Aging is a physiological change that leads to a decline in biological functions from metabolic stress. To investigate the effect of aging on mandibular bone formation, we created SAMP1/Klotho-deficient mice and performed micro-computed tomography (micro-CT) and histology analyses in 4-or 8 week-old SAMP1/kl -/- mice. SAMP1/kl -/- mice exhibited extensive inflammation, tissue calcification, and abnormal mandibular bone development. Using micro-CT analysis, SAMP1/kl -/- mice displayed a loss of incisor roots and irregular dentinal tubule formation, as well as calcification within the pulp root canal. Furthermore, the mandibular ramus showed extensive ground glass appearance in SAMP1/kl -/- mice. In histological analysis, we found calcified skeletal structures and dysplastic bone formation in SAMP1/kl -/- mice. These results provide an understanding of the pathologic alterations of aging-related mandibular bone. SAMP1/kl -/- mice may serve as a novel model for dysosteogenesis in mandibular bone development.