Simple Summary The treatment of large bone defects caused by fractures is still a challenge in orthopaedics. In this study, the potential of erythropoietin to promote bone regeneration was investigated… Click to show full abstract
Simple Summary The treatment of large bone defects caused by fractures is still a challenge in orthopaedics. In this study, the potential of erythropoietin to promote bone regeneration was investigated in an experimental rat model. Bone healing was monitored through objective radiological, osteodensitometric and histological methods. The assessment suggests that erythropoietin, applied locally on a collagen scaffold alone or in combination with a bone substitute, is capable of inducing bone healing in femoral defects. Abstract Critical-size bone defect models are the standard in studies of the osteogenic potential of biomaterials. The present investigation aimed to evaluate the ability of recombinant human erythropoietin (EPO) to induce trabecular bone healing either alone or combined with a xenograft in a rat femoral critical-size defect model. Five-mm bone defects were created in the femoral diaphysis of fifty-six skeletally mature male Wistar albino rats. The animals were divided into six groups: one control group and five experimental groups. The defects in the control group were left empty, whereas an absorbable collagen cone soaked either with saline or erythropoietin (alone or in combination with xenograft) was placed in locally treated groups. The systemic treatment group received EPO subcutaneously. Bone formation was objectively evaluated through radiography, osteodensitometry and histological examination on post-operative days 30 and 90. The results demonstrate that EPO, locally applied on a collagen scaffold, was capable of inducing bone healing, whereas the single systemically administered high EPO dose had only an insignificant effect on bone formation. The combination of EPO with a bone substitute under the form of cancellous granules resulted in more rapid integration between the xenograft and host bone.
               
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