Requirement of alveolar bone formation for eruption of rat molars.

Tooth eruption is a localized event that requires a dental follicle (DF) to regulate the resorption of alveolar bone to form an eruption pathway. During the intra-osseous phase of eruption, the tooth moves through this pathway. The mechanism or motive force that propels the tooth through this pathway is controversial but many studies have shown that alveolar bone growth at the base of the crypt occurs during eruption.

Electroporation to deliver plasmid DNA into rat dental tissues.

Background: Delivery of DNA into the target tissues is an important technique in gene function studies and gene therapy. Surgical treatment of tooth eruption disorders, such as impacted third molars, is a major healthcare cost. Because the dental follicle (DF) is essential for regulating tooth eruption, establishment of local gene transfer protocols is needed to determine the effect of various genes on eruption and to develop gene therapy approaches for inducing the eruption of impacted molars.

In vivo expression of RANKL in the rat dental follicle as determined by laser capture microdissection.

Tooth eruption is a localized event in which many of the genes required for eruption are expressed in the dental follicle. A major function of the follicle is to recruit mononuclear cells for osteoclastogenesis such that the alveolar bone can be resorbed. Osteoclastogenesis is primarily regulated by receptor activator of nuclear factor-kappa B ligand (RANKL), colony-stimulating factor-one (CSF-1) and osteoprotegerin (OPG).