficient (nu/nu) mice (n=8/group). The fate of implanted cells was analysed using the bioluminescence and immunohistochemistry. For this, hMSCs were transduced with Luc-GFP (Luciferase-Green fluorescent protein) lentiviral vectors prior to experimentation. Bone formation was analysed 8 weeks post implantation on both non-decalcified and decalcified samples.Introduction
Materials and Methods
