An isogenic model of murine mandibular distraction osteogenesis.

The advent of stem cell-based therapies makes current models of mandibular distraction osteogenesis unwieldy. We thereby designed an isogenic model of distraction osteogenesis whose purpose was to allow for the free transfer of cells and components between rats. As immune response plays a significant role in healing and prevention of infection, an immune-competent mode is desirable rather than an athymic rat/xenograft model. The purposes of this study were as follows: (1) to replicate established models of distraction osteogenesis in a rodent model using an isogenic rat strain, and (2) to characterize the differences between inbred, isogenic rats and outbred rats in mandibular distraction osteogenesis via radiomorphometry and biomechanical response analysis. We demonstrated successful distraction osteogenesis to 5.1 mm in all Lewis (isogenic) rat mandibles as well as all Sprague-Dawley (outbred) rat mandibles, with no significant difference in volume-normalized radiomorphometrics, trending difference in non-volume-normalized radiomorphometrics and significant differences in biomechanical response parameters. We attribute the differences demonstrated to the decreased size of the Lewis rat mandible in comparison to Sprague-Dawley mandibles. We also provide information with caring with the additional needs of the Lewis rat. Given these differences, we find that Lewis rats function as an excellent model for isogenic mandibular distraction osteogenesis, but data procured may not be comparable between isogenic and nonisogenic models.