Head & neck
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The use of mandibular distraction osteogenesis (MDO) for tissue replacement after oncologic resection or for defects caused by osteoradionecrosis has been described but, in fact, has seen limited clinical utility. Previous laboratory work has shown that radiation (XRT) causes decreased union formation, decreased cellularity, and decreased mineral density in an animal model of MDO. Our global hypothesis is that radiation-induced bone damage is partly driven by the pathologic depletion of both the number and function of osteogenic cells. Parathyroid hormone (PTH) is a U.S. Food and Drug Administration-approved anabolic hormonal therapy that has demonstrated efficacy for increasing bone mineral density for the treatment of osteoporosis. We postulate that intermittent systemic administration of PTH will serve as an anabolic stimulant to cellular function that will act to reverse radiation-induced damage and enhance bone regeneration in a murine mandibular model of DO. ⋯ We have successfully demonstrated the therapeutic efficacy of PTH to stimulate and enhance bone regeneration in our irradiated murine mandibular model of DO. Our investigation effectively resulted in statistically significant increases in BMD, BVF, and clinical unions in PTH-treated mandibles. PTH demonstrates immense potential to treat clinical pathologies where remediation of bone regeneration is essential.