ABSTRACT
Osteoarthritis (OA) is a chronic degenerative disease that has a significant global impact. It is associated with aging and characterized by widespread joint destruction. Cuminaldehyde is a biologically active component of essential oils that has shown promise in the treatment of nociceptive and inflammatory diseases. This study investigated the effects of cuminaldehyde on an experimental model of osteoarthritis induced in rat knees. Cuminaldehyde was found to be as effective as indomethacin in reducing pain in all evaluated tests, including forced walking, functional disability of weight distribution on the legs, and spontaneous pain in animals with osteoarthritis. The knees of animals treated with cuminaldehyde had significantly higher radiographic and histopathological scores than those of animals that did not receive the treatment. Cuminaldehyde also modulated the production of pro-inflammatory cytokines. In vitro assays showed that cuminaldehyde preferentially inhibits COX-2 enzyme activity. In silico studies demonstrated that cuminaldehyde has satisfactory energy affinity parameters with opioid receptors and COX-2. These findings suggest that cuminaldehyde's anti-inflammatory activity is multifactorial, acting through multiple pathways. Its nociceptive activity occurs via central and peripheral mechanisms. Cuminaldehyde modulates the immune response of the inflammatory process and may be considered a leading compound for the development of new anti-inflammatory and analgesic drugs.
ABSTRACT
INTRODUCTION: Osteoporosis is defined as a systemic skeletal disease characterized by reduced bone mass and degeneration of bone tissue microarchitecture which leads to bone fragility and fracture risk. Annually, 100 to 200 million people around the world are at risk for osteoporotic fractures. One way to prevent osteoporosis fracture is by using medications such as bisphosphonates. Alendronate is the most prescribed bisphosphonate in the world. The objective of this article is to evaluate the effect of alendronate on bone fracture healing. MATERIAL AND METHODS: 15 adult male rats that were 60 days old were used, divided into three groups: A or Control, B (non-osteoporotic bones plus alendronate application) and C (osteoporotic bones plus alendronate application). Osteoporotic bones were compared with non-osteoporotic bones that underwent bone window creation and administration of alendronate sodium. These bones were submitted to radiographic and histological analysis. RESULTS: All of Group A had complete bone healing, reaching the phase of bone remodeling. While in groups B and C, the rats were in the repair phase. CONCLUSIONS: The drug alendronate interferes with delayed fracture healing and delayed bone remodeling. The article advises that studies in humans are needed in order to assess whether the alendronate interferes with bone healing.