Fuente: PubMed "Cannabis" Bone. 2026 Mar 5:117850. doi: 10.1016/j.bone.2026.117850. Online ahead of print.ABSTRACTFractures are common musculoskeletal injuries associated with severe pain, and effective analgesia is essential for fracture management. Current therapies such as NSAIDs and opioids have significant limitations, driving interest in alternative analgesics, an avenue where cannabinoids hold great promise. While cannabinoids are increasingly promoted for various indications, robust scientific evidence supporting their use remains limited. We previously demonstrated that cannabidiol (CBD) and cannabigerol (CBG), two non-psychoactive cannabinoids, alleviate fracture pain and promote bone repair. Cannabichromene (CBC), another non-psychoactive cannabinoid, has shown analgesic effects in different disease models, but its impact on fracture pain and healing is unknown. Using a murine tibial fracture model, we investigated CBC's effects on pain and bone healing. CBC significantly reduced fracture pain, improving mechanical and cold allodynia, thermal hyperalgesia, and gait function. However, bone healing was impaired, with delayed soft-callus resorption, increased bone cell apoptosis, elevated osteoclast activity, and reduced bone formation and mineralization. In vitro, CBC promoted osteoclastogenesis, supporting its resorptive effect. These findings contrast with the reported benefits of CBD and CBG on fracture repair, highlighting that not all cannabinoids are suitable for fracture management. Individual compounds must be carefully evaluated to balance analgesia with bone healing. Caution is warranted when using medical cannabis or cannabinoid oils with variable compositions, as their effects on healing are unpredictable. The divergent effects of CBD and CBG versus CBC may also guide future structure-activity relationship studies for designing synthetic cannabinoids to promote fracture healing.PMID:41794091 | DOI:10.1016/j.bone.2026.117850