CASE: An 11-year-old child who presented with a postseptic gap nonunion of 4 cm in the proximal humerus was treated with a customized hydroxyapatite-tricalcium phosphate-tricalcium silicate composite (HASi) scaffold loaded with culture-expanded autologous bone marrow-derived mesenchymal stem cells (MSCs) primed into osteogenic lineage. Union occurred at 3 months, and at 3 years, the child had improved joint mobility, with radiographic and computed tomographic imaging evidence of incorporation of the graft. CONCLUSIONS: This case demonstrated the feasibility of MSC directed into osteogenic lineage on HASi to repair a long bone defect owing to postseptic osteomyelitis, a condition notorious for a high failure rate.
CASE: An 11-year-old child who presented with a postseptic gap nonunion of 4 cm in the proximal humerus was treated with a customized hydroxyapatite-tricalcium phosphate-tricalcium silicate composite (HASi) scaffold loaded with culture-expanded autologous bone marrow-derived mesenchymal stem cells (MSCs) primed into osteogenic lineage. Union occurred at 3 months, and at 3 years, the child had improved joint mobility, with radiographic and computed tomographic imaging evidence of incorporation of the graft. CONCLUSIONS: This case demonstrated the feasibility of MSC directed into osteogenic lineage on HASi to repair a long bone defect owing to postseptic osteomyelitis, a condition notorious for a high failure rate.