Induction of Mandibular Cortical Bone Defects to Study Bone Regeneration

Background/Objectives: In contrast to endochondral bone healing, the process of intramembranous bone regeneration is poorly understood. This limits our ability to repair and regenerate the craniofacial skeleton to either correct deformity or optimally heal tissues following injury. While there are several preclinical models of intramembranous regeneration within the craniofacial skeleton, some are not load bearing and others are technically challenging. The goal of this pilot study is therefore to describe a simple method for induction of cortical defects within the mandible that does not involve compounding injury to the surrounding tissues. Methods: Single cortex defects were generated in the mandible body of 8-week-old male and female mice. The extent of bone regeneration within the defect was characterized at days 0, 3, 14, and 28 following defect generation via micro-computed tomography and histology. Conclusions: Observed healing was predictable and reproducible and resulted in intramembranous bone formation. This model will help aid the understanding of intramembranous bone healing in load bearing bones (e.g.,