The aim of this study was to examine the therapeutic potential of locally transplanted MSCs or osteoprogenitor cells (OPCs) in delayed unions. Autologous MSCs were cultured in DMEM or osteogenic medium. A femoral osteotomy was created in rats and stabilized with an external fixator. Except for the Control-group (C-group), a delayed union was induced by cauterization of the periosteum and bone marrow removal. After 2 days, these animals received an injection of DMEM in the gap containing MSCs (MSC-group), OPCs (OPC-group) or no cells (Sham-group). Histomorphometrical analysis showed significant differences in the fraction of mineralized bone, cartilage and connective tissue between the C- and the Sham-group after 2 (p=0.001) and 8 weeks (p≤0.009). After 2 weeks, the MSC- and OPC-groups developed a larger cartilage fraction (each p=0.019) compared to the Sham-group. Biomechanical testing after 8 weeks demonstrated a significantly lower torsional stiffness (p=0.001) in the Sham-group compared to the C-group. Both the MSC and OPC groups showed a higher torsional stiffness than the Sham-group with statistically significant differences (p<
0.002) in the OPC-group. Locally applied MSCs and OPCs slightly improved the healing in this model. The MSCs were less effective compared to the OPCs. The less than expected healing improvement of both cell treatments may be related to an unfavourable microenvironment at the application time. An explanation for the superior outcome of the OPCs might be that the OPCs may be protected by macroscopically visible matrix at the transplantation time point.