Osseointegration can be compromised by bone diseases such as osteoporosis, negatively affecting the quality of life in affected individuals. Rubus coreanus (RC) has shown potential in modulating bone metabolism. Thus, this study aimed to evaluate the impact of RC-functionalized implants on peri-implant bone healing in both healthy (SHAM) and ovariectomized (OVX) rats. The research included both in vitro and in vivo experiments. Initially, osteoblastic cell cultures were used to assess the response to functionalized discs, followed by an in vivo study with forty-eight female Wistar rats, randomly assigned to six groups: SHAM CONV, SHAM RC 200, SHAM RC 400, OVX CONV, OVX RC 200, and OVX RC 400, where CONV refers to a conventional titanium implant and 200 and 400 represent that implant coated with 200 µg and 400 µg of RC. SHAM groups underwent fictitious surgery, while OVX groups underwent ovariectomy. After 30 days, implants were placed in the tibial metaphysis, and the rats were euthanized at 28 days post-implantation. Results indicated that RC maintained cell viability without significantly altering bone microarchitecture. Immunohistochemical analysis revealed notable histological improvements and enhanced marker expression, particularly with the RC 200 surface. Ultrastructural analysis suggested that RC functionalization improves peri-implant bone healing, especially in healthy rats treated with RC 200. In conclusion, implant functionalization with RC, particularly RC 200 significantly enhances peri-implant bone healing, with the most pronounced effects observed in SHAM group.