To preserve alveolar bone thickness and width after extraction, clinical strategies have been adopted to reduce or eliminate the need for future surgical interventions to increase the alveolar ridge. The use of xenogeneic biomaterials has been increasing for such application. The association of bone substitutes with active oxygen-based materials, which is essential in the wound-healing process, could accelerate bone repair, optimizing the maintenance of alveolar architecture after extraction. However, the truth of this hypothesis is not clear. The present study aimed to compare the biological response to inorganic bovine bone graft Bonefill (BF), associated or not with active oxygen-based oral gel Bluem (BF+BM), in alveolar bone repair. Twenty female Wistar rats were randomly allocated. The left upper central incisor was extracted, and the dental sockets were filled with BF in the control group (n = 10) and with BF+BM in the experimental group (n = 10). The animals were euthanized at 7 and 42 days after implantation (n = 5), and the samples were processed for descriptive histological and histomorphometric evaluations. The results showed no significant difference between the groups (P > .05). Both groups presented a time-dependent increase in newly formed bone and biosorption biomaterial (P = .0001). The association between active oxygen-based gel and inorganic bovine bone graft did not interfere with or improve bone repair during the experimental periods of alveolar bone repair in rats.
Keywords: biocompatibility; biomaterial; bone repair; oxygen therapy; rats.